49452122 BSC6900 GSM V900R011C00SPC720 Parameter Reference

BSC6900 GSM V900R011C00 Parameter Reference

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Purpose

This document provides information about the BSC6900 parameters, including the meaning, value, and usage of the

Intended Audience •Network planners •Field engineers •System engineers •Shift operators

Organization Each parameter is described in the following aspects. Description Parameter ID Parameter Name NE MML Command Meaning Feature ID Feature Name Value Type GUI Value Range Actual Value Range Unit Default Value Recommended Value Impact Parameter Relationship Access Service Interrupted After Modification Interruption Scope Interruption Duration (min) Caution

Validation of Modification Impact on Radio Network Performance Introduced in Version Attribute

6900 parameters, including the meaning, value, and usage of the parameters.

ts. Remarks Simple string for identifying a parameter Full name of the parameter NEs on which the parameter is set Commands for setting the parameter, and optional/mandatory attribute of the parameter in each command Functions, functioning ways, and protocols of the parameter Relevant feature ID Features using the parameter Parameter value type Parameter value range displayed on the GUI Actual parameter value range corresponding to the GUI Value Range. For example, the GUI Value Range is 0, and the corresponding Actual Value Range is OFF. Parameter value unit Initial value provided by the system Values recommended in different scenarios Parameter impact scope, that is, objects specified when the parameter is set Relationship between this parameter and other parameters. For example, to use this parameter, you need to set related switches and parameters. Whether this parameter is read/write or read only Whether modifying the parameter value may interrupt the existing services Possible interruption scope in the case that modifying the parameter value may interrupt the existing services Possible interruption duration in the case that modifying the parameter value may interrupt the existing services Cautions to be taken during the modification

Requirements on how to validate the modification of the parameter. For example, you may need to reset the device to validate the modification. Impact of the radio parameter on the network performance Version in which this parameter is introduced Whether this parameter is a radio parameter, a transport parameter, or an equipment parameter

Parameter ID ABCDownQuality ABCUpQuality ABCWaitMaxTime ABISBYPASSMODE ABISFCEN AbisFCTimer1 AbisFCTimer2 ABISIDLETSALLOC ABISIDLETSCFGSWITCH AbisJamThreshold2StartLs ABISRESADJTCHHFUNSW ABISTSFREETM AbisVer ABLASTTIME AbnormalMosThreshold ACCBURST ACCCONTROLCLASS ACCCTRLEN ACCCTRLPY ACCESSOPTILAY ACCINDEX AccStaServiceType ACCWPOS ACCWSIZE ACCWSP ACFC ACFC ACOOPERATPAGINGSWITCH ACS ACTCDSETF ACTCDSETH ACTCDSETWB ACTL2REEST

ACTTIME ACVLTHD ACVOLALARMH ACVOLALARML ACVUTHD ADAPTASSIGNMENTFLOW ADDR AddTransBwInt AddTransBwNum ADEF ADJBSCDPC ADJMODE ADJUSTULMCSTYPE ADLDACT ADMODE ADMSTAT ADMSTAT ADMSTAT ADTET ADTLOD ADTON ADTST ADVALMMGRULETP ADVER1 ADVER2 AEC_Echo_Path_Delay AEC_Echo_Return_Loss AEC_Nlp_Gate AEC_Path_Delay AEC_SNR_Gate AEC_Switch AECDetectThreshold AECDetectTime AFRDSBLCNT

AFRSAMULFRM AGPSRECEIVERID AGPSRECEIVERTYPE AHRDSBLCNT AHRSAMULFRM AID AID AID AID AID AID AID AIDDELAYPROTECTTIME AIDST AIDST AInterMsgTrace AINTFFCDISCLUEN AINTFFCDISCMOCEN AINTFFCDISCMTCEN AINTFFCDISCOSEN AINTFFCEN AINTFFCMETHOD AINTFFCRSRATE1 AINTFFCRSRATE2 AINTFFCRSRATE3 AINTFFCRSRATE4 AINTFFCRSRATE5 AINTFFCRSRATE6 AIPCSDSRVRDNDLEV ALC_Fix_Gain ALC_Fix_Target_Level ALC_Max_Gain ALC_Max_Target_Level ALC_Min_Target_Level

ALC_Mode ALC_Switch ALIVERETRY ALIVETIMER AllBw ALLOCDIFFTRX ALLOCSINGLEPDCHFORSIGNALLING ALLOWAMRHALFRATEUSERPERC ALLOWEDADAMULTIPLEX ALLOWEDMEASRPTMISSEDNUM ALLOWHALFRATEUSERPERC ALLTSTYPE ALLTSTYPE ALMD0 ALMD1 ALMD2 ALMD3 ALMD4 ALMD5 ALMDISACDUR ALMENABLE AlmId ALMID ALMLMTDOWN ALMLMTUP1 ALMLMTUP2 ALMOCACDUR AlmOccurAccuTimeHThd AlmOccurAccuTimeLThd AlmOccurTimesHThd AlmOccurTimesLThd ALMPARACFGFLAG ALMTP ALPHA

ALTIDECI ALTITUDE ALTITUDE ALTITUDEIMP ALVL ALVL AMPC0 AMPC1 AMPC2 AMPC3 AMPC4 AMPC5 AMRBTSPWRNUM AMRCALLPCALLOWED AMRDADTHAW AMRDLLEVFTLEN AMRDLPREDLEND AMRDLQHTHRED AMRDLQLTHRED AMRDLQUAFTLEN AMRDLQUALBADTRIG AMRDLQUALBADUPLEV AMRDLSSHTHRED AMRDLSSLTHRED AMRFULLTOHALFHOALLOW AMRFULLTOHALFHOATCBADJSTEP AMRFULLTOHALFHOATCBTHRESH AMRFULLTOHALFHOPATHADJSTEP AMRFULLTOHALFHOPATHTHRESH AMRFULLTOHALFHOQUALTHRESH AMRFULLTOHALFHOTHRESH AMRHALFTOFULLHOATCBTHRESH AMRHALFTOFULLHOPATHTHRESH AMRHALFTOFULLHOQUALALLOW

AMRHALFTOFULLHOQUALTHRESH AMRHALFTOFULLHOTHRESH AMRMAXADJPCVAL AMRMAXSTEP0 AMRMAXSTEP1 AMRMAXSTEP2 AMRMAXVALADJRX AMRMRCOMPREG AMRPCADJPERIOD AMRQUALSTEP AMRSADLUPGRADE AMRTCHHPRIORALLOW AMRTCHHPRIORLOAD AMRUADTHAW AMRULLEVFTLEN AMRULPREDLEND AMRULQHTHRED AMRULQLOWTHRED AMRULQUAFTLEN AMRULQUALBADTRIG AMRULQUALBADUPLEV AMRULSSHTHRED AMRULSSLTHRED AN19 AN4 ANC_Max_Gain ANC_Switch ANC_Target_SNR ANGLE ANI ANI ANM ANR_Mode ANR_Noise_Reduction_Level

ANR_Noise_Target_Level ANR_Switch ANTAANGLE ANTENNALONG ANTENNAPOWERSWITCH ANTIERRFLAG AntiTheftAllow ANTNO ANTPASSNO ANTPASSNO AORB APN APP APPTYPE AqmM AqmMaxTh AqmMinTh AqmNinit AqmNLowerBound AqmNUpBound AqmSwitch AqmTarTh AreaCode AREAFLAG AREAFLAG AREDISTHD ARELBASE ARELWTHD ARPRETRY ARPTIMEOUT ASN ASN ASRN ASS

ASS AssignBetterCellEn ASSLOADJUDGEEN ASSOLRXLEVOFFSET ASSORXUCN ASSORXUCN ASSORXUSN ASSORXUSN ASSORXUSRN ASSORXUSRN ASSThres ASSTIMER AT1 AT13 AT17 AT18 AT19 AT20 AT4 ATCBHOEN ATCBHYST ATCBTHRED Ater8KSw AterCongHRFlag AterCongstRatio ATERIDX AterJamThreshold2StartLs ATERMASK ATEROMLFLAG ATEROMLINX ATERPIDX ATERSLID ATERTRANSMODE ATN

ATSMASK ATT ATTENFACTOR1 ATTENFACTOR2 AUSTOP AUSTOP AUTHMODE AUTHMODE AUTHMODE AUTHMODE AUTHNAME AUTHNAME AUTHNAME AUTHPWD AUTHPWD AUTHPWD AUTHTYPE AUTHTYPE AUTHTYPE AUTO AUTOADDSRCON AUTOADJULTHHYSTF AUTOADJULTHHYSTH AutoGetBtsLogFlag AUTONEG AUTOTYPE AUTOULKSW AutoUnlockTime AUTYPE AVer AVOL AVOL B1B2SDTHRD B1B2SFTHRD

B3SDTHRD B3SFTHRD BACK8KCLKSW1 BACK8KCLKSW2 BackupPath BACKUPPATH BADQUALDISCTHRES bAdvEstDlTbf BAKDEVTAB BAKIP BAKMASK BAKPWRSAVMETHOD BAKPWRSAVPOLICY BANDINDICATOR1900 BANDINDICATOR850 BANDINDICATOR900 BANTIME BARCODLST BASEBTSID BASETEMPERATURE BASETEMPERATURE BATTCAPACITY BATTENABLEDIN BATTERYDISCHARGEDEPTH BATTTYPE BBAPSRVPN BBDIF BC BCC BCC BCC BCCH BCCHFREQ BCCHTRXHP

BCCONGESTALMBOUND BCCONGESTRESALMBOUND BCDSCP BCID BCLC BCV BE BEARP1PRIWEIGHT BEARP2PRIWEIGHT BEARP3PRIWEIGHT BEARTYPE BEATSENDINGDIS BEPPERIOD BESTTDDCELLNUM BET3GHOEN BETTERCELLHOEN BETTERCELLLASTTIME BETTERCELLSTATTIME BFDDETECTCOUNT BFDSN BFRANGE BHPREPOLICY BITOFFSET BKGARP1PRIWEIGHT BKGARP2PRIWEIGHT BKGARP3PRIWEIGHT BLKFILTERSW BLKPRD BLKSTATPRD BLKSTATSW BLOCKRETRY BLOCKTIMER BMPN BMSN

BMSRN BMTCFCTimerLen BORROWDEVIP BOXFLG BP1 BP2 BQHOEN BQLASTTIME BQMARGIN BQSTATTIME BRDCLASS BRDCLASS BRDCLASS BRDCLASS BRDNO BRDNO BRDRXBW BRDSWTYPE BRDTXBW BRDTYPE BRDTYPE BRDTYPE BRDTYPE BRDTYPE BRDTYPE BrdType BRDTYPE BREAKTIME BROADCASTCONTENT BROADCASTINTERVAL BS BSAGBLKSRES BSCDPC BSCDynSwitchTrxPAAllow

BSCFLAG BSCGATEWAYIP BSCGATHET BSCGATHST BSCID BSCIDX BSCINCHPRD BSCIP BSCIP BscLsStartMode BSCNAME BSCPMA BSCPMAIRAHO BSCPN BSCPORT BSCPRICLASS BSCQAD BSCQADIRAHO BSCRESERVEDPARA1 BSCRESERVEDPARA10 BSCRESERVEDPARA11 BSCRESERVEDPARA12 BSCRESERVEDPARA13 BSCRESERVEDPARA14 BSCRESERVEDPARA15 BSCRESERVEDPARA16 BSCRESERVEDPARA17 BSCRESERVEDPARA18 BSCRESERVEDPARA19 BSCRESERVEDPARA2 BSCRESERVEDPARA20 BSCRESERVEDPARA21 BSCRESERVEDPARA22 BSCRESERVEDPARA23

BSCRESERVEDPARA24 BSCRESERVEDPARA25 BSCRESERVEDPARA26 BSCRESERVEDPARA27 BSCRESERVEDPARA28 BSCRESERVEDPARA29 BSCRESERVEDPARA3 BSCRESERVEDPARA4 BSCRESERVEDPARA5 BSCRESERVEDPARA6 BSCRESERVEDPARA7 BSCRESERVEDPARA8 BSCRESERVEDPARA9 BSCSN BSCSRN BSCSUBTS BSCSYMOFF BSCTID BSCTID BSCTS BSCVMAX BSMSPWRLEV BSPAGBLKSRES BSPAMFRAMS BSPBCCHBLKS BSPRACHBLKS BssLsGenMode BSSLSMSCCOOP BSSPAGINGCOORDINATION BT BT BT BT BT

BT BT BT BT BT BT BT BT BT BT BT BTCFLAG BTCFLAG BTSadjust BTSBARCODE BTSCOMTYPE BTSCOMTYPE BTSDESC BTSDETECTSWITCH BTSID BTSID BTSID BTSIDCONBSC BTSIDLST BTSIDTYPE BTSIDTYPE BTSIDX BTSIP BtsLsStartMode BTSMASK BTSMESRPTPREPROC BTSNAME BTSNAMECONBSC BTSNAMELST

BTSPINGSWITCH BTSPOWEROFFLOCKBCCH BTSPWRNUM BTSSAICPCADJSWITCH BTSSWVER BTSTRCMPRATE BTSTYPE BTSTYPE BTSTYPE BTSWTR BTTSTTYPE BTYPE BUILDTIME BUNDLINGFLAG BVCI BVCI BVCTF BWADJ BWDCONGBW BWDCONGCLRBW BWDCONGCLRTH BWDCONGTH BWDOVLDCLRRSVBW BWDOVLDCLRTH BWDOVLDRSVBW BWDOVLDTH BWDRESVHOTH BWDRSVHOBW BWMAXRATIO BWMODE BWRTPTH BWTHD BYCELLTYPE C31HYST

C32QUAL CABINETDESC CABLST CABT CALLRESTABDIS CALVAL CANPC CAPCOVEROPTSWITCH CARDFREATTR CARRYFLAG CARRYT CARRYT CBA CBCINDEX CBCIP CBCITFPARA CBCPORT CbNonMsgTimer CBQ CBS CbShakeHandTimer CBSIGNLEN CBTRAFFLEN CC CCAEnableSta CCCHLOADINDPRD CCCHLOADTHRES CCDSCP CCMINTERVAL CDRTTRYFBDTHRES CELL1800OFF CELL1800THRED CELL2GBA1BCCH CELL2GBA1TAG

CELL2GBA2BCCH CELL2GBA2TAG CELL8PSKPOWERLEVEL CELL900OFF CELL900THRED CELLBARACCESS2 CELLCOVERAGETYPE CELLEQUCHGVOL CELLEQUCHGVOL CELLFLOATCHGVOL CELLFLOATCHGVOL CELLID CELLID CELLID CELLID CELLID CELLID CELLIDLST CELLIDTYPE CELLIDTYPE CELLIDTYPE CELLINEXTP CELLLAYER CELLLIST CellListOptionSend CELLMAXSD CELLNAME CELLNAME CELLNAME CELLNAMELIST CELLOPPWRGRP CELLOVERCVGRXLEVDLTH CELLOVERCVGTALTH CELLPAGINGOVERLOADCOUNTER

CELLPWROFFEN CELLPWROFFVOL CELLRESELSTRATEGY CELLRXQUALWORSENRATIOTHRSH CELLSCENARIO CELLSELECTAFTERCALLREL CELLTEMP1ALARMH CELLTEMP1ALARML CELLTEMP1THRESHOLDH CELLTEMP1THRESHOLDL CELLTEMPCOMPENABLED CELLWEAKCVGRXLEVDLTH CELLWEAKCVGTALTH CENDTHD CertChain CFGFLAG CFGFLAG CFGMODE CFGSW CFLAG CFLAG CFM CG CG CGET CGET CGIRACSWITCH CGN CGN CGST CGST CGST CHAINNCELLTYPE CHAINTORING

CHALLOCSTRATEGY CHANFAULTALMPDCHTH CHANFAULTALMSWITCH CHANFAULTALMTCHTH CHANID CHANINTERMESALLOW CHANNELRATECODE CHANPDOUTTIME CHECKCOUNT CheckingBTSConnection ChkModA ChkModB CHKN CHKN CHKOFFTIMES CHKONTIMES CHKSUMRX CHKSUMTX CHKSUMTYPE CHKTYPE CHLDURATH CHNNO CHNNO CHNO CHNTSTTYPE CHNTYPE ChosenChInAssCmp ChosenChInHoPerform ChosenChInHoReqAck ChosenEncrypAlgInCiphCmp ChosenEncrypAlgInHoPerform ChosenEncrypAloInAssCmp ChosenEncrypAloInHoReqAck CHPWRINSUFFALLOWED

CHRCOLLECTSWITCH CHREQCSMAXMSGNUMINPERIOD CHREQPSAVGMSGNUMINPERIOD CHREQSTATPERIOD CHTYPE CI CI1 CIC CIC CicDMuteDifCnt CicDMutePeriod CicDMuteSwitch CicDMuteThre CicDMuteTime CicPoolInAssFail CicPoolInHoFail CicPoolListInAssFail CicPoolListInHoFail CicPoolSendFlagInAssCmp CicPoolSendFlagInHoAck CIR CIRESTVALUE CIUSLOTNO CIUSUBRACKNO CLASS11DTM CLASSMARKQUERY CLEARTHD CLKMOD CLKPRTTYPE CLKTYPE ClkType ClrDelay CLRFLG ClrInterval

CMD CMD CMDSEQ CN CN CN CN CN CN CNFAULTDELAY CNID CNID CNNODEIDX CNOPERATORINDEX CNSTATEPOLICYFORGROUP CNT CNT CNT CNTL CNTRISTHRD CNTSTLTHRD COBSCMSCADJEN CODE COLDSET COLTYPE COMBINERLOSS COMMACC Complicacy COMPRS COMSC CONBSCBTSIDTYPE CONGCLRTHD0 CONGCLRTHD1 CONGCLRTHD2

CONGCLRTHD3 CONGCLRTHD4 CONGCLRTHD5 CONGTHD0 CONGTHD1 CONGTHD2 CONGTHD3 CONGTHD4 CONGTHD5 CONHOEN CONNECTPORTNO CONNPWR CONNTYPE CONNTYPE CONTHOMININTV CONTINTV CONTPING Count CPRIDURATS CPS CPUN CRC4CHK CRH CRL CRLEnableSta CRMSGRESENDINT CRMSGRESENDNUM CRO CROCALTMTHRD CROSSIPFLAG CSADDTINFO CSBQTHR CSCHRMR CSCLTERMABNORM

CSDATADL CSDATAPATH CSDATAPRI CSDATAUL CSDSP CSHOINFO CSMRBFCLR CSMRBFHO CSOUTMODE CSOUTRANGE CSRCDSW CSSIGINFO CSTARTTHD CSTRAFTYPE CSVOICEDL CSVOICEINFO CSVOICEPATH CSVOICEPRI CSVOICEUL CSVSP CSW CT1 CT2 CT3 CT4E CT4N CT5 CT6 CT7 CT9 CTHD CTHD CTRBSCDPC CTRLACKTYPE

CTRLFLAG CTRLPORTCN CTRLPORTNO CTRLPORTSN CTRLPORTSRN CTRLSLOT CTRLSN CTRLSRN CTRLSW CurChannelInHoRqd CVer CYCLE DATAFILE DATAQUAFLTLEN DATASTRFLTLEN DATATRAFFSET DATE DATE DateRangeIndex Day DBD DBFREQBCCHIUO DBLFREQADJCID DBLFREQADJCNAME DBLFREQADJIDTYPE DCLACN DCLAPN DCLASN DCLASRN DCVLTHD DCVOLALARMH DCVOLALARML DCVUTHD DefaultDynPdchPreTranNum

DELAYSENDRFCHREL DENO DESC DESTEALSET DESTIP DESTIP DESTIP DESTMEPID DESTNODE DESTNODE DESTSN DESTSRN DESTSSN DESTTRXID DETECTFRAMEPERIOD DETECTMULT DETECTSWITCH DEVICENAME DEVICENO DEVIP DEVTYPE DF DFCBSN DFCBSRN DFDPC DFTPORTSWT DGPSPERIOD DHCPRLYGATEWAYIP DHCPRLYID DIESELENGINESAVESWITCH DIFFBANDSDCCHUSINGOPTIMIZE DINM DINW DIR

DIR DirectedRetryAssFailSendEnable DIRECTRYEN DIRMAGANSITEFLAG DisconnectHandoverProtectTimer DIVERSITY DIVERT16QAMDELAY DIVERT32QAMDELAY DIVERT8PSKDELAY DivSwitch DLADJPRD DLAFSREXQUALHIGHTHRED DLAFSREXQUALLOWTHRED DLAHSREXQUALHIGHTHRED DLAHSREXQUALLOWTHRED DLCI DLCOEFFICIENTTSRAPIDADJ DLDCSPT DLEDGETHRES DLFILTADJFACTOR DLFSREXQUALHIGHTHRED DLFSREXQUALLOWTHRED DlGprsTbfExpandOp DLHSREXQUALHIGHTHRED DLHSREXQUALLOWTHRED DLHYSTF1 DLHYSTF2 DLHYSTF3 DLHYSTH1 DLHYSTH2 DLHYSTH3 DLHYSTWB1 DLHYSTWB2 DLINTERFLEVLIMIT

DLINTERFQUALLIMIT DlLdrThrd2GCell DLLEVFILTLEN DLLTFERLOWTH DLLTFERTGT DLLTFERUPTH DLLTTHADJFA DLMAXDOWNSTEP DLMAXUPSTEP DlOlcThrd2GCell DLPREDLEND DLQHIGHTHRED DLQLOWTHRED DLQUAFILTLEN DLQUALBADTRIG DLQUALBADUPLEV DLQUALIMIT DLQUALIMITAMRFR DLQUALIMITAMRHR DLREXLEVADJFCTR DLREXLEVEXPFLTLEN DLREXLEVHIGHTHRED DLREXLEVLOWTHRED DLREXLEVSLDWINDOW DLREXQUALADJFCTR DLREXQUALEXPFLTLEN DLREXQUALSLDWINDOW DLRXLEVPROTECTFACTOR DLRXQUALPROTECTFACTOR DLSSHIGHTHRED DLSSLOWTHRED DLTBFESTDELAY DLTESTRESENDINT DLTESTRESENDNUM

DLTHF1 DLTHF2 DLTHF3 DLTHH1 DLTHH2 DLTHH3 DLTHWB1 DLTHWB2 DMDUA DMDUB DN DNDEFAULTCS DNDEFAULTMCS DNE2ADEFAULTMCS DNE2AFIXMCS DNFIXCS DNFIXMCS DNPCEN DNSENDSMDIS DNTBFRELDELAY DNTHDCSDEGRADE1 DNTHDCSDEGRADE2 DNTHDCSDEGRADE3 DNTHDCSUPGRADE1 DNTHDCSUPGRADE2 DNTHDCSUPGRADE3 DOOR_ENGINE_MASK DOUBLEANTENNAGAIN DPC DPCDNF DPCGIDX DPCGIDX DPCGIDX DPCT

DPX DPX DRHOLEVRANGE DROPCTRLABISCONNFAIL DROPCTRLCONNFAILHOACCFAIL DROPCTRLCONNFAILOM DROPCTRLCONNFAILOTHER DROPCTRLCONNFAILRLFAIL DROPCTRLCONNFAILRRNOTAVL DROPCTRLEQUIPFAIL DROPCTRLERRINDDMRSP DROPCTRLERRINDSEQERR DROPCTRLERRINDT200 DROPCTRLFORCHOFAIL DROPCTRLINBSCHO DROPCTRLINTRABSCOUTHO DROPCTRLINTRACELLHO DROPCTRLNOMR DROPCTRLOUTBSCHOT8 DROPCTRLRELIND DROPCTRLRESCHK DROPPKTTHD0 DROPPKTTHD1 DROPPKTTHD2 DROPPKTTHD3 DROPPKTTHD4 DROPPKTTHD5 DROPPWRINTERVAL DROPPWRSTARTTIME DROPPWRSTEP DRXEN DRXTIMERMAX DRYSET DS1

DS1 DSCP DSCP DSCP DSCP DSPKIFFOFFTIMER DSPN DSPN DSPN DSPN DSPNO DSPRECOVERTIMER DST DSTF DSTIP DSTIP DSTIP DSTMASK DSTMASK DSTPORTNO DSTTSMASK DTLOADTHRED DTRTYPE DTRX DTRX DTRXPN DTRXPN DTRXSN DTRXSN DTRXSRN DTRXSRN DUMMYBITRANDSWITCH DUPLEX DURATH

DURATH DURATM DURATS DWNDYNCHNTRANLEV DWNINTEN DXXINDEX DXXINDEX DXXPN DYNCHFREETM DYNCHNPREEMPTLEV DYNCHTRANRESLEV DYNOpenTrxPower DYNPBTSUPPORTED E1DURAT E1PORT E1PORTNOINBTSCONBSC E1SLCTTMU E1T1PN E1T1PN E1T1PORTNO E1T1TYPE ECHOIP ECNOOFF ECNOTHRES ECSC ECSN ED ED ED EDATE EDAY EDBLASTTIME EDBSTATTIME EDBSYSFLOWLEV

EDGE EDGEADJLASTTIME EDGEADJSTATTIME EDGELAST EDGELAST1 EDGESTAT EDGESTAT1 EFTIMMFLAG EGPRS11BITCHANREQ EGPRS2A EGPRSBEPLIMIT8PSK EGPRSBEPLIMITGMSK EM EMCPRILV EMERGENCY EMITTHD EMLDSCP EMLPPEN EMLPPPRIORITY EMLPPPRIORITY EMLPRI EMLSP EMLVLANID EMONTH EMSIP ENABLE ENABLED ENCRY ENCRYMODE ENCRYMODE End2EndTraceState ENDAID ENDCIC ENDCIC

EndDayDSTPA ENDHEATTEMP EndMonthDSTPA ENDSUBTS EndTimeTACloseTrxPA ENDTS ENDTS ENDTS ENF ENF ENGOVERLDTHRSH ENGSMPSDLMACFLOWCTRL ENIUO ENLDHOPRD ENLDHOSTP ENLOWLDTHRSH ENPREEMPTTRANSADMT ENQUETRANSADMT ENSOVERLDTHRSH ENTCHADJALLOW ENTITYT ENTITYT ENUTOOLOADINILEV EPLCSwitch ERCODE ERGCALLDIS ERRALARMTHD ERRDETECTSW ESLDSCP ESLPRI ESLSP ESLVLANID ESSN ESTABINDTIMER

ESTINDL3MSGTAFLAG ESTTIME ET ET ET ET ET ET ET ET ETD ETIME ETP ETT EWEEK EWSEQ EX_ANO1_SIG_MAX EX_ANO1_SIG_MIN EX_ANO1_TYPE EX_ANO1_VAL_MAX EX_ANO1_VAL_MIN EX_ANO2_SIG_MAX EX_ANO2_SIG_MIN EX_ANO2_TYPE EX_ANO2_VAL_MAX EX_ANO2_VAL_MIN EX_ANO3_SIG_MAX EX_ANO3_SIG_MIN EX_ANO3_TYPE EX_ANO3_VAL_MAX EX_ANO3_VAL_MIN EX_ANO4_SIG_MAX EX_ANO4_SIG_MIN EX_ANO4_TYPE

EX_ANO4_VAL_MAX EX_ANO4_VAL_MIN EXCACC EXCEPFRAMETHRES EXPDLRXLEV EXPULRXLEV EXT2GCELLID EXT2GCELLNAME EXT3GCELLID EXT3GCELLNAME EXTADJCELLID EXTADJCELLNAME EXTCELLTHRENH EXTFlag EXTMEASORD EXTRPTPERIOD EXTRPTTYPE EXTTP EXTUTBFNODATA FACCHRESENDINT FACCHSENDNOTMSGIND FACCHSENDPGMSGIND FACTORSW FACTORYMODE FAILSIGSTRPUNISH FANADJUSTCOMMAND0 FANADJUSTCOMMAND1 FANADJUSTCOMMAND2 FANADJUSTMODE FANFLAG FANSPEEDMODE FANTYPE FASTCALLTCHTHRESHOLD FASTCNETFLAG

FaultDetectSwitch FC FC FCETHD FCINDEX FCINDEX FCINDEX FCINDEX FCINDEX FCINDEX FCINDEX FCN FCN FCSTHD FCSTYPE FCSTYPE FCSW FCV FDDBA1TAG FDDBA2TAG FDDCELLOFF FDDCELLTHRED FDDDIVERSITY FDDDLUARFAN FDDECQUALTHRSH FDDFREQCNUM FDDQMIN FDDQMINOFFSET FDDQOFF FDDREP FDDRSCPMIN FDDRSCPQUALTHRSH FDDSCRAMBLE FDWINDOW

FERRPTEN FERSTATTH1 FERSTATTH2 FERSTATTH3 FERSTATTH4 FERSTATTH5 FERSTATTH6 FERSTATTH7 FHMODE FILE FILE FileName FILEPATH FILETYPE FILTERWNDSIZE FIN FINESTEPPCALLOWED FIRESET FIXABISPRIORABISLOADTHRED FlashAlmClrThd FlashAlmOccurThd FlashFilterEn FlashStatisAlmClrTW FlashStatisAlmOccurTW FLEXABISMODE FLEXMAIO FLEXTSCSWITCH FlowCountPeriodTicks FLOWCOUNTPERIODTSRAPIDADJ FLOWCTRLSWITCH FLOWCTRLSWITCH FLOWCTRLSWITCH FLOWCTRLSWITCH FLOWCTRLSWITCH

FLOWCTRLSWITCH FLTPARAA1 FLTPARAA2 FLTPARAA3 FLTPARAA4 FLTPARAA5 FLTPARAA6 FLTPARAA7 FLTPARAA8 FLTPARAB FLUSHTRANSFERSWITCH FMSMAXOPCC FMUTYPE FN FN FN FN FN FN FN FORBIDEDGU FORBIDNO7FLASHDISC Force_Limit_Time Force2Phase FORCEDCELLEFRSWITCH FORCEMSACCESS FPN FPN FPTIMER FQBSICOPTSWITCH FQBSICSWITCH FQBSICSWITCH1 FRAGSIZE FRAMEOFFSET

FRAMEOFFSET FRDLDTX FREQ FREQ FREQ FREQ1 FREQ10 FREQ11 FREQ12 FREQ13 FREQ14 FREQ15 FREQ16 FREQ17 FREQ18 FREQ19 FREQ2 FREQ20 FREQ21 FREQ22 FREQ23 FREQ24 FREQ25 FREQ26 FREQ27 FREQ28 FREQ29 FREQ3 FREQ30 FREQ31 FREQ32 FREQ33 FREQ34 FREQ35

FREQ36 FREQ37 FREQ38 FREQ39 FREQ4 FREQ40 FREQ41 FREQ42 FREQ43 FREQ44 FREQ45 FREQ46 FREQ47 FREQ48 FREQ49 FREQ5 FREQ50 FREQ51 FREQ52 FREQ53 FREQ54 FREQ55 FREQ56 FREQ57 FREQ58 FREQ59 FREQ6 FREQ60 FREQ61 FREQ62 FREQ63 FREQ64 FREQ7 FREQ8

FREQ9 FREQADJ FREQADJVALUE FREQBAND FREQLOADSHARETRAFFTHRSH FREQLST FREQREUSEMODE FREQS FREQSCANRLSTTYPE FRINGEHOEN FRULDTX FSN FSN FSRN FSRN FT FTI FTI FTI FULLTOHALFHOATCBOFFSET FULLTOHALFHODURATION FULLTOHALFHOLASTTIME FULLTOHALFHOPATHOFFSET FULLTOHALFHOPERIOD FULLTOHALFHOSTATTIME FWDCONGBW FWDCONGCLRBW FWDCONGCLRTH FWDCONGTH FWDOVLDCLRRSVBW FWDOVLDCLRTH FWDOVLDRSVBW FWDOVLDTH FWDRESVHOTH

FWDRSVHOBW G2G3GLdBlcDeltaThrd G2GLoadAdjustCoeff G711_Mode GAMMA GATHET GATHLOD GATHON GATHST GBRQOS GCChk GCDF GCSCHNASSULCHNEN GCSIMPREEMPTIONEN GLOBALROUTESW GMSKDELAY GPRS GPRS GPRSCELLRESELECTHYESTERESIS GPRSCHPRI GPRSHCSTHR GPRSPENALTYTIME GPRSRXQUALLIMIT GPRSTEMPOFFSET GPSORGLONASS GPSPERIOD GRADEACCALLOW GROUPCALLNUM1 GROUPCALLNUM2 GROUPINDEX GROUPNAME GROUPRELTSNUM GRPID GRPT

GS GSMCSBWRATE GSMCSUSERHIGHPRILEV GSMFREQCNUM GSMTOTDALLOWED GUARDTYPE GWIP GWIP HalfRateDataSupport HALFTOFULLATCBOFFSET HALFTOFULLHODURATION HALFTOFULLHOLASTTIME HALFTOFULLHOPATHOFFSET HALFTOFULLHOSTATTIME HAVETT1 HAVETT2 HBINTER HCN HCSLASTTIME HCSSTATTIME HIERPWRPARA1 HIERPWRPARA2 HiFreqBandSupport HIGHESTPRIORITQUALFIRST HIGHLEVPREEM HIGHPRIUSERQUALFIRST HIGHTEMPLOADPWROFF HISPRIOALLOW HISTORYPWDNUM HMCDTM HOALGOPERMLAY HOBTWNOTHOPALLOW HOCDCMINDWPWR HOCDCMINUPPWR

HOCELLIDTYPE HOCELLNAME HOCTRLSWITCH HODIRFORECASTEN HODIRLASTTIME HODIRSTATIME HODOWNTRIGE HODURT3G HODURT3GTDD HOECNOTH3G HOLASTTIME HOMOD HOOFFSET HOOLRXLEVOFFSET HOOPTSEL HOPENALTYTIME HOPINDEX HOPINDEX HOPMODE HOPOWERBOOST HOPRETH2G HopSingleFreqOptSwitch HOPTRXHSN HOPTRXINDEX HOPTYPE HOPUNISHVALUE HOREFTMR HORSCPTH3G HoSdcchSpeechVer HOSTAT3G HOSTAT3GTDD HOSTATICTIME HOSTTYPE HOSTTYPE

HOTHRES HOUPTRIGE HPANTMODE HPANTMODE HPN HPRIOR HPVFLAG HPVTHD HRATESPT HRDLDTX HRIUOLDRATESELALLOW HRULDTX HSN HSN HSNSW HSRN HT HTCP HTDO HTSDF HUM_MASK HUM_THD_HIGH HUM_THD_LOW HUMALAMRTHRESHOLDH HUMALAMRTHRESHOLDH HUMALAMRTHRESHOLDL HUMALAMRTHRESHOLDL HYSON IARXTMR IASUDURAT IASUPORT IASUSLCTTMU IATXTMR IBCAAFRSOFTBLKTHRD

IBCAAHRSOFTBLKTHRD IBCAALLOWED IBCAASSWAITMEASURERPTTIME IBCACALLINFOFILTERLEN IBCACALLSOFTBLOCKTHOFFSET IBCACALLTARGETCIROFFSET IBCADLPATHLOSSOFF IBCADYNCMEASURENCELLALLOWED IBCAEHOASSWAITMEASURERPTTIME IBCAFLEXTSCALLOWED IBCAFORCEDBTSSYNCALLOWED IBCAFRSOFTBLKTHRD IBCAHOASSWAITMEASURERPTTIME IBCAHRSOFTBLKTHRD IBCAICDMRELEVOFFSET IBCAICDMSWITCH IBCAINBSCINFORPTPRD IBCAINITPCRXLEVDLOFFSET IBCAINITPCRXLEVULOFFSET IBCAINITPCRXQUALDLOFFSET IBCAINITPCRXQUALULOFFSET IBCAIUOPATHLOSSOFF IBCAMAIOUSMTD IBCAMAXINTFSRCNUM IBCANCELLFLAG IBCANCELLPATHLOSSESTIMATE IBCANEWCALLCIROFFSET IBCANHOASSWAITMEASURERPTTIME IBCANONMEANCELLSTATNUM IBCAOPRREVISEFACTOR IBCAOUTBSCINFORPTPRD IBCAPATHLOSSOFF IBCAPLFILTFACTOR IBCARXLEVOFFSET

IBCASCELLPATHLOSS IBCASOFTBLKSAICOFF IBCASOFTBLKSWITCH IBCASUBCHNHANDOVERALLOWED IBCATARGETCIRTHRSH IBCAUSEDIUOSUBLAY IBCAUSRDYNCMEASURENCELL IBCAWAFRSOFTBLKTHRD ICBALLOW ICF ICMPPKGLEN ICTHP1DSCP ICTHP2DSCP ICTHP3DSCP ID ID ID Idle_Code IDLECODE IDLESDTHRES IDTYPE IDTYPE IDTYPE IDTYPE IDTYPE IDTYPE IDTYPE IDTYPE IDX IDXTYPE IDXTYPE IFCBSHAKEHAND IFNO IFOFFSETHIG

IFOFFSETLOW IFREPPRO IGNOREMRNUM IMEI IMMASSAINTERFTIMER IMMASSCBB IMMASSDLSHIFT IMMASSEN IMMASSMAXDELAYTIME IMMASSMAXSENDNUM IMMASSRESENDEN IMMASSTAALLOW IMMASSTATHRES IMMFNAD IMMREJWAITINDTIMER IMSI IMSI INBSCHOTIMER INCHLOD INCHPRD INCLUDEANG INCN INDEN3 INFHHOLAST INFHHOSTAT INFOEXCHGLIST INFRA_RED_MASK INHOF2HTH INHOH2FTH INHOPWROVERLOADTHRESHOLD INITCDMDF INITCDMDH INITCDMDWB INMASK

INNASSOPTEN INNCELLEDGEHOEN INNCELLID INNCELLNAME INNLOADHOEN INNLOADHOPERI INNLOADHOSTEP INNSERIOVERLDTHRED INPN INPN INPORTNO INPUTMD INRBSCSDHOEN INSN INSN INSRN INSRN INT INTELEVHOHYST INTERBANDSTATALGO INTERCELLHYST INTERFEREHOPENTIME INTERFERELASTTIME INTERFERESTATTIME INTERFHOEN INTERFPRIALLOW INTERFTHRES0 INTERFTHRES1 INTERFTHRES2 INTERFTHRES3 INTERFTHRES4 INTERFTHRES5 INTERIORSYNCTMR INTERPERIOD

INTERRATCELLRESELEN InterRatCsServiceLoadHoThrd INTERRATINBSCHOEN InterRatIurgInBscHoEn InterRATLoadHoEcNoBandWidth InterRATLoadHoEcNoStart InterRATLoadHoEcNoStep InterRATLoadHoRSCPBandWidth InterRATLoadHoRSCPStart InterRATLoadHoRSCPStep INTERRATOUTBSCHOEN InterRatServiceLoadHoSwitch INTERVAL INTERVAL INTFREQUENCY INTOINNREXLEVTHRED INTRABSCCODECHOCMDTIMER INTRABSCHOTIMER INTRACELLFHHOEN INTRACELLHOEN INTRACELLHOTIMER INTRAMBSC IntRATLoadHOEcNoThr IntRATLoadHoPeriod IntRATLoadHORSCPThr INTSN INTSNO INTV INTV INVALBSICEN IP IP IP IP

IP IP IPADDR IPADDR IPADDR IPADDR IPADDR IPADDR IPADDR IPADDR1 IPADDR1 IPADDR2 IPADDR2 IPADDR3 IPADDR4 IPEAAT IPEADT IPHC IPHC IPINDEX IPINDEX IPMUXINDEX IPPHYTRANSTYPE IPPHYTRANSTYPE ISADDEDTMPCONTROL ISBASICBSC ISCHAINNCELL ISCLKREDUCY ISCLKREDUCYBAK ISCONFIGEDRING ISCONFIGTHD ISEDGESUPPORT ISFIRSTCLASS ISGPRSSUPPORT

ISMAINBCCH IsMainBSC ISMAINLOCGRP ISNC2SUPPORT ISNCMODE ISQOSPATH ISSPTBSCAISS ISSPTDEMUS ISSUPERBTS ISSUPPORTBTSLSWITCH IsSupportTcPool ISTCBRD ISTCCENTRAL ISTMPCTRL ISTRANCABCON ITEM ITEMINDEX ITEMVALID ITEMVALUE ITFT ITFType IUO IUOCHNTRAN IUOHODURATIME IUOHOSTATIME IUOTP J0ALMSWITCH J0BYTE_FORMAT J0RXVALUE J0TXVALUE J0TYPE J1ALMSWITCH J1BYTE_FORMAT J1RXVALUE

J1TXVALUE J1TYPE J2ALMSWITCH J2BYTE_FORMAT J2MODE J2RXVALUE J2TXVALUE JAUTOADD JBF JITBUFDELAY JITBUFSWITCH K2MODE KBIAS KEEPALIVE LAC LAC1 LACPMODE LATIDECI LATIDEGREE LATIINT LATIMINUTE LATISECONDDECI LATISECONDINT LATITUDE LATITUDESEC LATPRD LATSUSTM LATTH LATUDK LATUPK LAYER LAYER LAYHOLOADTH LBCongestProtect1

LBCongestProtect2 LDRFOUH LDRFST LDRSND LENO LEVEL LEVEL LEVEL Level LEVELRPT LEVHOEN LEVHOHYST LEVLAST LEVSTAT LGCAPPTYPE LGCAPPTYPE LGCAPPTYPE LGCUSAGETYPE LGIDX LHUMTHD LICALMCTHD LICALMRTHD LINKNO LISTTYPE LKTATE LL LL LLCN LNA1 LNA2 LNKNUMMODE LNKRATE LNKREDFLAG LNKSLSMASK

LNKSLSMASK LoadAccThres LOADBALANCEALG LOADBROADCASTPERIOD LOADCURRENTDIV LOADHOAD LoadHoEn LoadHoEnExt2G LoadHoEnExt3G LOADHOPBGTMARGIN LOADHOPENTIME LOADHOPENVALUE LOADHOPERIOD LOADHOSTEP LOADHOUSRRATIO LOADOFFSET LOADPWROFFEN LOADRESELALLOW LOADRESELMAXRXLEV LOADRESELRXTHRSH LOADRESELSTARTTHRSH LOADSHAREALLOW LOADSTATYPE LOADTHSW LocalBSCID LOCALIP LOCALIP LOCALIP LOCALIP LOCALNSVLI LOCALPORTNO LOCGRPNO LOCGRPNO LOCINFOKEY

LOCIP1 LOCIP2 LOCKST LOCPN LODCTRL LODMODE LOGCTHD LOGCTHD LOGPORTFLAG LOGPORTNO LOGPORTSN LOGRTHD LOGRTHD LOGSW LOGTYPE LOGTYPE LONGIDECI LONGIDEGREE LONGIINT LONGIMINUTE LONGISECONDDECI LONGISECONDINT LONGITUDE LONGITUDESEC LoopLevel LOOPMODE LOOPSW LOOPTYPE LOOSESDCCHLOADTHRED LOPDIR LOPLOC LOPT LOPT LOPTIME

LOSTSUSTM LOWLEVSUBRESPREEMPTFLG LOWLEVSUBRESPREEMPTFLG LOWNOISESWH LOWRXLEVOLFORBIDSWITCH LOWTEMPLOADPWROFF LOWTEMPLOADPWROFF LPBKMODE LPN LPN LPN LPNSN LPNTYPE LQCMODE LSDF LSDV LSRTRD LSTCMD LstFormat LSTFORMAT LT LT LT LTCP LTEMTHD LTFERLOWTH LTFERTGT LTFERUPTH LTTHADJFA LVDS252DSPNUM Lvl1Vswr Lvl2Vswr LVSDF M3UASRVPN

MAC MACEAAT MACEADT MACODINGMOD MAIDX MAINBCCHPWDTACTCHEN MAINBCCHPWRDTEN MAINBCCHPWRDTETIME MAINBCCHPWRDTRANGE MAINBCCHPWRDTSTIME MAINDEVTAB MAINDEVTAB MAINLOCGRPNO MAINPORTNO MainVer MAIO1 MAIO10 MAIO11 MAIO12 MAIO2 MAIO3 MAIO4 MAIO5 MAIO6 MAIO7 MAIO8 MAIO9 MAJORALMUP0 MAJORALMUP1 MAJORALMUP2 MAJORALMUP3 MAJORALMUP4 MAJORALMUP5 MANAME

MANAME MASK MASK MASK MASK MASK MASK MASK MASK MASK MASTERIPADDR MASTERIPADDR MAXADJPCVAL MAXASSOCRETR MAXBW MAXCNTNUM MaxDlAssRetryTimes MaxDlEstRetryNum MAXDROPPWRTHRESHOLD MAXFQNUM MAXFQNUM1 MAXFRAMELEN MAXLOADBTSNUM MAXMFLEN MAXMFLEN MaxMissTimes MAXNUM MAXOUTPUTPOWER MAXPATHRETR MaxPbLinkChkNum MAXPDCHNUM MAXPDCHRATE MaxPollingRetryTimes MAXPROMPTDATES

MAXRECHARGECURRENT MAXRECHARGECURRENT MAXRESEND MAXRETRANS1 MAXRETRANS2 MAXRETRANS3 MAXRETRANS4 MAXSFLEN MAXSFLEN MAXSTEP0 MAXSTEP1 MAXSTEP2 MAXTA MAXTADROPCALLFILTER MAXTADROPCALLSWITCH MAXTADROPCALLTHRESHOLD MAXTIME MAXTSOCP MAXTTL MAXVALADJRX MAXVALIDDATES MBFDCHKN MBFDLOCALIP MBR MBSIGNLEN MBTRAFFLEN MBTSID MBTSNAME MCC MCC1 MCCLASS MCCLASS MCELLID MCELLNAME

MCN MCPAOPTALG MCSTANDARD MDIDX MDLEVEL MDName MDNAME MEASORDER MEASPERIOD MEASURETYPE MEPID MEPID MEPTYPE MHF MHF MINACCRXLEV MINBW MINECNOTHRES MINOFFSET MinorAlmThdA MinorAlmThdB MINORALMUP0 MINORALMUP1 MINORALMUP2 MINORALMUP3 MINORALMUP4 MINORALMUP5 MinorClrThdA MinorClrThdB MINPWRLEVDIRTRY MINRESTIMETCH MINRSCPTHRES MINRXINT MINRXINTERVAL

MINTXINT MINTXINTERVAL MIRRORDPN MIRRORSPN MIRRORTYPE MNC MNC1 MOCACCESSCPURATE MODE MODE MODE MODE MODE MODE MODE MODE0 MODE1 MODE2 MODE3 MODE4 MODE5 MONITORPERIOD MONITORTIME Month MOVESPEEDTHRES MPGRPEAAT MPGRPEADT MPGRPN MPGRPN MPGRPN MPMODE MPN MPSWITCH MPTYPE

MPUSLOT MPUSUBRACK MRCOMPREG MRMISSCOUNT MRMISSNUM MRPREPROCFREQ MRRUATTENFACTOR1 MRRUATTENFACTOR2 MRSCOPESWITCH MRSWITCH MRU MS MSCAPABLESTATSWITCH MSCCAP MSCNRILEN MSCNULLNRI MSCPOOLALLOW MSCSTATUE MSCVER MSIPFAILINDDELAY MSISDN MSISDNPREFIX1 MSISDNPREFIX2 MSISDNPREFIX3 MSISDNPREFIX4 MSISDNPREFIX5 MsisdnPrfxList2StartBscLs1 MsisdnPrfxList2StartBscLs10 MsisdnPrfxList2StartBscLs2 MsisdnPrfxList2StartBscLs3 MsisdnPrfxList2StartBscLs4 MsisdnPrfxList2StartBscLs5 MsisdnPrfxList2StartBscLs6 MsisdnPrfxList2StartBscLs7

MsisdnPrfxList2StartBscLs8 MsisdnPrfxList2StartBscLs9 MsisdnPrfxList2StartBtsLs1 MsisdnPrfxList2StartBtsLs10 MsisdnPrfxList2StartBtsLs2 MsisdnPrfxList2StartBtsLs3 MsisdnPrfxList2StartBtsLs4 MsisdnPrfxList2StartBtsLs5 MsisdnPrfxList2StartBtsLs6 MsisdnPrfxList2StartBtsLs7 MsisdnPrfxList2StartBtsLs8 MsisdnPrfxList2StartBtsLs9 MsisdnSegList2AvoidBscLs1 MsisdnSegList2AvoidBscLs10 MsisdnSegList2AvoidBscLs2 MsisdnSegList2AvoidBscLs3 MsisdnSegList2AvoidBscLs4 MsisdnSegList2AvoidBscLs5 MsisdnSegList2AvoidBscLs6 MsisdnSegList2AvoidBscLs7 MsisdnSegList2AvoidBscLs8 MsisdnSegList2AvoidBscLs9 MsisdnSegList2AvoidBtsLs1 MsisdnSegList2AvoidBtsLs10 MsisdnSegList2AvoidBtsLs2 MsisdnSegList2AvoidBtsLs3 MsisdnSegList2AvoidBtsLs4 MsisdnSegList2AvoidBtsLs5 MsisdnSegList2AvoidBtsLs6 MsisdnSegList2AvoidBtsLs7 MsisdnSegList2AvoidBtsLs8 MsisdnSegList2AvoidBtsLs9 MSLEVSTRQPBGT MSMAXRETRAN

MSPCMD MSRDMCSLEV MSRDPDCHLEV MSRN MSRXMIN MSRXQUALSTATTHRSH MSTF MSTSERVACTDELAY MSTXPWRMAX MSW MTCACCESSCPURATE MTHD MTP2LNKN MTRLGY MTU MTU MTU MTVT MULTIBANDREP MUTECHECKCLASS1PERIOD MUTECHECKCLASS2SWITCH MUTECHECKPEIROD MUTEFORBITCALLTMINTVAL MUTERELCALLEN MUXTIME MUXTIME MUXTYPE MWTRXNO MYDISCRIMINATOR N200 N200ESTAB N200FFULL N200FHALF N200PARASWITCH

N200REL N200SACCH N200SDCCH N3101 N3103 N3105 N391 N392 N393 NACCSPT NAME NAME NAME NAME NAME NAME NAME NAME NAME NAME NAME NAME NAMRLFRMTRXALLOWED NAVGI NBAMRTFOSWITCH NBR2GNCELL1ID NBR2GNCELL1NAME NBR2GNCELL2ID NBR2GNCELL2NAME NBR2GNCELLID NBR2GNCELLNAME NBR3GNCELLID NBR3GNCELLNAME NBRCELLSWITCH

NBRCI NBRLAC NBRMCC NBRMNC NBRSPT64 NC2LoadResel NC2SPT NCC NCC NCCPERMIT NCCPERMITED NCELLFILTER NCELLFLTLEN NcellInterFLevelThres0 NcellInterFLevelThres1 NcellInterFLevelThres2 NcellInterFLevelThres3 NcellInterFLevelThres4 NcellInterFLevelThres5 NcellInterFLevelThres6 NcellInterFLevelThres7 NCHOCBLOCKNUM NCHSTARTBLOCK NCO NEIGHBOR NETMASK NEWURGHOMININTV NEXTHOP NEXTHOP NEXTHOP NEXTHOP NI NM NMO

NMSACN NMSAPN NMSASN NMSASRN NO1M48ALMTHDDOWN NO1M48ALMTHDUP NO2M48ALMTHDDOWN NO2M48ALMTHDUP NO3M48ALMTHDDOWN NO3M48ALMTHDUP NO4M48ALMTHDDOWN NO4M48ALMTHDUP NO5M48ALMTHDDOWN NO5M48ALMTHDUP NO6M48ALMTHDDOWN NO6M48ALMTHDUP NOAMRFULLTOHALFHOALLOW NOAMRFULLTOHALFHOATCBADJSTEP NOAMRFULLTOHALFHOATCBTHRESH NOAMRFULLTOHALFHOPATHADJSTEP NOAMRFULLTOHALFHOPATHTHRESH NOAMRFULLTOHALFHOQUALTHRESH NOAMRFULLTOHALFTHRESH NOAMRHALFTOFULLHOATCBTHRESH NOAMRHALFTOFULLHOPATHTHRESH NOAMRHALFTOFULLHOQUALALLOW NOAMRHALFTOFULLHOQUALTHRESH NOAMRHALFTOFULLTHRESH NODET NODLMRHOALLOWLIMIT NODLMRHOEN NODLMRHOQUALLIMIT NOMINALCAPACITY NONAMRCALLPCALLOWED

NONDRXPERIOD NormalCurDurA NormalCurDurB NORMALRESELALLOW NORTHD NOTMSIALLCELLPAGINGLIMITFLAG NOTRASP NOVGCSTIME NQUERIES NRBSDCCHFFLEN NRBTCHFFLEN NRI NRI NRofFDDCellFlag NSEI NSEI NSIGSTRFLTLEN NSLATI NSVCI NSVCIDX NTDI NTDO NY2 OAMFLOWBW OAMFLOWBW OAMFLOWBW OAMFLOWBW OAMFLOWBW OAMFLOWDSCP OAMMINBWKEY OBJECTTYPE OBJECTTYPE OBJIDX OBJIDX

OBJTP OBJTP OBJTYPE OccupyStreamingSwitch OLTOULHOALLOW OMLBKUP OMLDETECTSWITCH OmlDetectTime OMLDSCP OMLESLDL OMLESLUL OMLPRI OMLSP OMLVLANID OMLWS OMUIP OMUMASK OP OPC OPC OPCIDX OperatorType OPINDEX OPINDEXSET OPMODE OPMODE OPMODE OPMODE OPMODE OPNAME OPTILAYER OPTILEVTHRES OPTITATHRES OPTL

OPTM OPTP OPTYPE OPX ORIPORT OT OTHERFREQ OTHMODNUM OTOURECEIVETH OUTASSOPTEN OUTBSCHOCLEARTIMER OUTBSCHOCMDTIMER OutBscLoadHoEn OUTGENOVERLDTHRED OUTHOPWROVERLOADTHRESHOLD OUTINNREXLEVTHRED OUTLOADHOENABLE OUTLOADHOMODPERI OUTLOADHOPERIOD OUTLOADHOSTEP OUTLOWLOADTHRED OUTMASK OUTPN OUTPORTNO OUTPORTTS OUTPUT0 OUTPUT1 OUTPUT2 OUTPUT3 OUTPUTPOWER OUTPUTPOWER1 OUTPUTPOWERUNIT OUTSERIOVERLDTHRED OUTSERVICEALM

OUTSN OUTSN OUTSRN OutSysLoadHoEn OUTSYSSERVHOREASSIGNEN OUTSYSSERVICEHOEN OUTTIMER OUTTSN OverCurAlmThdA OverCurAlmThdB OverCurAlmThdRET OverCurClrThdA OverCurClrThdB OverCurClrThdRET OverCurDurA OverCurDurB OVERLOADINTV OVERTHD P11 P12 P13 P14 PaAdjVol PACKASSDLSHIFT PAGINGAVGCAPACITYINPERIOD PAGINGLIFETIME PAGINGMAXCAPACITYINPERIOD PAGTIMES PANDEC PANINC PANMAX PAOPTILEVEL PatchNo PatchNo1

PATHCHK PATHID PATHID PATHLOSS PATHLOSSHOEN PATHT PATTYPE PB PBGTHOEN PBGTLAST PBGTMARGIN PBGTSTAT PbMtnMsgReSend PCADJPERIOD PCMEASCHAN PCU PCUINDEX PCUNO PCUNO PCUPREEMPTFLAG PDCHDWNLEV PDCHPWRSAVEN PDCHREFORMING PDCHUPLEV PDTMRVALUE PeerBSCID PEERBSCID PEERBSCIP PEERBSCMASK PEERBTSID PEERIP PEERIP PEERIP PEERIP

PEERIP PEERIP1 PEERIP2 PEERIPADDR PEERMASK PEERPN PEERVERSION PENALTYEN PENALTYLASTTM PENALTYRXLEV PENALTYTIMER PERIOD PERIOD PFC PFC PFC PFCSUP PGCLASSIFINGALLOWED PGMAXMSGNUMINPERIOD PGMAXPSMSGNUMINPERIOD PGSTATPERIOD PHB PHB PI PKPEnableSta PKTCOUNT PKTLEN PKTLEN PKTLENTHRES PKTSI PKTSIZE PKTSIZE PL1 PL16QAM

PL2 PL3 PL32QAM PL4 PL8PSK PLPRD PLTH PLYPOINT PLYSWITCH PLYTIME PMCTHD PMCTHD PMI PMNUM PMOAFLAG PMRTHD PMRTHD PMSW PN PN PN PN PN PN PN PN PN PN PN PN PN PN PN PN

PN PN PN PN PN PN PN PN PN PN PN PN PN PN PN POCDELAY POCGBRMAX POCGBRMIN PocSup PODECTHRES POERRTHRES POINTDESINFO POINTNAME Port PORT PORT PORTNO PORTNUM PORTPROTYPE PortSwitch PORTTYPE PORTTYPE POS2QUATER POT

POWER POWER_RELAY1 POWER_RELAY2 POWER_RELAY3 POWER_RELAY4 POWER_RELAY5 POWER_RELAY6 POWERCURRENTDIV POWERREDUCE16QAM POWERREDUCE32QAM POWERTYPE POWERTYPE POWL POWT PPPEAAT PPPEADT PPPLNKN PPPLNKN PPPLNKN PPPLNKN PPPMUX PQNUM PREEMFORHONOTREL PREEMFORHOPDCH PREEMPTIONPERMIT PREMRSAMPLE PRI PRIACCTHR PRIFCEN PRIMMESPPT PRINTCTHD PRINTCTHD PRINTRTHD PRINTRTHD

PRINTSW PRIOR PRIOR PRIORABISLOADTHRED PRIORCLASS PRIORITY PRIORITY PRIORITY PRIVATEPROBEFST PRIVATEPROBENUM PRIVATEPROBESND PrivKey PROBESEQ PROT PROT PROTECTDELAYTIME PROTECTTIME ProtectTimeTrxPowerOn PS PS PS PSCHRABIS PSCHRGB PSCHRINNINFO PSCHRINNMSG PSCHRUM PSDATADL PSDATAUL PSHOSUP PSHPRIDATAPATH PSHPRIDATAPRI PSHPSP PSI1RPT PSISTATUSIND

PSLPRIDATAPATH PSLPRIDATAPRI PSLPSVP PSOTOURECEIVETHRSH PSOUTMODE PSRACHACCLEV PSRACJACCLEV PSRCDSW PSRESREQMSGNUMINPERIOD PSRESREQSTATPERIOD PSU0 PSU1 PSU2 PSU2 PSU3 PSU4 PSU5 PSU6 PSU7 PSUTOORECEIVETHRSH PSUTURNINGOFFENABLE PSW PT PT PT PT PT PTCODE PTRXT PTTXT PTTYPE PTUID PTYPE PTYPE

PubCert PV PV PVCUSERATETIMER PWD PWD PWD PwdMinLen PWL PWRALMSSW1 PWRALMSSW2 PWRBCDALLOWD PWRCTRLOPTIMIZEDEN PWRCTRLSW PWRDIV PWRDIVIND PWRLOCATION PWRMODE PWROFFPROTECTSTARTTIME PWRPRIORALLOW PWRSPNR PwrSwitchA PwrSwitchB PwrSwitchRET Q0MINDSCP Q1MINDSCP Q2MINDSCP Q3MINDSCP Q4MINDSCP QCI QCKMVHOEN QCKSTATCNT QCKTIMETH QCKTRUECNT

QI QLENSD QLENSI QOSOPT QP QSEARCHC QTRUCHANMANGSWITCH QTRUDNPWRLASTTIME QTRUDNPWRSTATTIME QTRUPWRSHARE QUALOFFTIMES QUALONTIMES QUALSTEP QUERYCMAFTERINBSCHO QUICKHOEN R0AuxDev R0BatAllow R0BatCap R0BatCoeff R0BatType R1AuxDev R1BatAllow R1BatCap R1BatCoeff R1BatType R2AuxDev R2BatAllow R2BatCap R2BatCoeff R2BatType RA RA RA RA

RA RA1 RACHACCLEV RACHBUSYTHRED RACHLDAVERSLOT RACJACCLEV RACOLOR RANDACCESSRETRY RANERRTHRED RARESELECTHYST RATE RATECTRLSW RATSCCHENABLED RAWMRSAMPLE RBPTYPE RCDT RCN RCN1 RCN2 RCVMD RDC REASSEN REASSFREQBAND RECEIVEQUALTHRSHAMRFR RECEIVEQUALTHRSHAMRHR RECLEVHYST RECLEVTHRES RECLEVUOHOALLOW RecordDiscardedPagingInfoFlag RECOVERTHD RECQUALTH RECQUALUOHOALLOW RED ReduceTransBwInt

ReduceTransBwNum REF2MCLK2SRC REF2MCLK2SRCBAK REF2MCLKSRC REF2MCLKSRCBAK REF2MCLKSW1 REF2MCLKSW2 REFUSELOCALCLK REGION REHOSTABSTIME REHOSTDELAYTIME REHOSTTYPE REINITTBL RELATEDCN RELATEDFCUENABLED RELATEDMODFUNC RELATEDSN RELATEDSRN RELATEDTRACK REMARK REMARK REMOTENSVLI REP REPEATDLFASET REPEATDLFATHRED REPEATSASET RESALMID ResCheckAllowed RESELHYST RESELINTERVAL RESELWATCHPERIOD RESELWORSENLEVTHRSH ReservedDynPdchPreTranNum ReservedIdleCh

ResetAlmDelaySwitch ResetAlmDelayTime RESETINTERVAL RESETRETRY RESETTIME RESETTIMER RESID RespReqSel REST RESTARTTMR RESTARTTMR RESTYPE RESUMETIMER REVCHANNUM RFMAXPWRDEC RFRESINDPRD RFT RFUCFGBYSLOT RGPSINDICATION RIMSUP RLCN RLT RMTTCATERTRANSMODE RNCID RNCINDEX RNCINDEX RNCNAME RootCert ROUTENO ROUTEPORTNO RPTDLVQIALLOWED RPTPERIODI RPTPERIODT RPTTHD

RPTVOICE RQSIGNLEN RQTRAFFLEN RSCGRPN RSCMNGMODE RSCMNGMODE RSCPENALTYTIMER RSCPOFF RSCPTHRES RSDSRC RSFSRC RSLCTOFFER RSLDL RSLDSCP RSLPRI RSLUL RSLVLANID RSLWS RSNDES RSSThres RSTDESFILE RSTF RSTFUN RSTIME RSVCHMFORECNUM RSVDPARA1 RSVDPARA10 RSVDPARA2 RSVDPARA3 RSVDPARA4 RSVDPARA5 RSVDPARA6 RSVDPARA7 RSVDPARA8

RSVDPARA9 RsvIdleChanNum RT RTCONTEXT RTCPBWRATIO RTCPSWITCH RTDEST RTDESTMASK RTIDX RTOALPHA RTOBETA RTOINIT RTOMAX RTOMIN RTPSWITCH RTTIPDCHMULTIPLEXTHRESH RTTYPE RUS RUSPRD RVer RXBW RxBw RXLEVACCMIN RXLEVOFF RXMIN RXQCKFALLHOEN RXQUAL1 RXQUAL10 RXQUAL11 RXQUAL12 RXQUAL2 RXQUAL3 RXQUAL4 RXQUAL5

RXQUAL6 RXQUAL7 RXQUAL8 RXQUAL9 RXUCHAINNO RXUCHAINNO RXUCHAINNO RXUIDTYPE RXUIDTYPE RXUNAME RXUNAME RXUNAME RXUPOS RXUPOS RXUPOS RXUTYPE S1SWITCH S1VALUE SAADIS SAAF SaGsmrMsc SAICALLOWED SAICTHREDAPDTVALUE SAICTHREDAPDTVALUE SALOG SAMECVGCELLID SAMECVGCELLIDTYPE SAMECVGCELLLOADSTATTM SAMECVGCELLLOADTHRD SAMECVGCELLNAME SAMULFRM SAS SASE SASV

SAVEENABLED SBAF SBTSID SBTSNAME SCALEORDER SCDSCP SCELLFILTER SCELLID SCELLNAME SCHEME SCHNNO SCMD SCOPETYPE SCPIDX SCRAMBLE SCSN SCTPLNKN SD SD SD SD SDALMTHD SDATE SDAY SDCCHNUM SDCCHWaitMREn SDCCHWaitMRTimeLen SDDROPSTATDLLEV SDDROPSTATDLQUAL SDDROPSTATULLEV SDDROPSTATULQUAL SDDYN SDENABLE SDFASTHOSWITCH

SDFLAG SDHOMININTV SDMRCUTNUM SDPUNTIME SDPUNVAL SDSCP SDSFPRI SDT SDTMWDALMDIS SDTMWDALMOC SDV SEARCH3G SELFVERSION Send2QuterFlag SendBssInvokeTrace SENDCMAFTERINBSCHO SendConfusionToMSC SENDDOWNLINKMESSAGE SENDFACCHNOTPRI SENDFACCHPAGPRI SENDSAMBE SENDSI2TERFLAG SENDSI5TERFLAG SendUtranECSCFlag SEPARATEPOS SEPERATEMODE SERCMDPORT SERDATAPORT SERIALNO ServerIP ServiceMode SERVICEMODE SERVICEMODE ServiceName

SERVICETYPE SETDIESELENGINEENABLED SETENVPARAENABLED SETENVPARAENABLED SETHUMPARAENABLED SFPPORTNO SGSNCAP SGSNNAME SGSNNRILEN SGSNNULLNRI SGSNPOOLALLOW SGSNR SGSNSTATUS SHAREINCPURATE SHARESN SHARINGALLOW SHLDFLG SHUTDOWNTRXSTARTTIME SI2TerSwitch SIGCHANHOEN SIGLAST SIGLKSX SIGLKSX SIGLNKID SIGLW SIGLW SIGNALSP SIGOBS SIGQUAFLTLEN SIGSLC SIGSTRFLTLEN SilenceTicksOfResReq SinglePassExcludeMsisdn1 SinglePassExcludeMsisdn10

SinglePassExcludeMsisdn11 SinglePassExcludeMsisdn12 SinglePassExcludeMsisdn13 SinglePassExcludeMsisdn14 SinglePassExcludeMsisdn15 SinglePassExcludeMsisdn16 SinglePassExcludeMsisdn17 SinglePassExcludeMsisdn18 SinglePassExcludeMsisdn19 SinglePassExcludeMsisdn2 SinglePassExcludeMsisdn20 SinglePassExcludeMsisdn3 SinglePassExcludeMsisdn4 SinglePassExcludeMsisdn5 SinglePassExcludeMsisdn6 SinglePassExcludeMsisdn7 SinglePassExcludeMsisdn8 SinglePassExcludeMsisdn9 SIPADDR SIPADDR SITES SITESYNCZONE SLAVEIPADDR SLAVELOCGRPNO SLPTYPE SLSMASK SLVSERVACTDELAY SM SMLCIDX SMLCMode SMOKE_MASK SMONTH SMWINDOW SN

SN SN SN SN SN SN SN SN SN SN SN SN SN SN SN SN SN SN SN SNDMD SndRcvMode SndRcvMode1 SndRcvMode2 SndRcvMode3 SndRcvMode4 SP SPC SPCBITS SPCDNF SPCIC SPDF SPECACC SPECIALSWITCH SPECIALSWITCHERLEVEL

SpeechAlmPeriod SpeechVerInAssCmp SpeechVerinHoPerform SpeechVerInHoReqAck SpeechVerInHoRqd SPEECHVERMODE1 SPEECHVERMODE2 SPEECHVERSION SPEED SPEEDPUNISH SPEEDPUNISHT SPGCCCCHSUP SpprtCB SPTCOMMMEAS SPTINFOEXCHG SPTINTERRATINBSCPSHO SPTINTERRATOUTBSCPSHO SPTNACCResGuarantee SptPaging SptPbLapdCheck SptPbResCheck SptPbSglPassCheck SptPCICCheck SptRanSharing SPTREDUCELATENCY SPTSHARING SPTSTATEFWL SPX SRANMODE SRANMODE SRANMODE SRC2GNCELLID SRC2GNCELLNAME SRC3GNCELLID

SRC3GNCELLNAME SRCCI SRCF SRCGRD SRCGRD SRCHOCTRLSWITCH SRCIP SRCLAC SRCMCC SRCMEPID SRCMNC SRCPORTNO SRCT SRCTSMASK SRN SRN SRN SRN SRN SRN SRN SRN SRN SRN SRN SRN SRN SRN SRN SRN SRN SRN SRN1 SRN2

SRName SRNO SRT SRTORD SRVLW SRVLW SRVPRIPOLICY SRVTYPE SSBQPUNISH SSCPUAVEUSAGEALMTHD SSCPUMAXUSAGEALMTHD SSDSPAVEUSAGEALMTHD SSDSPMAXUSAGEALMTHD SSLENSD SSLENSI SSN SSN SSSN SSTAPUNISH ST ST ST ST ST ST ST STARTAID STARTCBSHORTMSGFLOWCTRL STARTCHREQARRIVALCTRL STARTCIC STARTCIC StartDayDSTPA STARTHEATTEMP StartMonthDSTPA

STARTPGARRIVALCTRL STARTPSRESREQARRIVALCTRL STARTSUBTS STARTTIME StartTimeTACloseTrxPA STARTTS STARTTS STARTTS STC STC STCIC STCN STD STEP STFLG STIME STIRCALLOWED STOPSI5SWITCH STOPTIME STP STPN STRTM STSN STSRN STSUBTS STT STTS STTYPE SUBBSCTID SUBBSCTID SUBCMD SUBFRAMELEN SUBFRAMETHRES SUBID

SUBNET SUBRESPREEMPTFLG SUBRESPREEMPTFLG SUBTS SubVer SupportApplyUsedCic SUPPORTBAKCLK2SRC SUPPORTBAKCLKSRC SUPPORTCELLBROADCAST SUPPORTDL5TS SUPPORTDTM SUPPORTEDA SUPPORTENDTM SupportIpSpanBtsLSwitch SupportTFOCodecOptimize SupptCellList SVALUE SVRIP SVRPORT SW SW SW SW SW SWEEK Switch SWITCH SWITCH SWITCH SWITCH SWITCH3AH SWITCHBACKFLAG SWITCHBACKHBNUM SwitchParameter1

SwitchParameter10 SwitchParameter2 SwitchParameter3 SwitchParameter4 SwitchParameter5 SwitchParameter6 SwitchParameter7 SwitchParameter8 SwitchParameter9 SWITCHPORTNO SWOP SWSEQ SYMOFFSET SYNCCASE SYNCMETHOD SYNMODE SYNTIMEDAY SYNTIMEHOUR SYNTIMEMIN SYSCONTACT SYSDESC SYSFLOWLEV SYSLOCATION SysMsg10Allowed SYSOBJECTID SYSSERVICES T1 T1 T10TMR T12TMR T13TMR T14TMR T17TMR T1TMR

T2 T2 T200 T200FACCHF T200FACCHH T200SACCH3 T200SACCHS T200SACCT0 T200SDCCH T200SDCCH3 T203 T22TMR T23TMR T2TMR T3 T3 T3105 T3115 T3168 T3192 T3212 T391 T3TMR T4 T4TMR T5 T5TMR T6 T8 T8TMR TAFLTLEN TAFORUOHOALLOW TAHOEN TAHYST

TALASTTIME TALIMIT TALKERINFINT TASIGSTRFLTLEN TASKIDX TASTATTIME TATHRES TAVGT TAVGW TB TB TBS TBS TC TC TCC TCCRCAllowed TCHAJFLAG TCHBUSYTHRES TCHDROPSTATDLFER TCHDROPSTATDLLEV TCHDROPSTATDLQUAL TCHDROPSTATULFER TCHDROPSTATULLEV TCHDROPSTATULQUAL TCHHOMININTV TCHMRCUTNUM TCHRATEMODIFY TCHTIMEHOPERIOD TCHTIMEHOSWITCH TCHTRIBUSYUNDERLAYTHR TCHTRICBUSYOVERLAYTHR TCLEN TCMODE

TCMUTEDETECTFLAG TCN TCPN TCPOOLID TCSN TCSRN TCTYPE TDDBA1TAG TDDBA2TAG TDDCELLOFF TDDCELLRESELDIV TDDCELLTHRED TDDDIVERSITY TDDDLUARFAN TDDMIOPTIMIZEDALLOWED TDDMIPROHIBIT TDDRSCPQUALTHRSH TDDSCRAMBLE TDDSCRAMBLE TDDSIOPTIMIZEDALLOWED TDDSYNCCASE TDMCONGCLRTH TDMCONGTH TDMN1 TDMN2 TEI TEMP_MASK TEMP_THD_HIGH TEMP_THD_LOW TEMPALARMTHRESHOLDH TEMPALARMTHRESHOLDH TEMPALARMTHRESHOLDL TEMPALARMTHRESHOLDL TEMPCOMPENSATECOEF

TEMPLATEDESC TEMPLATEID TEMPLATEID TEMPLATENAME TEMPOFHIGHTEMPLOADPWROFF TEMPOFLOWTEMPLOADPWROFF TEMPOFLOWTEMPLOADPWROFF TER2INDICATOR TESTTIMER TEXT TFOOptSwitch TFREQ TFRMSTARTTIME TG TGWID TGWIPOAMIP TGWIPOAMMASK TGWPEERSN TGWPEERSRN TH THDOFF THDON THP1ARP1PRIWEIGHT THP1ARP2PRIWEIGHT THP1ARP3PRIWEIGHT THP2ARP1PRIWEIGHT THP2ARP2PRIWEIGHT THP2ARP3PRIWEIGHT THP3ARP1PRIWEIGHT THP3ARP2PRIWEIGHT THP3ARP3PRIWEIGHT THTYPE TI_WAIT_SGSN_PRIVATE_MESSAGE TIGHTBCCHASSMAINBCCHLEV

TIGHTBCCHASSMAINBCCHQUAL TIGHTBCCHHOLASTTIME TIGHTBCCHHOLOADTHRES TIGHTBCCHHOSTATTIME TIGHTBCCHRXQUALTHRES TIGHTBCCHSWITCH TIGHTSDCCHRXLEVTHRED TIIMSIPAGING TIME TIME TIME TIMEAMRFHPUNISH TIMEBQPUNISH TIMEOTOUFAILPUN TIMEOUT TIMEOUT Timeout TIMEOUT TIMEOUT TIMEPUNISH TIMES TIMESLOTVOLADJALLOW TIMETAPUNISH TIMEUTOOFAILPUN TIQUEUINGTIMER TIWAITMSCMSG TL TLLI TLT TLTHD TLTHD TM TM1 TM2

TM3 TM4 TM5 TMI TMIGLD TMLEN TMODE TMRBADQUALDISCSTAT TMRISTHRD TMSI TMSTLTHRD TMT1TMR TMT2TMR TNAME TNMODE TNMODE TO TO TOPBOARDCN TOPBOARDSLOTNO TOPBOARDSRN TP TPN TQHO TRACECTHD TRACECTHD TRACERTHD TRACERTHD TRACESW TrafficClassDlCoefficient TrafficClassUlCoefficient TRAMODE TransMode TRANSSN

TRANST TRANST TRANST TRANSTYPE TRANSTYPE TRANSTYPE0 TRANSTYPE1 TRANSTYPE2 TRANSTYPE3 TRCRNGLMT TRESEL TRIGTHRES TRKLNKPN TRKLNKSN TRKN TRMI TRMLOADTHINDEX TRMLOADTHINDEX TRMLOADTHINDEX TRMLOADTHINDEX TRMLOADTHINDEX TRMLOADTHINDEX TRMLOADTHINDEX TRMMAPSW TRUNKN TRUNKN TRUNKN TRXAIDSWITCH TRXDURATS TRXHOPINDEX TRXID TRXID TRXID1 TRXID10

TRXID11 TRXID12 TRXID13 TRXID14 TRXID15 TRXID16 TRXID17 TRXID18 TRXID19 TRXID2 TRXID20 TRXID21 TRXID22 TRXID23 TRXID24 TRXID3 TRXID4 TRXID5 TRXID6 TRXID7 TRXID8 TRXID9 TRXIDLST TRXIDLST TRXMAIO TRXNO TrxNum TRXPN TRXPN TRXPRIALLOW TRXTP TS TS TS

TS TS TSBITMAP TSBITMAP TSBITMAP TSC TSCOUNT TSCPLANEN TSCROSSX TSDURAT TSIDX TSKN TSMASK TSMASK TSN TSNO TSPRIORITY TSPWRRESERVE TSRAPIDADJPERIOD TSRAPIDADJSWITCH TSRATE TSRN TSTMODE TSTTIMESLOT TSTTYPE TSTTYPE TsTurningOffEnable TT TTL TTL TURNOFFCELLCHANNUM TURNOFFCELLSTPTIME TURNOFFCELLSTRTIME TURNOFFENABLE

TURNONCELLLOADTHRD TUTHD TUTHD TWFCMCHIDLE TWFCMTRXIDLE TWFCSCHIDLE TWFRRMRSP TWFSEEKMS TWFSYNCACK TWFSYNCRPT TX TXAOPER1 TXAOPER2 TXAOPER3 TXAOPER4 TXBOPER1 TXBOPER2 TXBOPER3 TXBOPER4 TXBW TxBw TXINT TXINT TYPE TYPE TYPE TYPE TYPE TYPE TYPE U0GEN U0TOW U0TRX U0TRXBPN

U0TRXSN U0TRXSRN U1GEN U1TOW U1TRX U1TRXBPN U1TRXSN U1TRXSRN ucCSPrefCallReestPrio ucCSPrefCSEmergCallPrio ucCSPrefCSOrgCallPrio ucCSPrefCSTermCallPrio ucCSPrefInBscHoPrio ucCSPrefIntraBscHoPrio ucCSPrefOtherPrio ucCSPrefPSPrio ucCSPrefSupplePrio ucCSPrefVBSPrio ucCSPrefVGCSPrio ucCtrlOfCicIE UCISRAIFAULT ucPSPrefCallReestPrio ucPSPrefCSEmergCallPrio ucPSPrefCSOrgCallPrio ucPSPrefCSTermCallPrio ucPSPrefInBscHoPrio ucPSPrefIntraBscHoPrio ucPSPrefOtherPrio ucPSPrefPSPrio ucPSPrefSupplePrio ucPSPrefVBSPrio ucPSPrefVGCSPrio ucSpeechVerOptiInHo UDPMUXMODRECV

UDPMUXMODSEND UDPPN UDPPN UG UHUMTHD UIC UINTTIME UL UL ULADJPRD ULAFSREXQUALHIGHTHRED ULAFSREXQUALLOWTHRED ULAHSREXQUALHIGHTHRED ULAHSREXQUALLOWTHRED ULBQLASTTIME ULBQSTATTIME ULCOEFFICIENTTSRAPIDADJ ULDATAFWDTMR ulDlAckFreq ULEDGETHRES ulEgprsDlAckFreq ulEgprsUlAckFreq ULFILTADJFACTOR ULFSREXQUALHIGHTHRED ULFSREXQUALLOWTHRED ULHSREXQUALHIGHTHRED ULHSREXQUALLOWTHRED ULHYSTF1 ULHYSTF2 ULHYSTF3 ULHYSTH1 ULHYSTH2 ULHYSTH3 ULHYSTWB1

ULHYSTWB2 UlLdrThrd2GCell ULLEVFILTLEN ULMAXDOWNSTEP ULMAXUPSTEP UlOlcThrd2GCell ULPREDLEND ULQHIGHTHRED ULQLOWTHRED ULQUAFILTLEN ULQUALBADTRIG ULQUALBADUPLEV ULQUALIMIT ULQUALIMITAMRFR ULQUALIMITAMRHR ULREXLEVADJFCTR ULREXLEVEXPFLTLEN ULREXLEVHIGHTHRED ULREXLEVLOWTHRED ULREXLEVSLDWINDOW ULREXQUALADJFCTR ULREXQUALEXPFLTLEN ULREXQUALSLDWINDOW ULRXLEVPROTECTFACTOR ULRXQUALPROTECTFACTOR ULSSHIGHTHRED ULSSLOWTHRED ULTHF1 ULTHF2 ULTHF3 ULTHH1 ULTHH2 ULTHH3 ULTHWB1

ULTHWB2 ULTOOLHOALLOW ulUlAckFreq UMCROSSTALKOPTALLOWED UMPENALTYTIMER UmVer UNBA UNBLOCKRETRY UnderCurAlmThdA UnderCurAlmThdB UnderCurAlmThdRET UnderCurClrThdA UnderCurClrThdB UnderCurClrThdRET UPBTSID UPBTSID UPBTSIDTYPE UPBTSIDTYPE UPBTSNAME UPBTSNAME UPDATE UPDEFAULTCS UPDEFAULTMCS UPDYNCHNTRANLEV UPE2ADEFAULTMCS UPE2AFIXMCS UPEXTTBFINACTDELAY UPFIXCS UPFIXMCS UPINTERFQUALLIMIT UPINTERLEVLIMIT UPLNKMAXLENGTH UPOMLWS UPPCEN

UPPERGRPID UPPERLP UPRXLEVLASTTIME UPRXLEVSMOOTHPARA UPRXLEVSTATICTIME UPSENDSMDIS UPTBFRELDELAY UPTHDCSDEGRADE1 UPTHDCSDEGRADE2 UPTHDCSDEGRADE3 UPTHDCSUPGRADE1 UPTHDCSUPGRADE2 UPTHDCSUPGRADE3 URGENTRESELALLOW USERIDTYPE USFGRAN4BLK USR USR USTBGNTIME USTENDTIME UTEMTHD UTOOFAILMAXTIME UTOOHOPENTIME UTOORECTH UTOOTRAFHOALLOW UTRAFHOPERIOD UTRAFHOSTEP UTRANCELLTYPE VENDORCODE VGCSMAXNUM VGCSPREEMPT VGCSRSRVNUM VIPACCESSCPURATE VIPCELL

VIPPRIORITY VIPSHAREINCPURATE VLANFlAG VLANFLAG VLANFLAG1 VLANFlAG2 VLANID VLANID VLANID VLANID VLANID1 VLANID2 VLANPRI VLANPRI VLANSWITCH VOICEVER VOL24_MASK VOL24_THD_HIGH VOL24_THD_LOW VOL48_MASK VOL48_THD_HIGH VOL48_THD_LOW VSWRENABLED VSWRERRTHRES VSWRFILETERCOUNTER VSWRTHRES1 VSWRTHRES2 VSWRUNJUSTTHRES VVer WAITFORRELIND WAITFORRELINDAMRFR WAITFORRELINDAMRHR WaitMSLocationResponse WAITRESVCHANREFRESHTIMER

WAITSDCCHIDLETIMER WaitSMLCLocationResponse WARMSET WATER_MASK WEEK WELONGI WETSET WHETHERAFFECTSWAP WINADJSWITCH WK WKMODE WLAETIME WLAFLAG WLARP WLASTIME WLNKALMFLAG WORKAREA WORKINGSTANDARD WORKMODE WORKMODE WORKMODE WS WTBS WTBS WTRT ZONET

Parameter Name

NE

Downlink Quality Threshold in Assigning Better Cell

BSC6900

Uplink Quality Threshold in Assigning Better Cell

BSC6900

Maximum Better Cell Assigning Duration

BSC6900

Abis ByPass Mode

BSC6900

SDCCH Congestion Flow Control Allowed

BSC6900

Abis Flow Control Timer 1

BSC6900

Abis Flow Control Timer 2

BSC6900

Abis Idle TS Allocate Strategy

BSC6900

Abis Idle TS Configure Switch

BSC6900

Abis Jam Rate for BTS Local Switch

BSC6900

TCHH Function Switch

BSC6900

Timer of Releasing Abis Timeslot

BSC6900

Abis Interface Tag

BSC6900

Duration of BTS Collecting AB[100 Millisecond]

BSC6900

Abnormal Voice MOS Threshold

BSC6900

Access Burst Type

BSC6900

Access Control Class

BSC6900

Access Control Allowed

BSC6900

Access Control Policy

BSC6900

Incoming-to-BSC HO Optimum Layer

BSC6900

Access Control Policy Index

BSC6900

PS Initial Access Service Type

BSC6900

Starting Point of the Access Control Window

BSC6900

Access Control Window Size

BSC6900

Sliding Speed of the Access Control Window

BSC6900

Address and control field compress

BSC6900

Support Address and Control Field Compress

BSC6900

A Interface Paging Co-ordination Switch

BSC6900

Additional Reselect Parameter Indication

BSC6900

AMR ACS[F]

BSC6900

AMR ACS[H]

BSC6900

AMR ACS[WB]

BSC6900

Activate L2 Re-establishment

BSC6900

Valid Time of BTS Resource Activation

BSC6900

AC Voltage Lower Threshold

BSC6900

AC Overvoltage Alarm Threshold

BSC6900

AC Undervoltage Alarm Threshold

BSC6900

AC Voltage Upper Threshold

BSC6900

Assignment Procedure in Intra-Cell HO Allowed

BSC6900

Communication Address

BSC6900

Sub-Link Bandwidth Request Interval When Not Congested

BSC6900

Bandwidth for Secondary Link When Not Congested

BSC6900

External Alarm Customer Definition Switch

BSC6900

Adjacent BSC DPC

BSC6900

Adjustment Mode

BSC6900

Support EGPRS Uplink MCS Dynamic Adjust

BSC6900

Auto Download Active Function Switch

BSC6900

Auto Download Mode

BSC6900

Administrative State

BSC6900

Administrative State

BSC6900

Administrative State

BSC6900

Offset Time Adjustment End Time

BSC6900

Load Threshold of Offset Adjustment

BSC6900

Offset Time Adjustment Switch

BSC6900

Offset Time Adjustment Start Time

BSC6900

Advanced Alarm Management Rule Type

BSC6900

BTS Software Version 1

BSC6900

BTS Software Version 2

BSC6900

AEC Echo Path Delay

BSC6900

AEC Echo Return Loss

BSC6900

AEC Nlp Gate

BSC6900

AEC Path Delay

BSC6900

AEC SNR Gate

BSC6900

AEC Switch

BSC6900

AEC Detect Threshold

BSC6900

AEC Detect Time

BSC6900

AFR Radio Link Timeout

BSC6900

AFR SACCH Multi-Frames

BSC6900

GPS ID

BSC6900

GPS type

BSC6900

AHR Radio Link Timeout

BSC6900

AHR SACCH Multi-Frames

BSC6900

Alarm ID

BSC6900

Alarm ID

BSC6900

Alarm ID

BSC6900

Alarm ID

BSC6900

Alarm ID

BSC6900

Alarm ID.

BSC6900

Alarm ID.

BSC6900

Aiding Delay Protect Time

BSC6900

Alarm Select Type

BSC6900

Alarm Select Type

BSC6900

A Interface Msg [End2end User Tracing]

BSC6900

A IF FC Discard LOC UP Enable

BSC6900

A IF FC Discard MOC Enable

BSC6900

A IF FC Discard MTC Enable

BSC6900

A IF FC Discard Other Service Enable

BSC6900

A Interface Flow Control Enable

BSC6900

A Interface Flow Control Method

BSC6900

A IF FC Service Rate in Level 1

BSC6900

A IF FC Service Rate in Level 2

BSC6900

A IF FC Service Rate in Level 3

BSC6900

A IF FC Service Rate in Level 4

BSC6900

A IF FC Service Rate in Level 5

BSC6900

A IF FC Service Rate in Level 6

BSC6900

CSD Service Redundancy Level

BSC6900

ALC Fix Gain

BSC6900

ALC Fix Target Level

BSC6900

ALC Max Gain

BSC6900

ALC Max Target Level

BSC6900

ALC Min Target Level

BSC6900

ALC Mode

BSC6900

ALC Switch

BSC6900

Alive Retry

BSC6900

Alive Timer

BSC6900

Bandwidth

BSC6900

Resource Reallocation to Different Trx

BSC6900

Allocate One PDCH for Signaling Data

BSC6900

Ratio of AMR-HR

BSC6900

Allow EDA Multiplex

BSC6900

Allowed Measure Report Missed Number

BSC6900

Ratio of TCHH

BSC6900

Timeslot Type

BSC6900

Timeslot Type

BSC6900

Feed Tri. 0 TMA Low Current Alarm Threhold

BSC6900

Feed Tri. 1 TMA Low Current Alarm Threhold

BSC6900

Feed Tri. 2 TMA Low Current Alarm Threhold

BSC6900

Feed Tri. 3 TMA Low Current Alarm Threhold

BSC6900

Feed Tri. 4 TMA Low Current Alarm Threhold

BSC6900

Feed Tri. 5 TMA Low Current Alarm Threhold

BSC6900

Alarm Disappear Accumulate Duration

BSC6900

Alarm Enable Flag

BSC6900

Alarm ID.

BSC6900

Alarm ID.

BSC6900

Lower Alarm

BSC6900

Upper Alarm

BSC6900

Upper Alarm

BSC6900

Alarm Occurrence Accumulate Duration

BSC6900

Alarm Occur Accumulative Time Threshold

BSC6900

Alarm Clear Accumulative Time Threshold

BSC6900

Alarm Occur Times Threshold

BSC6900

Alarm Clear Times Threshold

BSC6900

Alarm Parameter Configuration Enabled

BSC6900

Alarm Type

BSC6900

ALPHA

BSC6900

Antenna Altitude Decimal Part

BSC6900

GPS antenna altitude

BSC6900

Antenna Altitude Int Part

BSC6900

GPS antenna altitude

BSC6900

Alarm Severity

BSC6900

Alarm Severity

BSC6900

Feed Tri. 0 TMA Configuration

BSC6900

Feed Tri. 1 TMA Configuration

BSC6900

Feed Tri. 2 TMA Configuration

BSC6900

Feed Tri. 3 TMA Configuration

BSC6900

Feed Tri. 4 TMA Configuration

BSC6900

Feed Tri. 5 TMA Configuration

BSC6900

AMR BTS PC Class

BSC6900

Allow III Power Control For AMR

BSC6900

AMR Downlink Adaptive Threshold Allowed

BSC6900

AMR Filter Length for DL RX_LEV

BSC6900

AMR DL MR. Number Predicted

BSC6900

AMR DL Qual. Upper Threshold

BSC6900

AMR DL Qual. Lower Threshold

BSC6900

AMR Filter Length for DL Qual.

BSC6900

AMR DL Qual Bad Trig Threshold

BSC6900

AMR DL Qual Bad UpLEVDiff

BSC6900

AMR DL RX_LEV Upper Threshold

BSC6900

AMR DL RX_LEV Lower Threshold

BSC6900

AMR F-H Ho Allowed

BSC6900

AMR F-H Ho ATCB Adjust Step

BSC6900

AMR F-H Ho ATCB Threshold

BSC6900

AMR F-H Ho Pathloss Adjust Step

BSC6900

AMR F-H Ho Pathloss Threshold

BSC6900

AMR F-H Ho Qual. Threshold

BSC6900

AMR F-H Traffic Threshold

BSC6900

AMR H-F Ho ATCB Threshold

BSC6900

AMR H-F Ho Pathloss Threshold

BSC6900

Allow AMR H-F Quality-based HO

BSC6900

AMR H-F Ho Qual. Threshold

BSC6900

AMR H-F Traffic Threshold

BSC6900

AMR MAX Up Adj. PC Value by Qual.

BSC6900

AMR MAX Down Adj. Value Qual. Zone 0

BSC6900

AMR MAX Down Adj. Value Qual. Zone 1

BSC6900

AMR MAX Down Adj. Value Qual. Zone 2

BSC6900

AMR MAX Up Adj. PC Value by RX_LEV

BSC6900

AMR MR. Compensation Allowed

BSC6900

AMR PC Interval

BSC6900

AMR MAX Down Adj. PC Value by Qual.

BSC6900

AMR SACCH Downlink Power Upgrade

BSC6900

AMR TCH/H Prior Allowed

BSC6900

AMR TCH/H Prior Cell Load Threshold

BSC6900

AMR Uplink Adaptive Threshold Allowed

BSC6900

AMR Filter Length for UL RX_LEV

BSC6900

AMR UL MR. Number Predicted

BSC6900

AMR UL Qual. Upper Threshold

BSC6900

AMR UL Qual. Lower Threshold

BSC6900

AMR Filter Length for UL Qual

BSC6900

AMR UL Qual. Bad Trig Threshold

BSC6900

AMR UL Qual. Bad UpLEVDiff

BSC6900

AMR UL RX_LEV Upper Threshold

BSC6900

AMR UL RX_LEV Lower Threshold

BSC6900

MAX Retrans Reset Circle Msg on A-I

BSC6900

MAX Reset Mesg Retransmission on A-I

BSC6900

ANC Max Gain

BSC6900

ANC Switch

BSC6900

ANC Target SNR

BSC6900

RET Antenna Tilt Angle

BSC6900

Adjacent Node ID

BSC6900

Adjacent node ID

BSC6900

Alarm Name

BSC6900

ANR Mode

BSC6900

ANR Noise Reduction Level

BSC6900

ANR Noise Target Level

BSC6900

ANR Switch

BSC6900

Antenna Azimuth Angle

BSC6900

GPS Antenna Delay

BSC6900

Antenna Power Supply Switch

BSC6900

E1T1 anti-error switch

BSC6900

Burglar Alarm Auto Clear Permit

BSC6900

Antenna No.

BSC6900

Antenna Pass No

BSC6900

Sub-Location Group Antenna Pass No.

BSC6900

Down TRX1 A or B

BSC6900

A interface port No.

BSC6900

Application type

BSC6900

Application Type

BSC6900

AQM N Update Interval

BSC6900

AQM Maximum Threshold

BSC6900

AQM Congestion Threshold

BSC6900

AQM Packet Discard Initial Interval

BSC6900

AQM Packet Discard Interval Lower Threshold

BSC6900

AQM Packet Discard Interval Upper Threshold

BSC6900

AQM Switch

BSC6900

AQM Target Threshold

BSC6900

Area Code

BSC6900

Area flag

BSC6900

Area flag

BSC6900

Abnormal Release Threshold

BSC6900

Abnormal Release Statistic Base

BSC6900

Abnormal Warn Threshold

BSC6900

ARP packet resend times

BSC6900

ARP packet time-out[100ms]

BSC6900

A interface slot No.

BSC6900

A interface slot No.

BSC6900

A interface subrack No.

BSC6900

Event Type

BSC6900

Event Type

BSC6900

Assigning Better Cell Allowed

BSC6900

Assignment Cell Load Judge Enable

BSC6900

Assign to Overlayer RxLev Offset

BSC6900

Associated RXU Board CN

BSC6900

Associated RXU Board CN

BSC6900

Associated RXU Board SN

BSC6900

Associated RXU Board SN

BSC6900

Associated RXU Board SRN

BSC6900

Associated RXU Board SRN

BSC6900

Absolute Signal Strength Threshold

BSC6900

T3107

BSC6900

T1

BSC6900

T13 -s

BSC6900

T17 -s

BSC6900

T18 -s

BSC6900

T19

BSC6900

T20

BSC6900

T4 -s

BSC6900

Concentric Circles ATCB HO Allowed

BSC6900

Distance Hysteresis Between Boundaries

BSC6900

Distance Between Boundaries of Subcells

BSC6900

Switch of 8K on Ater

BSC6900

HR Allocation Flag

BSC6900

Congestion Ratio on Ater Resource

BSC6900

Ater connection path index

BSC6900

Ater Jam Rate for BSC Local Switch

BSC6900

Ater Mask

BSC6900

Whether or not for OML

BSC6900

Ater OML Index

BSC6900

Ater Connection Path Index

BSC6900

Ater Signaling Channel ID

BSC6900

Ater Interface Transfer Mode

BSC6900

Antenna Tributary No.

BSC6900

A interface timeslot mask

BSC6900

Attach-detach Allowed

BSC6900

Antenna Tributary 1 Factor

BSC6900

Antenna Tributary 2 Factor

BSC6900

Loop time[min]

BSC6900

Test time[min]

BSC6900

Authentication Mode

BSC6900

Validate mode

BSC6900

Validate mode

BSC6900

Validate Mode

BSC6900

Validate user name

BSC6900

Validate user name

BSC6900

Validate User Name

BSC6900

Validate password

BSC6900

Validate password

BSC6900

Validate Password

BSC6900

Validate protocol type

BSC6900

Validate protocol type

BSC6900

Validate Protocol Type

BSC6900

Auto negotiation

BSC6900

Add inter-subrack path automatically

BSC6900

Auto Adjust UL TH and Hysteresis [F]

BSC6900

Auto Adjust UL TH and Hysteresis [H]

BSC6900

Support Auto Obtaining of BTS Logs

BSC6900

Automatic Negotiation Mode

BSC6900

Work Mode for Auto Download Activation

BSC6900

Auto Unlock Switch

BSC6900

Auto Unlock Time

BSC6900

Administration unit type

BSC6900

A Interface Tag

BSC6900

Alarm level

BSC6900

Alarm VOL.

BSC6900

B1B2 signal degraded threshold

BSC6900

B1B2 signal fail threshold

BSC6900

B3 signal degrade threshold

BSC6900

B3 signal fail threshold

BSC6900

Switch of backplane LINE1

BSC6900

Switch of backplane LINE2

BSC6900

Backup Path

BSC6900

Path of Backup File

BSC6900

Bad Quality Disconnection Threshold

BSC6900

Support Advance Downlink TBF Establishment

BSC6900

BTS Interface Board Bar Code 2

BSC6900

Backup port IP address

BSC6900

Backup port mask

BSC6900

Backup Power Saving Method

BSC6900

Backup Power Saving Policy

BSC6900

High Band Indicator of Cell 1900

BSC6900

High Band Indicator of Cell 850

BSC6900

High Band Indicator of Cell 900

BSC6900

Forbidden time after MAX Times

BSC6900

Cabinet Bar Code List

BSC6900

Reference BTS Index

BSC6900

Temperature Basis for Compensation

BSC6900

Temperature Basis for Compensation

BSC6900

Battery Capacity

BSC6900

Battery Configuration Enabled

BSC6900

Battery Discharge Depth

BSC6900

Battery Type

BSC6900

BBAP service listening port No.

BSC6900

Up Down Balance Basic Difference

BSC6900

Battery Capcity

BSC6900

BCC

BSC6900

BCC

BSC6900

BCC

BSC6900

BCCH FD

BSC6900

Main BCCH Frequency

BSC6900

Frequency Hopping Mode of BCCH TRX

BSC6900

BC Congestion Alarm Threshold

BSC6900

BC Congestion Restore Alarm Threshold

BSC6900

DSCP of BG[QoS]

BSC6900

BC Identifier

BSC6900

Battery Current Limiting Coefficient

BSC6900

Boost-Charging Voltage

BSC6900

Battery Configuration Enabled

BSC6900

BestEffort-ARP1 Priority Weight

BSC6900

BestEffort-ARP2 Priority Weight

BSC6900

BestEffort-ARP3 Priority Weight

BSC6900

DSP bear type

BSC6900

Interval for Sending Heartbeat

BSC6900

Bep Period

BSC6900

Best TDD Cell Number

BSC6900

Better 3G Cell HO Allowed

BSC6900

Better Cell Handover Enable

BSC6900

Better Cell HO Valid Time

BSC6900

Better Cell HO Watch Time

BSC6900

Detect multiplier of BFD packet

BSC6900

BFD Session No.

BSC6900

Up Down Balance Floating Range

BSC6900

Switchback Policy of Baseband FH Mutual Aid

BSC6900

In Frame Bit Offset [1/8 bit]

BSC6900

Background-ARP1 Priority Weight

BSC6900

Background-ARP2 Priority Weight

BSC6900

Background-ARP3 Priority Weight

BSC6900

Alarm switch of blinking filter

BSC6900

Alarm blink threshold

BSC6900

Observing time window of statistical alarm

BSC6900

Switch of statistics blinking alarm

BSC6900

Block Retry

BSC6900

Block Timer

BSC6900

BM Port No

BSC6900

BM Slot No

BSC6900

BM Subrack No

BSC6900

Timer Length of BM-TC Flow Control

BSC6900

Borrow DevIP

BSC6900

To Alarm Box Flag

BSC6900

Position of Break Point 1

BSC6900

Position of Break Point 2

BSC6900

BQ HO Allowed

BSC6900

BQ HO Valid Time

BSC6900

BQ HO Margin

BSC6900

BQ HO Watch Time

BSC6900

Board Class

BSC6900

Board Class

BSC6900

Board Class

BSC6900

Board Class

BSC6900

Board No.

BSC6900

Board No.

BSC6900

Receive Bandwidth

BSC6900

BTS Board Software Type

BSC6900

Forward Bandwidth

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board type.

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Ring II Wait Time Before Switch

BSC6900

Broadcast Content

BSC6900

Broadcast Interval

BSC6900

Backup Style

BSC6900

CCCH Blocks Reserved for AGCH

BSC6900

External BSC DPC

BSC6900

Allow Dynamic Shutdown of TRX by BSC

BSC6900

BSC Flag

BSC6900

BSC GateWay IP

BSC6900

BSC Offset Information Collection End Time

BSC6900

BSC Offset Information Collection Start Time

BSC6900

BSC ID

BSC6900

BSC Index

BSC6900

BSC Fine Tuning Period

BSC6900

BSC IP

BSC6900

BSC IP

BSC6900

Options for BSC Local Switch

BSC6900

External BSC Name

BSC6900

Preemption Allowed

BSC6900

Preemption Allowed During Intra-BSC Handover

BSC6900

In-BSC Port No.

BSC6900

BSC Port

BSC6900

eMLPP Multi-Priority Classes Allowed

BSC6900

Queue Allowed

BSC6900

Queuing Allowed During Intra-BSC Handover

BSC6900

Reserved parameter 1

BSC6900

Reserved parameter 10

BSC6900

Reserved parameter 11

BSC6900

Reserved parameter 12

BSC6900

Reserved parameter 13

BSC6900

Reserved parameter 14

BSC6900

Reserved parameter 15

BSC6900

Reserved parameter 16

BSC6900

Reserved parameter 17

BSC6900

Reserved parameter 18

BSC6900

Reserved parameter 19

BSC6900

Reserved parameter 2

BSC6900

Reserved parameter 20

BSC6900

Reserved parameter 21

BSC6900

Reserved parameter 22

BSC6900

Reserved parameter 23

BSC6900

Reserved parameter 24

BSC6900

Reserved parameter 25

BSC6900

Reserved parameter 26

BSC6900

Reserved parameter 27

BSC6900

Reserved parameter 28

BSC6900

Reserved parameter 29

BSC6900

Reserved parameter 3

BSC6900

Reserved parameter 4

BSC6900

Reserved parameter 5

BSC6900

Reserved parameter 6

BSC6900

Reserved parameter 7

BSC6900

Reserved parameter 8

BSC6900

Reserved parameter 9

BSC6900

In-BSC Slot No.

BSC6900

In-BSC Subrack No.

BSC6900

In-BSC Sub Timeslot No.

BSC6900

BSC Symbol Offset

BSC6900

ID of BSC in TC Pool

BSC6900

ID of a BSC in TC Pool

BSC6900

In-BSC Timeslot No.

BSC6900

BS_CV_MAX

BSC6900

Transfer BTS/MS Power Class

BSC6900

Number of PAGCH Blocks

BSC6900

Multi-Frames in a Cycle on the Paging CH

BSC6900

Number of PBCCH Blocks

BSC6900

Number of PRACH Blocks

BSC6900

BSS Local Switching General Strategy

BSC6900

MSC-Collaborated BSS Local Switching

BSC6900

BSS Paging Co-ordination

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

BM/TC config flag

BSC6900

BM/TC config flag

BSC6900

Adjust Voltage

BSC6900

BTS Bar Code

BSC6900

BTS Communication Type

BSC6900

BTS Communication Type

BSC6900

BTS Description

BSC6900

BTS Detect Switch

BSC6900

Site Index

BSC6900

BTS Index

BSC6900

BTS Index

BSC6900

Connect BSC BTS Index

BSC6900

BTS Index List

BSC6900

BTS Index Type

BSC6900

BTS Index Type

BSC6900

Site Index Collect

BSC6900

BTS IP

BSC6900

Options for BTS Local Switch

BSC6900

Subnet Mask

BSC6900

MR.Preprocessing

BSC6900

BTS Name

BSC6900

Connect BSC BTS Name

BSC6900

BTS Name List

BSC6900

BTS Ping Switch

BSC6900

BTS Power-off Lock BCCH

BSC6900

BTS PC Class

BSC6900

Switch for BTS Supporting SAIC PC Adjust

BSC6900

BTS Software Version

BSC6900

Transmission Compression Ratio

BSC6900

BTS Type

BSC6900

BTS Type

BSC6900

BTS Type

BSC6900

Time for Waiting to Restore

BSC6900

BT Test Type

BSC6900

Battery Type

BSC6900

Ring II Try Rotating Duration Time

BSC6900

Bundling Flag

BSC6900

PTP BVC Identifier

BSC6900

PTPBVC Identifier

BSC6900

BVC Flow Control Timer

BSC6900

Auto adjust bandwidth switch

BSC6900

Backward congestion remain bandwidth

BSC6900

Backward congestion clear remain bandwidth

BSC6900

Backward congestion clear remain ratio

BSC6900

Backward congestion remain ratio

BSC6900

Backward overload congestion clear remain bandwidth

BSC6900

Backward overload congestion clear remain ratio

BSC6900

Backward overload congestion remain bandwidth

BSC6900

Backward overload congestion remain ratio

BSC6900

Backward handover reserved ratio

BSC6900

Backward handover reserved bandwidth

BSC6900

Max bandwidth estimate ratio [%]

BSC6900

Bandwidth Mode

BSC6900

Load Control algorithm BandWidth THD[%]

BSC6900

Up Down Balance Alarm Threshold

BSC6900

Cell Index Type

BSC6900

GPRS Cell Reselect Hysteresis Applied to C31 Criterion

BSC6900

Exceptional Rule for GPRS Reselect Offset

BSC6900

Cabinet Description

BSC6900

Cabinet List

BSC6900

Is remote cabinet

BSC6900

Call Reestablishment Forbidden

BSC6900

Calibration Value

BSC6900

PWRC

BSC6900

Capacity and Coverage Optimize Switch

BSC6900

Card Frequency Attribute

BSC6900

Carry Flag

BSC6900

The bearing type of the logic port

BSC6900

Carry port type

BSC6900

Cell Bar Access

BSC6900

CBC INDEX

BSC6900

CBC IP

BSC6900

CBC ITF Para

BSC6900

CBC Port

BSC6900

Cb No Message Disconnection Timer

BSC6900

Cell Bar Qualify

BSC6900

Consent burst size [Byte]

BSC6900

Cell Broadcast Handshake Timer

BSC6900

Filter Length for SDCCH CV_BEP

BSC6900

Filter Length for TCH CV_BEP

BSC6900

CC

BSC6900

Certificate Chain File Enabled State

BSC6900

CCCH Load Indication Period

BSC6900

CCCH Load Threshold

BSC6900

DSCP of CONV[QoS]

BSC6900

CCM Send Prid

BSC6900

Cell Directed Retry Forbidden Threshold

BSC6900

1800 Reporting Offset

BSC6900

1800 Reporting Threshold

BSC6900

2G NCELL BCCH

BSC6900

2GBA1 Input Tag

BSC6900

2G NCELL BCCH

BSC6900

2GBA2 Input Tag

BSC6900

Cell 8PSK Power Attenuation Grade

BSC6900

900 Reporting Offset

BSC6900

900 Reporting Threshold

BSC6900

Cell Access Bar Switch

BSC6900

Cell Coverage Type

BSC6900

Even Charging Voltage

BSC6900

Even Charging Voltage

BSC6900

Float Charging Voltage

BSC6900

Float Charging Voltage

BSC6900

Cell Index

BSC6900

Cell Index

BSC6900

Cell Index

BSC6900

Cell Index

BSC6900

Cell Index

BSC6900

Cell Index

BSC6900

Cell List

BSC6900

Cell Index Type

BSC6900

Cell Index Type

BSC6900

Cell Index Type

BSC6900

Cell Inner/Extra Property

BSC6900

Layer of the cell

BSC6900

Cell Index List

BSC6900

Cell List Send Flag in ASS CMP

BSC6900

Cell SDCCH Channel Maximum

BSC6900

Cell Name

BSC6900

Cell Name

BSC6900

Cell Name

BSC6900

Cell Name List

BSC6900

Cell Operator Power Group

BSC6900

Cell Over Coverage DL RxLev Threshold

BSC6900

Cell Over Coverage TA Threshold

BSC6900

Cell Paging Overload Threshold

BSC6900

Battery Power-off Allowed State

BSC6900

Battery Power-off Voltage

BSC6900

2G/3G Cell Reselection Strategy

BSC6900

Cell Rx Quality Worsen Ratio Threshold

BSC6900

Cell Scenario

BSC6900

Select 3G Cell After Call Release

BSC6900

High Temp Alarm Assembled Battery1

BSC6900

Low Temp Alarm Assembled Battery1

BSC6900

Upper Assembled Battery 1 Temp

BSC6900

Lower Assembled Battery1 TEMP Measure

BSC6900

Battery Temperature Compensated Configure Enabled

BSC6900

Cell Weak Coverage DL RxLev Threshold

BSC6900

Cell Weak Coverage TA Threshold

BSC6900

Congestion End Threshold

BSC6900

Certificate Chain File Name

BSC6900

Board Parameter Configuration Enabled

BSC6900

Carry Flag

BSC6900

BTS Configuration Mode

BSC6900

Configure switch

BSC6900

Board Parameter Configuration Enabled

BSC6900

Board Parameter Configuration Enabled

BSC6900

Confirm Password

BSC6900

Command Group

BSC6900

Command Group

BSC6900

Congestion End Threshold

BSC6900

Congestion End Threshold

BSC6900

CGI and RAC Plan Switch

BSC6900

Command Group Name

BSC6900

Cabinet Group No.

BSC6900

Congestion Start Threshold

BSC6900

Congestion Start Threshold

BSC6900

Congestion Start Threshold

BSC6900

Chain Neighbour Cell Type

BSC6900

Combine Type

BSC6900

Channel Allocate Strategy

BSC6900

PDCH Available Threshold of Channel Failure

BSC6900

Monitoring Alarm Switch for Channel Failure

BSC6900

TCH Available Threshold of Channel Failure

BSC6900

Chan ID

BSC6900

Active CH Interf. Meas.Allowed

BSC6900

Channel Rate Type Decode Expand

BSC6900

PDCH Out-of-Synchronization Period

BSC6900

Ping Check Timeout Counts

BSC6900

Auto Check of BTS Connection Port

BSC6900

ANT_A ALD Current Detection Mode

BSC6900

ANT_B ALD Current Detection Mode

BSC6900

Check Index

BSC6900

Check Index

BSC6900

Check Times for Off

BSC6900

Check Times for On

BSC6900

Calculate checksum when receive message

BSC6900

Calculate checksum when send message

BSC6900

Checksum arithmetic

BSC6900

Check type

BSC6900

Duration

BSC6900

Channel No.

BSC6900

Channel No.

BSC6900

Channel No.

BSC6900

Channel Test Type

BSC6900

Channel Type

BSC6900

ChosenCh Send Flag in ASS CMP

BSC6900

ChosenCh Send Flag in HO Perform

BSC6900

ChosenCh Send Flag in HO REQ ACK

BSC6900

ChosenEncrypAlg Send Flag in Cipher CMP

BSC6900

ChosenEncrypAlg Send Flag in HO Perform

BSC6900

ChosenEncrypAlg Send Flag in ASS CMP

BSC6900

ChosenEncrypAlg Send Flag in HO REQ ACK

BSC6900

Channel Assign Allow for Insuff Power

BSC6900

PS CHR Collect Switch

BSC6900

Max CS CHAN REQ Num in Period

BSC6900

Average PS CHAN REQ Num

BSC6900

CHAN REQ Statistical Period

BSC6900

Channel Type

BSC6900

Cell CI

BSC6900

Cell CI

BSC6900

CIC

BSC6900

CIC

BSC6900

Number of Different Frames in CIC One-Way Mute Detection

BSC6900

CIC Downlink One-Way Mute Detection Period

BSC6900

CIC Downlink One-Way Mute Detection Switch

BSC6900

CIC Downlink One-Way Mute Detection Threshold

BSC6900

CIC Downlink One-Way Mute Detection Duration

BSC6900

CIC Pool Send Flag in ASS Fail

BSC6900

CIC Pool Send Flag in HO Fail

BSC6900

CIC Pool List Send Flag in ASS Fail

BSC6900

CIC Pool List Send Flag in HO Fail

BSC6900

CIC Pool Send Flag in ASS CMP

BSC6900

CIC Pool Send Flag in HO REQ ACK

BSC6900

Bandwidth [64kbps]

BSC6900

C/I Estimate Value

BSC6900

Slot No.

BSC6900

Subrack No.

BSC6900

Support Class11 DTM

BSC6900

Classmark Enquiry With 3G Request

BSC6900

Error clear threshold

BSC6900

Clock Mode

BSC6900

Clock Protocol Type

BSC6900

Clock board type

BSC6900

Clock Type

BSC6900

Clear Command Delay Time

BSC6900

Alarm Cleared Flag

BSC6900

Clear Command Time Interval

BSC6900

Command Name

BSC6900

Command Name

BSC6900

Command Sequence

BSC6900

Cabinet No.

BSC6900

Cabinet No.

BSC6900

Cabinet No.

BSC6900

Port Cabinet No.

BSC6900

Cabinet No.

BSC6900

Cabinet No.

BSC6900

CN Fault Delay

BSC6900

MSC ID

BSC6900

SGSN Node ID

BSC6900

CN Node Index

BSC6900

Operator Index

BSC6900

CN State Policy For Group

BSC6900

Records to Return

BSC6900

Cabinet Type

BSC6900

Cabinet Type

BSC6900

Counts Limit

BSC6900

Upper count threshold of raised fault

BSC6900

Lower count threshold of raised fault

BSC6900

Co-BSC/MSC Adj

BSC6900

Code

BSC6900

Refrigeration Equipment

BSC6900

Collection Type

BSC6900

Combiner Loss

BSC6900

Common Access Control Class

BSC6900

Password Complexity

BSC6900

BTS Transfer Compression Rate

BSC6900

Co-MSC

BSC6900

Connect BSC BTS Index Type

BSC6900

Recover threshold of queue 0 [ms]

BSC6900

Recover threshold of queue 1 [ms]

BSC6900

Recover threshold of queue 2 [ms]

BSC6900

Recover threshold of queue 3 [ms]

BSC6900

Recover threshold of queue 4 [ms]

BSC6900

Recover threshold of queue 5 [ms]

BSC6900

Congestion threshold of queue 0 [ms]

BSC6900

Congestion threshold of queue 1 [ms]

BSC6900

Congestion threshold of queue 2 [ms]

BSC6900

Congestion threshold of queue 3 [ms]

BSC6900

Congestion threshold of queue 4 [ms]

BSC6900

Congestion threshold of queue 5 [ms]

BSC6900

Concentric Circles HO Allowed

BSC6900

Connect Port No.

BSC6900

Connect power monitoring board

BSC6900

Connection Type

BSC6900

Connection Type

BSC6900

Min Interval for Consecutive HOs

BSC6900

Interval for Consecutive HO Jud.

BSC6900

Continue ping or not

BSC6900

Send PKT Count

BSC6900

Duration Second

BSC6900

Allow Dynamic Shutdown of TRX

BSC6900

CPU NO

BSC6900

CRC4 Check Switch

BSC6900

Cell Reselect Hysteresis Parameters

BSC6900

Certificate Revocation List File Name

BSC6900

Certificate Revocation List File State

BSC6900

Channel Release Resend Interval

BSC6900

Channel Release Resend Number

BSC6900

Cell Reselect Offset

BSC6900

Cross Call Detect Time Threshold

BSC6900

Cross IP address available flag

BSC6900

CHR Supplementary Info Output Control

BSC6900

Bad Speech Quality Rate Threshold

BSC6900

CHR MR Output

BSC6900

Abnormal Call End Output Control

BSC6900

GSM CS data service downlink factor

BSC6900

CS data path

BSC6900

CS data priority

BSC6900

GSM CS data service uplink factor

BSC6900

CS Data Service PRI

BSC6900

CHR Handover Information Output

BSC6900

Output MR Before Call Release

BSC6900

Output MR Before Handover

BSC6900

CHR Output Mode

BSC6900

CHR Output Range

BSC6900

CHR Function Switch

BSC6900

CHR Signaling Output

BSC6900

Congestion Start Threshold

BSC6900

Service Type of CHR Output

BSC6900

GSM CS voice service downlink factor

BSC6900

CHR Speech Information

BSC6900

CS voice path

BSC6900

CS voice priority

BSC6900

GSM CS voice service uplink factor

BSC6900

CS Voice Service PRI

BSC6900

Self-healing Switch for Ethernet Adapter Traffic Monitoring

BSC6900

Timer alignment ready

BSC6900

Timer not aligned

BSC6900

Timer aligned

BSC6900

Timer emergency proving

BSC6900

Timer normal proving

BSC6900

Timer sending SIB

BSC6900

Timer remote congestion

BSC6900

Timer excessive delay of acknowledgement

BSC6900

Timer interval of resending FISU

BSC6900

Critical threshold

BSC6900

Critical threshold

BSC6900

Control BSC DPC

BSC6900

Control Acknowledge Type

BSC6900

Control Flag

BSC6900

Control Port Cabinet No.

BSC6900

Control Port No.

BSC6900

Control Port Slot No.

BSC6900

Control Port Subrack No.

BSC6900

Slot No.

BSC6900

Control Plane Slot No.

BSC6900

Control Plane Subrack No.

BSC6900

CM Control Enable Switch

BSC6900

HO_RQD Current Channel

BSC6900

C-Version No.

BSC6900

Period of New File Generation[min]

BSC6900

Data file

BSC6900

Filter Length for TCH Qual

BSC6900

Filter Length for TCH Level

BSC6900

Data Service Allowed

BSC6900

Date Limit

BSC6900

Date

BSC6900

Prohib DynShutdown TRX DateRangeIdx

BSC6900

Day

BSC6900

Dead Band

BSC6900

BCCH IUO of Double Frequency Cell

BSC6900

Same Group Cell Index

BSC6900

Same Group Cell Name

BSC6900

Same Group Cell Index Type

BSC6900

DC Low Voltage Alarm Cabinet No.

BSC6900

DC Low Voltage Alarm Port No.

BSC6900

DC Low Voltage Alarm Slot No.

BSC6900

DC Low Voltage Alarm Subrack No.

BSC6900

DC Voltage Lower Threshold

BSC6900

DC Overvoltage Alarm Threshold

BSC6900

DC Under Voltage Alarm Threshold

BSC6900

DC Voltage Upper Threshold

BSC6900

Number of Dynamic Channel Pre-Converted

BSC6900

T3111

BSC6900

Destination entity No.

BSC6900

Description

BSC6900

Anti-theft Equipment

BSC6900

Destination IP address

BSC6900

Destination IP address

BSC6900

Destination IP address

BSC6900

RMEP ID

BSC6900

Transport Link Type

BSC6900

Dest Node Type

BSC6900

Peer Slot No.

BSC6900

Peer Subrack No.

BSC6900

Peer Subsystem No.

BSC6900

Destination Main BCCH TRX ID

BSC6900

Period of Mute Detect Class2 TRAU Frame

BSC6900

Detect Period

BSC6900

Switch for Abis Timeslot Detection

BSC6900

Device Name

BSC6900

Device No.

BSC6900

Borrowed device IP address

BSC6900

Device IP Address Type

BSC6900

DL UARFCN

BSC6900

DFCB Board SN

BSC6900

DFCB Board SRN

BSC6900

Default DPC

BSC6900

The Type of FTP Server Command Port

BSC6900

DGPS data report period[min]

BSC6900

DHCP Relay Gateway IP Address

BSC6900

DHCP Relay ID

BSC6900

Diesel Engine Save Switch

BSC6900

Different Band SDCCH Using Optimize

BSC6900

Date in Month

BSC6900

Date in Week

BSC6900

Directory

BSC6900

File Directory

BSC6900

Directed Retry AssFail Send Enable

BSC6900

Directed Retry

BSC6900

Directly Magnifier BTS Flag

BSC6900

Disconnect Handover Protect Timer

BSC6900

Diversity

BSC6900

Diversity Transmitter 16QAM Delay

BSC6900

Diversity Transmitter 32QAM Delay

BSC6900

Diversity Transmitter 8PSK Delay

BSC6900

Four Diversity Receiver

BSC6900

PwrCtrlDLAdjPeriod

BSC6900

DLAFSRexQualHighThred

BSC6900

DLAFSRexQualLowThred

BSC6900

DLAHSRexQualHighThred

BSC6900

DLAHSRexQualLowThred

BSC6900

The Identifier of Data Link Connection

BSC6900

Fast DL Priority Decision Threshold

BSC6900

Support Downlink Dual-Carrier

BSC6900

Edge HO DL RX_LEV Threshold

BSC6900

III DL Filter Adjust Factor

BSC6900

DLFSRexQualHighThred

BSC6900

DLFSRexQualLowThred

BSC6900

Downlink GPRS TBF Window Expansion Optimization

BSC6900

DLHSRexQualHighThred

BSC6900

DLHSRexQualLowThred

BSC6900

AMR DL Coding Rate adj.hyst1[F]

BSC6900

AMR DL Coding Rate adj.hyst2[F]

BSC6900

AMR DL Coding Rate adj.hyst3[F]

BSC6900

AMR DL Coding Rate adj.hyst1[H]

BSC6900

AMR DL Coding Rate adj.hyst2[H]

BSC6900

AMR DL Coding Rate adj.hyst3[H]

BSC6900

AMR DL Coding Rate adj.hyst1[WB]

BSC6900

AMR DL Coding Rate adj.hyst2[WB]

BSC6900

Interf.of DL Level Threshold

BSC6900

Interf.of DL Qual.Threshold

BSC6900

2G Cell DL Basic Congest Thred

BSC6900

Filter Length for DL RX_LEV

BSC6900

Downlink Long-term FER Lower Threshold

BSC6900

Downlink Long-term FER Target

BSC6900

Downlink Long-term FER Upper Threshold

BSC6900

Downlink Threshold Adjust Factor

BSC6900

DLMAXDownStep

BSC6900

DLMAXUpStep

BSC6900

2G Cell DL Overload Congest Thred

BSC6900

DL MR. Number Predicted

BSC6900

DL Qual. Upper Threshold

BSC6900

DL Qual. Lower Threshold

BSC6900

Filter Length for DL Qual.

BSC6900

DL Qual. Bad Trig Threshold

BSC6900

DL Qual. Bad UpLEVDiff

BSC6900

DL Qual. Threshold

BSC6900

DL Qual. Limit for AMR FR

BSC6900

DL Qual. Limit for AMR HR

BSC6900

DLRexLevAdjustFactor

BSC6900

DLRexLevExponentFilterLen

BSC6900

DLRexLevHighThred

BSC6900

DLRexLevLowthred

BSC6900

DLRexLevSlideWindow

BSC6900

DLRexQualAdjustFactor

BSC6900

DLRexQualExponentFilterLen

BSC6900

DLRexQualSlideWindow

BSC6900

III DL RexLev Protect Factor

BSC6900

III DL RexQual Protect Factor

BSC6900

DL RX_LEV Upper Threshold

BSC6900

DL RX_LEV Lower Threshold

BSC6900

Downlink TBF Establishment Delay

BSC6900

Download Test Resend Interval

BSC6900

Download Test Resend Number

BSC6900

AMR DL Coding Rate adj.th1[F]

BSC6900

AMR DL Coding Rate adj.th2[F]

BSC6900

AMR DL Coding Rate adj.th3[F]

BSC6900

AMR DL Coding Rate adj.th1[H]

BSC6900

AMR DL Coding Rate adj.th2[H]

BSC6900

AMR DL Coding Rate adj.th3[H]

BSC6900

AMR DL Coding Rate adj.th1[WB]

BSC6900

AMR DL Coding Rate adj.th2[WB]

BSC6900

Down MDU A

BSC6900

Down MDU B

BSC6900

Domain

BSC6900

Downlink Default CS Type

BSC6900

Downlink Default MCS Type

BSC6900

Downlink EGPRS2-A Default MCS Type

BSC6900

Downlink EGPRS2-A Fixed MCS Type

BSC6900

Downlink Fixed CS Type

BSC6900

Downlink Fixed MCS Type

BSC6900

DL PC Allowed

BSC6900

Short Message Downlink Disabled

BSC6900

Release Delay of Downlink TBF

BSC6900

Downlink TBF Threshold from CS2 to CS1

BSC6900

Downlink TBF Threshold from CS3 to CS2

BSC6900

Downlink TBF Threshold from CS4 to CS3

BSC6900

Downlink TBF Threshold from CS1 to CS2

BSC6900

Downlink TBF Threshold from CS2 to CS3

BSC6900

Downlink TBF Threshold from CS3 to CS4

BSC6900

Enable Door Status Alarm Reporting

BSC6900

Double Antenna Gain

BSC6900

DSP code[Whole Number]

BSC6900

DSP code[Divided Number]

BSC6900

DPC Group Index

BSC6900

DPC Group Index

BSC6900

DPC Group Index

BSC6900

DSP type

BSC6900

DSP index

BSC6900

DPX

BSC6900

Directed Retry Handover Level Range

BSC6900

Drop Optimize ABIS Link Failure

BSC6900

Drop Optimize Conn Fail[HO access fail]

BSC6900

Drop Optimize Conn Fail[OM intervention]

BSC6900

Drop Optimize Conn Fail[other]

BSC6900

Drop Optimize Conn Fail[radio link fail]

BSC6900

Drop Optimize Conn Fail[resource not available]

BSC6900

Drop Optimize Equipment Failure

BSC6900

Drop Optimize Err Ind[unsolicited DM response]

BSC6900

Drop Optimize Err Ind[sequence error]

BSC6900

Drop Optimize Err Ind[T200 timeout]

BSC6900

Drop Optimize Forced Handover Failure

BSC6900

Drop Optimize Into-BSC Handover Timeout

BSC6900

Drop Optimize Intra-BSC Handover Timeout

BSC6900

Drop Optimize Intra-Cell Handover Timeout

BSC6900

Drop Optimize No MR for Long Time

BSC6900

Drop Optimize Out-BSC Handover Timeout

BSC6900

Drop Optimize Release Indication

BSC6900

Drop Optimize Resource Check

BSC6900

Packet discard threshold of queue 0 [ms]

BSC6900

Packet discard threshold of queue 1 [ms]

BSC6900

Packet discard threshold of queue 2 [ms]

BSC6900

Packet discard threshold of queue 3 [ms]

BSC6900

Packet discard threshold of queue 4 [ms]

BSC6900

Packet discard threshold of queue 5 [ms]

BSC6900

Drop Power Time Interval[T3]

BSC6900

Drop Power Start Time[T1]

BSC6900

Drop Power Step

BSC6900

SMCBC DRX

BSC6900

Max. Duration of DRX

BSC6900

Dehumidification Equipment

BSC6900

E1T1 port No.

BSC6900

E1T1 port No.

BSC6900

Differentiated Service Codepoint

BSC6900

Differentiated services code point

BSC6900

Differentiated Service Codepoint

BSC6900

DSCP

BSC6900

DSP Kickoff Timer

BSC6900

DSP No.

BSC6900

DSP No.

BSC6900

DSP No.

BSC6900

DSP No.

BSC6900

DSP No.

BSC6900

DSP Recover Timer

BSC6900

DaylightSave

BSC6900

Destination File Name

BSC6900

Destination IP address

BSC6900

Destination IP Address

BSC6900

Destination IP Address

BSC6900

Destination address mask

BSC6900

Destination Address Mask

BSC6900

Destination port No.

BSC6900

Destination timeslot mask

BSC6900

Directed Retry Load Access Threshold

BSC6900

DRX Type

BSC6900

Down Link No.

BSC6900

Down Link No.

BSC6900

Down TRX Board Pass No.

BSC6900

Down TRX Board Pass No.

BSC6900

Down TRX Slot No.

BSC6900

Down TRX Slot No.

BSC6900

Down TRX Subrack No.

BSC6900

Down TRX Subrack No.

BSC6900

Dummy Bit Randomization Switch

BSC6900

Duplex Mode

BSC6900

Duration

BSC6900

Duration Hour

BSC6900

Duration

BSC6900

Duration

BSC6900

Downlink Multiplex Threshold of Dynamic Channel Conversion

BSC6900

DL Signal Strength Limit

BSC6900

Up DXX Index

BSC6900

DXX Index

BSC6900

Up DXX Port No.

BSC6900

Timer of Releasing Idle Dynamic Channel

BSC6900

Level of Preempting Dynamic Channel

BSC6900

Reservation Threshold of Dynamic Channel Conversion

BSC6900

Allow Dynamic Shutdown of TRX

BSC6900

Dynamic Transmission Div Supported

BSC6900

Duration

BSC6900

Port No.

BSC6900

E1 Port No Connect To BSC

BSC6900

Transmission Board Type

BSC6900

E1/T1 port No.

BSC6900

E1/T1 Port No.

BSC6900

Backboard E1/T1 Port No.

BSC6900

E1/T1 Type

BSC6900

Check IP address

BSC6900

Ec/No Offset

BSC6900

Ec/No Threshold for Layer Of 3G Cell

BSC6900

ECSC

BSC6900

End Serial No.

BSC6900

End Date

BSC6900

End Date

BSC6900

End Date

BSC6900

End Date

BSC6900

End date

BSC6900

Number of Satisfactory Measurements

BSC6900

Total Number of Measurements

BSC6900

Subcell HO Allowed Flow Control Level

BSC6900

EDGE

BSC6900

Edge HO AdjCell Valid Time

BSC6900

Edge HO AdjCell Watch Time

BSC6900

Handover Algorithm II Edge HO Valid Time

BSC6900

Handover Algorithm I Edge HO Valid Time

BSC6900

Handover Algorithm II Edge HO Watch Time

BSC6900

Handover Algorithm I Edge HO Watch Time

BSC6900

Effect Immediately Flag

BSC6900

Support 11BIT EGPRS Access

BSC6900

EGPRS2-A

BSC6900

EDGE 8PSK Quality Threshold

BSC6900

EDGE GMSK Quality Threshold

BSC6900

EndType

BSC6900

Priority of Emergency Call

BSC6900

Emergency verification

BSC6900

Error emit threshold

BSC6900

EML DSCP

BSC6900

Allow EMLPP

BSC6900

eMLPP Priority

BSC6900

eMLPP Priority In Paging

BSC6900

EML Priority

BSC6900

EML Service PRI

BSC6900

EML VlanId

BSC6900

End month

BSC6900

EMS IP Address

BSC6900

Fallback Function Enable

BSC6900

TMA Power Supply Enabled

BSC6900

Encryption Algorithm

BSC6900

Transport Encrypted Mode

BSC6900

The Encrypted Mode

BSC6900

Support End-to-end User Tracing Function

BSC6900

End Alarm ID

BSC6900

End CIC

BSC6900

End CIC

BSC6900

Prohibit Power Saving End Day

BSC6900

Heater Shutdown Temperature

BSC6900

Prohibit Power Saving End Month

BSC6900

End Sub Timeslot NO.

BSC6900

Time When the Function Is Disabled

BSC6900

End TS

BSC6900

End TS

BSC6900

End Timeslot NO.

BSC6900

Status

BSC6900

Subtask Status

BSC6900

En Iuo Out Cell General OverLoad Thred

BSC6900

User Plane DL Flow Ctrl Switch

BSC6900

Enhanced Concentric Allowed

BSC6900

Load Classification HO Period

BSC6900

Load Classification HO Step

BSC6900

En Iuo Out Cell Low Load Thred

BSC6900

Transmission Resource Preempting Support

BSC6900

Transmission Resource Queuing Support

BSC6900

En Iuo Out Cell Serious OverLoad Thred

BSC6900

Enhanced TCH Adjust Allowed

BSC6900

Local entity type

BSC6900

Destination entity type

BSC6900

IniLev for EnUtoO Load HO

BSC6900

EPLC Switch

BSC6900

Return Code

BSC6900

Emergent Call Disable

BSC6900

Error-frame alarm threshold

BSC6900

Error-frame detect switch

BSC6900

ESL DSCP

BSC6900

ESL Priority

BSC6900

ESL Service PRI

BSC6900

ESL VlanId

BSC6900

End Sync Serial No.

BSC6900

T3101

BSC6900

Add TA to A Interface EST IND

BSC6900

Ring II Rotating Penalty Time

BSC6900

EndTime

BSC6900

End Time

BSC6900

End Time

BSC6900

Execute Type

BSC6900

End Time

BSC6900

End Time

BSC6900

End Time

BSC6900

End Time

BSC6900

End Date

BSC6900

End Time

BSC6900

Log Type

BSC6900

End Time

BSC6900

End week

BSC6900

End week sequence

BSC6900

Upper Limit of Signal Output of External Analog 1

BSC6900

Lower Limit of Signal Output of External Analog 1

BSC6900

Sensor Type of External Analog 1

BSC6900

Upper Limit of Measurement Range of External Analog 1

BSC6900

Lower Limit of Measurement Range of External Analog 1

BSC6900

Upper Limit of Signal Output of External Analog 2

BSC6900

Lower Limit of Signal Output of External Analog 2

BSC6900

Sensor Type of External Analog 2

BSC6900

Upper Limit of Measurement Range of External Analog 2

BSC6900

Lower Limit of Measurement Range of External Analog 2

BSC6900

Upper Limit of Signal Output of External Analog 3

BSC6900

Lower Limit of Signal Output of External Analog 3

BSC6900

Sensor Type of External Analog 3

BSC6900

Upper Limit of Measurement Range of External Analog 3

BSC6900

Lower Limit of Measurement Range of External Analog 3

BSC6900

Upper Limit of Signal Output of External Analog 4

BSC6900

Lower Limit of Signal Output of External Analog 4

BSC6900

Sensor Type of External Analog 4

BSC6900

Upper Limit of Measurement Range of External Analog 4

BSC6900

Lower Limit of Measurement Range of External Analog 4

BSC6900

Exclusive Access

BSC6900

Exceptional Frame Threshold of Mute Detect Class1

BSC6900

Expected DL RX_LEV

BSC6900

Expected UL RX_LEV

BSC6900

Cell Index

BSC6900

Cell Name

BSC6900

Cell Index

BSC6900

Cell Name

BSC6900

BSC Adjacent Cell Index

BSC6900

BSC Adjacent Cell Name

BSC6900

Extended Cell Throughput Enhancement

BSC6900

Extended Switch of Input Alarm

BSC6900

Extension Measurement Command

BSC6900

Extension MR Period

BSC6900

Extension MR Type

BSC6900

Cell Extension Type

BSC6900

Not Send Dummy Message with Extended Uplink TBF

BSC6900

FACCH Msg Resend Interval

BSC6900

FACCH Send Notification Msg Indication

BSC6900

FACCH Send Paging Msg Indication

BSC6900

TRM Factor switch

BSC6900

Factory Mode

BSC6900

Penalty Level after HO Fail

BSC6900

Continuous adjustment command

BSC6900

Discrete adjustment command

BSC6900

Duty ratio adjustment command

BSC6900

Fan adjustment mode

BSC6900

Fan Type

BSC6900

Speed adjustment mode

BSC6900

FanBox Type

BSC6900

Fast Call Setup TCH Usage Threshold

BSC6900

Configure Ring II

BSC6900

Fault Detect Switch

BSC6900

Physical layer flow control switch

BSC6900

Flow Control

BSC6900

Flow Control End Threshold

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Cabinet No. of Parent BTS

BSC6900

Cabinet No. of Father BTS

BSC6900

Flow Control Start Threshold

BSC6900

CRC check mode

BSC6900

CRC check mode

BSC6900

Flow control switch

BSC6900

Float-Charging Voltage

BSC6900

FDDBA1 Input Tag

BSC6900

FDDBA2 Input Tag

BSC6900

FDD Reporting Offset

BSC6900

FDD Reporting Threshold

BSC6900

Diversity Indication

BSC6900

Downlink Frequency

BSC6900

PS FDD Ec/No Quality Threshold

BSC6900

FDD Multirate Reporting

BSC6900

FDD Qmin

BSC6900

FDD Qmin Offset

BSC6900

FDD Q Offset

BSC6900

FDD REP QUANT

BSC6900

FDD RSCP Min.

BSC6900

PS FDD RSCP Quality Threshold

BSC6900

Scrambling Code

BSC6900

Fast judgement window

BSC6900

FER Report Enable

BSC6900

FER Threshold 1

BSC6900

FER Threshold 2

BSC6900

FER Threshold 3

BSC6900

FER Threshold 4

BSC6900

FER Threshold 5

BSC6900

FER Threshold 6

BSC6900

FER Threshold 7

BSC6900

Frequency Hopping Mode

BSC6900

File Name

BSC6900

Target File Path

BSC6900

File Name

BSC6900

Export File Path

BSC6900

Log File Type

BSC6900

Filter Window Size

BSC6900

Final

BSC6900

0.2dB Power Control Enable

BSC6900

Fire-extinguishing Equipment

BSC6900

Fix Abis Prior Choose Load Thred

BSC6900

Flash Alarm Clear Threshold

BSC6900

Flash Alarm Occur Threshold

BSC6900

Flash Filter Enable

BSC6900

Flash Statistic Alarm Clear Time Window

BSC6900

Flash Statistic Alarm Raise Time Window

BSC6900

Flex Abis Mode

BSC6900

Start Flex MAIO Switch

BSC6900

Flex TSC Switch

BSC6900

Flux Measurement Period

BSC6900

Fast Flux Measurement Period

BSC6900

Flow control switch

BSC6900

Flow control switch

BSC6900

Flow control switch

BSC6900

Flow control switch

BSC6900

Flow control switch

BSC6900

Flow control switch

BSC6900

Filter Parameter A1

BSC6900

Filter Parameter A2

BSC6900

Filter Parameter A3

BSC6900

Filter Parameter A4

BSC6900

Filter Parameter A5

BSC6900

Filter Parameter A6

BSC6900

Filter Parameter A7

BSC6900

Filter Parameter A8

BSC6900

Filter Parameter B

BSC6900

FLUSH-LL PDU Transfer Switch

BSC6900

MS_TXPWR_MAX_CCH

BSC6900

FMU Board Type

BSC6900

File Name

BSC6900

File Name

BSC6900

File Name

BSC6900

File Name

BSC6900

File Name

BSC6900

File Name

BSC6900

File Name

BSC6900

Allow E Down G Up Switch

BSC6900

Anti DPC Intermittent Disconnect Timer

BSC6900

Force Limit Time

BSC6900

Force MS Two-phase Access

BSC6900

Allow Forced EFR in Cell

BSC6900

Force MS to Send Ho Access SWITCH

BSC6900

Dest Father BTS Port No.

BSC6900

Dest Father BTS Port No.

BSC6900

Maximum Delay Time[ms]

BSC6900

Freq. and BSIC Optimize Switch

BSC6900

Freq. and BSIC Plan Switch

BSC6900

Freq. and BSIC Plan Switch

BSC6900

MP flake size

BSC6900

Frame Offset [Frame No]

BSC6900

Frame Offset

BSC6900

FR Use Downlink DTX

BSC6900

Time Mode

BSC6900

Time Mode

BSC6900

Frequency

BSC6900

Frequency 1

BSC6900

Frequency 10

BSC6900

Frequency 11

BSC6900

Frequency 12

BSC6900

Frequency 13

BSC6900

Frequency 14

BSC6900

Frequency 15

BSC6900

Frequency 16

BSC6900

Frequency 17

BSC6900

Frequency 18

BSC6900

Frequency 19

BSC6900

Frequency 2

BSC6900

Frequency 20

BSC6900

Frequency 21

BSC6900

Frequency 22

BSC6900

Frequency 23

BSC6900

Frequency 24

BSC6900

Frequency 25

BSC6900

Frequency 26

BSC6900

Frequency 27

BSC6900

Frequency 28

BSC6900

Frequency 29

BSC6900

Frequency 3

BSC6900

Frequency 30

BSC6900

Frequency 31

BSC6900

Frequency 32

BSC6900

Frequency 33

BSC6900

Frequency 34

BSC6900

Frequency 35

BSC6900

Frequency 36

BSC6900

Frequency 37

BSC6900

Frequency 38

BSC6900

Frequency 39

BSC6900

Frequency 4

BSC6900

Frequency 40

BSC6900

Frequency 41

BSC6900

Frequency 42

BSC6900

Frequency 43

BSC6900

Frequency 44

BSC6900

Frequency 45

BSC6900

Frequency 46

BSC6900

Frequency 47

BSC6900

Frequency 48

BSC6900

Frequency 49

BSC6900

Frequency 5

BSC6900

Frequency 50

BSC6900

Frequency 51

BSC6900

Frequency 52

BSC6900

Frequency 53

BSC6900

Frequency 54

BSC6900

Frequency 55

BSC6900

Frequency 56

BSC6900

Frequency 57

BSC6900

Frequency 58

BSC6900

Frequency 59

BSC6900

Frequency 6

BSC6900

Frequency 60

BSC6900

Frequency 61

BSC6900

Frequency 62

BSC6900

Frequency 63

BSC6900

Frequency 64

BSC6900

Frequency 7

BSC6900

Frequency 8

BSC6900

Frequency 9

BSC6900

Frequency Adjust Switch

BSC6900

Frequency Adjust Value

BSC6900

Frequency Band Attribute

BSC6900

GSM900 Band Traffic Load Share Threshold

BSC6900

Freq Band List

BSC6900

Frequency Reuse Mode

BSC6900

Frequency List

BSC6900

Frequency Scan Result Type

BSC6900

Edge HO Allowed

BSC6900

FR Uplink DTX

BSC6900

Slot No. of Father BTS

BSC6900

Slot No. of Father BTS

BSC6900

Subrack No. of Parent BTS

BSC6900

Subrack No. of Father BTS

BSC6900

File Type

BSC6900

Factor table index

BSC6900

Factor table index

BSC6900

Factor table index

BSC6900

F-H ATCB Offset Overlay

BSC6900

F-H Ho Duration

BSC6900

F-H Ho Last Time

BSC6900

F-H Pathloss Offset Overlay

BSC6900

F-H Ho Period

BSC6900

F-H Ho Stat. Time

BSC6900

Forward congestion remain bandwidth

BSC6900

Forward congestion clear remain bandwidth

BSC6900

Forward congestion clear remain ratio

BSC6900

Forward congestion remain ratio

BSC6900

Forward overload congestion clear remain bandwidth

BSC6900

Forward overload congestion clear remain ratio

BSC6900

Forward overload congestion remain bandwidth

BSC6900

Forward overload congestion remain ratio

BSC6900

Forward handover reserved ratio

BSC6900

Forward handover reserved bandwidth

BSC6900

CS 2G 3G Load Balance Delta Threshold

BSC6900

2G Load Adjustment Coefficient

BSC6900

G711 Mode

BSC6900

GAMMA

BSC6900

Offset Information Collection End Time

BSC6900

Load Threshold of Offset Collection

BSC6900

Offset Information Collection Switch

BSC6900

Offset Information Collection Start Time

BSC6900

Support GBR QoS

BSC6900

Group Call Check

BSC6900

GCDF

BSC6900

VGCS Channel Assign in Channel Enable

BSC6900

VGCS IM Preemption Enable

BSC6900

Global route management switch

BSC6900

Diversity Transmitter GMSK Delay

BSC6900

GPRS

BSC6900

Support GPRS

BSC6900

GPRS Cell Reselect Hysteresis

BSC6900

PDCH Channel Priority Type

BSC6900

Threshold of HCS Signal Strength

BSC6900

GPRS Penalty Time

BSC6900

GPRS Quality Threshold

BSC6900

GPRS Temporary Offset

BSC6900

GPS or Glonass

BSC6900

GPS data report period

BSC6900

Grade Access Allow

BSC6900

Group Call Num 1

BSC6900

Group Call Num 2

BSC6900

BSC Node Redundancy Group Index

BSC6900

BSC Node Redundancy Group Name

BSC6900

Group Release TS Number

BSC6900

Transport Resource Group No.

BSC6900

Transport Resource Group Type

BSC6900

Geography Scope

BSC6900

CS ratio

BSC6900

GSM CS High Level Standard

BSC6900

Serving Band Reporting

BSC6900

GSM-to-TD Cell Reselection Allowed

BSC6900

ICMP type which will be guarded

BSC6900

BTS SeGW IP Address

BSC6900

BTS Security Gateway IP Address

BSC6900

Support Half Rate Data Service

BSC6900

H-F ATCB Offset Overlay

BSC6900

H-F Ho Duration

BSC6900

H-F Ho Last Time

BSC6900

H-F Pathloss Offset Overlay

BSC6900

H-F Ho Stat. Time

BSC6900

Antenna Tributary 1 Flag

BSC6900

Antenna Tributary 2 Flag

BSC6900

Heartbeat interval

BSC6900

Head Cabinet No.

BSC6900

HCS HO Valid Time

BSC6900

HCS HO Watch Time

BSC6900

Hierarchical Power Para1

BSC6900

Hierarchical Power Para2

BSC6900

Support High Frequency Band

BSC6900

Highest Priority for Quality First

BSC6900

Highest-Priority MSs Rapid Preemption

BSC6900

Highest Priority User Quality First

BSC6900

High Temp Load Power Off

BSC6900

History Record Priority Allowed

BSC6900

Maximum History Password Numbers

BSC6900

Support HMC DTM

BSC6900

Pref. Subcell in HO of Intra-BSC

BSC6900

Handover Between Operators Allow

BSC6900

Min DL Level on Candidate Cell

BSC6900

Min UL Level on Candidate Cell

BSC6900

Specify Index of Cell Handover to

BSC6900

Cell Name of Handover to

BSC6900

Current HO Control Algorithm

BSC6900

Handover Direction Forecast Enable

BSC6900

Handover Direction Forecast Last Times

BSC6900

Handover Direction Forecast Statistic Times

BSC6900

Quick Handover Down Trigger Level

BSC6900

FDD 3G Better Cell HO Valid Time

BSC6900

TDD 3G Better Cell HO Valid Time

BSC6900

Ec/No Threshold for Better 3G Cell HO

BSC6900

Quick Handover Last Time

BSC6900

Handover Scope

BSC6900

Quick Handover Offset

BSC6900

Handover to Overlayer RxLev Offset

BSC6900

Inter-rat HO Preference

BSC6900

Inter UL/OL Subcells HO Penalty Time

BSC6900

Hop Index

BSC6900

Hop Index

BSC6900

Hop Mode

BSC6900

Power Boost before HO Enabled or Not

BSC6900

HO Preference Threshold for 2G Cell

BSC6900

Hop Group Single Freq Optimization

BSC6900

Hop TRX Group HSN

BSC6900

Hop TRX Group Index

BSC6900

Hop Type

BSC6900

Quick Handover Punish Value

BSC6900

BSC HO Protect Time

BSC6900

RSCP Threshold for Better 3G Cell HO

BSC6900

Speech VER in SDCCH HO REQ ACK

BSC6900

FDD 3G Better Cell HO Watch Time

BSC6900

TDD 3G Better Cell HO Watch Time

BSC6900

Quick Handover Static Time

BSC6900

The host type of signalling point

BSC6900

HostType

BSC6900

Inter-layer HO Threshold

BSC6900

Quick Handover Up Trigger Level

BSC6900

Cell Antenna Hopping

BSC6900

Cell Antenna Hopping

BSC6900

Head Port No.

BSC6900

Highest Priority

BSC6900

Hierarchical Power-off Config. Enabled

BSC6900

Load Power-off Voltage

BSC6900

Support Half Rate

BSC6900

HR Use Downlink DTX

BSC6900

Load of UL-OL Cells Rate Select Allowed

BSC6900

HR Uplink DTX

BSC6900

HSN

BSC6900

Head Slot No.

BSC6900

HSN Modification Switch

BSC6900

Head Subrack No.

BSC6900

Hop Type

BSC6900

High Temperature Critical Point

BSC6900

High Temperature Delta Tout

BSC6900

High Temperature Shutdown Flag

BSC6900

Enable Humidity Alarm Reporting

BSC6900

Upper Limit of Humidity Alarm

BSC6900

Lower Limit of Humidity Alarm

BSC6900

Upper Threshold of Humidity Alarm

BSC6900

Upper Threshold of Humidity Alarm

BSC6900

Lower Threshold of Humidity Alarm

BSC6900

Lower Threshold of Humidity Alarm

BSC6900

Hysteresis for On

BSC6900

Inactive RX timer

BSC6900

Duration

BSC6900

Port No.

BSC6900

Transmission Board Type

BSC6900

Inactive TX timer

BSC6900

IBCA AMR FR Soft Block Threshold

BSC6900

IBCA AMR HR Soft Block Threshold

BSC6900

IBCA Allowed

BSC6900

IBCA Assign Waiting Mr Time

BSC6900

IBCA Call Information Filter

BSC6900

IBCA Set-up Call Soft Block Threshold Offset

BSC6900

Target CIR Offset of IBCA Set-up Call

BSC6900

IBCA Downlink Path Loss Offset

BSC6900

IBCA Dyn Measure Neighbour Cell Flag

BSC6900

IBCA Urgent HO Waiting Mr Time

BSC6900

IBCA Flexible TSC Allowed

BSC6900

IBCA Forced BTS Synchronization Allowed

BSC6900

IBCA FR/EFR Soft Block Threshold

BSC6900

IBCA HO Waiting Effective Mr Time

BSC6900

IBCA HR Soft Block Threshold

BSC6900

IBCA ICDM Initial Level Offset

BSC6900

IBCA ICDM Switch

BSC6900

IBCA Info Report Period Within BSC

BSC6900

IBCA Init. Power Control RexLevDL Offset

BSC6900

IBCA Init. Power Control RexLevUL Offset

BSC6900

IBCA Init. Pwr Ctrl Rx Qual DL Offset

BSC6900

IBCA Init. Pwr Ctrl Rx Qual UL Offset

BSC6900

IBCA IUO Path Loss Offset

BSC6900

IBCA MAIO Using Method

BSC6900

IBCA Max. Interference Source Num.

BSC6900

IBCA Neighbor Cell Flag

BSC6900

IBCA Pathloss Est of Non. MR Ncell

BSC6900

Target CIR Offset of IBCA New Call

BSC6900

IBCA Natural HO Waiting Mr Time

BSC6900

IBCA Non Measurement Ncell Stat. Num

BSC6900

Corrected Factor of IBCA Priority

BSC6900

IBCA Info Report Period Between BSC

BSC6900

IBCA Pathloss Offset

BSC6900

IBCA Path Lose Filter Factor

BSC6900

IBCA RxLev Offset

BSC6900

IBCA Service Cell Pathloss

BSC6900

IBCA Soft Block SAIC Offset

BSC6900

IBCA Soft Block Switch

BSC6900

IBCA Sub-Channel Handover Allowed

BSC6900

IBCA MAIO Target C/I Threshold

BSC6900

IUO IBCA Allowed

BSC6900

IBCA User Dyn Measure Neighbor Cell

BSC6900

IBCA WAMR FR Soft Block Threshold

BSC6900

ICB Allowed

BSC6900

Intelligent Control Flag

BSC6900

ICMP packet Length

BSC6900

DSCP of PRI.1 INTACT[QoS]

BSC6900

DSCP of PRI.2 INTACT[QoS]

BSC6900

DSCP of PRI.3 INTACT[QoS]

BSC6900

Task ID

BSC6900

Task ID

BSC6900

Index

BSC6900

Idle Code

BSC6900

Idle code

BSC6900

Idle SDCCH Threshold N1

BSC6900

Index Type

BSC6900

BTS Index Type

BSC6900

Index Type

BSC6900

Index Type

BSC6900

Index Type

BSC6900

Index Type

BSC6900

Index Type

BSC6900

Index Type

BSC6900

Semipermanent Link Index

BSC6900

Index Type

BSC6900

Index Type

BSC6900

If CB Shake Hand

BSC6900

Outgoing Interface No.

BSC6900

Positive or Minus Offset

BSC6900

Indication Offset

BSC6900

Report Process Flag

BSC6900

Ignore Measurement Report Number

BSC6900

IMEI

BSC6900

IMM ASS A IF Creation Timer

BSC6900

Immediate Assignment Optimized

BSC6900

Move Immediate Assignment Down to BTS

BSC6900

TCH Immediate Assignment

BSC6900

Max Delay of IMM ASS Retransmit

BSC6900

Max Transmit Times of IMM ASS

BSC6900

Use IMM ASS Retransmit Parameter

BSC6900

TA Pref. of Imme-Assign Allowed

BSC6900

TA Threshold of Imme-Assign Pref

BSC6900

Immediate Initial Adjust After Site Reset Enable

BSC6900

T3122

BSC6900

IMSI

BSC6900

IMSI

BSC6900

T3121

BSC6900

Fine Tuning Threshold

BSC6900

Fine Tuning Period in BSC

BSC6900

Included Angle

BSC6900

In Port Cabinet No.

BSC6900

Independent E1 Port 3

BSC6900

Intracell F-H HO Last Time

BSC6900

Intracell F-H HO Stat Time

BSC6900

Info Exchange Content

BSC6900

Infrared alarm switch

BSC6900

F2H HO Threshold

BSC6900

H2F HO Threshold

BSC6900

Power Overload Threshold In Ho. In

BSC6900

AMR Starting Mode[F]

BSC6900

AMR Starting Mode[H]

BSC6900

AMR Starting Mode[WB]

BSC6900

In BSC Mask

BSC6900

OL Subcell Assignment Optimization

BSC6900

Inner Cell EDGE HO Enable

BSC6900

BSC Inner Cell Index

BSC6900

BSC Inner Cell Name

BSC6900

Load HO of OL Subcell to UL Subcell

BSC6900

OL Subcell Load Diversity HO Period

BSC6900

Step Length of OL Subcell Load HO

BSC6900

Inner Cell Serious OverLoad Thred

BSC6900

In BSC Port No.

BSC6900

BTS In Port No.

BSC6900

DXX In Port No.

BSC6900

Latitude and Longitude Input Mode

BSC6900

Inter-BSC SDCCH HO ALLowed

BSC6900

In BSC Slot No.

BSC6900

In Port Slot No.

BSC6900

In BSC Subrack No.

BSC6900

In Port Subrack No.

BSC6900

Broadcast Interval

BSC6900

Adjacent Cell Inter-layer HO Hysteresis

BSC6900

Interfere Band Stat Algorithm Type

BSC6900

Inter-cell HO Hysteresis

BSC6900

Penalty Time on Interfere HO

BSC6900

Interfere HO Valid Time

BSC6900

Interfere HO Static Time

BSC6900

Interference HO Allowed

BSC6900

Interf. Priority Allowed

BSC6900

Interference Band Threshold 0

BSC6900

Interference Band Threshold 1

BSC6900

Interference Band Threshold 2

BSC6900

Interference Band Threshold 3

BSC6900

Interference Band Threshold 4

BSC6900

Interference Band Threshold 5

BSC6900

BSC Interior Clock Synchronize Protect Time

BSC6900

Interference Calculation Period

BSC6900

Inter-RAT Cell Reselection Enable

BSC6900

Inter-RAT CS Service HO Load Threshold

BSC6900

Inter-RAT In BSC Handover Enable

BSC6900

Allow Incoming BSC Handover at Iur-g

BSC6900

Inter-RAT Load HO Bandwidth [EcNo]

BSC6900

Inter-RAT Load HO EcNo at Start Point

BSC6900

Inter-RAT Hierarchy Load HO Step [EcNo]

BSC6900

Inter-RAT Load HO Bandwidth [RSCP]

BSC6900

Inter-RAT Load HO RSCP at Start Point

BSC6900

Inter-RAT Hierarchy Load HO Step [RSCP]

BSC6900

Inter-RAT Out BSC Handover Enable

BSC6900

Allow Inter-RAT Load HO in Access State

BSC6900

Relative Time

BSC6900

Send PKT Interval[s]

BSC6900

Interference Frequency

BSC6900

Incoming OL Subcell HO Level TH

BSC6900

T25

BSC6900

T3103A

BSC6900

Intracell F-H HO Allowed

BSC6900

Intracell HO Allowed

BSC6900

T3103C

BSC6900

Co-MBSC

BSC6900

Inter-RAT Load HO EcNo Threshold

BSC6900

Inter-RAT Hierarchical Load HO Period

BSC6900

Inter-RAT Load HO RSCP Threshold

BSC6900

In BSC Start Timeslot No.

BSC6900

DXX In Time Slot No.

BSC6900

Time Interval

BSC6900

OMU Automatic Switchover Interval

BSC6900

Invalid BSIC Reporting

BSC6900

IP Address

BSC6900

IP Address

BSC6900

Local IP Address

BSC6900

Remote IP Address

BSC6900

Physical IP

BSC6900

FTPServer IP

BSC6900

Local IP address

BSC6900

IP address

BSC6900

Local IP address

BSC6900

Packet source IP address

BSC6900

Next Hop IP address.

BSC6900

Local IP address

BSC6900

IP Address

BSC6900

IP Address1

BSC6900

Master Clock Server IP Address

BSC6900

IP Address2

BSC6900

Slave Clock Server IP Address

BSC6900

IP Address3

BSC6900

IP Address4

BSC6900

IP Frame Error Alarm Threshold

BSC6900

IP Frame Error Alarm Clearance Threshold

BSC6900

Head compress

BSC6900

Head compress

BSC6900

IP address index

BSC6900

IP address index

BSC6900

IP MUX Index

BSC6900

IP Phy Trans Type

BSC6900

IP Physical Tran. Type

BSC6900

DHEU Heater Control Allowed

BSC6900

Base BSC

BSC6900

Chain Neighbor Cell

BSC6900

Clock Server Redundancy

BSC6900

Clock Server Redundancy

BSC6900

Config Ring

BSC6900

Configure Check Thresholds or Not

BSC6900

EDGE Support in External Neighbour Cell

BSC6900

Is First Class Transport Resource Group

BSC6900

GPRS Support in External Neighbour Cell

BSC6900

Is Main BCCH TRX

BSC6900

Is Main BSC

BSC6900

Is Main Local Group

BSC6900

NC2 Support in External Neighbour Cell

BSC6900

Subnetwork Configure Mode

BSC6900

IS QOSPATH

BSC6900

Support BSC AISS

BSC6900

Demu Configure Information

BSC6900

Is Supper BTS

BSC6900

Support BTS Local Switch

BSC6900

Is Support Tc Pool

BSC6900

TC board

BSC6900

Remote TC Central

BSC6900

DHEU Temperature Control

BSC6900

Tran. Cabinet Configured

BSC6900

NCCELL No.

BSC6900

Item Index

BSC6900

Item Valid

BSC6900

Value

BSC6900

Interface Type

BSC6900

Interface Type

BSC6900

Concentric Attribute

BSC6900

Dynamic Channel Conversion Parameter of Concentric Cell

BSC6900

UO HO Valid Time

BSC6900

UO HO Watch Time

BSC6900

Cell IUO Type

BSC6900

J0 trace mismatch alarm switch

BSC6900

J0 Byte Format

BSC6900

J0 expected incept value

BSC6900

J0 transmit value

BSC6900

J0 type

BSC6900

J1 trace mismatch alarm switch

BSC6900

J1 Byte Format

BSC6900

J1 expected incept value

BSC6900

J1 transmit value

BSC6900

J1 type

BSC6900

J2 mismatch alarm switch

BSC6900

J2 Byte Format

BSC6900

J2 length

BSC6900

J2 expected incept value

BSC6900

J2 transmit value

BSC6900

Automatic Append J Byte

BSC6900

LAPD Jitter Buffer Algorithm

BSC6900

PS Jitter Buffer Delay

BSC6900

Jitter Buffer switch

BSC6900

K2 Mode

BSC6900

K Bias

BSC6900

Keep-alive timer length[S]

BSC6900

Cell LAC

BSC6900

Cell LAC

BSC6900

Aggregation Mode

BSC6900

Latitude Decimal Part

BSC6900

Latitude Degree Part

BSC6900

Latitude Int Part

BSC6900

Latitude Minute Part

BSC6900

Latitude Second Decimal Part

BSC6900

Latitude Second Int Part

BSC6900

GPS antenna latitude

BSC6900

GPS antenna latitude

BSC6900

Delay measure period [100ms]

BSC6900

Delay adjust suspend period [LATTH]

BSC6900

Rate down threshold for delay [ms]

BSC6900

average delay down filter mantissa

BSC6900

average delay up filter mantissa

BSC6900

Layer of The Cell

BSC6900

Layer of the cell

BSC6900

Inter-Layer HO Load Threshold

BSC6900

Lb Congestion Protection Timer 1

BSC6900

Lb Congestion Protection Timer 2

BSC6900

LDR Fourth

BSC6900

LDR First

BSC6900

LDR Second

BSC6900

Local entity No.

BSC6900

Log Level

BSC6900

Log Level

BSC6900

Alarm Mask Switch

BSC6900

MD LEVEL

BSC6900

Level Report Switch

BSC6900

Level HO Allowed

BSC6900

Inter-layer HO Hysteresis

BSC6900

Layer HO Valid Time

BSC6900

Layer HO Watch Time

BSC6900

Logical function type

BSC6900

Logical function type

BSC6900

Logic function type

BSC6900

Application type of POUc_TDM

BSC6900

PbSL Logical Index

BSC6900

Lower Humidity Threshold

BSC6900

Alarm occur threshold

BSC6900

Alarm recover threshold

BSC6900

Link No.

BSC6900

Query Type

BSC6900

Link rate type

BSC6900

Lower Limit

BSC6900

Lower Limit

BSC6900

Channel No.

BSC6900

LNA Threshold1

BSC6900

LNA Threshold2

BSC6900

Tributary Numbering

BSC6900

Semipermanent Link Rate

BSC6900

Initial bearing traffic active tag

BSC6900

Signalling link mask

BSC6900

Signalling link mask

BSC6900

Load handover Load Accept Threshold

BSC6900

MSC Pool Load Balancing Algorithm Select

BSC6900

NC2 Load Broadcast Period

BSC6900

Load Current Shunt Coefficient

BSC6900

Enhanced Load HO Allowed

BSC6900

Load Handover Support

BSC6900

Load Handover Support

BSC6900

Load Handover Support

BSC6900

Load HO PBGT Threshold

BSC6900

Penalty Time on Load HO

BSC6900

Penalty Value on Load HO

BSC6900

Load HO Step Period

BSC6900

Load HO Step Level

BSC6900

HO Ratio of Enhanced Load HO Algorithm

BSC6900

Load HO Bandwidth

BSC6900

Load Power-off Allowed State

BSC6900

Cell Load Reselection Allowed

BSC6900

Load Reselect Level Threshold

BSC6900

Load Reselection Receive Threshold

BSC6900

Load Reselection Start Threshold

BSC6900

Balance Traffic Allowed

BSC6900

Type of Cell Load Calculation

BSC6900

TRM Load Threshold switch

BSC6900

Local BSC ID

BSC6900

Local IP address

BSC6900

Local IP address

BSC6900

Local IP Address

BSC6900

Local IP Address

BSC6900

Local NSVL ID

BSC6900

Local Port No.

BSC6900

Location Group No.

BSC6900

Location Group No.

BSC6900

Filter of Location Information

BSC6900

First local IP address

BSC6900

Second local IP address

BSC6900

Set Locked/Unlock

BSC6900

Local SCTP port No.

BSC6900

Board Start Load Control.

BSC6900

Loading Mode

BSC6900

Log control threshold

BSC6900

Log control threshold

BSC6900

Logic Port Flag

BSC6900

Logic Port No.

BSC6900

Logic Port Slot No.

BSC6900

Log restore threshold

BSC6900

Log restore threshold

BSC6900

Log control switch

BSC6900

Log File Type

BSC6900

Log Type

BSC6900

Longitude Decimal Part

BSC6900

Longitude Degree Part

BSC6900

Longitude Int Part

BSC6900

Longitude Minute Part

BSC6900

Longitude Second Decimal Part

BSC6900

Longitude Second Int Part

BSC6900

GPS antenna longitude

BSC6900

GPS antenna longitude

BSC6900

Loop Level

BSC6900

Loopback Type

BSC6900

Loop Detect Switch

BSC6900

Loop type

BSC6900

IBCA Loose Trx SDCCH Load Threshold

BSC6900

Loop Direction

BSC6900

Loop Position

BSC6900

Loop type

BSC6900

Loop type.

BSC6900

Loop Time

BSC6900

Suspend times after bandwidth adjusted

BSC6900

Low-level Sublink Resource Preempt Switch

BSC6900

Low Lev Sub Res Preempt Flag

BSC6900

Diversity LNA Bypass Permitted

BSC6900

Allocate OL Channel Based on RX Level

BSC6900

Low Temperature StartLoadPower-off Allowed State

BSC6900

Low Temperature StartLoadPower-off Allowed State

BSC6900

Loop Back Mode

BSC6900

IP Logic Port No.

BSC6900

Logic port No.

BSC6900

Logic port No.

BSC6900

IP Logic Port Slot No.

BSC6900

Type of the logic port

BSC6900

Link Quality Control Mode

BSC6900

Load Shutdown Flag

BSC6900

Load Shutdown Voltage

BSC6900

LDR Third

BSC6900

Whether Include List Command

BSC6900

Result list format

BSC6900

Result List Format

BSC6900

Load type

BSC6900

Log Type

BSC6900

Log Type

BSC6900

Low Temperature Critical Point

BSC6900

Lower Temperature Threshold

BSC6900

Uplink Long-term FER Lower Threshold

BSC6900

Uplink Long-term FER Target

BSC6900

Uplink Long-term FER Upper Threshold

BSC6900

Uplink Threshold Adjust Factor

BSC6900

Number of DSPs with 252 LVDS Links

BSC6900

Lvl1 Vswr

BSC6900

Lvl2 Vswr

BSC6900

Low Voltage Shutdown Flag

BSC6900

M3UA service listening port No.

BSC6900

MAC Address

BSC6900

MAC Frame Error Alarm Threshold

BSC6900

MAC Frame Error Alarm Clearance Threshold

BSC6900

ARFCN Coding Scheme

BSC6900

MA Index

BSC6900

Power Derating Active Channel Enabled

BSC6900

Power Derating Enabled

BSC6900

Power Derating End Time

BSC6900

Power Derating Range

BSC6900

Power Derating Start Time

BSC6900

BTS Interface Board Bar Code 1

BSC6900

PTU Main Dev. Tab

BSC6900

Main Location Group No.

BSC6900

Main Port No

BSC6900

Main Version No.of TMU

BSC6900

MAIO 1

BSC6900

MAIO 10

BSC6900

MAIO 11

BSC6900

MAIO 12

BSC6900

MAIO 2

BSC6900

MAIO 3

BSC6900

MAIO 4

BSC6900

MAIO 5

BSC6900

MAIO 6

BSC6900

MAIO 7

BSC6900

MAIO 8

BSC6900

MAIO 9

BSC6900

Feed Tri. 0 TMA Over Critical Alarm Threshold

BSC6900

Feed Tri. 1 TMA Over Critical Alarm Threshold

BSC6900

Feed Tri. 2 TMA Over Critical Alarm Threshold

BSC6900

Feed Tri. 3 TMA Over Critical Alarm Threshold

BSC6900

Feed Tri. 4 TMA Over Critical Alarm Threshold

BSC6900

Feed Tri. 5 TMA Over Critical Alarm Threshold

BSC6900

MA Name

BSC6900

MA Name

BSC6900

Subnet mask

BSC6900

Subnet mask

BSC6900

Subnet mask

BSC6900

Packet source mask

BSC6900

Subnet mask

BSC6900

Mask

BSC6900

IP Mask

BSC6900

Subnet Mask

BSC6900

Subnet Mask

BSC6900

Master Clock Server IP Address

BSC6900

Clock Server IP Address 1

BSC6900

MAX Up Adj. PC Value by Qual.

BSC6900

Association max retrans

BSC6900

Max bandwidth [64kbps]

BSC6900

MAX Consecutive HO Times

BSC6900

Retry Times of Downlink TBF Reassignment

BSC6900

Retry Times of Downlink TBF Establishment

BSC6900

Max Drop Power Threshold

BSC6900

Maximum TRX Number

BSC6900

Maximum TRX Number

BSC6900

Maximum Frame Length[byte]

BSC6900

Max BTS Num of Parallel Software Load

BSC6900

PPP mux max mux-frame length

BSC6900

PPP mux max mux-frame length

BSC6900

Maximum Retry Times

BSC6900

Max Alarm Log Number

BSC6900

Diesel Max Output Power

BSC6900

Path max retrans

BSC6900

Pb Link Check Max TimeOut Number

BSC6900

Maximum Number of PDCH

BSC6900

Maximum Rate Threshold of PDCHs in a Cell

BSC6900

Retry Times of Downlink TBF Polling

BSC6900

Expire Prompt Dates

BSC6900

Charge Coefficient

BSC6900

Charge Coefficient

BSC6900

Max Resend Times of Phy.Info.

BSC6900

Max Retransmissions for Radio Priority 1

BSC6900

Max Retransmissions for Radio Priority 2

BSC6900

Max Retransmissions for Radio Priority 3

BSC6900

Max Retransmissions for Radio Priority 4

BSC6900

PPP mux max sub-frame length

BSC6900

PPP mux max sub-frame length

BSC6900

MAX Down Adj.Value Qual.Zone 0

BSC6900

MAX Down Adj.Value Qual.Zone 1

BSC6900

MAX Down Adj.Value Qual.Zone 2

BSC6900

Max TA

BSC6900

MAX TA Drop Call Filter

BSC6900

Max TA Drop Call Switch

BSC6900

MAX TA Drop Call Threshold

BSC6900

Maximum time for posave

BSC6900

Maximum Number of Occupied Abis Timeslots

BSC6900

MAX TTL

BSC6900

MAX Up Adj. PC Value by RX_LEV

BSC6900

Maximum Valid Dates

BSC6900

MBFD Check Index

BSC6900

Multi hop BFD detect local ip

BSC6900

Multi-band report

BSC6900

Filter Length for SDCCH MEAN_BEP

BSC6900

Filter Length for TCH MEAN_BEP

BSC6900

Second BTS Index

BSC6900

Second BTS Name

BSC6900

MCC

BSC6900

Cell MCC

BSC6900

MC PRI number

BSC6900

MC PRI Number

BSC6900

Second Cell Index

BSC6900

Second Cell Name

BSC6900

Cabinet No. of Management Board

BSC6900

MCPA Optimization Switch

BSC6900

GSM Multi Carrier BTS Standard

BSC6900

MD INDEX

BSC6900

MD Level

BSC6900

MD NAME

BSC6900

MD Name

BSC6900

Allow MR Command or not

BSC6900

Measurement Period

BSC6900

Measurement Report Type

BSC6900

MEP ID

BSC6900

MEP ID

BSC6900

MEP Type

BSC6900

MP/MC list head option

BSC6900

MP/MC List Head Option

BSC6900

Cell Reselection Level Threshold

BSC6900

Min bandwidth [64kbps]

BSC6900

Min Ec/No threshold

BSC6900

Min Access Level Offset

BSC6900

ANT_A ALD Current Minor Alarm Occur Threshold

BSC6900

ANT_B ALD Current Minor Alarm Occur Threshold

BSC6900

Feed Tri. 0 TMA Over Warning Alarm Threshold

BSC6900

Feed Tri. 1 TMA Over Warning Alarm Threshold

BSC6900

Feed Tri. 2 TMA Over Warning Alarm Threshold

BSC6900

Feed Tri. 3 TMA Over Warning Alarm Threshold

BSC6900

Feed Tri. 4 TMA Over Warning Alarm Threshold

BSC6900

Feed Tri. 5 TMA Over Warning Alarm Threshold

BSC6900

ANT_A ALD Current Minor Alarm Clear Threshold

BSC6900

ANT_B ALD Current Minor Alarm Clear Threshold

BSC6900

Min Power Level For Directed Retry

BSC6900

TCH Minimum Recovery Time

BSC6900

Min RSCP threshold

BSC6900

Min interval of BFD packet receive [ms]

BSC6900

Minimum RX Interval

BSC6900

Min interval of BFD packet send [ms]

BSC6900

Minimum TX Interval

BSC6900

Mirror Dest Port No.

BSC6900

Mirror Source Port No.

BSC6900

Mirror Type

BSC6900

MNC

BSC6900

Cell MNC

BSC6900

MOC Access CPU Rate

BSC6900

System clock working mode

BSC6900

Signalling link mode

BSC6900

Configure Mode

BSC6900

Mode after Switchover

BSC6900

File Output Mode

BSC6900

Backup mode

BSC6900

Check mode

BSC6900

Feed Tri. 0 Alarm Mode

BSC6900

Feed Tri. 1 Alarm Mode

BSC6900

Feed Tri. 2 Alarm Mode

BSC6900

Feed Tri. 3 Alarm Mode

BSC6900

Feed Tri. 4 Alarm Mode

BSC6900

Feed Tri. 5 Alarm Mode

BSC6900

Monitor Period

BSC6900

Monitor Time

BSC6900

Month

BSC6900

Quick Move Speed Threshold

BSC6900

MP Group Frame Error Alarm Threshold

BSC6900

MP Group Frame Error Alarm Clearance Threshold

BSC6900

MP Group No.

BSC6900

MP Group No.

BSC6900

MLPPP Group No.

BSC6900

Multiplexing Mode

BSC6900

Connect Port No.

BSC6900

MCPPP Switch

BSC6900

MP type

BSC6900

MPU Slot No.

BSC6900

MPU Subrack No.

BSC6900

MR. Compensation Allowed

BSC6900

Allowed MR Number Lost

BSC6900

MRMissNumber

BSC6900

Sent Freq.of preprocessed MR

BSC6900

Antenna Tributary 1 Factor

BSC6900

Antenna Tributary 2 Factor

BSC6900

MR Collection Scope Switch

BSC6900

MR Collection Control Switch

BSC6900

Max Receive Unit

BSC6900

Number of MSs

BSC6900

MS Capability Statistic Switch

BSC6900

MSC Available Capability

BSC6900

Length of NRI in TMSI

BSC6900

MSC NULL-NRI Value

BSC6900

MSC Pool Function Enabled

BSC6900

MSC Administrable State

BSC6900

MSC Version Indication

BSC6900

TREESTABLISH

BSC6900

MSISDN

BSC6900

MSISDN prefix 1

BSC6900

MSISDN prefix 2

BSC6900

MSISDN prefix 3

BSC6900

MSISDN prefix 4

BSC6900

MSISDN prefix 5

BSC6900

Prefix Number for BSC 1

BSC6900

Prefix Number for BSC 10

BSC6900

Prefix Number for BSC 2

BSC6900

Prefix Number for BSC 3

BSC6900

Prefix Number for BSC 4

BSC6900

Prefix Number for BSC 5

BSC6900

Prefix Number for BSC 6

BSC6900

Prefix Number for BSC 7

BSC6900

Prefix Number for BSC 8

BSC6900

Prefix Number for BSC 9

BSC6900

Prefix Number for BTS 1

BSC6900

Prefix Number for BTS 10

BSC6900

Prefix Number for BTS 2

BSC6900

Prefix Number for BTS 3

BSC6900

Prefix Number for BTS 4

BSC6900

Prefix Number for BTS 5

BSC6900

Prefix Number for BTS 6

BSC6900

Prefix Number for BTS 7

BSC6900

Prefix Number for BTS 8

BSC6900

Prefix Number for BTS 9

BSC6900

Avoid Number for BSC 1

BSC6900

Avoid Number for BSC 10

BSC6900

Avoid Number for BSC 2

BSC6900

Avoid Number for BSC 3

BSC6900

Avoid Number for BSC 4

BSC6900

Avoid Number for BSC 5

BSC6900

Avoid Number for BSC 6

BSC6900

Avoid Number for BSC 7

BSC6900

Avoid Number for BSC 8

BSC6900

Avoid Number for BSC 9

BSC6900

Avoid Number for BTS 1

BSC6900

Avoid Number for BTS 10

BSC6900

Avoid Number for BTS 2

BSC6900

Avoid Number for BTS 3

BSC6900

Avoid Number for BTS 4

BSC6900

Avoid Number for BTS 5

BSC6900

Avoid Number for BTS 6

BSC6900

Avoid Number for BTS 7

BSC6900

Avoid Number for BTS 8

BSC6900

Avoid Number for BTS 9

BSC6900

EN Quick PBGT HO ALG When MS Leaves BTS

BSC6900

MS MAX Retrans

BSC6900

MSP Control Command

BSC6900

MSRD MCS Threshold

BSC6900

MSRD PDCH Multiplex Threshold

BSC6900

Subrack No. of Management Board

BSC6900

Min DL level on candidate Cell

BSC6900

MS Rx Quality Statistic Threshold

BSC6900

MS Flow Control Timer

BSC6900

Master Service Active Delay

BSC6900

Maximum TX Power for Access PCH

BSC6900

Self-healing Switch for Memory Overload

BSC6900

MTC Access CPU Rate

BSC6900

Method

BSC6900

MTP2 link No.

BSC6900

Metrology

BSC6900

MTU value

BSC6900

MTU[Byte]

BSC6900

MTU

BSC6900

Hierarchical Power Supply Para.<0.1v>

BSC6900

Multi-Band Report

BSC6900

Period of Mute Detect Class1

BSC6900

Mute Detect Class2 Switch

BSC6900

Period of Mute Detect Class2

BSC6900

Access Prohibited Upon One-Way Audio

BSC6900

Forced Call Release Upon Failed Handover in One-Way Audio

BSC6900

PPP mux framing out-time[us]

BSC6900

PPP mux framing out-time[us]

BSC6900

IP MUX Type

BSC6900

Min Quantity of Working TRXs

BSC6900

My discriminator of BFD

BSC6900

N200

BSC6900

N200 of Establish

BSC6900

N200 of FACCH/Full Rate

BSC6900

N200 of FACCH/Half Rate

BSC6900

Use LAPDm N200

BSC6900

N200 of Release

BSC6900

N200 of SACCH

BSC6900

N200 of SDCCH

BSC6900

Maximum Value of N3101

BSC6900

Maximum Value of N3103

BSC6900

Maximum Value of N3105

BSC6900

Parameter of DTE [N391]

BSC6900

Parameter of DTE [N392]

BSC6900

Parameter of DTE [N393]

BSC6900

Support NACC

BSC6900

OSP name

BSC6900

DSP name

BSC6900

Signalling Route name

BSC6900

Signalling link set name

BSC6900

Signalling link name

BSC6900

Adjacent Node Name

BSC6900

Local entity name

BSC6900

Destination entity name

BSC6900

M3UA route name

BSC6900

M3UA Signalling link set name

BSC6900

M3UA Signaling link name

BSC6900

PCU Name

BSC6900

Assign Non-AMR User Loose Fre. Reuse TRX

BSC6900

N_AVG_I

BSC6900

TFO Switch

BSC6900

Neighbor 2G Cell 1 Index

BSC6900

Neighbor 2G Cell 1 Name

BSC6900

Neighbor 2G Cell 2 Index

BSC6900

Neighbor 2G Cell 2 Name

BSC6900

Neighbor 2G Cell Index

BSC6900

Neighbor 2G Cell Name

BSC6900

Neighbor Cell Index

BSC6900

Neighbor Cell Name

BSC6900

Neighbor Cell Plan Switch

BSC6900

Neighbour Cell CI

BSC6900

Neighbour Cell LAC

BSC6900

Neighbour Cell MCC

BSC6900

Neighbour Cell MNC

BSC6900

Support 64 Neighbour Cells

BSC6900

NC2 Load Reselection Switch

BSC6900

Support NC2

BSC6900

NCC

BSC6900

NCC

BSC6900

NCC Permitted

BSC6900

NCC Permitted

BSC6900

Neighbor Cell Filter Length MR Number

BSC6900

Filter Length for Ncell RX_LEV

BSC6900

NeighborCell Interfere Level Thresh 0

BSC6900

NeighborCell Interfere Level Thresh 1

BSC6900

NeighborCell Interfere Level Thresh 2

BSC6900

NeighborCell Interfere Level Thresh 3

BSC6900

NeighborCell Interfere Level Thresh 4

BSC6900

NeighborCell Interfere Level Thresh 5

BSC6900

NeighborCell Interfere Level Thresh 6

BSC6900

NeighborCell Interfere Level Thresh 7

BSC6900

NCH Occupy Block Number

BSC6900

NCH Start Block

BSC6900

Network Control Mode

BSC6900

Adjacent flag

BSC6900

Net Mask

BSC6900

Min Interval for Emerg. HO

BSC6900

Forward Route Address

BSC6900

Forward route address

BSC6900

Forward route address

BSC6900

Forward Route Address

BSC6900

Network ID

BSC6900

Download file name

BSC6900

Network Operation Mode

BSC6900

No Mains Supply Alarm Cabinet No.

BSC6900

No Mains Supply Alarm Port No.

BSC6900

No Mains Supply Alarm Slot No.

BSC6900

No Mains Supply Alarm Subrack No.

BSC6900

Lower limit of No.1 input -48V[-V]

BSC6900

Upper limit of No.1 input -48V[-V]

BSC6900

Lower limit of No.2 input -48V[-V]

BSC6900

Upper limit of No.2 input -48V[-V]

BSC6900

Lower limit of No.3 input -48V[-V]

BSC6900

Upper limit of No.3 input -48V[-V]

BSC6900

Lower limit of No.4 input -48V[-V]

BSC6900

Upper limit of No.4 input -48V[-V]

BSC6900

Lower limit of No.5 input -48V[-V]

BSC6900

Upper limit of No.5 input -48V[-V]

BSC6900

Lower limit of No.6 input -48V[-V]

BSC6900

Upper limit of No.6 input -48V[-V]

BSC6900

Non-AMR F-H Ho Allowed

BSC6900

Non-AMR F-H Ho ATCB Adjust Step

BSC6900

Non-AMR F-H Ho ATCB Threshold

BSC6900

Non-AMR F-H Ho Pathloss Adjust Step

BSC6900

Non-AMR F-H Ho Pathloss Threshold

BSC6900

Non-AMR F-H Ho Qual. Threshold

BSC6900

Non-AMR F-H Traffic Threshold

BSC6900

Non-AMR H-F Ho ATCB Threshold

BSC6900

Non-AMR H-F Ho Pathloss Threshold

BSC6900

Allow Non-AMR H-F Quality-based HO

BSC6900

Non-AMR H-F Ho Qual. Threshold

BSC6900

Non-AMR H-F Traffic Threshold

BSC6900

Adjacent Node Type

BSC6900

Cons.No Dl Mr.HO Allowed Limit

BSC6900

No Dl Mr.HO Allowed

BSC6900

No Dl Mr.Ul Qual HO Limit

BSC6900

Norminal Capacity{AH}

BSC6900

Allow III Power Control For Non-AMR

BSC6900

Non-DRX Period

BSC6900

A ALD Cur-Minor Alarm N-Cur Duration

BSC6900

B ALD Cur-Minor Alarm N-Cur Duration

BSC6900

Cell Normal Reselection Allowed

BSC6900

Normal Work TEMP Threshold

BSC6900

Discard TMSI All Cell Paging

BSC6900

Statistical Period of No-traffic

BSC6900

No VGCS Call Time

BSC6900

Number of TRACERT Packages Per TTL

BSC6900

Filter Length for SDCCH NBR_RCVD_BLOCK

BSC6900

Filter Length for TCH NBR_RCVD_BLOCK

BSC6900

NRI Value

BSC6900

NRI Value

BSC6900

Support NR_of_FDD_cells Writing

BSC6900

NSE Identifier

BSC6900

NSE Identifier

BSC6900

NCell Filter Length for SDCCH Level

BSC6900

NS Latitude

BSC6900

NSVC Identifier

BSC6900

NSVC Index

BSC6900

Normal Temperature Delta Tin

BSC6900

Normal Temperature Delta Tout

BSC6900

Ny2

BSC6900

OAM flow min bandwidth[%]

BSC6900

OAM flow min bandwidth[%]

BSC6900

OAM flow min bandwidth[%]

BSC6900

OAM flow min bandwidth[%]

BSC6900

OAM flow min bandwidth[%]

BSC6900

DSCP of OAM flow

BSC6900

OAM flow min bandwidth switch

BSC6900

Operate Object

BSC6900

Object Type

BSC6900

User Index

BSC6900

Object Index

BSC6900

Object Type

BSC6900

Object Type

BSC6900

Object Type

BSC6900

Preempt Switch of Streaming Resource

BSC6900

OL to UL HO Allowed

BSC6900

Configure Backup OML

BSC6900

OML Detection Switch

BSC6900

OML Lapd Link Detect Time

BSC6900

OML DSCP

BSC6900

BTS OML&ESL Average Down-bandwidth

BSC6900

BTS OML&ESL Average Up-bandwidth

BSC6900

OML Priority

BSC6900

OML Service PRI

BSC6900

OML VlanId

BSC6900

OML/ESL/EML LAPD Downlink Window Size

BSC6900

OMU External Network Virtual IP

BSC6900

OMU External Network Mask

BSC6900

Operator

BSC6900

OSP Code

BSC6900

OSP Code

BSC6900

OPC Index

BSC6900

Operator Type

BSC6900

Operator Index

BSC6900

OP INDEX SET

BSC6900

Operate mode

BSC6900

Operation Mode

BSC6900

Operation Mode

BSC6900

Operation Mode

BSC6900

Operation Mode

BSC6900

Operator Name

BSC6900

Assign Optimum Layer

BSC6900

Assign-optimum-level Threshold

BSC6900

TA Threshold of Assignment Pref

BSC6900

TRX Priority

BSC6900

Optical interface standard

BSC6900

Operation Type

BSC6900

Operate Type

BSC6900

OPX

BSC6900

Originally E1/T1 Port No.

BSC6900

Operation type

BSC6900

Other Frequency

BSC6900

Number of Other-RAT Modules

BSC6900

OtoU HO Received Level Threshold

BSC6900

UL Subcell Assignment Optimization

BSC6900

T8

BSC6900

T7

BSC6900

Inter BSC Load Information Allowed

BSC6900

UL Subcell General Overload Threshold

BSC6900

Power Overload Threshold In Ho. Out

BSC6900

Outgoing OL Subcell HO Level TH

BSC6900

Load HO Allowed

BSC6900

MOD Step LEN of UL Load HO Period

BSC6900

UL Subcell Load Hierarchical HO Periods

BSC6900

Step Length of UL Subcell Load HO

BSC6900

UL Subcell Lower Load Threshold

BSC6900

Out BSC Mask

BSC6900

Out BSC Port No.

BSC6900

DXX Out Port No.

BSC6900

DXX Out Time Slot No.

BSC6900

Cannel 0 Digital Control Signal Level

BSC6900

Cannel 1 Digital Control Signal Level

BSC6900

Cannel 2 Digital Control Signal Level

BSC6900

Cannel 3 Digital Control Signal Level

BSC6900

Output Power

BSC6900

Output Power

BSC6900

Output Power Unit

BSC6900

UL Subcell Serious Overload Threshold

BSC6900

Cell Out-of-Service Alarm Switch

BSC6900

Out BSC Slot No.

BSC6900

Load Outlet Slot No.

BSC6900

Out BSC Subrack No.

BSC6900

Allow Inter-RAT Load HO in Connect State

BSC6900

Service Handover Reassign

BSC6900

Service Based Handover Switch

BSC6900

Load Info Timeout Timer

BSC6900

Out BSC Start Timeslot No.

BSC6900

ANT_A ALD Over Current Occur Threshold

BSC6900

ANT_B ALD Over Current Occur Threshold

BSC6900

RET ALD Over Current Occur Threshold

BSC6900

ANT_A ALD Over Current Clear Threshold

BSC6900

ANT_B ALD Over Current Clear Threshold

BSC6900

RET ALD Over Current Clear Threshold

BSC6900

A ALD Cur-Minor Alarm Over-Cur Duration

BSC6900

B ALD Cur-Minor Alarm Over-Cur Duration

BSC6900

Overload Indication Period

BSC6900

Derating TEMP Threshold

BSC6900

CPU Usage for Critical Paging FC

BSC6900

CPU Usage for Major Paging FC

BSC6900

CPU Usage for Minor Paging FC

BSC6900

CPU Usage for Slight Paging FC

BSC6900

PA Intelligent Adjust Voltage

BSC6900

Move Packet Assignment Down to BTS

BSC6900

Average Paging Message Number In Period

BSC6900

BTS Paging Lifetime

BSC6900

MAX Paging Message Number In Period

BSC6900

Paging Times

BSC6900

PAN_DEC

BSC6900

PAN_INC

BSC6900

PAN_MAX

BSC6900

Priority of Shut Down TRX

BSC6900

Patch No.

BSC6900

Patch Number

BSC6900

IP path check flag

BSC6900

IP path ID

BSC6900

IP path ID

BSC6900

Path Loss of Different Frequency Band

BSC6900

Pathloss Ho. Enable

BSC6900

IP path type

BSC6900

Patch type

BSC6900

Pb

BSC6900

PBGT HO Allowed

BSC6900

PBGT Valid Time

BSC6900

PBGT HO Threshold

BSC6900

PBGT Watch Time

BSC6900

MAX Retrans Maintenance Msg on Pb-I

BSC6900

PC Interval

BSC6900

PC_MEAS_CHAN

BSC6900

PCU No

BSC6900

PCU No.

BSC6900

PCU No.

BSC6900

PCU No.

BSC6900

PCU Support PREEMPT_ABIS_LINK Message

BSC6900

PDCH Downlink Multiplex Threshold

BSC6900

PDCH Power Saving Enable

BSC6900

PDCH Reforming

BSC6900

PDCH Uplink Multiplex Threshold

BSC6900

PENDING timer

BSC6900

Peer BSC ID

BSC6900

Peer BSC ID

BSC6900

Peer BSC IP

BSC6900

Peer BSC Mask

BSC6900

Peer BTS ID

BSC6900

Peer IP address

BSC6900

Peer IP address

BSC6900

Peer IP address

BSC6900

Peer IP Address

BSC6900

Peer IP Address

BSC6900

First destination IP address

BSC6900

Second destination IP address

BSC6900

Peer IP address

BSC6900

Peer subnet mask

BSC6900

Destination SCTP port No.

BSC6900

Peer Version

BSC6900

Penalty Allowed

BSC6900

Cell Penalty Duration

BSC6900

Cell Penalty Level

BSC6900

CfgPenaltyTimer

BSC6900

Ping Check Period

BSC6900

Measurement Period

BSC6900

Protocal field compress

BSC6900

Protocol field compress

BSC6900

Support Protocol Field Compress

BSC6900

PFC Support

BSC6900

Paging Message Classifying Allowed

BSC6900

Max CS Paging Message Num in Period

BSC6900

Max PS Paging Message Num in Period

BSC6900

Paging Statistical Period

BSC6900

Per-Hop Behavior

BSC6900

PHB

BSC6900

Cell Reselect Parameters Indication

BSC6900

Private Key Password Enabled State

BSC6900

PKT Count

BSC6900

PKT Size[Byte]

BSC6900

Packet Length

BSC6900

Maximum Frame Length

BSC6900

PACKET SI

BSC6900

Size of packet

BSC6900

PKT Size

BSC6900

Persistence Level 1

BSC6900

16QAM Transmitter Power Reduce Level

BSC6900

Persistence Level 2

BSC6900

Persistence Level 3

BSC6900

32QAM Transmitter Power Reduce Level

BSC6900

Persistence Level 4

BSC6900

TRX 8PSK Level

BSC6900

Packet lost measure period [100ms]

BSC6900

Packet discard threshold[0.001]

BSC6900

Play Point

BSC6900

Play Switch

BSC6900

Play Time

BSC6900

Performance monitor control threshold

BSC6900

Performance monitor control threshold

BSC6900

Interval for Sending Cell Paging Package

BSC6900

Number of Cell Pagings in One Package

BSC6900

Cell Paging Package Switch

BSC6900

Performance monitor restore threshold

BSC6900

Performance monitor restore threshold

BSC6900

Performance monitoring flow control switch

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No

BSC6900

Port No

BSC6900

BM Port No

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Physics port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Transmission Delay of POC Service

BSC6900

Max. GBR for POC Service

BSC6900

Min. GBR for POC Service

BSC6900

POC Support

BSC6900

Power Output Reduction Threshold

BSC6900

Power Output Error Threshold

BSC6900

Rollback Point Description

BSC6900

Rollback Point Name

BSC6900

Destination Port

BSC6900

Port

BSC6900

Port

BSC6900

DXX In Port No.

BSC6900

DXX Port Number

BSC6900

Port protocol type

BSC6900

Panel Port Switch

BSC6900

Port Type

BSC6900

Port Type

BSC6900

2Quater Message Transmission Channel

BSC6900

Patch Operation Type

BSC6900

Rated Power

BSC6900

Switch for Relay 1

BSC6900

Switch for Relay 2

BSC6900

Switch for Relay 3

BSC6900

Switch for Relay 4

BSC6900

Switch for Relay 5

BSC6900

Switch for Relay 6

BSC6900

Battery Shunt Coefficient

BSC6900

16QAM Transmitter Power Reduce Level

BSC6900

32QAM Transmitter Power Reduce Level

BSC6900

Power Type

BSC6900

Cabinet Power System Type

BSC6900

Power Level

BSC6900

Power Type

BSC6900

PPP Frame Error Alarm Threshold

BSC6900

PPP Frame Error Alarm Clearance Threshold

BSC6900

PPP link No.

BSC6900

PPP sub-link No.

BSC6900

PPP link No.

BSC6900

PPP Link No.

BSC6900

PPP mux

BSC6900

Priority queue number

BSC6900

Preempted Call Not Released After Handover Failure

BSC6900

PDCH Preemption Allowed During Handover Due to Preemption

BSC6900

Emergency Call Preemption Permitted

BSC6900

Preprocess MR Sample Ratio

BSC6900

Route Priority

BSC6900

Packet Access Priority

BSC6900

Support Priority Based Flow Control

BSC6900

Transfer Original MR

BSC6900

Print control threshold

BSC6900

Print control threshold

BSC6900

Print restore threshold

BSC6900

Print restore threshold

BSC6900

Print Flow control switch

BSC6900

Cell Priority

BSC6900

Cell Priority

BSC6900

Flex Abis Prior Choose Load Thred

BSC6900

Cell HCS Prior Class

BSC6900

Route priority

BSC6900

Signalling link priority

BSC6900

Priority

BSC6900

Preferential Customized Detection Type

BSC6900

Number of Customized Detection Types

BSC6900

Subsidiary Customized Detection Type

BSC6900

Private Key File Name

BSC6900

BTS Port Detection Sequence

BSC6900

SS7 protocol type

BSC6900

Frame Relay Protocol Type

BSC6900

Protection Delay for Detection

BSC6900

Dyn. Turning Off Cell Protection Time

BSC6900

TRX Power-on Protection Time

BSC6900

Port select

BSC6900

Port select

BSC6900

Port select

BSC6900

PS CHR Abis

BSC6900

PS CHR Gb

BSC6900

PS CHR Inner Information

BSC6900

PS CHR Inner Message

BSC6900

PS CHR Um

BSC6900

GSM PS data service downlink factor

BSC6900

GSM PS data service uplink factor

BSC6900

PS Handover Support

BSC6900

PS high PRI data path

BSC6900

PS high PRI data priority

BSC6900

PS High PRI Service PRI

BSC6900

PSI1 Repetition Period

BSC6900

Support PSI Status Message

BSC6900

PS low PRI data path

BSC6900

PS low PRI data priority

BSC6900

PS Low PRI Service PRI

BSC6900

PS OtoU HO Receive Level Threshold

BSC6900

Mode Control

BSC6900

PS RACH Min. Access Level

BSC6900

PS Min.Access Level

BSC6900

PS CHR Switch

BSC6900

Max PS Resource REQ Num in Period

BSC6900

PS Resource REQ Statistical Period

BSC6900

DPSU 0 Configured

BSC6900

DPSU 1 Configured

BSC6900

DPSU 2 Configured

BSC6900

DPSU 2 Configured

BSC6900

DPSU 3 Configured

BSC6900

DPSU 4 Configured

BSC6900

DPSU 5 Configured

BSC6900

DPSU 6 Configured

BSC6900

DPSU 7 Configured

BSC6900

PS UtoO HO Receive Level Threshold

BSC6900

PSU Turning Off Enable

BSC6900

Self-healing Switch for OMU Process

BSC6900

Port Type

BSC6900

Port

BSC6900

Cell Reselect Penalty Time

BSC6900

Subnet Protocol Type

BSC6900

Port Type

BSC6900

Line code

BSC6900

Frame receive Structure

BSC6900

Frame send Structure

BSC6900

Frame Structure

BSC6900

HDLC Path Index In BTS

BSC6900

Port type

BSC6900

Power System Type

BSC6900

Certificate File Name

BSC6900

BTS Patch Version

BSC6900

Patch Version

BSC6900

PVC Utilization Report Period Timer

BSC6900

Private Key Password

BSC6900

Password

BSC6900

User Password

BSC6900

Minimum Password Length

BSC6900

Power Level

BSC6900

First Alarm Switch

BSC6900

Second Alarm Switch

BSC6900

Power Forecast Allowed

BSC6900

III Power Control Optimized Enable

BSC6900

Power Control Switch

BSC6900

Power Deviation

BSC6900

Power Deviation Indication

BSC6900

Location Group Power Switch

BSC6900

Power Class

BSC6900

Power-off Protect Start Time

BSC6900

Power Priority Allowed

BSC6900

Power Finetune

BSC6900

ANT_A ALD Power Switch

BSC6900

ANT_B ALD Power Switch

BSC6900

RET ALD Power Switch

BSC6900

Min DSCP of queue 0

BSC6900

Min DSCP of queue 1

BSC6900

Min DSCP of queue 2

BSC6900

Min DSCP of queue 3

BSC6900

Min DSCP of queue 4

BSC6900

Qsearch C Initial

BSC6900

MS Fast Moving HO Allowed

BSC6900

MS Fast-moving Watch Cells

BSC6900

MS Fast-moving Time Threshold

BSC6900

MS Fast-moving Valid Cells

BSC6900

Qsearch I

BSC6900

Filter Length for TCH Qual.

BSC6900

Filter Length for SDCCH Qual.

BSC6900

Support QoS Optimize

BSC6900

Qsearch P

BSC6900

Qsearch C

BSC6900

QTRU Signal Merge Avoid Switch

BSC6900

Qtru Down Power Inadequate Last Time

BSC6900

Qtru Down Power Inadequate Stat Time

BSC6900

Multi-Density TRX Power Sharing

BSC6900

Qualified Times for Off

BSC6900

Qualified Times for On

BSC6900

MAX Down Adj. PC Value by Qual.

BSC6900

Query Classmark after In-BSC HO Enabled

BSC6900

Quick Handover Enable

BSC6900

SubRack0 Auxiliary Equipment

BSC6900

SubRack0 Storage Battery Config Permit

BSC6900

SubRack0 Storage Battery Capacity

BSC6900

SubRack0 Storage Battery Coefficient

BSC6900

SubRack0 Storage Battery Type

BSC6900

SubRack1 Auxiliary Equipment

BSC6900

SubRack1 Storage Battery Config Permit

BSC6900

SubRack1 Storage Battery Capacity

BSC6900

SubRack1 Storage Battery Coefficient

BSC6900

SubRack1 Storage Battery Type

BSC6900

SubRack2 Auxiliary Equipment

BSC6900

SubRack2 Storage Battery Config Permit

BSC6900

SubRack2 Storage Battery Capacity

BSC6900

SubRack2 Storage Battery Coefficient

BSC6900

SubRack2 Storage Battery Type

BSC6900

RAC

BSC6900

Route Area

BSC6900

Routing Area

BSC6900

Route Area

BSC6900

Route Area

BSC6900

Route Area

BSC6900

CS RACH Min. Access Level

BSC6900

RACH Busy Threshold

BSC6900

Average RACH Load Timeslot Number

BSC6900

CS Min.Access Level

BSC6900

Routing Area Color Code

BSC6900

Allow MS to Access to Another Cell

BSC6900

Random Access Error Threshold

BSC6900

Accessorial Hysteresis of Cell Selection

BSC6900

Rate

BSC6900

AMR Rate Control Switch

BSC6900

Is RATSCCH Function Enabled

BSC6900

Raw MR Sample Ratio

BSC6900

Type of Rollback Point

BSC6900

Result Recording Type

BSC6900

Chain No.

BSC6900

First RXU Chain No.

BSC6900

Second RXU Chain No.

BSC6900

Receive Mode

BSC6900

Rate down coefficient [%]

BSC6900

Allow Reassign

BSC6900

Frequency Band of Reassign

BSC6900

ReceiveQualThrshAMRFR

BSC6900

ReceiveQualThrshAMRHR

BSC6900

RX_LEV Hysteresis

BSC6900

RX_LEV Threshold

BSC6900

RX_LEV for UO HO Allowed

BSC6900

Record Discarded Paging Msg

BSC6900

Decrease rate alarm recover threshold

BSC6900

RX_QUAL Threshold

BSC6900

RX_QUAL for UO HO Allowed

BSC6900

Backup

BSC6900

Interval to Reduce Transmission Bandwidth when Congested

BSC6900

Number of Transmission Bandwidth to Reduce when Congested

BSC6900

Port for LINE2

BSC6900

Back-up port for LINE2

BSC6900

Port for LINE1

BSC6900

Back-up port for LINE1

BSC6900

Switch of panel 2M BITS1

BSC6900

Switch of panel 2M BITS2

BSC6900

Use SGSN clock source

BSC6900

Region Information

BSC6900

ReHost Absolute Time

BSC6900

ReHostDelayTime

BSC6900

ReHost Type

BSC6900

Reinitialize Neighbour Cell Table

BSC6900

Associated Board CN

BSC6900

Extend Connection Configuration Enabled

BSC6900

Associated Board Function

BSC6900

Associated Board SN

BSC6900

Associated Board SRN

BSC6900

Cascading Tributary

BSC6900

Remark

BSC6900

Route use description

BSC6900

Remote NSVL ID

BSC6900

Repeat

BSC6900

Repeated Downlink FACCH

BSC6900

Repeated Downlink FACCH Threshold

BSC6900

Repeated SACCH

BSC6900

Reserved Alarm ID.

BSC6900

ResCheckAllowed

BSC6900

Cell Reselection Hysteresis

BSC6900

Cell Reselect Interval

BSC6900

Normal Cell Reselection Watch Period

BSC6900

Normal Cell Reselection Worsen Level Threshold

BSC6900

Number of Reserved Dynamic Channel

BSC6900

Reserved TCH Number for PA Turning On

BSC6900

BTS Reset Alarm Delay Switch

BSC6900

BTS Reset Alarm Delay Time

BSC6900

Reset Interval of Account Lock Counter

BSC6900

Reset Retry

BSC6900

BTS Reset Time

BSC6900

Reset Timer

BSC6900

Reason

BSC6900

Response on Out-BSC HO Req

BSC6900

Resume Broken Downloads Flag

BSC6900

Sub-protocol negotiate out time[S]

BSC6900

Sub-protocol negotiate out time[S]

BSC6900

Alarm Restore Type

BSC6900

Resume Timer

BSC6900

Reserved Channel Number

BSC6900

Max RC Power Reduction

BSC6900

Radio Resource Report Period

BSC6900

Execute Interval

BSC6900

Configure RFU by Slot

BSC6900

GPS or RGPS

BSC6900

RIM Support

BSC6900

Channel No.

BSC6900

Radio Link Timeout

BSC6900

Remote TC Subrack Ater Transmission Mode

BSC6900

RNC ID

BSC6900

Neighboring RNC Index

BSC6900

Neighboring RNC Index

BSC6900

Neighboring RNC Name

BSC6900

Root Certificate File Name

BSC6900

Route No.

BSC6900

Route Port No.

BSC6900

Report Downlink VQI Allowed

BSC6900

Cell Reselection MR Period in Packet Idle Mode

BSC6900

Cell Reselection MR Period in Packet Transfer Mode

BSC6900

Decrease rate alarm report threshold

BSC6900

Report Speech Quality

BSC6900

Filter Length for SDCCH REP_QUANT

BSC6900

Filter Length for TCH REP_QUANT

BSC6900

Rscgrp No.

BSC6900

Resource Management Mode

BSC6900

Resource management mode

BSC6900

RscPenaltyTimer

BSC6900

RSCP Offset

BSC6900

RSCP Threshold for Layer of 3G Cell

BSC6900

RSD alarm source

BSC6900

RSF alarm source

BSC6900

GPRS Reselection Offset

BSC6900

BTS RSL Average Down-bandwidth

BSC6900

RSL DSCP

BSC6900

RSL Priority

BSC6900

BTS RSL Average Up-bandwidth

BSC6900

RSL VlanId

BSC6900

RSL LAPD Window Size

BSC6900

Lock Reason

BSC6900

Relative Signal Strength Threshold

BSC6900

Reset file

BSC6900

Result File Name

BSC6900

Restart switch

BSC6900

Restart Timer

BSC6900

Max Channel Num Reserved for EC

BSC6900

Reserved Parameter 1

BSC6900

Reserved Parameter 10

BSC6900

Reserved Parameter 2

BSC6900

Reserved Parameter 3

BSC6900

Reserved Parameter 4

BSC6900

Reserved Parameter 5

BSC6900

Reserved Parameter 6

BSC6900

Reserved Parameter 7

BSC6900

Reserved Parameter 8

BSC6900

Reserved Parameter 9

BSC6900

Reserve Idle Channel Number

BSC6900

Revertive type

BSC6900

Routing Context

BSC6900

RTCP Bandwidth Usage

BSC6900

Enable RTCP

BSC6900

Destination Network Address

BSC6900

Destination Address Mask

BSC6900

Route Index

BSC6900

RTO alpha value

BSC6900

RTO beta value

BSC6900

RTO initial value

BSC6900

RTO max value

BSC6900

RTO min value

BSC6900

Measure Link Delay Switch

BSC6900

RTTI PDCH Multiplex Threshold

BSC6900

Route Type

BSC6900

Rate up step [kbps]

BSC6900

Rate up step adjust period [PLPRD]

BSC6900

R-Version No.

BSC6900

Backward Bandwidth

BSC6900

Backward Bandwidth

BSC6900

Minimum Receiving level for Access

BSC6900

Interfere HO Qual. Thresh Offset for AMR FR

BSC6900

Minum Access RXLEV

BSC6900

Rx_Level_Drop HO Allowed

BSC6900

Interfere HO Qual. Thresh 1 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 10 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 11 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 12 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 2 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 3 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 4 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 5 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 6 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 7 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 8 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 9 for Non-AMR FR

BSC6900

RXU Chain No

BSC6900

RXU Chain No.

BSC6900

RXU Chain No.

BSC6900

RXU Index Type

BSC6900

RXU Index Type

BSC6900

RXU Name

BSC6900

RXU Name

BSC6900

RXU Name

BSC6900

RXU Chain Position

BSC6900

RXU Chain Position

BSC6900

RXU Board Position

BSC6900

RXU Board Type

BSC6900

S1 value setting switch

BSC6900

S1 Value

BSC6900

Special Analog Alarm Enabled

BSC6900

Special Analog Alarm Flag

BSC6900

Trunking MSC

BSC6900

SAIC Allowed

BSC6900

Power Control Threshold Adjust for SAIC

BSC6900

Power Control threshold Adjust for SAIC

BSC6900

Special Analog Alarm Enabled

BSC6900

Same Coverage Cell No

BSC6900

Same Coverage Cell Index Type

BSC6900

Same Coverage Cell Load Stat. Time

BSC6900

Same Coverage Cell Load Threshold

BSC6900

Same Coverage Cell Name

BSC6900

SACCH Multi-Frames

BSC6900

Special Alarm Switcher

BSC6900

Special Alarm Switch Enabled

BSC6900

Special Alarm Switch Valid Vol. Level

BSC6900

Energy Saving Support

BSC6900

Special Bool Alarm Flag

BSC6900

First BTS Index

BSC6900

First BTS Name

BSC6900

SCALE_ORDER

BSC6900

DSCP of STREAM[QoS]

BSC6900

Serving Cell Filter Length MR Number

BSC6900

First Cell Index

BSC6900

First Cell Name

BSC6900

Coding Scheme

BSC6900

Sub Channel No.

BSC6900

Command String

BSC6900

Scope Type

BSC6900

Subrack Communication Path Index

BSC6900

Scrambling Code or Cell Parameter Id

BSC6900

Start Serial No.

BSC6900

SCTP link No.

BSC6900

Start Date

BSC6900

Start Date

BSC6900

Start Date

BSC6900

Alarm Log Saved Time

BSC6900

SD Alarm Threshold

BSC6900

Start Date

BSC6900

Start date

BSC6900

SDCCHChannelNumber

BSC6900

Waiting for MR on SDCCH Switch

BSC6900

Duration for Waiting MR on SDCCH

BSC6900

DL Level Threshold for SDCCH Call Drop

BSC6900

DL Quality Threshold for SDCCH Call Drop

BSC6900

UL Level Threshold for SDCCH Call Drop

BSC6900

UL Quality Threshold for SDCCH Call Drop

BSC6900

SDCCH Dynamic Allocation Allowed

BSC6900

SD Enable

BSC6900

SD Quick HO

BSC6900

Shut Down Enabled

BSC6900

Min Interval for SDCCH Hos

BSC6900

SdMrCutNum

BSC6900

Penalty Time on Fast Moving HO

BSC6900

Penalty on Fast Moving HO

BSC6900

DSCP of Signaling

BSC6900

SDSF Priority

BSC6900

Shutdown Temperature

BSC6900

Sliding Time Window Alarm Disappear

BSC6900

Sliding Time Window Alarm Occurrence

BSC6900

Shutdown Voltage

BSC6900

3G Search PRIO

BSC6900

Self Version

BSC6900

Support Sent 2QUATER

BSC6900

Spt BSS Invoke Trace Rpt[end2end user trace]

BSC6900

Send Classmark ENQ Result to MSC Enabled

BSC6900

Sent Confusion Message to MSC

BSC6900

Send Downlink Message after Hanging up

BSC6900

Send FACCH Notification Priority

BSC6900

Send FACCH Paging Priority

BSC6900

BSC Auto Link Flag

BSC6900

Send System Information 2ter

BSC6900

Send System Information 5ter

BSC6900

Send 3G Class Flag

BSC6900

Separate Position

BSC6900

Separate Mode

BSC6900

The Command Port of FTP Server

BSC6900

The Source Date Port of FTP Server

BSC6900

Device Serial No.

BSC6900

FTP Server IP Address

BSC6900

Service mode

BSC6900

Service Type

BSC6900

Service Type

BSC6900

Service Name

BSC6900

Service Type

BSC6900

Diesel Engine Configure Enabled

BSC6900

ENV TEMP CFG Enabled

BSC6900

ENV TEMP CFG Enabled

BSC6900

Environment Humidity Configure Enabled

BSC6900

SFP Port No

BSC6900

Configure Capacity

BSC6900

SGSN Name

BSC6900

SGSN NRI Length

BSC6900

SGSN NullNRI Value

BSC6900

Allow SGSN Pool

BSC6900

Protocol Version Supported by SGSN

BSC6900

SGSN Management Status

BSC6900

Share in CPU Rate

BSC6900

Load Sharing Slot No.

BSC6900

Sharing Allow

BSC6900

Shield Flag

BSC6900

Shutdown TRX Start Time[T2]

BSC6900

SI 2ter Switch

BSC6900

SDCCH HO Allowed

BSC6900

Signal Strength Duration Times

BSC6900

Signalling link set index

BSC6900

Signalling link set index

BSC6900

Signaling link ID

BSC6900

Signaling Load Weight

BSC6900

Signaling Load Weight

BSC6900

Signal Service PRI

BSC6900

Signal Strength Observation Times

BSC6900

Filter Length for SDCCH Qual

BSC6900

Signalling link code

BSC6900

Filter Length for SDCCH Level

BSC6900

Interval Between Resource Request

BSC6900

Single Pass Exclude MSISDN Number 1

BSC6900

Single Pass Exclude MSISDN Number 10

BSC6900

Single Pass Exclude MSISDN Number 11

BSC6900

Single Pass Exclude MSISDN Number 12

BSC6900

Single Pass Exclude MSISDN Number 13

BSC6900

Single Pass Exclude MSISDN Number 14

BSC6900

Single Pass Exclude MSISDN Number 15

BSC6900

Single Pass Exclude MSISDN Number 16

BSC6900

Single Pass Exclude MSISDN Number 17

BSC6900

Single Pass Exclude MSISDN Number 18

BSC6900

Single Pass Exclude MSISDN Number 19

BSC6900

Single Pass Exclude MSISDN Number 2

BSC6900

Single Pass Exclude MSISDN Number 20

BSC6900

Single Pass Exclude MSISDN Number 3

BSC6900

Single Pass Exclude MSISDN Number 4

BSC6900

Single Pass Exclude MSISDN Number 5

BSC6900

Single Pass Exclude MSISDN Number 6

BSC6900

Single Pass Exclude MSISDN Number 7

BSC6900

Single Pass Exclude MSISDN Number 8

BSC6900

Single Pass Exclude MSISDN Number 9

BSC6900

Source IP address

BSC6900

Source IP address

BSC6900

Sites

BSC6900

Site Sync Zone

BSC6900

Clock Server IP Address 2

BSC6900

Sub-Location Group No.

BSC6900

Self Loop Type

BSC6900

Signalling route mask

BSC6900

Slave Service Active Delay

BSC6900

StartType

BSC6900

SMLC Index

BSC6900

SMLC Mode

BSC6900

Enable Smoke Alarm Reporting

BSC6900

Start month

BSC6900

Filter window

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No

BSC6900

BM Slot No

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Main Board Logic slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Port Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Send Mode

BSC6900

DRRU Sending Receiving Mode

BSC6900

DRFU Sending Receiving Mode

BSC6900

MRRU/GRRU Sending Receiving Mode

BSC6900

MRFU/GRFU Sending Receiving Mode

BSC6900

BTS3900E Sending Receiving Mode

BSC6900

Sync Period

BSC6900

OSP code[Whole Number]

BSC6900

OSP code bits

BSC6900

OSP code[Divided Number]

BSC6900

Start PCIC

BSC6900

Signal point data format

BSC6900

Special Access Control Class

BSC6900

Special Alarm Switch

BSC6900

Special Alarm Valid Level Configuration

BSC6900

One-Way Mute Alarm Reporting Period

BSC6900

Speech VER Send Flag in ASS CMP

BSC6900

Speech VER Send Flag in HO Perform

BSC6900

SpeechVerSend Flag in HO REQ ACK

BSC6900

HO_RQD Speech VER

BSC6900

Speech Version Mode 1

BSC6900

Speech Version Mode 2

BSC6900

Speech Version

BSC6900

ETHPORT SPEED

BSC6900

Penalty on MS Fast Moving HO

BSC6900

Penalty Time on Fast Moving HO

BSC6900

Support SPLIT_PG_CYCLE on CCCH

BSC6900

Support Cell Broadcast

BSC6900

Allow Common Measurement at Iur-g

BSC6900

Allow Info Exchange at Iur-g

BSC6900

Support In Inter-RAT Inter-cell PS Handover

BSC6900

Support Out Inter-RAT Inter-Cell PS Handover

BSC6900

Support NACC Resource Guarantee

BSC6900

Support Paging Message from Trunking MSC

BSC6900

Support Pb Lapd Check

BSC6900

Support Pb Resource Check

BSC6900

Support Pb Single Pass Check

BSC6900

Support PCIC Check

BSC6900

Support RAN Sharing

BSC6900

Support Reduced Latency Capability

BSC6900

RanSharing Support

BSC6900

Support State Firewall

BSC6900

OSP index

BSC6900

Is Support Normalized Data Configuration

BSC6900

Is Support SingleRAN Mode

BSC6900

Is Support SingleRAN Mode

BSC6900

Source Cell Index

BSC6900

Source Cell Name

BSC6900

Source Cell Index

BSC6900

Source Cell Name

BSC6900

Source Cell CI

BSC6900

Source File Name

BSC6900

Clock source priority

BSC6900

Clock source priority

BSC6900

Current HO CTRL Algorithm in Source Cell

BSC6900

Source IP Address

BSC6900

Source Cell LAC

BSC6900

Source Cell MCC

BSC6900

MEP ID

BSC6900

Source Cell MNC

BSC6900

Source port No.

BSC6900

Clock source type

BSC6900

Source timeslot mask

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

BM Subrack No

BSC6900

Subrack No

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Port Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack 1 No

BSC6900

Subrack 2 No

BSC6900

Subrack name

BSC6900

Tributary No.

BSC6900

Subrack type

BSC6900

Sort Order

BSC6900

User Data Load Weight

BSC6900

User Data Load Weight

BSC6900

Service Priority Policy

BSC6900

Service Type

BSC6900

Penalty Level after BQ HO

BSC6900

CPU occupancy alarm clearance threshold

BSC6900

CPU occupancy alarm threshold

BSC6900

DSP occupancy alarm clearance threshold

BSC6900

DSP occupancy alarm threshold

BSC6900

Filter Length for TCH Level

BSC6900

Filter Length for SDCCH Level

BSC6900

Subsystem No.

BSC6900

Subsystem No.

BSC6900

Start Sync Serial No.

BSC6900

Penalty Level after TA HO

BSC6900

StartTime

BSC6900

Start Time

BSC6900

Start Time

BSC6900

Start Time

BSC6900

Start Time

BSC6900

Start Time

BSC6900

Start Time

BSC6900

Start Alarm ID

BSC6900

Prefer Variable Bitmap Code

BSC6900

CHAN REQ Arrival Control

BSC6900

Start CIC

BSC6900

Start CIC

BSC6900

Prohibit Power Saving Start Day

BSC6900

Heater Startup Temperature

BSC6900

Prohibit Power Saving Start Month

BSC6900

Paging Arrival Control

BSC6900

PS Resource REQ Arrival Control

BSC6900

Start Sub Timeslot No.

BSC6900

Fallback Start Time

BSC6900

Time When the Function Is Enabled

BSC6900

Start TS

BSC6900

Start TS

BSC6900

Start Timeslot No.

BSC6900

Smart Temperature Control

BSC6900

Smart Temperature Control

BSC6900

Start CIC

BSC6900

Out Port Cabinet No.

BSC6900

Start Date

BSC6900

Measurement Step

BSC6900

Satellite flag

BSC6900

Start Time

BSC6900

EICC Allowed

BSC6900

Stop Send SI 5/5bis/5ter after Encrypt

BSC6900

Fallback Stop Time

BSC6900

STP function switch

BSC6900

Out-BTS Port No.

BSC6900

Start Time

BSC6900

Out Port Slot No.

BSC6900

Out Port Subrack No.

BSC6900

Out-BTS Sub Timeslot No.

BSC6900

Start Time

BSC6900

Out-BTS Timeslot No.

BSC6900

BTS Type

BSC6900

ID of slave BSC in TC Pool

BSC6900

ID of slave BSC in TC Pool

BSC6900

Command Parameter

BSC6900

Max subframe length[byte]

BSC6900

Max Subframe Length

BSC6900

Subtask ID

BSC6900

Subnet No

BSC6900

Sublink Resources Preemption Switch

BSC6900

Sub Res Preempt Flag

BSC6900

Sub Timeslot No.

BSC6900

Sub-Version No.of TMU

BSC6900

Support Apply Used A Cic

BSC6900

Use Back-up port for LINE2

BSC6900

Use Back-up port for LINE1

BSC6900

Support Cell Broadcast Name

BSC6900

Support High Multislot Class

BSC6900

Support DTM

BSC6900

Support EDA

BSC6900

Support Enhanced DTM

BSC6900

Support FE/GE SPAN BTS Local Switch

BSC6900

Support TFO Codec Optimize

BSC6900

SupptCellList

BSC6900

S Value

BSC6900

Server IP

BSC6900

Server UDP Port

BSC6900

Switch

BSC6900

OMU Automatic Switchover Switch

BSC6900

Switch

BSC6900

Switch

BSC6900

Power Switch

BSC6900

Start week

BSC6900

Port switch

BSC6900

Self-healing Switch

BSC6900

Grace Protection Period Switch

BSC6900

Bfd Protocol Switch

BSC6900

Alarm Parameter Configuration Enabled

BSC6900

3ah Switch

BSC6900

Switch primary IP address flag

BSC6900

Switch back HB number

BSC6900

SwitchParameter1

BSC6900

SwitchParameter10

BSC6900

SwitchParameter2

BSC6900

SwitchParameter3

BSC6900

SwitchParameter4

BSC6900

SwitchParameter5

BSC6900

SwitchParameter6

BSC6900

SwitchParameter7

BSC6900

SwitchParameter8

BSC6900

SwitchParameter9

BSC6900

Switch Port

BSC6900

Set Enable/Disable

BSC6900

Start week sequence

BSC6900

BTS Symbol Offset

BSC6900

Sync case

BSC6900

Site Synchronization Method

BSC6900

Clock Synchronization Mode

BSC6900

Days of Inter Sync Period

BSC6900

Hours of Inter Sync Period

BSC6900

Minutes of Inter Sync Period

BSC6900

Contact mode of the manufacturer

BSC6900

System description

BSC6900

System Flux Threshold for Load HO

BSC6900

System Location

BSC6900

Send System Message 10 Allow

BSC6900

NE Name

BSC6900

System services

BSC6900

T1

BSC6900

Time1

BSC6900

Signalling route set test timer

BSC6900

Uninhibit ACK timer

BSC6900

Force uninhibit timer

BSC6900

Inhibition ACK timer

BSC6900

Link realignment timer

BSC6900

Time-control changeover timer

BSC6900

T2

BSC6900

Time2

BSC6900

T200

BSC6900

T200 FACCH/F

BSC6900

T200 FACCH/H

BSC6900

T200 SACCH TCH SAPI3

BSC6900

T200 SACCH SDCCH

BSC6900

T200 SACCH TCH SAPI0

BSC6900

T200 SDCCH

BSC6900

T200 SDCCH SAPI3

BSC6900

T203

BSC6900

Local inhibit test timer

BSC6900

Remote inhibit test timer

BSC6900

Changeover ACK timer

BSC6900

T3

BSC6900

Time3

BSC6900

T3105

BSC6900

T3115

BSC6900

T3168

BSC6900

T3192

BSC6900

T3212

BSC6900

Parameter of DTE [T391]

BSC6900

Time-control changeback timer

BSC6900

T4

BSC6900

Changeover ACK first attempt timer

BSC6900

T5

BSC6900

Changeover ACK second attempt timer

BSC6900

T6

BSC6900

T8

BSC6900

Transmission prohibited inhibition timer

BSC6900

Filter Length for TA

BSC6900

TA for UO HO Allowed

BSC6900

TA HO Allowed

BSC6900

TA Hysteresis

BSC6900

TA HO Valid Time

BSC6900

TA Threshold

BSC6900

Talker Info Interval

BSC6900

TA Filter Length for SDCCH Level

BSC6900

AISS Task Index

BSC6900

TA HO Watch Time

BSC6900

TA Threshold

BSC6900

T_AVG_T

BSC6900

T_AVG_W

BSC6900

Output Segment No

BSC6900

Output Segment No.

BSC6900

Try Switching Duration Time

BSC6900

Ring I Try Rotating Duration Time

BSC6900

Test code

BSC6900

Tc

BSC6900

Temperature Compensation Coefficient

BSC6900

TC CRC Allowed

BSC6900

TCH Rate Adjust Allow

BSC6900

TCH Traffic Busy Threshold

BSC6900

DL FER Threshold for TCH Call Drop

BSC6900

DL Level Threshold for TCH Call Drop

BSC6900

DL Quality Threshold for TCH Call Drop

BSC6900

UL FER Threshold for TCH Call Drop

BSC6900

UL Level Threshold for TCH Call Drop

BSC6900

UL Quality Threshold for TCH Call Drop

BSC6900

Min Interval for TCH Hos

BSC6900

TchMrCutNum

BSC6900

TCH Rate Modify

BSC6900

TCH Time Handover Period

BSC6900

TCH Time Handover Switch

BSC6900

Tch Traffic Busy Underlay Threshold

BSC6900

Tch Traffic Busy Overlay Threshold

BSC6900

Test code length

BSC6900

TC mode

BSC6900

Mute Detect Class1 Switch

BSC6900

Tail Cabinet No.

BSC6900

TC Port No

BSC6900

TC Pool ID

BSC6900

TC Slot No

BSC6900

TC Subrack No

BSC6900

The type of TC resource

BSC6900

TDD BA1 Input Tag

BSC6900

TDDBA2 Input Tag

BSC6900

TDD Reporting Offset

BSC6900

TDD Cell Reselect Diversity

BSC6900

TDD Reporting Threshold

BSC6900

Diversity

BSC6900

DL UARFAN

BSC6900

TDD MI System Information Optimized

BSC6900

TDD MI System INFO Broadcasting Prohibit

BSC6900

PS TDD RSCP Quality Threshold

BSC6900

Cell Parameter ID

BSC6900

Cell Parameter ID

BSC6900

TDD System Information Optimized Allowed

BSC6900

Sync Case

BSC6900

Congestion clear remain ratio

BSC6900

Congestion remain ratio

BSC6900

Subrack 1 TDM Port No

BSC6900

Subrack 2 TDM Port No

BSC6900

TEI

BSC6900

Enable Temperature Alarm Reporting

BSC6900

Upper Limit of Temperature Alarm

BSC6900

Lower Limit of Temperature Alarm

BSC6900

Upper ENV TEMP Alarm

BSC6900

Upper ENV TEMP Alarm

BSC6900

Lower ENV TEMP Alarm

BSC6900

Lower ENV TEMP Alarm

BSC6900

Coefficient of Temp Compensation

BSC6900

Cell Template Description

BSC6900

Cell Template Index

BSC6900

Cell Template Index

BSC6900

Cell Template Name

BSC6900

Temp Of High Temp. Load Power Off

BSC6900

Low Temperature Start Load Power Off Temp.

BSC6900

Low Temperature Start Load Poweroff Temp.

BSC6900

TER Indicator of System Information 3

BSC6900

Test Timer

BSC6900

Content of Message

BSC6900

TFO Option Switch

BSC6900

Test Frequency

BSC6900

Frame Start Time

BSC6900

Target OMU

BSC6900

TGW ID

BSC6900

TGW IP_TRANS IP address

BSC6900

TGW IP_TRANS IP Mask

BSC6900

TGW TRANS Slot No.

BSC6900

TGW Trans Subrack No.

BSC6900

Th

BSC6900

Volt Threshold for Off

BSC6900

Volt Threshold for On

BSC6900

THP1-ARP1 Priority Weight

BSC6900

THP1-ARP2 Priority Weight

BSC6900

THP1-ARP3 Priority Weight

BSC6900

THP2-ARP1 Priority Weight

BSC6900

THP2-ARP2 Priority Weight

BSC6900

THP2-ARP3 Priority Weight

BSC6900

THP3-ARP1 Priority Weight

BSC6900

THP3-ARP2 Priority Weight

BSC6900

THP3-ARP3 Priority Weight

BSC6900

Threshold type

BSC6900

Receive SGSN Config. Msg. Timer

BSC6900

Level Thresh for Assign BCCH Under TBCCH

BSC6900

Quality Thresh for Assign BCCH Under TBCCH

BSC6900

TIGHT BCCH HO Valid Time

BSC6900

Load Threshold for TIGHT BCCH HO

BSC6900

TIGHT BCCH HO Watch Time

BSC6900

RX_QUAL Threshold for TIGHT BCCH HO

BSC6900

TIGHT BCCH Switch

BSC6900

IBCA Tight Trx SDCCH Rxlev Threshold

BSC6900

IMSI Paging Timer

BSC6900

Time Limit

BSC6900

Time

BSC6900

Duration

BSC6900

Penalty Time after AMR TCHF-H HO Fail

BSC6900

Penalty Time after BQ HO

BSC6900

Penalty Time after OtoU HO Fail

BSC6900

Reply Time-Out[ms]

BSC6900

Reply Time-Out[ms]

BSC6900

Time Out

BSC6900

Time Out

BSC6900

Maximum Delay Time

BSC6900

Quick Handover Punish Time

BSC6900

Number of ping packets

BSC6900

Voltage Adjust Based Timeslots Allowed

BSC6900

Penalty Time after TA HO

BSC6900

Penalty Time after UtoO HO Fail

BSC6900

T11

BSC6900

Receive MSC Configuration Message Timer

BSC6900

Time Limit

BSC6900

TLLI

BSC6900

Tout Limit

BSC6900

Temperature Alarm Lower Threshold

BSC6900

Temperature Alarm Lower Threshold

BSC6900

Execute Time

BSC6900

Execute Time 1

BSC6900

Execute Time 2

BSC6900

Execute Time 3

BSC6900

Execute Time 4

BSC6900

Execute Time 5

BSC6900

TRMMAP ID

BSC6900

TRMMAP index

BSC6900

Time Length

BSC6900

Test Mode

BSC6900

Timer for Bad Quality DISC Statistic

BSC6900

Upper time threshold of raised fault

BSC6900

TMSI

BSC6900

Lower time threshold of raised fault

BSC6900

Signalling link test ACK timer

BSC6900

Signalling link repeat test timer

BSC6900

Data Table

BSC6900

Transmission Mode

BSC6900

Transmission Mode

BSC6900

AdjustMethod

BSC6900

Cell Reselect Temporary Offset

BSC6900

TOP Board Cabinet No.

BSC6900

TOP Board Slot No.

BSC6900

TOP Board Subrack No.

BSC6900

Log Type

BSC6900

Tail Port No.

BSC6900

Into-BSC HO REQ Queue Timer

BSC6900

Debug tracking control threshold

BSC6900

Debug tracking control threshold

BSC6900

Debug tracking restore threshold

BSC6900

Debug tracking restore threshold

BSC6900

Debug Flow control switch

BSC6900

DL Priority Decision Threshold

BSC6900

UL Priority Decision Threshold

BSC6900

Traffic mode

BSC6900

Transmission Mode

BSC6900

Load Transmitting Slot No.

BSC6900

Transport Type

BSC6900

Transport Type

BSC6900

Transport Type

BSC6900

Carrier Type

BSC6900

BTS Transmission Type

BSC6900

E1 Port 0 Set Optical Transmission Mode

BSC6900

E1 Port 1 Set Optical Transmission Mode

BSC6900

E1 Port 2 Set Optical Transmission Mode

BSC6900

E1 Port 3 Set Optical Transmission Mode

BSC6900

Trace Mode

BSC6900

Cell Reselection Forbidden Time

BSC6900

Load HO Threshold

BSC6900

Trunk Link No.

BSC6900

Trunk Link Slot No.

BSC6900

Trunk No.

BSC6900

User TRMMAP index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

Transport Resource Mapping switch

BSC6900

The Trunk group No.

BSC6900

Trunk group No.

BSC6900

Trunk No.

BSC6900

TRX Aiding Function Control

BSC6900

Duration Second

BSC6900

Channel Hop Index

BSC6900

TRX ID

BSC6900

TRX ID

BSC6900

No.1 TRX ID

BSC6900

No.10 TRX ID

BSC6900

No.11 TRX ID

BSC6900

No.12 TRX ID

BSC6900

No.13 TRX ID

BSC6900

No.14 TRX ID

BSC6900

No.15 TRX ID

BSC6900

No.16 TRX ID

BSC6900

No.17 TRX ID

BSC6900

No.18 TRX ID

BSC6900

No.19 TRX ID

BSC6900

No.2 TRX ID

BSC6900

No.20 TRX ID

BSC6900

No.21 TRX ID

BSC6900

No.22 TRX ID

BSC6900

No.23 TRX ID

BSC6900

No.24 TRX ID

BSC6900

No.3 TRX ID

BSC6900

No.4 TRX ID

BSC6900

No.5 TRX ID

BSC6900

No.6 TRX ID

BSC6900

No.7 TRX ID

BSC6900

No.8 TRX ID

BSC6900

No.9 TRX ID

BSC6900

TRXID LST

BSC6900

TRX Index List

BSC6900

Channel MAIO

BSC6900

TRX No.

BSC6900

TRX Number

BSC6900

TRX Board Pass No.

BSC6900

Sub-Location Group TRX Board Pass No.

BSC6900

Allocation TRX Priority Allowed

BSC6900

TRX Board Type

BSC6900

Time Slot

BSC6900

Time Slot

BSC6900

time slot No.

BSC6900

Bearing Timeslot

BSC6900

Time Slot NO.

BSC6900

Bearing time slot

BSC6900

Bearing time slot

BSC6900

Bearing Time Slot

BSC6900

TSC

BSC6900

Idle TS Count

BSC6900

TSC Plan Enable

BSC6900

Time slot cross index

BSC6900

Duration * 10 minutes

BSC6900

Timeslot Index

BSC6900

Task Name

BSC6900

Timeslot Mask

BSC6900

TS Mask

BSC6900

Tail Slot No.

BSC6900

Timeslot No.

BSC6900

Timeslot Priority

BSC6900

Timeslot Power Reserve

BSC6900

Fast Flux Measurement TBF Timer

BSC6900

Fast Flux Detection Switch

BSC6900

Time Slot Rate

BSC6900

Tail Subrack No.

BSC6900

Test Mode

BSC6900

Test Timeslot

BSC6900

Test Type

BSC6900

Test Type

BSC6900

Allow Turning Off Time Slot

BSC6900

Topo Type

BSC6900

Time to Live

BSC6900

PKT TTL

BSC6900

Dyn. Turning Off Cell Busy Channel Num.

BSC6900

Dyn. Turning Off Cell Stop Time

BSC6900

Dyn. Turning Off Cell Start Time

BSC6900

Enable Turning Off Cell

BSC6900

Dyn. Turning On Cell Load Threshold

BSC6900

Temperature Alarm Upper Threshold

BSC6900

Temperature Alarm Upper Threshold

BSC6900

Observation Cell Channel Reservation Timer

BSC6900

Observation Cell TRX Reservation Timer

BSC6900

Serving Cell TCHF Reservation Timer

BSC6900

Information Collection Response Timer

BSC6900

MS Search Timer

BSC6900

BTS Reserved Resource Activation Timer

BSC6900

BTS SYNC_REPORT Timer

BSC6900

TX-integer

BSC6900

Assigned Power of Pass A Operators 1

BSC6900

Assigned Power of Pass A Operators 2

BSC6900

Assigned Power of Pass A Operators 3

BSC6900

Assigned Power of Pass A Operators 4

BSC6900

Assigned Power of Pass B Operators 1

BSC6900

Assigned Power of Pass B Operators 2

BSC6900

Assigned Power of Pass B Operators 3

BSC6900

Assigned Power of Pass B Operators 4

BSC6900

Forward Bandwidth

BSC6900

Forward Bandwidth

BSC6900

Interval of send[ms]

BSC6900

TX_INT

BSC6900

Subrack Type

BSC6900

Finish Type

BSC6900

Freq. Band

BSC6900

PCU Type

BSC6900

Freq. Band

BSC6900

Cabinet Type

BSC6900

Cell Type

BSC6900

Up0 Power Attenuation Factor

BSC6900

Up0 Tower-Top Amplifier Flag

BSC6900

Up0 Link No.

BSC6900

Up0 TRX Board Pass No.

BSC6900

Up0 TRX Slot No.

BSC6900

Up0 TRX Subrack No.

BSC6900

Up1 Power Attenuation Factor

BSC6900

Up1 Tower-Top Amplifier Flag

BSC6900

Up1 Link No.

BSC6900

Up1 TRX Board Pass No.

BSC6900

Up1 TRX Slot No.

BSC6900

Up1 TRX Subrack No.

BSC6900

CS Preferred Call Reestablish Priority

BSC6900

CS Preferred CS Emergency Call Priority

BSC6900

CS Preferred CS MOC Priority

BSC6900

CS Preferred CS MTC Priority

BSC6900

CS Preferred Into-BSC HO Priority

BSC6900

CS Preferred Intra-BSC HO Priority

BSC6900

CS Preferred Other Service Priority

BSC6900

CS Preferred PS Priority

BSC6900

CS Preferred Supplement Priority

BSC6900

CS Preferred VBS Priority

BSC6900

CS Preferred VGCS Priority

BSC6900

Controlling of CIC IE In BSS Map Messages

BSC6900

RAI Alarm Switch

BSC6900

PS Preferred Call Reestablish Service Priority

BSC6900

PS Preferred CS Emergency Call Service Priority

BSC6900

PS Preferred CS Original Call Service Priority

BSC6900

PS Preferred CS Terminated Call Service Priority

BSC6900

PS Preferred In Handover Service Priority

BSC6900

PS Preferred Intra Handover Service Priority

BSC6900

PS Preferred Other Service Priority

BSC6900

PS Preferred PS Service Priority

BSC6900

PS Preferred Supplement Service Priority

BSC6900

PS Preferred VBS Service Priority

BSC6900

PS Preferred VGCS Service Priority

BSC6900

Speech Ver Change Optimize in Handover

BSC6900

Receive UDP MUX Mode

BSC6900

Sender UDP MUX Mode

BSC6900

Local UDP Port No.

BSC6900

Remote UDP Port No.

BSC6900

Operator Level

BSC6900

Upper Humidity Threshold

BSC6900

UIC

BSC6900

Unit time[ms]

BSC6900

Upper Limit

BSC6900

Upper Limit

BSC6900

PwrCtrlULAdjPeriod

BSC6900

ULAFSRexQualHighThred

BSC6900

ULAFSRexQualLowThred

BSC6900

ULAHSRexQualHighThred

BSC6900

ULAHSRexQualLowThred

BSC6900

UL BQ HO Last Time

BSC6900

UL BQ HO Static Time

BSC6900

Fast UL Priority Decision Threshold

BSC6900

Timer for UL Data Forward

BSC6900

RRBP Frequency for GPRS Downlink TBF

BSC6900

Edge HO UL RX_LEV Threshold

BSC6900

RRBP Frequency for EGPRS Downlink TBF

BSC6900

ACK Frequency for EGPRS Uplink TBF

BSC6900

III UL Filter Adjust Factor

BSC6900

ULFSRexQualHighThred

BSC6900

ULFSRexQualLowThred

BSC6900

ULHSRexQualHighThred

BSC6900

ULHSRexQualLowThred

BSC6900

AMR UL Coding Rate adj.hyst1[F]

BSC6900

AMR UL Coding Rate adj.hyst2[F]

BSC6900

AMR UL Coding Rate adj.hyst3[F]

BSC6900

AMR UL Coding Rate adj.hyst1[H]

BSC6900

AMR UL Coding Rate adj.hyst2[H]

BSC6900

AMR UL Coding Rate adj.hyst3[H]

BSC6900

AMR UL Coding Rate adj.hyst1[WB]

BSC6900

AMR UL Coding Rate adj.hyst2[WB]

BSC6900

2G Cell UL Basic Congest Thred

BSC6900

Filter Length for UL RX_LEV

BSC6900

ULMAXDownStep

BSC6900

ULMAXUpStep

BSC6900

2G Cell UL Overload Congest Thred

BSC6900

UL MR. Number Predicted

BSC6900

UL Qual. Upper Threshold

BSC6900

UL Qual. Lower Threshold

BSC6900

Filter Length for UL Qual.

BSC6900

UL Qual. Bad Trig Threshold

BSC6900

UL Qual. Bad UpLEVDiff

BSC6900

UL Qual. Threshold

BSC6900

UL Qual. Limit for AMR FR

BSC6900

UL Qual. Limit for AMR HR

BSC6900

ULRexLevAdjustFactor

BSC6900

ULRexLevExponentFilterLen

BSC6900

ULRexLevHighThred

BSC6900

ULRexLevLowThred

BSC6900

ULRexLevSlideWindow

BSC6900

ULRexQualAdjustFactor

BSC6900

ULRexQualExponentFilterLen

BSC6900

ULRexQualSlideWindow

BSC6900

III UL RexLev Protect Factor

BSC6900

III UL RexQual Protect Factor

BSC6900

UL RX_LEV Upper Threshold

BSC6900

UL RX_LEV Lower Threshold

BSC6900

AMR UL Coding Rate adj.th1[F]

BSC6900

AMR UL Coding Rate adj.th2[F]

BSC6900

AMR UL Coding Rate adj.th3[F]

BSC6900

AMR UL Coding Rate adj.th1[H]

BSC6900

AMR UL Coding Rate adj.th2[H]

BSC6900

AMR UL Coding Rate adj.th3[H]

BSC6900

AMR UL Coding Rate adj.th1[WB]

BSC6900

AMR UL Coding Rate adj.th2[WB]

BSC6900

UL to OL HO Allowed

BSC6900

ACK Frequency for GPRS Uplink TBF

BSC6900

Um Interface Crosstalk Optimization Allowed

BSC6900

UmPenaltyTimer

BSC6900

Um Interface Tag

BSC6900

Support Balance

BSC6900

Unblock Retry

BSC6900

ANT_A ALD Under Current Occur Threshold

BSC6900

ANT_B ALD Under Current Occur Threshold

BSC6900

RET ALD Under Current Occur Threshold

BSC6900

ANT_A ALD Under Current Clear Threshold

BSC6900

ANT_B ALD Under Current Clear Threshold

BSC6900

RET ALD Under Current Clear Threshold

BSC6900

Up BTS Index

BSC6900

Dest Father BTS Index

BSC6900

UPBTS Index type

BSC6900

Dest Father Index Type

BSC6900

Up BTS Name

BSC6900

Dest Father BTS Name

BSC6900

Update

BSC6900

Uplink Default CS Type

BSC6900

Uplink Default MCS Type

BSC6900

Uplink Multiplex Threshold of Dynamic Channel Conversion

BSC6900

Uplink EGPRS2-A Default MCS Type

BSC6900

Uplink EGPRS2-A Fixed MCS Type

BSC6900

Inactive Period of Extended Uplink TBF

BSC6900

Uplink Fixed CS Type

BSC6900

Uplink Fixed MCS Type

BSC6900

Interf.of UL Qual. Threshold

BSC6900

Interf.of UL Level Threshold

BSC6900

Uplink Max Length

BSC6900

OML/ESL/EML LAPD Uplink Window Size

BSC6900

UL PC Allowed

BSC6900

Upper Class Transport Resource Group No.

BSC6900

The Upper logic port number

BSC6900

Duration of Uplink Received Level Differ

BSC6900

Smooth Factor of Uplink Received Level

BSC6900

Observe Time of UL RX Level Difference

BSC6900

Short Message Uplink Disabled

BSC6900

Release Delay of Non-extended Uplink TBF

BSC6900

Uplink TBF Threshold from CS2 to CS1

BSC6900

Uplink TBF Threshold from CS3 to CS2

BSC6900

Uplink TBF Threshold from CS4 to CS3

BSC6900

Uplink TBF Threshold from CS1 to CS2

BSC6900

Uplink TBF Threshold from CS2 to CS3

BSC6900

Uplink TBF Threshold from CS3 to CS4

BSC6900

Cell Urgent Reselection Allowed

BSC6900

User Query Type

BSC6900

Support USF Granularity 4 Switch

BSC6900

User Name of FTP Server

BSC6900

FTPServer User

BSC6900

Energy Saving Start Time[HH:MM]

BSC6900

Energy Saving End Time[HH:MM]

BSC6900

Upper Temperature Threshold

BSC6900

MaxRetry Time after UtoO Fail

BSC6900

Penalty Time of UtoO HO

BSC6900

UtoO HO Received Level Threshold

BSC6900

UtoO Traffic HO Allowed

BSC6900

Underlay HO Step Period

BSC6900

Underlay HO Step Level

BSC6900

Utran Cell Type

BSC6900

Vendor Code

BSC6900

Maximum Number of Channels for VGCS

BSC6900

Channel Allocation Strategy for VGCS

BSC6900

Reserved Number of Channels for VGCS

BSC6900

VIP Access CPU Rate

BSC6900

VIP Cell

BSC6900

VIP Priority

BSC6900

VIP Share in CPU Rate

BSC6900

VLANID Flag

BSC6900

Vlan Flag

BSC6900

VLANID Flag of First Local IP address

BSC6900

VLANID Flag of Second Local IP address

BSC6900

VLAN ID.

BSC6900

VLAN ID

BSC6900

VLAN ID

BSC6900

VLAN ID

BSC6900

VLAN ID of First Local IP address

BSC6900

VLAN ID of Second Local IP address

BSC6900

VLAN Priority

BSC6900

VLAN Priority

BSC6900

VLAN Switch

BSC6900

Speech Version

BSC6900

Enable Alarm Reporting for 24V Power

BSC6900

Upper Limit of Alarm for 24V Power

BSC6900

Lower Limit of Alarm for 24V Power

BSC6900

Enable Alarm Reporting for 48V Power

BSC6900

Upper Limit of Alarm for 48V Power

BSC6900

Lower Limit of Alarm for 48V Power

BSC6900

Standing Wave Alarm CFG Enabled

BSC6900

VSWR TRX Unadjusted Threshold

BSC6900

Serious VSW Alarm Filter Times

BSC6900

Standing Wave Radio Alarm Threshold

BSC6900

Serious VSW Alarm Threshold

BSC6900

VSWR TRX Error Threshold

BSC6900

V-Version No.

BSC6900

T3109

BSC6900

Wait for REL Indication AMR FR

BSC6900

T3109 for AMR HR

BSC6900

Timer of MS Location Response from MS

BSC6900

Timer of Reserved TCH for EMC

BSC6900

IBCA Wait SDCCH Idle Timer

BSC6900

Timer of MS Location Response from SMLC

BSC6900

Heating Equipment

BSC6900

Enable Water Alarm Reporting

BSC6900

Week Limit

BSC6900

WE Longitude

BSC6900

Humidification Equipment

BSC6900

Whether affect the port swapping

BSC6900

LAPD Window Adjust Switch

BSC6900

Week

BSC6900

Work mode

BSC6900

End Time of WLA Detection

BSC6900

Wireless Link Alarm Critical Permit

BSC6900

WLA Prompting Recover Period

BSC6900

Begin Time of WLA Detection

BSC6900

Wireless Link Alarm Flag

BSC6900

Work Area Flag

BSC6900

Working Standard

BSC6900

Work Mode

BSC6900

Work Mode

BSC6900

Work Mode

BSC6900

Window Size

BSC6900

Wait Time before OML Switch

BSC6900

Ring I Wait Time Before Switch

BSC6900

WTR Time[Sec]

BSC6900

TimeZone

BSC6900

MML Command SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) ADD BTS(Optional) SET GCELLCCCH(Optional) SET BSCTMR(Optional) SET BSCTMR(Optional) SET BTSOTHPARA(Optional) SET BTSOTHPARA(Optional) SET BSSLS(Optional) SET BTSFLEXABISPARA(Optional) SET GCELLPSCHM(Optional) SET BSCBASIC(Optional) ADD AISSCFG(Optional) SET OTHSOFTPARA(Optional) SET GCELLPSBASE(Optional) SET GCELLPRACH(Optional) SET GCELLCCBASIC(Optional) SET GCELLCCBASIC(Mandatory) SET GCELLHOIUO(Optional) ADD BSCACCCTRLP(Mandatory) SET GCELLPSOTHERPARA(Optional) ADD BSCACCCTRLP(Optional) ADD BSCACCCTRLP(Optional) ADD BSCACCCTRLP(Optional) ADD ADD BTSPPPLNK(Optional) PPPLNK(Optional) ADD ADD BTSMPGRP(Optional) MPGRP(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPGRP(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLIDLEAD(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLSOFT(Optional)

ADD AISSCFG(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET SET BTSFMUABP(Optional) BTSAPMUBP(Optional) SET BTSAPMUBP(Optional) SET SET BTSDATUBP(Optional) GCELLSOFT(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET BTSRXUBP(Optional) ADD EXTNCELL(Mandatory) COL BSCSYNCINFO(Mandatory) SET BTSEXCURSION(Mandatory) SET BSCSYNCOFF(Mandatory) SET GCELLEGPRSPARA(Optional) SET BTSAUTODLDACTINFO(Optional) SET BTSAUTODLDACTINFO(Optional) SET GCELLADMSTAT(Mandatory) SET GTRXADMSTAT(Mandatory) SET GTRXCHANADMSTAT(Mandatory) ADD AISSCFG(Optional) ADD AISSCFG(Optional) ADD AISSCFG(Mandatory) ADD AISSCFG(Optional) ADD BTSALMMGMRULE(Mandatory) SET BTSAUTODLDACTINFO(Optional) SET BTSAUTODLDACTINFO(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET GCELLCCBASIC(Optional)

SET GCELLCCBASIC(Optional) ADD GPS(Mandatory) ADD GPS(Mandatory) SET GCELLCCBASIC(Optional) SET GCELLCCBASIC(Optional) SET ALMPORT(Mandatory) SET SET ALMLVL(Mandatory) ALMBLKPARA(Mandatory) SET ALMSHLD(Mandatory) SET BOXRPT(Mandatory) ADD OBJALMSHLD(Optional) SET ENVALMPARA(Mandatory) SET BTSENVALMPORT(Optional) ADD BTSOBJALMSHLD(Mandatory) SET GCELLSOFT(Optional) ADD OBJALMSHLD(Optional) ADD BTSOBJALMSHLD(Mandatory) SET OTHSOFTPARA(Mandatory) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCBASIC(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional)

SET TCPARA(Optional) SET TCPARA(Optional) SET BSCNSPARA(Optional) SET BSCNSPARA(Optional) ADD RSCGRP(Mandatory) SET BSCPSSOFTPARA(Optional) SET GCELLPSCHM(Optional) SET GCELLCHMGBASIC(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLCHMGBASIC(Optional) ADD AE1T1(Mandatory) ADD PBE1T1(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) ADD BTSALMMGMRULE(Mandatory) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSALMFLASHTHD(Mandatory) ADD BTSALMMGMRULE(Mandatory) SET BTSDGPSBP(Optional) SET BTSDGPSBP(Optional) SET BTSDGPSBP(Optional) ADD BTSALMMGMRULE(Mandatory) SET BTSALMFLASHTHD(Optional) SET BTSALMFLASHTHD(Optional) SET BTSALMFLASHTHD(Optional) SET BTSALMFLASHTHD(Optional) SET BTSDHEUBP(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional) SET GCELLPSPWPARA(Optional)

SET GCELLLCS(Optional) ADD GPS(Mandatory) SET GCELLLCS(Optional) ADD GPS(Mandatory) SET EXP ALMLVL(Mandatory) ALMLOG(Optional) SET ALMSCRN(Mandatory) SET ENVALMPARA(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET GCELLPWR2(Optional) SET GCELLPWR3(Optional) SET GCELLCCAMR(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWRBASIC(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCCAMR(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET OTHSOFTPARA(Optional) SET AITFOTHPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional) ADD ADJNODE(Mandatory) SET BTSANTANGLE(Mandatory) ADD IPPATH(Mandatory) ADD ADJMAP(Mandatory) ADD IPMUX(Mandatory) ADD IPPATHBIND(Mandatory) SET ENVALMPARA(Optional) SET TCPARA(Optional) SET TCPARA(Optional)

SET TCPARA(Optional) SET TCPARA(Optional) SET GCELLLCS(Optional) SET BTSDGPSBP(Optional) SET BTSUSCUBP(Optional) SET BTSDGPSBP(Optional) SET BTSUSCUBP(Optional) ADD MPGRP(Optional) LOD RETANTCFG(Mandatory) SET BTSTHEFTALM(Optional) SET BTSANTANGLE(Mandatory) SET RETANTENB(Mandatory) ADD TRXBIND2PHYBRD(Mandatory) ADD BTSBINDLOCGRP(Optional) ADD BTSANTFEEDERBRD(Mandatory) SET BTSANTFEEDERCONNECT(Optional) ADD MTP3LNK(Mandatory) ADD SCTPLNK(Mandatory) ADD SEMILINK(Mandatory) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET BSCBASIC(Optional) CMP BRDAREA(Optional) LOD PATCH(Optional) LOD BRD(Optional) SYN BRDAREA(Optional) SET GTRXRLALM(Optional) SET GTRXRLALM(Optional) SET GTRXRLALM(Optional) STR IPCHK(Optional) STR IPCHK(Optional) ADD MTP3LNK(Mandatory) ADD ATERSL(Optional) ADD ATERCONSL(Optional) ADD MTP3LNK(Mandatory) EXP ALMLOG(Optional) STA ALMLOG(Optional)

SET ENVALMPARA(Optional) SET GCELLHOAD(Optional) SET GCELLCCBASIC(Optional) SET SET BTSAPMUBP(Optional) GCELLCHMGAD(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional) SET SET BTSAPMUBP(Optional) BTSRXUBP(Mandatory) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional) SET SET BTSAPMUBP(Optional) BTSRXUBP(Mandatory) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional) SET BTSRXUBP(Mandatory) SET OTHSOFTPARA(Optional) SET GCELLTMR(Optional) SET BSCTMR(Optional) SET BSCAITFTMR(Optional) SET BSCAITFTMR(Optional) SET BSCAITFTMR(Optional) SET BSCTMR(Optional) SET BSCTMR(Optional) SET BSCAITFTMR(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET ADD OTHSOFTPARA(Optional) MTP3LNK(Mandatory) ADD ATERE1T1(Mandatory) SET OTHSOFTPARA(Optional) ADD ATERCONPATH(Optional) ADD ATERSL(Mandatory) SET OTHSOFTPARA(Optional) ADD ATERCONSL(Mandatory) ADD SEMILINK(Mandatory) ADD MTP3LNK(Mandatory) SET BSSLS(Optional) ADD ATERSL(Mandatory) ADD ATERCONSL(Mandatory) ADD SEMILINK(Mandatory) ADD ATEROML(Mandatory) ADD ATEROML(Mandatory) ADD ATERSL(Optional) ADD ATERCONSL(Optional) SET BSCBASIC(Mandatory) STR BTSVSWRTST(Optional)

ADD MTP3LNK(Mandatory) SET GCELLIDLEBASIC(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET E1T1LOP(Optional) STR E1T1TST(Optional) SET SSLAUTHMODE(Mandatory) ADD PPPLNK(Mandatory) ADD BTSPPPLNK(Mandatory) ADD ADD BTSMPGRP(Mandatory) MPGRP(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPGRP(Mandatory) ADD PPPLNK(Mandatory) ADD BTSPPPLNK(Mandatory) ADD ADD BTSMPGRP(Mandatory) MPGRP(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPGRP(Mandatory) ADD PPPLNK(Mandatory) ADD BTSPPPLNK(Mandatory) ADD ADD BTSMPGRP(Mandatory) MPGRP(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPGRP(Mandatory) ADD PPPLNK(Optional) ADD BTSPPPLNK(Optional) ADD ADD BTSMPGRP(Optional) MPGRP(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPGRP(Optional) SET ETHPORT(Optional) ADD BRD(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET OTHSOFTPARA(Optional) SET BTSETHPORT(Optional) SET BTSAUTODLDACTINFO(Optional) LCK SCHTSK(Optional) SET PWDPOLICY(Optional) SET OPT(Optional) SET BSCBASIC(Optional) SET ALMPORT(Optional) SET BTSENVALMPORT(Optional) SET OPT(Optional) SET OPT(Optional)

SET OPT(Optional) SET OPT(Optional) SET CLK(Optional) SET CLK(Optional) BKP LOGDB(Optional) BKP DB(Optional) SET GCELLSOFT(Optional) SET BSCPSSOFTPARA(Optional) ADD BTSESN(Optional) STR IPCHK(Optional) STR IPCHK(Optional) SET BTSBAKPWR(Mandatory) SET BTSBAKPWR(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLHOAD(Optional) SET BTSRACKBC(Mandatory) ADD AISSCFG(Mandatory) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET SCTPSRVPORT(Optional) SET GTRXRLALM(Optional) SET BTSAPMUBP(Optional) ADD GCELL(Optional) ADD GEXT2GCELL(Mandatory) ADD GCELLQUICKSETUP(Optional) ADD GEXT2GCELL(Mandatory) ADD GCELLQUICKSETUP(Mandatory) SET GCELLHOPQUICKSETUP(Mandatory)

SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) STR FRPORTLOOP(Mandatory) BLK SET BC(Mandatory) BSCPSTCDSCPMAP(Optional) ADD BC(Mandatory) ADD NSVC(Mandatory) SET BTSAPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSAPMUBP(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) ADD N7DPC(Mandatory) SET GBSCREDGRP(Optional) SET GCELLEGPRSPARA(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLHOUTRANFDD(Optional) SET GCELLHOUTRANTDD(Optional) SET GCELLHOBASIC(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) STR IPCHK(Optional) ADD BTSBFD(Mandatory) ADD BTSIPRTBIND(Mandatory) SET GTRXRLALM(Optional) SET GCELLCCACCESS(Optional) SET BTSEXCURSION(Mandatory) SET BSCSYNCOFF(Mandatory) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET ALMBLKSW(Optional) SET ALMBLKPARA(Optional) SET ALMBLKSW(Optional) SET ALMBLKSW(Optional) SET BSCNSPARA(Optional) SET BSCNSPARA(Optional) ADD ATERCONPATH(Mandatory) ADD ATERCONPATH(Mandatory)

ADD ATERCONPATH(Mandatory) SET BSCTMR(Optional) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory) SET BOXRPT(Mandatory) SET BTSBREAKPOINT(Optional) SET BTSBREAKPOINT(Optional) SET GCELLHOBASIC(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) SET STR FCSW(Mandatory) BKP(Mandatory) SET FCCPUTHD(Mandatory) SET FCMSGQTHD(Mandatory) SET CPUTHD(Mandatory) ADD BRD(Mandatory) STR BTSLOG(Mandatory) STR BTSVSWRTST(Optional) ADD BTSBRDCAP(Mandatory) ADD BTSRXUBRD(Optional) LOD BTSSW(Mandatory) ADD BTSBRDCAP(Mandatory) ADD BTSRXUBRD(Optional) SET DPUBRDTYPE(Mandatory) ADD BRD(Optional) SET ETHPORT(Mandatory) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory) ADD MPLNK(Mandatory) ADD BTSBRDCAP(Mandatory) STR BTSLOG(Mandatory) SET BTSRINGATTR(Optional) SET GCELLSBC(Optional) SET GCELLSBC(Optional) BKP LOGDB(Optional) SET GCELLIDLEBASIC(Optional) ADD EXTBSC(Mandatory) SET BSCDSTPA(Optional)

BLK ACIC(Mandatory) ADD AE1T1(Mandatory) ADD GCBSADDR(Mandatory) ADD AISSCFG(Optional) ADD AISSCFG(Optional) ADD ADJNODE(Mandatory) ADD GEXT2GCELL(Optional) ADD EXTBSC(Mandatory) ADD AISSCFG(Optional) ADD ADD BTSAUTOPLAN(Mandatory) GCBSADDR(Mandatory) SET BTSIP(Optional) IMP BTSIPPARA(Mandatory) SET BSSLS(Optional) ADD EXTBSC(Mandatory) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) ADD BTSMONITORTS(Mandatory) ADD GCBSADDR(Mandatory) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) ADD BTSMONITORTS(Mandatory) ADD BTSMONITORTS(Mandatory) ADD BTSMONITORTS(Mandatory) ADD ATERE1T1(Mandatory) SET BSCAISS(Mandatory) ADD ATERSL(Mandatory) ADD SEMILINK(Mandatory) SET BSCBASIC(Mandatory) ADD BTSMONITORTS(Mandatory) SET GCELLPSBASE(Optional) SET GCELLHOCTRL(Optional) ADD GCELL(Optional) SET GCELLIDLEBASIC(Optional) ADD GCELL(Optional) ADD GCELL(Optional) SET BSSLS(Optional) ADD GCNNODE(Optional) SET GCELLPSBASE(Optional) SET CLK(Mandatory) CON PATCH(Mandatory) LOD PATCH(Mandatory) LOD BRD(Mandatory) SET E1T1LOP(Mandatory) SET E1T1(Mandatory) LOP E1T1(Mandatory)

ADD ADD BTSCONNECT(Mandatory) BTSETHRMMEP(Mandatory) SET SET BTSETHPORT(Mandatory) BTSOMLDETECT(Mandatory) SET SET BTSRINGATTR(Mandatory) BTSFLEXABISPARA(Mandatory) ADD ADD BTSMONITORTS(Mandatory) BTSTOPCONFIG(Mandatory) SET LOD BTSTRCMPR(Mandatory) RETANTCFG(Mandatory) ADD BTSABISHDLCPATH(Mandatory) SAV BTSCLKPARA(Mandatory) SET BTSCTRL(Mandatory) SET BTSANTANGLE(Mandatory) ADD BTSABISMUXFLOW(Mandatory) SET BTSRACKBC(Mandatory) STR E1T1TST(Mandatory) SET BTSIPCLKPARA(Mandatory) SET BTSCLKPARA(Mandatory) ADD BTSPPPLNK(Mandatory) SET BTSCAVFRQ(Mandatory) OPT(Mandatory) ADD BTSMPGRP(Mandatory) SET BTSPMUDEF(Mandatory) ADD BTSMPLNK(Mandatory) SET BTSTMA(Mandatory) COPTLNK(Mandatory) SET SET BTSIP(Mandatory) SET RETANTENB(Mandatory) ADD IPLOGICPORT(Mandatory) SET STR BTSPINGSW(Mandatory) BTSBATTTST(Mandatory) SET BTSBWPARA(Mandatory) STR BTSLOG(Mandatory) CHK BTSBIND2HDLCPATH(Mandatory) E1T1CRS(Mandatory) ADD STR BTSRACKTEMPMON(Mandatory) ADD BTSIPRTBIND(Mandatory) STR ADD BTSTST(Mandatory) BTSRETANT(Mandatory) ADD BTSETHMD(Mandatory) STR RETANTSCAN(Mandatory) ADD BTSETHMA(Mandatory) ADD TRANSPERFTST(Mandatory) BTSANTFEEDERBRD(Mandatory) STR ADD SWP BTSETHLCMEP(Mandatory) BTSBRD(Mandatory) ADD BTSBRD(Mandatory) SWP BTSETHRMMEP(Mandatory) BTSCLKCLTPT(Mandatory) SET BTSOMLDETECT(Mandatory) TST BTSBRD(Mandatory) ADD BTSRXUBRD(Mandatory) SET SET BTSFLEXABISPARA(Mandatory) BTSENVALM(Mandatory) ADD BTSTOPCONFIG(Mandatory) STR BTSVSWRTST(Mandatory) ADD BTSTRXBRD(Mandatory) LOD RETANTCFG(Mandatory) SWP BTSLOCGRP(Mandatory) SAV BTSCLKPARA(Mandatory) SET BTSLOADCTRL(Mandatory) BTSANTFEEDERCONNECT(Mandatory) SET CHGBTSANTANGLE(Mandatory) BTSPTUSHKTM(Mandatory) SET ADD BTSRACKBC(Mandatory) ATERE1T1(Mandatory) PING BTSCFM(Mandatory) SET TRC BTSCLKPARA(Mandatory) BTSCFM(Mandatory) SET ADD BTSCAVFRQ(Mandatory) ATERSL(Mandatory) OPR BTSBRDPWR(Mandatory) SET BTSPMUDEF(Mandatory) IMP BTSIPPARA(Mandatory) GCELLBASICPARA(Optional) SET EXP BTSTMA(Mandatory) BTSIPPARA(Mandatory) SET RETANTENB(Mandatory) IMP BTSVLAN(Mandatory) SET BTSOMLDETECT(Mandatory) STR EXP BTSBATTTST(Mandatory) BTSVLAN(Mandatory) STR BTSLOG(Mandatory) IMP SET BTSDEVIP(Mandatory) BTSIP(Optional) STR EXP BTSRACKTEMPMON(Mandatory) BTSDEVIP(Mandatory) STR BTSTST(Mandatory) BTSIPPARA(Mandatory) IMP BTSPPPLNK(Mandatory) STR EXP RETANTSCAN(Mandatory) BTSPPPLNK(Mandatory) ADD BTS(Optional) STR TRANSPERFTST(Mandatory) IMP BTSMPGRP(Mandatory) SWP BTSBRD(Mandatory) EXP BTSMPGRP(Mandatory) SET BTSOTHPARA(Optional) SWP BTSCLKCLTPT(Mandatory) IMP BTSMPLNK(Mandatory) TST BTSBRD(Mandatory) EXP ADD BTSMPLNK(Mandatory) ADJNODE(Mandatory) SET BTSENVALM(Mandatory) IMP BTSIPRT(Mandatory) STR EXP BTSVSWRTST(Mandatory) BTSIPRT(Mandatory) SWP BTSLOCGRP(Mandatory) SET BTSLOADCTRL(Mandatory) BSCABISPRIMAP(Mandatory) CHG BTSPTUSHKTM(Mandatory) LOD ADD BTSSW(Mandatory) BTSABISHDLCPATH(Mandatory) PING BTSCFM(Mandatory) LOD BTSPATCH(Mandatory) TRC BTSCFM(Mandatory) CON BTSBRDPWR(Mandatory) BTSPATCH(Mandatory) OPR IMP BTSIPPARA(Mandatory) COL SYNCINFO(Mandatory) EXP BTSIPPARA(Mandatory) IMP SET BTSVLAN(Mandatory) BTSANTANGLE(Mandatory) EXP BTSVLAN(Mandatory) ADD BTSAUTOPLAN(Mandatory) IMP ADDBTSDEVIP(Mandatory) BTSOP(Mandatory) SET BTSIP(Optional) EXP BTSDEVIP(Mandatory) BTSIPPARA(Mandatory) IMP BTSPPPLNK(Mandatory) EXP BTSPPPLNK(Mandatory) SET BSSLS(Optional) IMP BTSMPGRP(Mandatory) EXP ADD BTSMPGRP(Mandatory) BTSAUTOPLAN(Mandatory) IMP BTSMPLNK(Mandatory) EXP BTSMPLNK(Mandatory) SET GCELLHOCTRL(Optional) IMP BTSIPRT(Mandatory) EXP BTSIPRT(Mandatory) LOD ADD BTSSW(Mandatory) BTSABISHDLCPATH(Mandatory) LOD BTSPATCH(Mandatory) CON BTSPATCH(Mandatory)

SET BTSPINGSW(Optional) SET BTSLOCKBCCH(Mandatory) SET GCELLPWR2(Optional) SET GCELLSOFT(Optional) LOD BTSSW(Mandatory) SET BTSTRCMPR(Mandatory) ADD BTS(Mandatory) SET BTSALM(Mandatory) ADD BTSAUTOPLAN(Mandatory) SET BTSAUTOPLANCFG(Mandatory) LOD BTSPATCH(Mandatory) CON BTSPATCH(Mandatory) ADD BTSBFD(Optional) STR BTSTST(Mandatory) SET BTSAPMUBP(Optional) SET BTSRINGATTR(Optional) ADD SCTPLNK(Optional) ADD PTPBVC(Mandatory) BLK PTPBVC(Mandatory) ADD GCELLQUICKSETUP(Optional) SET BSSGPPARA(Optional) ADD IPLOGICPORT(Mandatory) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD IPLOGICPORT(Optional) ADD RSCGRP(Mandatory) ADD IPLOGICPORT(Optional) SET GTRXRLALM(Optional) ADD NCELL(Mandatory) COL SYNCINFO(Mandatory) SET GCELLRESELECTPARA(Optional)

SET GCELLRESELECTPARA(Optional) ADD BTSCABINET(Optional) SET BTSRACKBC(Mandatory) ADD CAB(Mandatory) SET GCELLBASICPARA(Optional) SET BTSCLKPARA(Mandatory) SET GCELLCCCH(Optional) SET BTSAUTOPLANCFG(Optional) ADD BTSBRD(Optional) ADD IPPATH(Optional) ADD IPLOGICPORT(Optional) STR IPCHK(Optional) SET GCELLIDLEBASIC(Optional) ADD GCBSADDR(Mandatory) ADD GCBSADDR(Mandatory) ADD GCBSADDR(Optional) ADD GCBSADDR(Mandatory) SET BSCTMR(Optional) SET GCELLIDLEBASIC(Optional) ADD IPLOGICPORT(Optional) SET BSCTMR(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOFITPEN(Optional) SET BSCBASIC(Optional) SET CERTFILE(Optional) SET GCELLCCCH(Optional) SET GCELLCCCH(Optional) SET BSCPSTCDSCPMAP(Optional) ADD ETHMA(Optional) SET GCELLOTHEXT(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELL2GBA1(Mandatory) SET GCELL2GBA1(Mandatory)

SND MOV GCELLSYSMSG(Mandatory) BCCH(Mandatory) SET ADD FHO(Mandatory) GTRX(Mandatory) SET ADD GCELL2GBA1(Mandatory) PTPBVC(Mandatory) SET SET GCELLCHMGBASIC(Mandatory) GCELLEGPRSPARA(Mandatory) SET SET GCELLHO2GBA2(Mandatory) GCELLPRACH(Mandatory) SET SET GCELLHOAD(Mandatory) GCELLPRIVATEOPTPARA(Mandatory) SET SET GCELLHOBASIC(Mandatory) GCELLPSBASE(Mandatory) SET GCELLHOCTRL(Mandatory) SET SET GCELLPSCHM(Mandatory) GCELLHO2GBA2(Mandatory) SET SET GCELLHOEDBPARA(Mandatory) GCELLPSCS(Mandatory) SET SET GCELLHOEMG(Mandatory) GCELLPSI1(Mandatory) GCELLHO2GBA2(Mandatory) SET SET GCELLHOFAST(Mandatory) GCELLPSOTHERPARA(Mandatory) SET GCELLBASICPARA(Optional) SET GCELLHOFDDBA2(Mandatory) GCELLPSPWPARA(Mandatory) SET SET GCELLHOFITPEN(Mandatory) MSTOCELL(Mandatory) GCELLCCUTRANSYS(Optional) SET SET GCELLHOIUO(Mandatory) PSCELLTODSP(Mandatory) SET SET GCELLHOPTP(Mandatory) GCELLNC2PARA(Mandatory) SET GCELLHOTDDBA2(Mandatory) GCELLCCUTRANSYS(Optional) SET SET GCELLNCRESELECTPARA(Mandatory) SET GCELLHOUTRANFDD(Mandatory) SET SET GCELLNWCTRLMSRPARA(Mandatory) GCELLSERVPARA(Optional) SET SET GCELLHOUTRANTDD(Mandatory) GCELLRESELECTPARA(Mandatory) SET SET GCELLPWR2(Mandatory) GCELLSERVPARA(Mandatory) GCELLOTHEXT(Optional) SET SET GCELLPWR3(Mandatory) GCELLSTANDARDOPTPARA(Mandatory) SET BTSPMUBP(Optional) SET GCELLDYNTURNOFF(Mandatory) GCELLGPRS(Mandatory) SET SET GCELLPWRBASIC(Mandatory) GPSCHRSCOPE(Mandatory) BTSDPMUBP(Optional) SET ADD GCELLCHMGAD(Mandatory) BTSOBJALMSHLD(Mandatory) SET GCELLHOPQUICKSETUP(Mandatory) ADD GCELLQUICKSETUP(Mandatory) SET BTSPMUBP(Optional) SET SET GCELLMAIOPLAN(Mandatory) GCELLFREQSCAN(Mandatory) SET SET BTSANTANGLE(Mandatory) SET GCELLHOPANT(Mandatory) BTSDPMUBP(Optional) SET STR GCELLHOPANTQUICKSETUP(Mandatory) TRXBURSTTST(Mandatory) ADD CELLBIND2BTS(Mandatory) STR BTSRFTST(Mandatory) MOV BCCH(Mandatory) SET GMRSCOPE(Mandatory) ADD GTRX(Mandatory) ADD PTPBVC(Mandatory) SET GCELLEGPRSPARA(Mandatory) GCELLHOINTERRATLDB(Mandatory) SET SET GCELLPRACH(Mandatory) ADD BTSRETANT(Mandatory) SET GCELLPRIVATEOPTPARA(Mandatory) SET ADD GCELLPSBASE(Mandatory) BTSAUTOPLAN(Optional) SET GCELLPSCHM(Mandatory) SET SAV GCELLPSCS(Mandatory) GCELLTEMPLATE(Mandatory) SET GCELLPSI1(Mandatory) STR GCELLPSOTHERPARA(Mandatory) NCS(Mandatory) SET SET GCELLPSPWPARA(Mandatory) SET PSCELLTODSP(Mandatory) FHO(Mandatory) SET SET GCELLNC2PARA(Mandatory) ADD BTSRETANT(Mandatory) SET GCELLNCRESELECTPARA(Mandatory) SET SET GCELLNWCTRLMSRPARA(Mandatory) BTSANTANGLE(Mandatory) SET GCELLRESELECTPARA(Mandatory) SET ADD GCELLSERVPARA(Mandatory) GCELL(Mandatory) SET GCELLSTANDARDOPTPARA(Mandatory) ADD GCELLGPRS(Mandatory) GEXT3GCELL(Optional) SET SET GPSCHRSCOPE(Mandatory) ADD ADD GSMSCB(Optional) BTSRETANT(Mandatory) ADD GCELLQUICKSETUP(Mandatory) SET MSGSOFTPARA(Optional) SET GCELLFREQSCAN(Mandatory) SET SET BTSANTANGLE(Mandatory) GCELLCHMGBASIC(Optional) STR TRXBURSTTST(Mandatory) STR BTSRFTST(Mandatory) SET GCELLHOINTERRATLDB(Mandatory) ADD BTSAUTOPLAN(Mandatory) SAV GCELLTEMPLATE(Mandatory) ADD GSMSCB(Optional) SET GCELLCHMGAD(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLSOFT(Optional)

SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET GCELLNC2PARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLBASICPARA(Optional) SET GCELLCCAD(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET SET BTSFMUABP(Mandatory) BTSAPMUBP(Optional) SET SET BTSNFCBBP(Mandatory) BTSDPMUBP(Optional) SET BTSPMUBP(Mandatory) BTSAPMUBP(Optional) SET BTSAPMUBP(Mandatory) BTSDPMUBP(Optional) SET BTSDATUBP(Mandatory) GCELLOTHEXT(Optional) SET BTSDEMUBP(Mandatory) SET BTSDHEUBP(Mandatory) SET SET GCELLOTHEXT(Optional) BTSDOMUBP(Mandatory) SET SET BTSDPMUBP(Mandatory) GTRXFC(Optional) SET BTSDTMUBP(Mandatory) SET SET BTSPSUFP(Mandatory) CERTFILE(Mandatory) SET BTSDDPUBP(Mandatory) IMP BTSIPPARA(Mandatory) SET BTSUSCUBP(Mandatory) IMP BTSVLAN(Mandatory) IMP BTSDEVIP(Mandatory) SET BTSIP(Optional) IMP BTSPPPLNK(Mandatory) IMP SET BTSMPGRP(Mandatory) BTSAUTOPLANCFG(Mandatory) IMP BTSMPLNK(Mandatory) IMP BTSIPRT(Mandatory) SET BTSCABPARA(Mandatory) SET BTSPOWERTYPE(Mandatory) ADD OP(Mandatory) ADD CCG(Mandatory) SET CCGN(Mandatory) ADD OP(Optional) ADD ATERSL(Optional) ADD ATERCONSL(Optional) ADD PBSL(Optional) SET BTSAUTOPLANCFG(Optional) SET CCGN(Optional) SET BTSIDLETS(Mandatory) ADD ATERSL(Optional) ADD ATERCONSL(Optional) ADD PBSL(Optional) ADD G2GNCELL(Optional) CBN BTSRXUCHAIN(Mandatory)

SET GCELLCHMGBASIC(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSBC(Optional) ADD GSMSCB(Mandatory) SET GCELLCHMGAD(Optional) SET AITFOTHPARA(Optional) SET GCELLSOFT(Optional) ADD IPPATH(Optional) SET OTHSOFTPARA(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) STR IPCHK(Optional) ADD IPPATHBIND(Mandatory) SET BTSAIRCON(Optional) SET BTSAIRCON(Optional) ADD SCTPLNK(Optional) ADD SCTPLNK(Optional) ADD SCTPLNK(Optional) STR IPCHK(Mandatory) STR BTSTST(Mandatory) SET SET FHO(Mandatory) BTSCHNFALLBACK(Mandatory) SET GTRXCHANHOP(Mandatory) SET SET GTRXCHAN(Mandatory) TCPLYVOICE(Mandatory) SET GTRXCHANADMSTAT(Mandatory) STR BTSTST(Mandatory) STR BTSTST(Mandatory) SET BTSCHNFALLBACK(Mandatory) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET GCELLCHMGAD(Optional)

SET GPSCHRSCOPE(Optional) SET BSCFCPARA(Optional) ADD GCELL(Mandatory) SET ADD BSCFCPARA(Optional) GEXT2GCELL(Mandatory) ADD GEXT3GCELL(Mandatory) SET BSCFCPARA(Optional) SET FHO(Mandatory) ADD BTSAUTOPLAN(Mandatory) SET GTRXCHAN(Optional) SET BTSAUTOPLANCFG(Optional) ADD GCELLQUICKSETUP(Mandatory) SET BTSAUTOPLANCFG(Optional) BLK ACIC(Mandatory) BLK PBCIC(Mandatory) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) ADD IPLOGICPORT(Optional) SET GCELLCHMGAD(Optional) ADD DXXCONNECT(Mandatory) ADD DXXCONNECT(Mandatory) SET GCELLGPRS(Optional) SET OTHSOFTPARA(Optional) ADD MPGRP(Optional) SET BTSCLKPARA(Mandatory) SET BTSIPCLKPARA(Optional) SET CLKTYPE(Mandatory) SET BTSCLK(Mandatory) SET BTSTHEFTALM(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional) SET BTSTHEFTALM(Optional)

SET BTSFMUABP(Optional) SET BTSAPMUBP(Optional) SET BTSDATUBP(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional) SET BTSUSCUBP(Optional) SET BTSCABPARA(Mandatory) SET BTSPOWERTYPE(Mandatory) LOD RETANTCFG(Optional) ADD BTSSFPMODE(Optional) EXP BTSRXUBP(Optional) LOG(Optional) SET SET BTSANTANGLE(Optional) SET BTSFORBIDTS(Optional) ADD BTSRXU2LOCGRP(Mandatory) SET BTSCLKPARA(Optional) SET BTSOMLTS(Optional) ADD CCG(Mandatory) ADD BTSBINDLOCGRP(Mandatory) SET BTSETHPORT(Optional) BTSCAVFRQ(Optional) SET ADD BTSBRD(Optional) SET BTSPMUDEF(Optional) SUBCMD(Mandatory) ADD BTSPPPLNK(Optional) ADD BTSCABINET(Mandatory) SET BTSTMA(Optional) ADD BTSMPLNK(Optional) ADD BTSRXUBRD(Optional) ADD CAB(Mandatory) SET RETANTENB(Optional) ADD BTSETHMA(Optional) SET BTSENVALMPORT(Optional) STR BTSBATTTST(Optional) ADD BTSETHLCMEP(Optional) ADD BTSOBJALMSHLD(Mandatory) STR BTSTST(Mandatory) ADD ADD BTSTOPCONFIG(Optional) BTSBFD(Optional) STR RETANTSCAN(Optional) IMP ADDBTSDEVIP(Optional) BTSIPRTBIND(Optional) STR TRANSPERFTST(Optional) IMP BTSPPPLNK(Optional) SWP BTSBRD(Optional) IMP BTSMPLNK(Optional) SET BTSENVALM(Optional) CHG BTSPTUSHKTM(Optional) OPR BTSBRDPWR(Mandatory) SET GBSCREDGRP(Optional) ADD ADD NSE(Mandatory) ADD NRIMSCMAP(Mandatory) GCNNODE(Mandatory) SET ADD MSGSOFTPARA(Mandatory) SGSNNODE(Mandatory) SET ADD AITFOTHPARA(Mandatory) NRISGSNMAP(Mandatory) SET BSCAITFTMR(Mandatory) ADD GCNNODE(Mandatory) CMP LICENSE(Optional) SET GBSCREDGRP(Optional) EXP ALMLOG(Optional) SET BTSBAT(Mandatory) SET BTSDPMUBP(Mandatory) SET LOGLIMIT(Optional) SET ALMBLKPARA(Optional) SET ALMBLKPARA(Optional) SET GCELLHOBASIC(Optional) ADD GSMSCB(Mandatory) SET BTSOUTPUT(Optional) COL SYNCINFO(Mandatory) SET GCELLPWRBASIC(Optional) SET GCELLCCBASIC(Optional) SET PWDPOLICY(Optional) SET BTSBWPARA(Optional) ADD GEXT2GCELL(Optional) ADD BTSABISHDLCPATH(Mandatory) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) SET GCELLHOBASIC(Optional) ADD DXXCONNECT(Mandatory) ADD SUBRACK(Optional) SET CONNTYPE(Mandatory) ADD GIURGCONN(Mandatory) SET GCELLHOCTRL(Optional) SET GCELLHOAD(Optional) PING IP(Optional) PING MAC(Optional) PING BTSCFM(Optional) STR BTSTST(Mandatory) SET GTRXDEV(Optional) ADD GCBSADDR(Mandatory) SET BTSCRC4(Mandatory) SET GCELLIDLEBASIC(Optional) SET CERTFILE(Mandatory) SET CERTFILE(Optional) SET GCELLGSMR(Optional) SET GCELLGSMR(Optional) SET GCELLIDLEBASIC(Optional) SET BSCBASIC(Optional) ADD SCTPLNK(Optional) SET GCSCHRCTRL(Optional) SET GCSCHRCTRL(Optional) SET GCSCHRCTRL(Optional) SET GCSCHRCTRL(Optional)

ADD TRMFACTOR(Optional) ADD TRMMAP(Optional) ADD TRMMAP(Optional) ADD TRMFACTOR(Optional) ADD GCELL(Optional) SET GCSCHRCTRL(Optional) SET GCSCHRCTRL(Optional) SET GCSCHRCTRL(Optional) SET GCSCHRCTRL(Optional) SET GCSCHRCTRL(Optional) SET GCSCHRCTRL(Mandatory) SET GCSCHRCTRL(Optional) SET GTRXFC(Optional) SET GCSCHRCTRL(Optional) ADD TRMFACTOR(Optional) SET GCSCHRCTRL(Optional) ADD TRMMAP(Optional) ADD TRMMAP(Optional) ADD TRMFACTOR(Optional) ADD GCELL(Optional) SET SLFSLVSW(Optional) ADD MTP3LNK(Optional) ADD MTP3LNK(Optional) ADD MTP3LNK(Optional) ADD MTP3LNK(Optional) ADD MTP3LNK(Optional) ADD MTP3LNK(Optional) ADD MTP3LNK(Optional) ADD MTP3LNK(Optional) ADD MTP3LNK(Optional) SET FCCPUTHD(Optional) SET FCMSGQTHD(Optional) ADD AISSCFG(Mandatory) SET GCELLPSBASE(Optional)

SET BTSLOADCTRL(Mandatory) ADD BTSRETANT(Mandatory) ADD BTSRETANT(Mandatory) ADD BTSRETANT(Mandatory) ADD BTSRETANT(Mandatory) ADD RSCGRP(Mandatory) SET BTSCTRL(Mandatory) SET BTSCTRL(Mandatory) SET CMCTRLSW(Mandatory) SET MSGSOFTPARA(Optional) SET BTSAUTODLDACTINFO(Mandatory) SET GCSFILE(Optional) UPD JTGCPLD(Mandatory) SET GCELLHOFITPEN(Optional) SET GCELLHOFITPEN(Optional) SET GCELLOTHEXT(Optional) ADD OP(Optional) SET TIME(Optional) ADD BSCDSTPADATE(Mandatory) SET BTSAUTODLDACTINFO(Mandatory) SET BTSDHEUBP(Optional) ADD GCELL(Mandatory) ADD GCELL(Mandatory) ADD GCELL(Mandatory) ADD GCELL(Mandatory) SET BTSALMPORT(Mandatory) SET BTSALMPORT(Mandatory) SET BTSALMPORT(Mandatory) SET BTSALMPORT(Mandatory) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET GCELLPSCHM(Optional)

ADD M3DE(Mandatory) SET GCELLTMR(Optional) ADD M3RT(Mandatory) ADD M3LKS(Mandatory) ADD OP(Optional) SET BTSOUTPUT(Optional) PING IP(Mandatory) TRC IPADDR(Mandatory) PING MAC(Mandatory) TRC ADD MAC(Mandatory) IPRTBIND(Mandatory) PING BTSCFM(Mandatory) TRC BTSCFM(Mandatory) ADD BTSAUTOPLAN(Mandatory) ADD BTSCONNECT(Mandatory) ADD GIURGCONN(Mandatory) ADD GIURGCONN(Mandatory) ADD GIURGCONN(Mandatory) MOV BCCH(Mandatory) SET GCELLSOFT(Optional) ADD BTSBFD(Optional) SET BTSABISTROP(Mandatory) ADD BTSRETANT(Mandatory) ADD BTSRETANT(Mandatory) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory) ADD ADD GEXT3GCELL(Mandatory) DEVIP(Mandatory) SET GCELLHOFDDBA2(Mandatory) SET GCELLHOTDDBA2(Mandatory) SET BTSDFCUBP(Optional) SET BTSDFCUBP(Optional) ADD GCNNODE(Optional) SET FTPSSRV(Mandatory) ADD GPS(Optional) ADD DHCPRLY(Mandatory) ADD DHCPRLY(Mandatory) SET BTSDPMUBP(Optional) SET GCELLCHMGBASIC(Optional) ADD SUBTSK(Mandatory) ADD SUBTSK(Mandatory) DLD LICENSE(Mandatory) ULD LICENSE(Mandatory)

DLD RETANTCFG(Optional) DLD BTSPATCH(Optional) ULD BTSLOG(Optional) DLD BTSSW(Optional) SET AITFOTHPARA(Optional) SET GCELLBASICPARA(Optional) SET GCELLSOFT(Optional) ADD GEXT3GCELL(Mandatory) SET OTHSOFTPARA(Optional) SET GCELLHOFDDBA2(Mandatory) SET GCELLHOTDDBA2(Mandatory) SET GCELLBASICPARA(Optional) SET GCELLBASICPARA(Optional) SET GCELLBASICPARA(Optional) SET BTSRXUBP(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) ADD NSVC(Mandatory) SET BSCPSSOFTPARA(Optional) SET GCELLGPRS(Optional) SET GCELLHOBASIC(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPSOTHERPARA(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLPWR2(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLPWR2(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLHOEMG(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPRIVATEOPTPARA(Optional) SET GCELLGSMR(Optional) SET GCELLGSMR(Optional)

SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) ADD BTSANTFEEDERBRD(Optional) SET BTSANTFEEDERCONNECT(Optional) ADD BTSANTFEEDERBRD(Optional) SET BTSANTFEEDERCONNECT(Optional) SET BTSIPCLKPARA(Mandatory) SET GCELLPSCS(Optional) SET GCELLEGPRSPARA(Optional) SET GCELLEGPRSPARA(Optional) SET GCELLEGPRSPARA(Optional) SET GCELLPSCS(Optional) SET GCELLEGPRSPARA(Optional) SET GCELLBASICPARA(Optional) SET GCELLCCAD(Optional) SET GCELLPRIVATEOPTPARA(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) ADD EMU(Optional) SET GCELLPWRBASIC(Optional) ADD N7DPC(Mandatory) ADD N7DPC(Mandatory) BLK ACIC(Mandatory) ADD AE1T1(Optional) ADD GCNNODE(Mandatory) ADD N7DPC(Mandatory)

ADD N7DPC(Mandatory) ADD MTP3RT(Mandatory) ADD MTP3LKS(Mandatory) ADD M3DE(Mandatory) ADD GCNNODE(Mandatory) ADD GEXTSMLC(Mandatory) ADD GNRNC(Mandatory) ADD G2GNCELL(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) ADD PORTFLOWCTRLPARA(Optional) SET BTSBAKPWR(Optional) SET BTSBAKPWR(Optional) SET BTSBAKPWR(Optional) SET GCELLOTHEXT(Optional) SET GCELLPSBASE(Optional) SET BTSOUTPUT(Optional) ADD PPPLNK(Optional)

ADD MPLNK(Optional) ADD SCTPLNK(Optional) SET PHBMAP(Mandatory) PING IP(Optional) SET DSCPMAP(Mandatory) SET BTSVLAN(Optional) IMP BTSVLAN(Optional) SET BSCPSSOFTPARA(Optional) DLD TCFILE(Mandatory) SET TCTYPE(Optional) ADD OBJALMSHLD(Mandatory) SET TCPLYVOICE(Mandatory) SET TCPARA(Optional) SET PSCELLTODSP(Mandatory) SET BSCPSSOFTPARA(Optional) SET TZ(Optional) ULD BTSDEVFILE(Mandatory) ADD IPRT(Mandatory) ADD ADD BTSIPRT(Mandatory) BTSBFD(Mandatory) ADD BTSIPRTBIND(Mandatory) IMP BTSIPRT(Mandatory) ADD ADD BTSIPRT(Mandatory) IPRT(Mandatory) ADD BTSIPRTBIND(Mandatory) IMP BTSIPRT(Mandatory) ADD TSCROSS(Mandatory) ADD TSCROSS(Mandatory) SET GCELLCCBASIC(Optional) SET GCELLGSMR(Optional) ADD BTSANTFEEDERBRD(Mandatory) SET BTSANTFEEDERCONNECT(Optional) ADD BTSANTFEEDERBRD(Optional) SET BTSANTFEEDERCONNECT(Optional) ADD BTSANTFEEDERBRD(Mandatory) SET BTSANTFEEDERCONNECT(Optional) ADD BTSANTFEEDERBRD(Mandatory) SET BTSANTFEEDERCONNECT(Optional) SET GCELLSOFT(Optional) SET BTSETHPORT(Optional) STR BTSTST(Mandatory)

STR TRXBURSTTST(Mandatory) STR BTSTST(Mandatory) STR BTSTST(Mandatory) SET GCELLPSCHM(Optional) ADD AISSCFG(Optional) ADD ADD DXX(Mandatory) BTSCONNECT(Mandatory) ADD DXXCONNECT(Mandatory) ADD DXXTSEXGRELATION(Mandatory) ADD BTSCONNECT(Mandatory) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLBASICPARA(Optional) SET GCELLCHMGBASIC(Optional) STR TRANSPERFTST(Mandatory) STR TRANSPERFTST(Mandatory) ADD BTSABISHDLCPATH(Mandatory) STR TRANSPERFTST(Mandatory) SET COPTLNK(Optional) SET BTSCLK(Mandatory) ADD BTSTOPCONFIG(Mandatory) SET BTSCLK(Mandatory) ADD IPPATH(Mandatory) ADD G3GNCELL(Optional) ADD GEXT3GCELL(Optional) SET GCELLCCBASIC(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional) ADD SUBTSK(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional) STR BTSLOG(Optional) SET TZ(Mandatory) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional)

SET GCELLGPRS(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET BTSLOADCTRL(Mandatory) SET GCELLPSBASE(Optional) SET GCELLGPRS(Optional) SET GCELLNC2PARA(Optional) SET GCELLNC2PARA(Optional) SET TZ(Mandatory) SET GCELLCCAD(Optional) ADD MTP3LKS(Optional) ADD MPGRP(Optional) SET BSCABISPRIMAP(Optional) SET GCELLCCBASIC(Optional) SET GCELLGSMR(Optional) SET OTHSOFTPARA(Optional) SET BSCABISPRIMAP(Optional) SET BSCSRVPRI(Optional) SET BSCABISPRIMAP(Optional) SET TZ(Mandatory) ADD EMSIP(Mandatory) SET BTSFALLBACK(Optional) SET BTSTMA(Mandatory) SET GCELLBASICPARA(Optional) SET FTPSSRV(Optional) SET FTPSCLT(Optional) SET OTHSOFTPARA(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional) BLK ACIC(Mandatory) BLK PBCIC(Mandatory)

ADD BSCDSTPADATE(Mandatory) SET BTSDHEUBP(Optional) ADD BSCDSTPADATE(Mandatory) SET BTSFORBIDTS(Optional) SET BSCDSTPA(Optional) BLK ATERE1T1(Mandatory) BLK AE1T1(Mandatory) SET BTSFORBIDTS(Mandatory) SET SCHTSKSW(Mandatory) ADD SUBTSK(Optional) SET GCELLHOIUO(Optional) SET GCELLPSOTHERPARA(Optional) ADD GCELL(Mandatory) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET GCELLHOIUO(Optional) SET GCELLCHMGBASIC(Optional) ADD M3LE(Mandatory) ADD M3DE(Mandatory) SET GCELLHOIUO(Optional) SET TCPARA(Optional) EXP LOG(Optional) SET SET ETHPORT(Optional) GCELLCCBASIC(Optional) ADD PPPLNK(Optional) SET ADD ETHPORT(Optional) MPGRP(Optional) ADD PPPLNK(Optional) ADD MPGRP(Optional) SET BSCABISPRIMAP(Optional) SET BSCABISPRIMAP(Optional) SET BSCSRVPRI(Optional) SET BSCABISPRIMAP(Optional) EXP ALMLOG(Optional) SET GCELLTMR(Optional)

SET AITFOTHPARA(Optional) SET BTSRINGATTR(Optional) SET TZ(Mandatory) EXP LOG(Optional) ADD SUBTSK(Mandatory) RUN BATCHFILE(Optional) COL LOG(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional) ADD GSMSCB(Mandatory) ADD OP(Mandatory) STR BTSLOG(Optional) EXP LOG(Optional) ADD OP(Mandatory) SET TZ(Mandatory) SET TZ(Mandatory) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional)

ADD EMU(Optional) ADD EMU(Optional) SET GCELLSERVPARA(Optional) SET GCELLSOFT(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) ADD GEXT2GCELL(Mandatory) ADD GEXT2GCELL(Mandatory) ADD GEXT3GCELL(Mandatory) ADD GEXT3GCELL(Mandatory) ADD EXTNCELL(Mandatory) ADD EXTNCELL(Mandatory) SET GCELLPSOTHERPARA(Optional) SET BTSALM(Optional) SET GCELLEXTMSRPARA(Optional) SET GCELLEXTMSRPARA(Optional) SET GCELLEXTMSRPARA(Optional) ADD GCELL(Optional) SET GCELLPSBASE(Optional) SET GCELLGSMR(Optional) SET GCELLGSMR(Optional) SET GCELLGSMR(Optional) SET BSCABISPRIMAP(Optional) SET GCELLCHMGBASIC(Optional) SET GCELLHOFITPEN(Optional) SET FANSPEED(Optional) SET FANSPEED(Optional) SET FANSPEED(Optional) SET FANSPEED(Optional) SET FANSPEED(Mandatory) SET FANSPEED(Mandatory) LOD FAN(Mandatory) SET GCELLBASICPARA(Optional) SET BTSRINGATTR(Optional)

SET TCPARA(Optional) SET ETHPORT(Optional) SET BTSETHPORT(Optional) SET GTRXFC(Optional) SET ETHPORT(Mandatory) ADD PPPLNK(Optional) ADD MPGRP(Optional) ADD IPLOGICPORT(Optional) ADD PORTFLOWCTRLPARA(Mandatory) ADD ETHTRK(Optional) SET BSCABISPRIMAP(Mandatory) ADD BTSAUTOPLAN(Mandatory) ADD BTSCONNECT(Optional) SET GTRXFC(Optional) ADD PPPLNK(Optional) ADD MPLNK(Optional) SET FCSW(Mandatory) SET BTSAPMUBP(Optional) SET GCELLIDLEFDDBA1(Mandatory) SET GCELLHOFDDBA2(Mandatory) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLIDLEFDDBA1(Mandatory) SET GCELLIDLEFDDBA1(Mandatory) ADD GEXT3GCELL(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) ADD GEXT3GCELL(Optional) SET GCELLIDLEFDDBA1(Mandatory) SET FCCPUTHD(Optional)

SET GCELLSOFT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLHOPTP(Optional) SET GCELLHOPQUICKSETUP(Mandatory) EXP LOG(Optional) ZIP FILE(Mandatory) BKP LOGDB(Optional) EXP CFGMML(Optional) EXP GCELLTEMPLATE(Optional) EXP ALMLOG(Optional) SET GCELLNC2PARA(Optional) EXP LOG(Optional) SET GCELLPWR3(Optional) SET BTSOUTPUT(Optional) SET BTSFLEXABISPARA(Optional) SET BTSALMFLASHTHD(Optional) SET BTSALMFLASHTHD(Optional) SET BTSALMFLASHTW(Optional) SET BTSALMFLASHTW(Optional) SET BTSALMFLASHTW(Optional) ADD BTS(Optional) ADD GCELL(Optional) SET GCELLSOFT(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET ETHPORT(Optional) ADD PPPLNK(Optional) ADD MPGRP(Optional) ADD IPLOGICPORT(Optional) ADD ETHTRK(Optional)

SET BSCABISPRIMAP(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLCCCH(Optional) SET BTSFMUABP(Optional) EXP ELABEL(Optional) DLD LICENSE(Mandatory) ULD LICENSE(Mandatory) EXP EXP CFGMML(Optional) DEVFILE(Optional) BKP DB(Optional) DLD RETANTCFG(Mandatory) EXP GCELLTEMPLATE(Optional) EXP CHK BTSDEVFILE(Optional) DATA2LIC(Optional) LOD RVK RETANTCFG(Mandatory) LICENSE(Optional) ULD BTSLOG(Mandatory) DLD BTSSW(Mandatory) DLD BTSPATCH(Optional) SET BSCPSSOFTPARA(Optional) ADD GCNNODE(Optional) SET TCPARA(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) ADD BTSAUTOPLAN(Mandatory) ADD BTSCONNECT(Mandatory) ADD IPMUX(Optional) SET BTSAUTOPLANCFG(Optional) SET BTSAUTOPLANCFG(Optional) SET BTSAUTOPLANCFG(Optional) ADD MPGRP(Optional) SET BTSEXCURSION(Mandatory) SET BSCSYNCOFF(Mandatory)

SET GCELLOTHEXT(Optional) SET GCELLBASICPARA(Optional) EXP LOG(Mandatory) ADD SUBTSK(Mandatory) ADD GTRX(Mandatory) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional)

ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional)

ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) ADD BTSANTFEEDERBRD(Optional) SET GCELLCHMGAD(Optional) SET GCELLFREQSCAN(Optional) SET GTRXDEV(Optional) STR NCS(Mandatory) SET GCELLSOFT(Optional) SET GCELLHOBASIC(Optional) SET GCELLBASICPARA(Optional) ADD BTSAUTOPLAN(Mandatory) ADD BTSCONNECT(Optional) ADD BTSAUTOPLAN(Mandatory) ADD BTSCONNECT(Optional) EXP LOG(Optional) ADD ADJMAP(Mandatory) ADD TRMFACTOR(Mandatory) SET BSCABISPRIMAP(Mandatory) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional) SET OTHSOFTPARA(Optional) SET GCELLHOINTERRATLDB(Optional) SET TCPARA(Optional) SET GCELLPSPWPARA(Optional) ADD AISSCFG(Optional) ADD AISSCFG(Optional) ADD AISSCFG(Mandatory) ADD AISSCFG(Optional) SET GCELLPSOTHERPARA(Optional) SET BSCBASIC(Optional) ADD GPS(Optional) SET GCELLGSMR(Optional) SET GCELLGSMR(Optional) SET GLOBALROUTESW(Mandatory) SET GCELLBASICPARA(Optional) SET GCELLGPRS(Mandatory) ADD GCELLQUICKSETUP(Optional) SET GCELLRESELECTPARA(Optional) SET GTRXCHAN(Optional) SET GCELLSERVPARA(Optional) SET GCELLNCRESELECTPARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLNCRESELECTPARA(Optional) SET BTSDGPSBP(Optional) SET BTSUSCUBP(Optional) ADD GPS(Optional) SET GCELLCHMGBASIC(Optional) SET BTSCHNFALLBACK(Mandatory) SET BTSCHNFALLBACK(Mandatory) SET GBSCREDGRP(Mandatory) SET GBSCREDGRP(Optional) SET BTSFLEXABISPARA(Optional) ADD RSCGRP(Mandatory) SET BTSIP(Mandatory) ADD RSCGRP(Mandatory)

SET GCELLSBC(Optional) ADD GSMSCB(Mandatory) ADD TRMLOADTH(Optional) SET BSCBASIC(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLPSOTHERPARA(Optional) ADD ICMPGUARD(Mandatory) ADD BTSAUTOPLAN(Optional) SET BTSIP(Optional) SET OTHSOFTPARA(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) ADD SCTPLNK(Optional) ADD BTSRXUCHAIN(Mandatory) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) SET BTSBAT(Optional) SET BTSBAT(Optional) SET BSCBASIC(Optional) SET GCELLCHMGBASIC(Optional) SET OTHSOFTPARA(Optional) SET GCELLCHMGBASIC(Optional) SET BTSAPMUBP(Optional) SET GCELLCHMGAD(Optional) SET PWDPOLICY(Optional) SET GCELLGPRS(Optional) SET GCELLHOIUO(Optional) ADD GCNOPERATOR(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional)

SET FHO(Mandatory) SET GCELLHOBASIC(Optional) SET SET GCELLHOEMG(Optional) FHO(Mandatory) SET GCELLHOFITPEN(Optional) SET GCELLHOIUO(Optional) SET GCELLHOFAST(Optional) SET GCELLHOFAST(Optional) SET GCELLHOFAST(Optional) SET GCELLHOFAST(Optional) ADD G3GNCELL(Optional) ADD G3GNCELL(Optional) SET GCELLHOUTRANFDD(Optional) ADD G2GNCELL(Optional) SET FHO(Mandatory) ADD GEXT2GCELL(Optional) SET GCELLHOFAST(Optional) SET GCELLCHMGAD(Optional) SET GCELLHOUTRANFDD(Optional) SET GCELLHOUTRANTDD(Optional) SET GCELLHOEDBPARA(Optional) ADD GCELLMAGRP(Mandatory) SET GCELLMAIOPLAN(Mandatory) ADD GCELLMAGRP(Mandatory) SET GCELLOTHBASIC(Optional) SET GCELLHOUTRANFDD(Optional) SET GCELLHOUTRANTDD(Optional) SET OTHSOFTPARA(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Mandatory) SET GTRXHOP(Optional) ADD GEXT2GCELL(Optional) SET GCELLHOFAST(Optional) ADD AISSCFG(Optional) SET GCELLHOUTRANFDD(Optional) SET GCELLHOUTRANTDD(Optional) SET MSGSOFTPARA(Optional) ADD G3GNCELL(Optional) ADD G3GNCELL(Optional) ADD G2GNCELL(Optional) ADD OPC(Optional) SET BTSIP(Optional)

ADD GEXT2GCELL(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOFAST(Optional) SET GCELLHOPANT(Optional) SET GCELLHOPANTQUICKSETUP(Mandatory) ADD BTSRXUCHAIN(Mandatory) SET GCELLCHMGBASIC(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET GCELLCCCH(Optional) SET GCELLBASICPARA(Optional) SET GCELLCHMGAD(Optional) SET GCELLBASICPARA(Optional) ADD GCELLMAGRP(Optional) ADD BTSRXUCHAIN(Mandatory) ADD GCELL(Optional) ADD BTSRXUCHAIN(Mandatory) ADD BTSBFD(Mandatory) SET BTSDHEUBP(Optional) SET BTSDHEUBP(Optional) SET BTSAPMUBP(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAIRCON(Optional) SET SCCPTMR(Optional) STR TRANSPERFTST(Mandatory) STR TRANSPERFTST(Mandatory) STR TRANSPERFTST(Mandatory) SET SCCPTMR(Optional) SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) ADD G2GNCELL(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET OTHSOFTPARA(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) ADD G2GNCELL(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET OTHSOFTPARA(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) ADD G2GNCELL(Optional)

SET BTSCTRL(Mandatory) GCELLHOEMG(Mandatory) SET BTSIPCLKPARA(Mandatory) GCELLHOFAST(Mandatory) ADD BTSPPPLNK(Mandatory) SET GCELLHOFDDBA2(Mandatory) ADD BTSMPGRP(Mandatory) SET GCELLHOFITPEN(Mandatory) ADD BTSMPLNK(Mandatory) SET GCELLHOIUO(Mandatory) SET BTSIP(Mandatory) GCELLHOPTP(Mandatory) SET GCELLHOTDDBA2(Mandatory) SET BTSPINGSW(Mandatory) BTSFMUABP(Mandatory) SET GCELLHOUTRANFDD(Mandatory) SET BTSBWPARA(Mandatory) BTSNFCBBP(Mandatory) SET GCELLHOUTRANTDD(Mandatory) GCELLCHMGAD(Optional) ADD BTSETHMD(Mandatory) SET BTSPMUBP(Mandatory) ADD BTSETHMA(Mandatory) SET GCELLPWR2(Mandatory) SET BTSAPMUBP(Mandatory) GCELLCHMGAD(Optional) ADD BTSETHLCMEP(Mandatory) SET GCELLPWR3(Mandatory) BTSDATUBP(Mandatory) ADD BTSETHRMMEP(Mandatory) GCELLDYNTURNOFF(Mandatory) SET BTSDEMUBP(Mandatory) GCELLCHMGAD(Optional) SET GCELLPWRBASIC(Mandatory) SET BTSOMLDETECT(Mandatory) BTSDFCUBP(Mandatory) SET GCELLCHMGAD(Mandatory) GCELLCHMGAD(Optional) SET BTSFLEXABISPARA(Mandatory) BTSDHEUBP(Mandatory) ADD BTSTOPCONFIG(Mandatory) SET GCELLHOPQUICKSETUP(Mandatory) BTSDOMUBP(Mandatory) SET BTSDPMUBP(Mandatory) GCELLCHMGAD(Optional) LOD BTSSW(Mandatory) GCELLMAIOPLAN(Mandatory) SET LOD RETANTCFG(Mandatory) ADD BTSDTMUBP(Mandatory) GIBCAPNCGRP(Mandatory) SET SET GCELLCHMGAD(Optional) SAV BTSCLKPARA(Mandatory) GCELLHOPANT(Mandatory) SET BTSDGPSBP(Mandatory) SET BTSRACKBC(Mandatory) SET BTSPSUFP(Mandatory) SET GCELLHOPANTQUICKSETUP(Mandatory) GCELLCHMGAD(Optional) SET ADD CELLBIND2BTS(Mandatory) SET BTSCLKPARA(Mandatory) BTSDDPUBP(Mandatory) SET BTSBAKPWR(Mandatory) SET BTSCAVFRQ(Mandatory) BTSUSCUBP(Mandatory) GCELLCHMGAD(Optional) SET BTSCRC4(Mandatory) ADD BTSPMUDEF(Mandatory) BTSRETANT(Mandatory) SET GCELLBASICPARA(Optional) BTSLOCKBCCH(Mandatory) SET BTSTMA(Mandatory) BTSALMPORT(Mandatory) SET BTSLSW(Mandatory) ADD RETANTENB(Mandatory) BTSRXUCHAIN(Mandatory) SET BTSAPMUBP(Optional) STR BTSBATTTST(Mandatory) SET CBN BTSTRANS(Mandatory) BTSRXUCHAIN(Mandatory) STR BTSLOG(Mandatory) SET BTSVLAN(Mandatory) CHK BTS(Mandatory) ADD IPPATH(Optional) STR BTSRACKTEMPMON(Mandatory) MOVBTSBREAKPOINT(Mandatory) BCCH(Mandatory) SET STR BTSTST(Mandatory) ADD GTRX(Mandatory) SET BTSCABPARA(Mandatory) SET BSCPSTCDSCPMAP(Optional) STR RETANTSCAN(Mandatory) ADD BTSBFD(Mandatory) SET BTSJBF(Mandatory) STR TRANSPERFTST(Mandatory) SET BTSTHEFTALM(Mandatory) BSCPSTCDSCPMAP(Optional) BTSLAPDWS(Mandatory) ADD SCHTSK(Mandatory) SWP BTSBRD(Mandatory) BTSSPTMODE(Mandatory) SET BTSPOWERTYPE(Mandatory) SET SCHTSKSW(Optional) SET BTSRXUBP(Mandatory) BSCPSTCDSCPMAP(Optional) SWP BTSCLKCLTPT(Mandatory) BTSOUTPUT(Mandatory) SET ADD SUBTSK(Optional) TST SET BTSBRD(Mandatory) BTSOMLBACKUP(Mandatory) SPT BTSRXUCHAIN(Mandatory) ADD BTSFALLBACK(Mandatory) SUBCMD(Optional) STR TRXBURSTTST(Mandatory) SET BTSAUTODLDACTINFO(Mandatory) SET BTSENVALM(Mandatory) BTSEXD(Mandatory) SET BTSOTHPARA(Mandatory) ADD PTPBVC(Mandatory) STR SCHTSK(Optional) STR BTSVSWRTST(Mandatory) BTSCLK(Mandatory) SET SET BTSAUTOPLANCFG(Mandatory) GCELLEGPRSPARA(Mandatory) LOD BTSPATCH(Mandatory) SET ADD BTSLOCGRP(Mandatory) BTSBRDCAP(Mandatory) SET BTSABISTROP(Mandatory) GCELLPRACH(Mandatory) CON BTSPATCH(Mandatory) SET BTSALM(Mandatory) ADD BTSRXU2LOCGRP(Mandatory) SET GCELLPRIVATEOPTPARA(Mandatory) SET BTSLOADCTRL(Mandatory) BTSAIRCON(Mandatory) TCPARA(Optional) ADD BTSBINDLOCGRP(Mandatory) SET GCELLPSBASE(Mandatory) CHG BTSPTUSHKTM(Mandatory) SET ADD BTSANTFEEDERBRD(Mandatory) SET BTSAUXEQP(Mandatory) GCELLPSCHM(Mandatory) E1T1LOP(Optional) PING BTSCFM(Mandatory) SET BTSBAT(Mandatory) ADD BTSBRD(Mandatory) SET GCELLPSCS(Mandatory) BTSEXCURSION(Mandatory) TRC BTSCFM(Mandatory) SET BTSCHNFALLBACK(Mandatory) ADD BTSCABINET(Mandatory) SET GCELLPSI1(Mandatory) ADD EXTNCELL(Mandatory) SET GCELLCHMGBASIC(Optional) OPR BTSBRDPWR(Mandatory) SWP BTSRING(Mandatory) ADD BTSRXUBRD(Mandatory) SET GCELLPSOTHERPARA(Mandatory) BSCSYNCOFF(Mandatory) IMP BTSIPPARA(Mandatory) SWP BTSOMLLINK(Mandatory) ADD BTSTRXBRD(Mandatory) SET GCELLPSPWPARA(Mandatory) BTSAISS(Mandatory) EXP BTSIPPARA(Mandatory) ADD BTSIPRTBIND(Mandatory) SET BTSENVALMPORT(Mandatory) ADD PSCELLTODSP(Mandatory) BTSESN(Mandatory) SET EXP BTSVLAN(Mandatory) GCELLTEMPLATE(Mandatory) ADD BTSALMMGMRULE(Mandatory) BSCABISPRIMAP(Mandatory) SET GCELLNC2PARA(Mandatory) IMP BTSDEVIP(Mandatory) SAV GCELLTEMPLATE(Mandatory) SET BTSANTFEEDERCONNECT(Mandatory) SET GCELLNCRESELECTPARA(Mandatory) EXP BTSDEVIP(Mandatory) IMP ADD BTSOBJALMSHLD(Mandatory) SET BTSVLAN(Mandatory) GCELLNWCTRLMSRPARA(Mandatory) IMP BTSPPPLNK(Mandatory) ADD BTSCONNECT(Mandatory) SET GCELLRESELECTPARA(Mandatory) ADD G2GNCELL(Mandatory) EXP BTSPPPLNK(Mandatory) ADD BTSMONITORTS(Mandatory) SET GCELLSERVPARA(Mandatory) IMP BTSMPGRP(Mandatory) ADD BTSABISHDLCPATH(Mandatory) SET GCELLSTANDARDOPTPARA(Mandatory) SET GCELLHOINTERRATLDB(Mandatory) EXP BTSMPGRP(Mandatory) ADD BTSABISMUXFLOW(Mandatory) SET GCELLGPRS(Mandatory) IMP BTSMPLNK(Mandatory) ADD BTSBIND2HDLCPATH(Mandatory) SET GPSCHRSCOPE(Mandatory) EXP BTSMPLNK(Mandatory) SET GCELLFREQSCAN(Mandatory) IMP SWPBTSIPRT(Mandatory) BTSLOCGRP(Mandatory) EXP BTSIPRT(Mandatory) STR BTSRFTST(Mandatory) SET ADD MSTOCELL(Mandatory) SEMILINK(Mandatory) TST SNDRSI(Mandatory) TST UPDMSRAC(Mandatory) SET PSCELLTODSP(Mandatory) ADD GCBSADDR(Optional) ADD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory) SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional) STR BTSLOG(Optional) ULD BTSLOG(Optional) CHK INNSPCH(Mandatory) SET GCELLHOFAST(Optional) STR CALLRESLOP(Mandatory) ADD GCSCHRUSER(Mandatory) SET GCELLTMR(Optional) SET GCELLBASICPARA(Optional) SET GCELLPSOTHERPARA(Optional) SET GCELLBASICPARA(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) ADD AISSCFG(Optional) CHK INNSPCH(Mandatory) SET GCELLTMR(Optional) SET STR MSTOCELL(Mandatory) CALLRESLOP(Mandatory) TST ADD SNDRSI(Mandatory) GCSCHRUSER(Mandatory) TST UPDMSRAC(Mandatory) ADD GPSCHRUSER(Mandatory) SET GCELLTMR(Optional) ADD AISSCFG(Optional) ADD AISSCFG(Optional) SET GCELLLCS(Optional) ADD BTSCONNECT(Optional) SET BTSDOMUBP(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) ADD GNRNC(Mandatory) ADD EMU(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GTRXDEV(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) ADD SEMILINK(Optional)

SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) ADD EXTNCELL(Mandatory) ADD EXTNCELL(Mandatory) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) ADD SEMILINK(Mandatory) ADD BTSCONNECT(Mandatory) ADD DXXTSEXGRELATION(Mandatory) SET GCELLLCS(Optional) SET GCELLHOCTRL(Optional) ADD SEMILINK(Mandatory) ADD BTSCONNECT(Optional) ADD SEMILINK(Mandatory) ADD BTSCONNECT(Optional) ADD GSMSCB(Mandatory) ADD G2GNCELL(Optional) SET GCELLSOFT(Optional) ADD G2GNCELL(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLCHMGAD(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) ADD AISSCFG(Optional) SET GCELLOTHEXT(Optional)

SET GCELLHOBASIC(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOINTERRATLDB(Optional) EXP LOG(Optional) STR ETHOAMLOOPTST(Optional) SET GCELLEXTMSRPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLTMR(Optional) SET GCELLTMR(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLTMR(Optional) ADD GNRNC(Mandatory) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) ADD SEMILINK(Mandatory) ADD DXXTSEXGRELATION(Mandatory) ADD SUBTSK(Optional) SET ASWPARA(Mandatory) SET GCELLCCUTRANSYS(Optional) EXP LOG(Optional) ADD ADD SNTPSRVINFO(Mandatory) XPUVLAN(Mandatory) DLD LICENSE(Mandatory) ULD LICENSE(Mandatory) ADD NSVLLOCAL(Mandatory) ADD NSVLREMOTE(Mandatory)

DLD RETANTCFG(Mandatory) ULD BTSDEVFILE(Mandatory) SET BTSETHPORT(Optional) DLD BTSPATCH(Mandatory) IMP BTSDEVIP(Optional) ULD BTSLOG(Mandatory) DLD BTSSW(Mandatory) ADD IPPATH(Mandatory) ADD DEVIP(Mandatory) ADD ETHIP(Mandatory) ADD ICMPGUARD(Mandatory) ADD VLANID(Mandatory) ADD ETHTRKIP(Mandatory) ADD SGSNROUTEINFO(Mandatory) ADD SGSN(Mandatory) SET BTSIPCLKPARA(Mandatory) ADD SGSN(Optional) SET BTSIPCLKPARA(Mandatory) SET ADD BTSETHPORT(Optional) SGSN(Optional) ADD BTSPPPLNK(Optional) SET BTSETHPORT(Optional) ADD ADD BTSMPGRP(Optional) SGSN(Optional) ADD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPGRP(Optional) ADD PPPLNK(Optional) ADD MPGRP(Optional) ADD ETHIP(Mandatory) ADD ETHTRKIP(Mandatory) ADD IPMUX(Optional) ADD BTS(Optional) ADD BTSAUTOPLAN(Optional) IMP BTSIPPARA(Mandatory) SET BTSDHEUBP(Optional) ADD AISSCFG(Mandatory) ADD G2GNCELL(Optional) SET BTSIPCLKPARA(Mandatory) SET BTSIPCLKPARA(Mandatory) ADD BTS(Optional) ADD BTSRXUBRD(Optional) ADD GEXT2GCELL(Optional) ADD RSCGRP(Mandatory) ADD GEXT2GCELL(Optional)

ADD GTRX(Optional) SET BSCBASIC(Mandatory) ADD BTSLOCGRP(Mandatory) ADD GEXT2GCELL(Optional) ADD NSE(Optional) ADD IPMUX(Mandatory) ADD AISSCFG(Mandatory) SET BTSENVALM(Mandatory) SET BTSOTHPARA(Optional) SET BTSLSW(Optional) SET BSCBASIC(Optional) ADD BRD(Mandatory) ADD SUBRACK(Optional) SET GCELLIDLEFDDBA1(Mandatory) SET GCELLIDLETDDBA1(Mandatory) SET BTSDHEUBP(Optional) SET GCELL2GBA1(Mandatory) SET GCELLHO2GBA2(Mandatory) SET BTSPSUFP(Optional) SET SET GCELLIDLEFDDBA1(Mandatory) GCELLHOFDDBA2(Mandatory) SET SET GCELLIDLETDDBA1(Mandatory) GCELLHOTDDBA2(Mandatory) SET GCELL2GBA1(Mandatory) SET SET GCELLHO2GBA2(Mandatory) GCELLREV(Mandatory) SET GCELLHOFDDBA2(Mandatory) SET GCELLHOTDDBA2(Mandatory) ADD IPPATH(Mandatory) SET GCELLREV(Mandatory) ADD ADJMAP(Mandatory) ADD TRMMAP(Mandatory) ADD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory) SET GTRXIUO(Mandatory) SET GCELLPSCHM(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) ADD GCELL(Optional) SET OPT(Optional) SET OPT(Mandatory) SET OPT(Optional) SET OPT(Optional) SET OPT(Optional) SET OPT(Optional) SET OPT(Mandatory) SET OPT(Optional)

SET OPT(Optional) SET OPT(Optional) SET COPTLNK(Optional) SET COPTLNK(Optional) SET COPTLNK(Optional) SET COPTLNK(Optional) SET COPTLNK(Optional) SET OPT(Optional) SET COPTLNK(Optional) SET BTSJBF(Mandatory) SET BTSOTHPARA(Optional) SET OTHSOFTPARA(Optional) ADD GCELL(Mandatory) SET ADD MSP(Optional) GEXT2GCELL(Mandatory) ADD GEXT3GCELL(Mandatory) SET GCELLHOAD(Optional) SET FHO(Mandatory) ADD PPPLNK(Optional) ADD ADD BTSAUTOPLAN(Mandatory) MPLNK(Optional) SET BTSAUTOPLANCFG(Optional) ADD GCELLQUICKSETUP(Mandatory) SET BTSAUTOPLANCFG(Optional) ADD ETHTRK(Mandatory) SET GCELLLCS(Mandatory) SET GCELLLCS(Mandatory) SET GCELLLCS(Mandatory) SET GCELLLCS(Mandatory) SET GCELLLCS(Mandatory) SET GCELLLCS(Mandatory) ADD GPS(Mandatory) ADD GPS(Mandatory) ADD IPLOGICPORT(Optional) ADD IPLOGICPORT(Optional) ADD IPLOGICPORT(Optional) ADD IPLOGICPORT(Optional) ADD IPLOGICPORT(Optional) SET GCELLBASICPARA(Optional) ADD GEXT2GCELL(Optional) SET GCELLHOAD(Optional) ADD GEXTSMLC(Optional)

ADD GEXTSMLC(Optional) SET LDR(Optional) SET LDR(Optional) SET LDR(Optional) ADD M3LE(Mandatory) ADD M3DE(Mandatory) EXP LOG(Optional) COL LOG(Optional) SET ALMML(Mandatory) ADD ETHMD(Optional) SET GCELLBASICPARA(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) CON PATCH(Optional) ADD BRD(Optional) LOD PATCH(Optional) LOD BRD(Optional) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory) ADD BRD(Optional) ADD PBSL(Optional) SET BTSEXD(Optional) SET LICALMTHD(Mandatory) SET LICALMTHD(Mandatory) LOP LAPDLNK(Mandatory) EXP GCELLTEMPLATE(Optional) ADD MTP3LNK(Optional) SET ALMPORT(Optional) SET BTSENVALMPORT(Optional) SET E1T1LOP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET OPT(Optional) ADD SEMILINK(Optional) ADD M3LNK(Optional) ADD MTP3LKS(Optional)

ADD ADD GEXT2GCELL(Optional) M3LKS(Optional) ADD GEXT3GCELL(Optional) SET GCELLHOAD(Optional) ADD GCNOPERATOR(Optional) SET BSCPSSOFTPARA(Optional) SET BTSPMUBP(Optional) SET GCELLHOAD(Optional) SET GCELLHOBASIC(Optional) ADD GEXT2GCELL(Optional) ADD GEXT3GCELL(Optional) ADD G2GNCELL(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET BTSDPMUBP(Optional) SET GCELLNC2PARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET BSCABISPRIMAP(Optional) SET GBSCREDGRP(Mandatory) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory) ADD BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory) ADD BTSMPGRP(Mandatory) IMP BTSMPGRP(Mandatory) ADD NSVLLOCAL(Mandatory) ADD ADD BTSLOCGRP(Mandatory) SGSNROUTEINFO(Mandatory) ADD BTSRXU2LOCGRP(Mandatory) SWP BTSLOCGRP(Mandatory) ADD BTSOBJALMSHLD(Mandatory) EXP ALMLOG(Optional) STA ALMLOG(Optional)

ADD SCTPLNK(Mandatory) ADD SCTPLNK(Optional) SET OPLOCK(Mandatory) ADD SCTPLNK(Mandatory) SET LODCTRL(Mandatory) LOD BTSSW(Optional) LOD BTSPATCH(Optional) SET FCCPUTHD(Optional) SET FCMSGQTHD(Optional) ADD SCTPLNK(Mandatory) ADD SCTPLNK(Mandatory) ADD SCTPLNK(Mandatory) SET FCCPUTHD(Optional) SET FCMSGQTHD(Optional) SET FCSW(Optional) COL LOG(Mandatory) STR BTSLOG(Mandatory) ULD BTSLOG(Mandatory) SET GCELLLCS(Mandatory) SET GCELLLCS(Mandatory) SET GCELLLCS(Mandatory) SET GCELLLCS(Mandatory) SET GCELLLCS(Mandatory) SET GCELLLCS(Mandatory) ADD GPS(Mandatory) ADD GPS(Mandatory) STR BTSTST(Optional) STR FRPORTLOOP(Mandatory) SET E1T1(Optional) LOP LAPDLNK(Mandatory) SET GCELLCHMGAD(Optional) STR CALLRESLOP(Mandatory) STR CALLRESLOP(Mandatory) SET E1T1LOP(Mandatory) SET OPTLOP(Mandatory) STR CALLRESLOP(Optional)

ADD IPLOGICPORT(Optional) SET GCELLSOFT(Optional) SET BTSFLEXABISPARA(Optional) SET GCELLOTHBASIC(Optional) SET GCELLCHMGAD(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) STR TRANSPERFTST(Mandatory) ADD IPPATH(Mandatory) ADD IPLOGICPORT(Optional) SET BTSIP(Mandatory) ADD IPPATH(Mandatory) ADD IPLOGICPORT(Mandatory) SET GCELLEGPRSPARA(Optional) SET BTSAPMUBP(Optional) SET BTSAPMUBP(Optional) EXP BTSIPPARA(Optional) SET EXP LDR(Optional) BTSVLAN(Optional) EXP EXP BTSDEVIP(Optional) LOG(Optional) EXP BTSPPPLNK(Optional) EXP CMP BTSMPGRP(Optional) TBLDATA(Optional) EXP BTSMPLNK(Optional) EXP BTSIPRT(Optional) LOD BRD(Optional) SET LOGLIMIT(Mandatory) EXP LOG(Mandatory) SET BTSDHEUBP(Optional) SET BTSEXD(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET DSPLVDSMODE(Mandatory) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSAPMUBP(Optional) SET SCTPSRVPORT(Optional)

ADD XPUVLAN(Mandatory) SET BTSETHPORT(Optional) SET BTSETHPORT(Optional) ADD ETHMA(Mandatory) ADD ETHMEP(Mandatory) SET GCELLSOFT(Optional) PING MAC(Mandatory) TRC MAC(Mandatory) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) ADD BTSESN(Mandatory) ADD BTSAUTOPLAN(Mandatory) ADD BTSBINDLOCGRP(Mandatory) ADD BTS(Optional) SET BTSAUTODLDACTINFO(Mandatory) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET GCELLMAIOPLAN(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) ADD ETHMA(Mandatory) SET BTSDATUBP(Optional) PING BTSCFM(Mandatory) TRC BTSCFM(Mandatory)

ADD BTSETHMA(Mandatory) ADD BTSETHLCMEP(Mandatory) ADD BTSETHRMMEP(Mandatory) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory) ADD ETHIP(Mandatory) ADD EMSIP(Mandatory) ADD ICMPGUARD(Mandatory) ADD IPRTBIND(Mandatory) ADD ETHTRKIP(Mandatory) ADD GCBSADDR(Mandatory) SET BTSETHPORT(Optional) IMP BTSDEVIP(Optional) ADD BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory) ADD BTSMPGRP(Mandatory) IMP BTSMPGRP(Mandatory) ADD BTSAUTOPLAN(Mandatory) SET BTSIPCLKPARA(Mandatory) SET GCELLPWR2(Optional) ADD SCTPLNK(Optional) ADD IPLOGICPORT(Optional) SET GCELLHOAD(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET BTSBAKPWR(Optional) ADD BTSAUTOPLAN(Mandatory) SET BTSAUTOPLANCFG(Optional) SET BTSAUTOPLANCFG(Optional) ADD IPMUX(Optional) SET OTHSOFTPARA(Optional) ADD PPPLNK(Optional) ADD MPGRP(Optional) SET PWDPOLICY(Optional) SET ALMCAPACITY(Optional) SET BTSDPMUBP(Optional) ADD SCTPLNK(Optional) SET OTHSOFTPARA(Optional) SET GTRXBASE(Optional) SET GCELLPSCHM(Optional) SET BSCPSSOFTPARA(Optional) SET PWDPOLICY(Optional)

SET BTSPMUBP(Optional) SET BTSDPMUBP(Optional) SET GCELLHOAD(Optional) SET GCELLPRACH(Optional) SET GCELLPRACH(Optional) SET GCELLPRACH(Optional) SET GCELLPRACH(Optional) ADD PPPLNK(Optional) ADD MPGRP(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLBASICPARA(Optional) SET GCELLCCAD(Optional) SET GCELLCCAD(Optional) SET GCELLCCAD(Optional) STR POSAVE(Optional) SET GTRXBASE(Optional) TRC IPADDR(Optional) SET GCELLPWR2(Optional) SET PWDPOLICY(Optional) ADD IPRTBIND(Mandatory) STR IPCHK(Mandatory) SET GCELLCCBASIC(Optional) SET GCELLHOFITPEN(Optional) ADD GCNOPERATOR(Mandatory) ADD GCELL(Mandatory) SET ADD GCELLHOFITPEN(Optional) GEXT2GCELL(Mandatory) ADD GEXT3GCELL(Mandatory) COL SYNCINFO(Mandatory) SET FHO(Mandatory) ADD BTSAUTOPLAN(Mandatory) COL SYNCINFO(Mandatory) SET BTSAUTOPLANCFG(Optional) ADD GCELLQUICKSETUP(Mandatory) SET BTSAUTOPLANCFG(Optional) ADD MPGRP(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD NCELL(Mandatory) COL SYNCINFO(Mandatory) ADD NCELL(Mandatory) COL SYNCINFO(Mandatory)

SET BTSFMUABP(Optional) SET BTSAPMUBP(Optional) SET BTSDATUBP(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional) SET GCELLCHMGAD(Optional) SET BTSPSUFP(Optional) ADD ETHMD(Mandatory) ADD ETHMA(Mandatory) ADD ADD ETHMD(Mandatory) BTSETHMD(Optional) ADD PINGBTSETHMD(Mandatory) BTSCFM(Mandatory) ADD BTSETHMA(Mandatory) TRC BTSCFM(Mandatory) ADD BTSETHLCMEP(Mandatory) ADD BTSETHRMMEP(Mandatory) SET GCELLPSI1(Optional) ADD GNRNC(Mandatory) SET GCELLCCUTRANSYS(Optional) ADD ETHMEP(Mandatory) ADD BTSETHLCMEP(Mandatory) ADD BTSETHRMMEP(Mandatory) ADD ETHMEP(Mandatory) ADD MPGRP(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) SET GCELLNC2PARA(Optional) ADD IPLOGICPORT(Optional) ADD GEXT3GCELL(Optional) ADD G2GNCELL(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET GCELLHOCTRL(Optional) SET GCELLCHMGBASIC(Optional) ADD GEXT3GCELL(Optional) STR IPCHK(Optional) ADD BTSBFD(Optional)

STR IPCHK(Optional) BTSBFD(Optional) ADD GCNOPERATOR(Mandatory) ADD GCELL(Mandatory) STR ADD ETHMIRRORPORT(Mandatory) GEXT2GCELL(Mandatory) ADD GEXT3GCELL(Mandatory) STR ETHMIRRORPORT(Mandatory) SET FHO(Mandatory) ADD BTSAUTOPLAN(Mandatory) STR ETHMIRRORPORT(Mandatory) SET BTSAUTOPLANCFG(Optional) ADD GCELLQUICKSETUP(Mandatory) SET BTSAUTOPLANCFG(Optional) SET BSCFCPARA(Optional) SET CLKMODE(Mandatory) ADD SCTPLNK(Mandatory) SET QUICKCFG(Mandatory) SWP MBSCMODE(Mandatory) CHK MODEDATA(Mandatory) SET GCSFILE(Mandatory) SET MSP(Optional) STR IPCHK(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) SET BTSDATUBP(Optional) STR BTSRACKTEMPMON(Mandatory) STR BTSRACKTEMPMON(Mandatory) SET BTSAUTODLDACTINFO(Mandatory) SET GCELLHOFAST(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD MPGRP(Mandatory) ADD MPLNK(Mandatory) ADD BTSMPGRP(Mandatory) ADD ADD BTSMPLNK(Mandatory) IPLOGICPORT(Optional) IMP BTSMPGRP(Mandatory) SET BTSFMUABP(Optional) IMP BTSMPLNK(Mandatory) SET BTSAPMUBP(Optional) SET ADD BTSDATUBP(Optional) BTS(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD MPGRP(Optional)

SET MPUBIND(Mandatory) ADD BRD(Mandatory) SET MPUBIND(Mandatory) ADD BRD(Mandatory) SET GCELLPWR2(Optional) SET GCELLHOFITPEN(Optional) SET GCELLPWR3(Optional) SET GCELLHOCTRL(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET GMRSCOPE(Mandatory) ADD BTSPPPLNK(Optional) ADD BTSMPLNK(Optional) SET GMRCTRL(Mandatory) IMP BTSPPPLNK(Optional) IMP BTSMPLNK(Optional) ADD AISSCFG(Optional) SET GCELLSOFT(Optional) ADD GCNNODE(Optional) ADD GCNOPERATOR(Mandatory) ADD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional) ADD GCNNODE(Optional) SET GCELLCCUTRANSYS(Optional) CHK INNSPCH(Mandatory) SET GCELLTMR(Optional) STR CALLRESLOP(Mandatory) ADD GCSCHRUSER(Mandatory) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional)

SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET BSSLS(Optional) SET GCELLHOFAST(Optional) SET GCELLCCBASIC(Optional)

SET MSPCMD(Mandatory) SET SET BTSFMUABP(Optional) GCELLPSCHM(Optional) SET BTSAPMUBP(Optional) SET SET BTSDATUBP(Optional) GCELLPSCHM(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional) ADD GEXT2GCELL(Optional) SET GCELLNC2PARA(Optional) SET BSSGPPARA(Optional) SET GBSCREDGRP(Optional) SET GCELLSERVPARA(Optional) SET SLFSLVSW(Optional) SET BSCFCPARA(Optional) CHK E1T1CRS(Mandatory) ADD MTP3LNK(Mandatory) ADD GPS(Optional) ADD SCTPLNK(Optional) SET ETHPORT(Optional) SET BTSETHPORT(Optional) SET BTSBAT(Optional) SET GCELLSERVPARA(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) ADD PPPLNK(Optional) ADD MPGRP(Optional) ADD IPMUX(Mandatory) SET BTSCABPARA(Optional) STR IPCHK(Optional) SET BTSRINGATTR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLSTANDARDOPTPARA(Optional) SET GCELLSTANDARDOPTPARA(Optional) SET GCELLSTANDARDOPTPARA(Optional) ADD BC(Optional) ADD BC(Optional) ADD BC(Optional) SET GCELLGPRS(Optional) ADD OPC(Mandatory) ADD N7DPC(Mandatory) ADD MTP3RT(Mandatory) ADD MTP3LKS(Mandatory) ADD MTP3LNK(Mandatory) ADD ADJNODE(Mandatory) ADD M3LE(Mandatory) ADD M3DE(Mandatory) ADD M3RT(Mandatory) ADD M3LKS(Mandatory) ADD M3LNK(Mandatory) ADD PCU(Mandatory) SET GCELLCHMGAD(Optional) SET GCELLPSPWPARA(Optional) SET GCELLBASICPARA(Optional) ADD GIBCAPNCGRP(Mandatory) ADD GIBCAPNCGRP(Mandatory) ADD GIBCAPNCGRP(Mandatory) ADD GIBCAPNCGRP(Mandatory) ADD G2GNCELL(Mandatory) ADD G2GNCELL(Mandatory) ADD G3GNCELL(Mandatory) ADD G3GNCELL(Mandatory) SET BTSAUTOPLANCFG(Optional)

ADD G2GNCELL(Mandatory) ADD G2GNCELL(Mandatory) ADD G2GNCELL(Mandatory) ADD G2GNCELL(Mandatory) SET GCELLGPRS(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLGPRS(Optional) ADD GCELL(Optional) ADD GEXT2GCELL(Mandatory) ADD GCELLQUICKSETUP(Optional) SET GCELLIDLEBASIC(Optional) SET GCELLEXTMSRPARA(Optional) SET GCELLHOFAST(Optional) SET GCELLHOFITPEN(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET GCELLGSMR(Optional) SET GCELLGSMR(Optional) SET GCELLPSBASE(Optional) ADD N7DPC(Optional) ADD XPUVLAN(Mandatory) SET GCELLHOCTRL(Optional) ADD OMUIPRT(Mandatory) ADD IPRT(Mandatory) ADD ADD BTSIPRT(Mandatory) IPRTBIND(Mandatory) ADD BTSIPRTBIND(Mandatory) IMP BTSIPRT(Mandatory) ADD OPC(Mandatory) DLD TCFILE(Mandatory) SET GCELLPSBASE(Optional)

SET BTSALMPORT(Mandatory) SET BTSALMPORT(Mandatory) SET BTSALMPORT(Mandatory) SET BTSALMPORT(Mandatory) SET PWRPARA(Optional) SET PWRPARA(Optional) SET PWRPARA(Optional) SET PWRPARA(Optional) SET PWRPARA(Optional) SET PWRPARA(Optional) SET PWRPARA(Optional) SET PWRPARA(Optional) SET PWRPARA(Optional) SET PWRPARA(Optional) SET PWRPARA(Optional) SET PWRPARA(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) ADD ADJNODE(Mandatory) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET BTSPMUBP(Optional) SET GCELLPWR3(Optional)

SET GCELLNWCTRLMSRPARA(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET GCELLNC2PARA(Optional) SET BTSCABPARA(Optional) SET OTHSOFTPARA(Optional) SET GTRXRLALM(Optional) SET BTSFALLBACK(Optional) TRC IPADDR(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOFITPEN(Optional) ADD ADD NRIMSCMAP(Mandatory) NSE(Mandatory) ADD ADD NSVC(Mandatory) NRISGSNMAP(Mandatory) ADD NSVLLOCAL(Mandatory) ADD NSVLREMOTE(Mandatory) SET OTHSOFTPARA(Optional) ADD PTPBVC(Mandatory) BLK PTPBVC(Mandatory) ADD GCELLQUICKSETUP(Optional) SET GCELLHOFITPEN(Optional) SET GCELLLCS(Optional) ADD NSVC(Mandatory) ADD NSVC(Mandatory) BLK NSVC(Mandatory) SET BTSDHEUBP(Optional) SET BTSDHEUBP(Optional) SET GCELLGSMR(Optional) SET ETHPORT(Optional) ADD PPPLNK(Optional) ADD MPGRP(Optional) ADD IPLOGICPORT(Optional) ADD ETHTRK(Optional) SET QUEUEMAP(Mandatory) SET QUEUEMAP(Optional) SET BTSANTANGLE(Mandatory) STR TRXBURSTTST(Mandatory) ADD GCSCHRUSER(Optional) ADD GPSCHRUSER(Optional)

ADD OBJALMSHLD(Mandatory) ADD BTSOBJALMSHLD(Mandatory) SET FHO(Mandatory) SET GCELLPSOTHERPARA(Optional) SET GCELLHOIUO(Optional) SET BTSOMLBACKUP(Optional) SET BTSOMLDETECT(Mandatory) SET OTHSOFTPARA(Optional) SET BSCABISPRIMAP(Optional) SET BTSBWPARA(Mandatory) SET BTSBWPARA(Mandatory) SET BSCABISPRIMAP(Optional) SET BSCSRVPRI(Optional) SET BSCABISPRIMAP(Optional) SET BTSLAPDWS(Optional) ADD EMSIP(Optional) EXP LOG(Optional) ADD ADD OP(Mandatory) EMSIP(Optional) ULK USR(Mandatory) ADD BTSOP(Mandatory) ADD GCELLOSPMAP(Mandatory) ADD GCELLQUICKSETUP(Mandatory) BLK ACIC(Mandatory) ADD AE1T1(Mandatory) ADD GCNOPERATOR(Mandatory) ADD GCNOPERATOR(Mandatory) ADD GCBSADDR(Mandatory) ADD UPD GCNNODE(Mandatory) JTGCPLD(Mandatory) ADD GCNOPERATOR(Mandatory) BLK ACIC(Mandatory) ADD GCELL(Optional) ADD GEXTSMLC(Mandatory) BLK ADD ATERE1T1(Mandatory) GEXT2GCELL(Optional) ADD GEXT3GCELL(Optional) BLK AE1T1(Mandatory) ADD NSE(Mandatory) ADD SGSNNODE(Mandatory) BLK PBCIC(Mandatory) ADD NRISGSNMAP(Mandatory) ADD PCU(Mandatory) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GTRXDEV(Optional)

SET OPT(Optional) SWP BTSBRD(Mandatory) SET BTSFORBIDTS(Mandatory) ADD GNRNC(Mandatory) ADD BTSTOPCONFIG(Mandatory) CON PATCH(Optional) LOD PATCH(Optional) ADD GCELLQUICKSETUP(Optional) SET BTSOTHPARA(Optional) SET GCELLHOIUO(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLTMR(Optional) SET GCELLTMR(Optional) SET GCELLHOAD(Optional) SET GCELLHOEDBPARA(Optional) SET GTRXDEV(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) ADD SEMILINK(Optional) ADD SEMILINK(Mandatory) ADD DXXTSEXGRELATION(Mandatory) ADD DXXTSEXGRELATION(Mandatory) SET BTSDTMUBP(Optional) SET BTSDTMUBP(Optional) SET BTSDTMUBP(Optional) SET BTSDTMUBP(Optional) ADD BTSLOCGRP(Mandatory) ADD BTSLOCGRP(Mandatory) ADD BTSLOCGRP(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLSOFT(Optional)

ADD SEMILINK(Mandatory) ADD ABISLOADSHARE(Mandatory) ADD SEMILINK(Mandatory) SET GCELLHOINTERRATLDB(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) ADD GNRNC(Optional) ADD SEMILINK(Mandatory) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET GCELLCCCH(Optional) SET BTSCABPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BTSOTHPARA(Optional) SET GCELLPSOTHERPARA(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLCCBASIC(Optional) SET GCELLPSBASE(Optional) SET GCELLPSBASE(Optional) SET GCELLPSBASE(Optional) SET GTRXDEV(Optional) SET BTSAUTODLDACTINFO(Mandatory) SET BTSAUTODLDACTINFO(Mandatory)

ADD IPPATH(Optional) ADD IPPATH(Mandatory) ADD IPMUX(Mandatory) ADD IPPATHBIND(Mandatory) SET GCELLPWRBASIC(Optional) SET GCELLHOBASIC(Optional) ADD IPPATH(Optional) CON PATCH(Optional) LOD PATCH(Optional) SET GCELLPSPWPARA(Optional) SET GCELLHOBASIC(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) SET OTHSOFTPARA(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPSPWPARA(Optional) BLK PBCIC(Mandatory) ADD PCU(Mandatory) ADD PBE1T1(Mandatory) SET GCELLGPRS(Mandatory) SET BTSFLEXABISPARA(Optional) SET GCELLPSCHM(Optional) SET GCELLSOFT(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) ADD M3LKS(Optional) SET GBSCREDGRP(Mandatory) SET BTSIP(Mandatory) SET BTSIP(Mandatory) SET BTSIP(Mandatory) SET BTSIP(Mandatory) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory) STR IPCHK(Mandatory) ADD BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory)

ADD BTSMPGRP(Mandatory) IMP BTSMPGRP(Mandatory) ADD SCTPLNK(Mandatory) ADD SCTPLNK(Optional) ADD IPPATH(Mandatory) ADD IPPATH(Optional) ADD SCTPLNK(Mandatory) SET BTSLOADCTRL(Mandatory) SET GCELLHOCTRL(Optional) SET GCELLNC2PARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLHOFITPEN(Optional) ADD IPPATH(Optional) STR NCS(Mandatory) ADD PPPLNK(Optional) ADD BTSPPPLNK(Optional) ADD ADD BTSMPGRP(Optional) MPGRP(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPGRP(Optional) ADD NSE(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET PHBMAP(Mandatory) ADD IPMUX(Mandatory) SET GCELLIDLEBASIC(Optional) SET CERTFILE(Optional) STR ETHOAMLOOPTST(Optional) STR ETHOAMLOOPTST(Optional) STR FRPORTLOOP(Mandatory) ADD BTSABISMUXFLOW(Optional) SET GCELLGPRS(Optional) PING IP(Optional) PING MAC(Optional) PING BTSCFM(Optional) SET GCELLPRACH(Optional) SET GTRXDEV(Optional)

SET GCELLPRACH(Optional) SET GCELLPRACH(Optional) SET GTRXDEV(Optional) SET GCELLPRACH(Optional) SET GTRXDEV(Optional) ADD IPLOGICPORT(Optional) ADD IPLOGICPORT(Optional) SET TCPLYVOICE(Mandatory) SET TCPLYVOICE(Mandatory) SET TCPLYVOICE(Optional) SET FCCPUTHD(Optional) SET FCMSGQTHD(Optional) SET GCELLSOFT(Mandatory) SET GCELLSOFT(Mandatory) SET GCELLSOFT(Optional) SET FCCPUTHD(Optional) SET FCMSGQTHD(Optional) SET FCSW(Optional) SET SCUPORT(Optional) SET ALMPORT(Mandatory) SET XPUPORT(Optional) ADD ATERE1T1(Mandatory) ADD AE1T1(Mandatory) BLK AE1T1(Mandatory) BLK ATERE1T1(Mandatory) ADD PBE1T1(Mandatory) ADD OBJALMSHLD(Mandatory) SET MSPCMD(Mandatory) SET MSP(Mandatory) SET E1T1LOP(Optional) LOP E1T1(Optional) SET E1T1(Optional) STR E1T1TST(Optional) SET OPTLOP(Mandatory) SWP ETHPORT(Mandatory) SET OPT(Optional) SET COPTLNK(Optional)

SET ETHPORT(Optional) ADD ETHREDPORT(Mandatory) ADD ETHIP(Mandatory) ADD ETHMEP(Mandatory) ADD IPLOGICPORT(Optional) STR IPCHK(Optional) STR ETHOAMLOOPTST(Mandatory) STR FRPORTLOOP(Optional) CHK E1T1CRS(Mandatory) ADD BC(Mandatory) ADD PBSL(Mandatory) SET ADD BTSFORBIDTS(Mandatory) BTSAUTOPLAN(Mandatory) ADD BTSPPPLNK(Mandatory) SET BTSENVALMPORT(Mandatory) ADD ADD BTSMPLNK(Mandatory) BTSOBJALMSHLD(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPLNK(Mandatory) SET BTSOMLTS(Mandatory) ADD BTSCONNECT(Mandatory) SET BTSETHPORT(Mandatory) IMP BTSDEVIP(Mandatory) ADD BTSETHLCMEP(Mandatory) STR BTSTST(Optional) SET GCELLPSOTHERPARA(Optional) SET GCELLPSOTHERPARA(Optional) SET GCELLPSOTHERPARA(Optional) SET GCELLPSOTHERPARA(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) BEG ROLLBACK(Mandatory) ADD ROLLBACKPOINT(Optional) BEG FORWARD(Mandatory) ADD ROLLBACKPOINT(Mandatory) ADD FTPSCLTDPORT(Mandatory) SWP BTSRING(Optional) SWP BTSOMLLINK(Optional) ADD DXXCONNECT(Mandatory) ADD DXX(Optional) ADD PORTFLOWCTRLPARA(Mandatory) SET XPUPORT(Mandatory) ADD ETHMEP(Mandatory) ADD BTSTOPCONFIG(Mandatory) SET GCELLCCUTRANSYS(Optional) LOD BTSPATCH(Mandatory) CON BTSPATCH(Mandatory)

SET BTSAPMUBP(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) SET BTSPMUBP(Optional) SET GCELLBASICPARA(Optional) SET GCELLBASICPARA(Optional) SET BTSPMUBP(Optional) SET BTSPOWERTYPE(Optional) SET GTRXDEV(Optional) SET GTRXDEV(Optional) ADD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) ADD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) ADD PPPLNK(Optional) ADD MPLNK(Optional) ADD BTSPPPLNK(Mandatory) ADD ADD BTSMPLNK(Mandatory) IPLOGICPORT(Optional) IMP BTSPPPLNK(Mandatory) IMP BTSMPLNK(Mandatory) ADD PPPLNK(Optional) ADD MPGRP(Optional) ADD PORTFLOWCTRLPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET GCELLCCAD(Optional) SET GMRCTRL(Optional) ADD BTSIPRT(Optional) IMP BTSIPRT(Optional) SET GCELLPSBASE(Optional) SET BSCFCPARA(Optional) SET GCELLHOCTRL(Optional) SET FCCPUTHD(Optional) SET FCMSGQTHD(Optional) SET FCCPUTHD(Optional) SET FCMSGQTHD(Optional)

SET FCSW(Optional) SET GCELLBASICPARA(Optional) ADD GEXT2GCELL(Optional) SET BTSFLEXABISPARA(Optional) SET GCELLSERVPARA(Optional) ADD MTP3RT(Optional) ADD M3RT(Optional) ADD MTP3LNK(Optional) ADD M3LNK(Optional) ADD IPRT(Mandatory) SET BTSOTHPARA(Mandatory) SET BTSOTHPARA(Mandatory) SET BTSOTHPARA(Mandatory) SET CERTFILE(Optional) SET BTSOTHPARA(Optional) ADD N7DPC(Optional) ADD BC(Optional) SET BTSABISTROP(Optional) SET GCELLDYNTURNOFF(Optional) SET BSCDSTPA(Optional) SET E1T1(Optional) CHK E1T1CRS(Mandatory) SET OPT(Optional) SET COPTLNK(Mandatory) SET GPSCHRCTRL(Optional) SET GPSCHRCTRL(Optional) SET GPSCHRCTRL(Optional) SET GPSCHRCTRL(Optional) SET GPSCHRCTRL(Optional) ADD TRMFACTOR(Optional) ADD TRMFACTOR(Optional) ADD NSE(Optional) ADD TRMMAP(Optional) ADD TRMMAP(Optional) ADD GCELL(Optional) SET GCELLPSI1(Optional) SET GCELLPSI1(Optional)

ADD TRMMAP(Optional) ADD TRMMAP(Optional) ADD GCELL(Optional) SET GCELLHOIUO(Optional) SET GPSCHRCTRL(Optional) SET GCELLCCACCESS(Optional) ADD BTSLOCGRP(Optional) SET GPSCHRCTRL(Mandatory) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional) SET GCELLHOIUO(Optional) SET BTSOTHPARA(Optional) SET SLFSLVSW(Optional) SET ALMPORT(Mandatory) ADD SNTPSRVINFO(Mandatory) SET GCELLIDLEAD(Optional) ADD NSE(Mandatory) SET BTSENVALMPORT(Optional) SET E1T1(Optional) SET E1T1(Optional) SET E1T1(Optional) ADD BTSABISHDLCPATH(Mandatory) SET E1T1(Optional) ADD BTSBIND2HDLCPATH(Mandatory) ADD GTRXBIND2HDLCPATH(Mandatory) SET ETHPORT(Mandatory) SET BTSAPMUBP(Optional)

SET CERTFILE(Optional) SET BTSAUTODLDACTINFO(Optional) LOD BTSPATCH(Mandatory) CON BTSPATCH(Mandatory) SET BSCPSSOFTPARA(Optional) DLD RETANTCFG(Mandatory) ADD OP(Mandatory) SET CERTFILE(Mandatory) ULD DLD BTSDEVFILE(Mandatory) LICENSE(Mandatory) DLD ULD BTSPATCH(Mandatory) LICENSE(Mandatory) ULD BTSLOG(Mandatory) DLD BTSSW(Mandatory) SET PWDPOLICY(Optional) STR BTSTST(Mandatory) SET PWRALMSW(Optional) SET PWRALMSW(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWR3(Optional) SET GCELLPWRBASIC(Optional) SET GCELLCCACCESS(Optional) SET GCELLCCACCESS(Optional) SET GCELLSOFT(Optional) ADD BTSBRDCAP(Mandatory) ADD BTSRXUBRD(Optional) SET BTSBAKPWR(Optional) SET GCELLCHMGAD(Optional) SET GTRXDEV(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET QUEUEMAP(Optional) SET QUEUEMAP(Optional) SET QUEUEMAP(Optional) SET QUEUEMAP(Optional) SET QUEUEMAP(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional)

SET GCELLCCUTRANSYS(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLPSOTHERPARA(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLSOFT(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET BTSAIRCON(Optional) SET BTSAIRCON(Optional) SET GCELLPWR2(Optional) SET GCELLSOFT(Optional) SET GCELLHOBASIC(Optional) SET BTSAUXEQP(Optional) SET BTSBAT(Optional) SET BTSBAT(Mandatory) SET BTSBAT(Mandatory) SET BTSBAT(Mandatory) SET BTSAUXEQP(Optional) SET BTSBAT(Optional) SET BTSBAT(Mandatory) SET BTSBAT(Mandatory) SET BTSBAT(Mandatory) SET BTSAUXEQP(Optional) SET BTSBAT(Optional) SET BTSBAT(Mandatory) SET BTSBAT(Mandatory) SET BTSBAT(Mandatory) ADD GEXT2GCELL(Optional) ADD GEXT3GCELL(Optional) SET GCELLGPRS(Optional) SET BTSAUTOPLANCFG(Optional)

ADD GCELLQUICKSETUP(Optional) SET BTSAUTOPLANCFG(Optional) SET GCELLCCACCESS(Optional) SET GCELLCCBASIC(Optional) SET GCELLCCCH(Optional) ADD BTSLOCGRP(Optional) SET GCELLPSBASE(Optional) SET GCELLRESELECTPARA(Optional) SET GCELLCCACCESS(Optional) SET GCELLRESELECTPARA(Optional) SET BTSETHPORT(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GMRCTRL(Optional) BEG FORWARD(Mandatory) ADD RUN BTSRXUCHAIN(Mandatory) BATCHFILE(Optional) SET BTSBREAKPOINT(Mandatory) SPT BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) SET GTRXDEV(Optional) ADD IPLOGICPORT(Optional) SET GCELLCCBASIC(Optional) SET GCELLCCAD(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET OTHSOFTPARA(Optional) ADD IPLOGICPORT(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) ADD BRD(Mandatory) SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional) SET CLK(Optional) SET CLK(Optional) SET CLK(Optional) SET CLK(Optional) SET CLK(Optional) SET CLK(Optional) SET CLK(Optional) SET BTSLSW(Optional) SET GREDGRPPRIMHOSTPOLICY(Mandatory) SET GREDGRPPRIMHOSTPOLICY(Mandatory) SET GREDGRPPRIMHOSTPOLICY(Mandatory) ADD AISSCFG(Mandatory) SET BTSRXUBP(Mandatory) SET BTSDFCUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Mandatory) SET BTSRXUBP(Mandatory) SET BTSDFCUBP(Optional) ADD TRMMAP(Optional) ADD TRMFACTOR(Mandatory) ADD IPRT(Mandatory) ADD NSVLREMOTE(Mandatory) ADD GSMSCB(Mandatory) SET GCELLCCBASIC(Optional) SET GCELLCCBASIC(Optional) SET GCELLCCBASIC(Optional) SET BTSENVALMPORT(Optional) SET OTHSOFTPARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLNC2PARA(Optional) SET GCELLPSCHM(Optional) SET GCELLOTHEXT(Optional)

SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET PWDPOLICY(Optional) SET BSCNSPARA(Optional) SET BTSOTHPARA(Optional) SET BSCNSPARA(Optional) TST SNDRSI(Mandatory) SET OTHSOFTPARA(Optional) DLD LICENSE(Optional) ULD LICENSE(Optional) ADD PPPLNK(Optional) ADD MPLNK(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional) ADD GNRNC(Optional) SET GCELLCHMGBASIC(Optional) SET GCELLOTHEXT(Optional) SET GCELLCCCH(Optional) ADD SUBTSK(Optional) ADD BTS(Optional) SET BTSDGPSBP(Optional) ADD NSE(Optional) SET E1T1LOP(Optional) SET GCELLCCBASIC(Optional) SET BSCBASIC(Optional) ADD GEXT3GCELL(Mandatory) ADD GEXT3GCELL(Optional) ADD GNRNC(Mandatory) ADD GIURGCONN(Mandatory) ADD GNRNC(Mandatory) SET CERTFILE(Optional) ADD SGSNROUTEINFO(Mandatory) ADD SGSNROUTEINFO(Mandatory) SET GCELLSOFT(Optional) SET GCELLNWCTRLMSRPARA(Optional) SET GCELLNWCTRLMSRPARA(Optional) ADD IPLOGICPORT(Optional)

SET GCELLOTHBASIC(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOFITPEN(Optional) ADD IPPATH(Mandatory) ADD RSCGRP(Mandatory) ADD IPLOGICPORT(Optional) SET GCELLHOFITPEN(Optional) ADD G3GNCELL(Optional) ADD GEXT3GCELL(Optional) SET OPT(Optional) SET OPT(Optional) SET GCELLNCRESELECTPARA(Optional) SET BTSBWPARA(Mandatory) SET BSCABISPRIMAP(Optional) SET BSCABISPRIMAP(Optional) SET BTSBWPARA(Mandatory) SET BSCABISPRIMAP(Optional) SET BTSLAPDWS(Optional) LCK CMCTRL(Mandatory) SET OTHSOFTPARA(Optional) UPD JTGCPLD(Mandatory) RUN BATCHFILE(Optional) ADD BTSPPPLNK(Optional) ADD ADD BTSMPLNK(Optional) OPC(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPLNK(Optional) SET GCELLCHMGBASIC(Optional) SET TRANSPATCHPARA(Optional) SET TRANSPATCHPARA(Optional) SET TRANSPATCHPARA(Optional) SET TRANSPATCHPARA(Optional) SET TRANSPATCHPARA(Optional) SET TRANSPATCHPARA(Optional) SET TRANSPATCHPARA(Optional) SET TRANSPATCHPARA(Optional) SET TRANSPATCHPARA(Optional)

SET TRANSPATCHPARA(Optional) SET BSCDSTPA(Optional) SET MSP(Optional) ADD M3LE(Optional) ADD M3DE(Optional) ADD GCNNODE(Optional) ADD GCNNODE(Optional) ADD OMUIPRT(Mandatory) ADD OMUIPRT(Mandatory) ADD BTSIPRT(Optional) IMP BTSIPRT(Mandatory) ADD SCTPLNK(Optional) ADD SCTPLNK(Optional) ADD SCTPLNK(Optional) ADD SCTPLNK(Optional) ADD SCTPLNK(Optional) SET GCELLBASICPARA(Optional) SET GCELLPSCHM(Optional) ADD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory) ADD IPLOGICPORT(Optional) ADD IPLOGICPORT(Optional) SET BTSAUTODLDACTINFO(Mandatory) ADD IPPATH(Mandatory) ADD RSCGRP(Mandatory) SET GCELLSERVPARA(Optional) SET GCELLAMRQUL(Optional) SET GCELLBASICPARA(Optional) SET GCELLHOBASIC(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) ADD TRXBIND2PHYBRD(Mandatory) SET BTSRXUBP(Mandatory) ADD BTSRXUBRD(Mandatory) ADD TRXBIND2PHYBRD(Mandatory) SET BTSRXUBP(Mandatory) ADD TRXBIND2PHYBRD(Mandatory) SET BTSRXUBP(Mandatory) ADD BTSRXUBRD(Mandatory) ADD TRXBIND2PHYBRD(Mandatory) SET BTSRXUBP(Mandatory) ADD BTSRXUBRD(Mandatory) SET BTSRXUBP(Mandatory) SET OPT(Optional) SET OPT(Optional) SET BTSDEMUBP(Optional) SET BTSAPMUBP(Optional) ADD GCNNODE(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWR2(Optional) SET GCELLPWR3(Optional) SET BTSDPMUBP(Optional) SET GCELLDYNTURNOFF(Mandatory) SET GCELLDYNTURNOFF(Mandatory) SET GCELLDYNTURNOFF(Optional) SET GCELLDYNTURNOFF(Optional) SET GCELLDYNTURNOFF(Mandatory) SET GCELLCCBASIC(Optional) SET BTSDPMUBP(Optional) SET BTSDEMUBP(Optional) SET BTSDEMUBP(Optional)

SET BTSDOMUBP(Optional) SET BTSAPMUBP(Optional) COL SYNCINFO(Mandatory) COL SYNCINFO(Mandatory) SET GCELLCCUTRANSYS(Optional) SET BSCPSTCDSCPMAP(Optional) SET GCELLHOFAST(Optional) ADD NCELL(Mandatory) COL SYNCINFO(Mandatory) ADD NCELL(Mandatory) COL SYNCINFO(Mandatory) SET GCELLSBC(Optional) ADD GSMSCB(Mandatory) STR BTSTST(Optional) ADD SUBTSK(Mandatory) ADD SUBCMD(Mandatory) SET GMRSCOPE(Mandatory) ADD SRCONPATH(Optional) ADD GEXT3GCELL(Mandatory) SET GCELLHOFDDBA2(Mandatory) EXP ALMLOG(Optional) STA ALMLOG(Optional) ADD SCTPLNK(Mandatory) ADD M3LNK(Mandatory) ADD SUBTSK(Mandatory) EXP ALMLOG(Optional) STA ALMLOG(Optional) SET ALMCAPACITY(Optional) SET MSP(Optional) STR BTSLOG(Optional) SET TZ(Mandatory) ADD GCELLQUICKSETUP(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLBASICPARA(Optional) SET MSP(Optional) SET GCELLSOFT(Optional)

SET GTRXDEV(Optional) SET GCELLHOCTRL(Optional) SET GCELLPWR3(Optional) ADD GEXT2GCELL(Optional) ADD GEXT2GCELL(Optional) SET BSCPSTCDSCPMAP(Optional) SET MSP(Optional) SET BTSAPMUBP(Optional) ADD BTSALMMGMRULE(Mandatory) ADD BTSALMMGMRULE(Mandatory) SET BTSAPMUBP(Optional) SET GCELLCCUTRANSYS(Optional) SET BTSLOADCTRL(Mandatory) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Mandatory) SET GCELLSOFT(Optional) SET AITFOTHPARA(Optional) SET OTHSOFTPARA(Optional) SET GCELLGSMR(Optional) SET GCELLGSMR(Optional) SET BTSOTHPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SPT BTSRXUCHAIN(Mandatory) ADD BTS(Optional) SET FTPSSRV(Mandatory) SET FTPSSRV(Mandatory) ADD BTSRETANT(Mandatory) ADD FTPSCLTDPORT(Mandatory) SET BSCBASIC(Optional) ADD BTS(Optional) ADD BTSAUTOPLAN(Mandatory) EXP LOG(Optional)

SET BTSVLAN(Mandatory) IMP BTSVLAN(Mandatory) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) ADD BTSSFPMODE(Mandatory) ADD SGSNNODE(Optional) ADD SGSN(Mandatory) ADD GCNOPERATOR(Mandatory) ADD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional) SET GCELLPSBASE(Optional) ADD SGSNNODE(Optional) SET BSCFCPARA(Optional) ADD ABISLOADSHARE(Mandatory) SET BTSSHARING(Optional) SET ALMSHLD(Mandatory) SET BTSBAKPWR(Optional) SET OTHSOFTPARA(Optional) SET GCELLHOBASIC(Optional) ADD ADD MTP3RT(Mandatory) AISSCFG(Optional) ADD MTP3LKS(Mandatory) ADD ADD M3RT(Mandatory) MTP3LNK(Mandatory) ADD M3LKS(Mandatory) ADD M3LNK(Mandatory) ADD M3LNK(Mandatory) ADD NSVLLOCAL(Optional) ADD NSVLREMOTE(Optional) SET BSCSRVPRI(Optional) ADD AISSCFG(Optional) SET GCELLHOFITPEN(Optional) ADD MTP3LNK(Mandatory) SET GCELLHOFITPEN(Optional) SET BSCPSSOFTPARA(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional)

SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional) PING IP(Mandatory) TRC IPADDR(Optional) SWP BRD(Mandatory) COL BKP(Mandatory) LOG(Optional) STR CMP BRDAREA(Optional) SET ULD BTSAISS(Mandatory) RSTINFO(Mandatory) SET CLK(Mandatory) SET BTSIPCLKPARA(Mandatory) UPD JTGCPLD(Mandatory) SET ADD XPUPORT(Mandatory) BTSBINDLOCGRP(Mandatory) ADD XPUVLAN(Mandatory) STR MPUBIND(Mandatory) TRANSPERFTST(Mandatory) SET SET DPUBRDTYPE(Mandatory) ADD N7DPC(Optional) SET TCTYPE(Mandatory) ADD BRD(Mandatory) SET GBSCREDGRP(Optional) LOD BRD(Optional) SYN BRDAREA(Optional) SET TZ(Mandatory) CMP TBLDATA(Mandatory) SET ADD MSPCMD(Mandatory) GEXTSMLC(Mandatory) SET MSP(Mandatory) ADD BFDPROTOSW(Mandatory) GEXTSMLC(Mandatory) SET STR FRPORTLOOP(Mandatory) ADD ADD EMU(Optional) BC(Mandatory) ADD NSVC(Mandatory) SET TZ(Mandatory) ADD NSVLLOCAL(Mandatory) SET FCCPUTHD(Optional) SET PSCELLTODSP(Mandatory) SET FCMSGQTHD(Optional) SET DSPLVDSMODE(Mandatory) ADD BTSAUTOPLAN(Mandatory)

ADD BTSDPMUBP(Mandatory) PPPLNK(Mandatory) SET ADD BTSDTMUBP(Mandatory) MPGRP(Mandatory) SET ADD BTSDGPSBP(Mandatory) MPLNK(Mandatory) SET ADD ETHIP(Mandatory) SET BTSDDPUBP(Mandatory) ADD IPLOGICPORT(Mandatory) SET BTSUSCUBP(Mandatory) ADD BTSRXUBP(Mandatory) ICMPGUARD(Mandatory) SET STR IPCHK(Mandatory) ADD BTSRXU2LOCGRP(Mandatory) VLANID(Mandatory) ADD BTSBINDLOCGRP(Mandatory) DLD TCFILE(Mandatory) ADD IPPATHBIND(Mandatory) ADD BTSANTFEEDERBRD(Mandatory) MTP3LNK(Optional) ADD IPRTBIND(Mandatory) ADD BTSBRD(Mandatory) SCTPLNK(Mandatory) ETHMD(Mandatory) ADD BTSRXUBRD(Optional) ETHMA(Mandatory) SET PHBMAP(Mandatory) ADD BTSTRXBRD(Mandatory) M3LNK(Mandatory) ADD BTSENVALMPORT(Mandatory) ETHMEP(Mandatory) ATERE1T1(Mandatory) SET PING MAC(Mandatory) ADD BTSANTFEEDERCONNECT(Mandatory) AE1T1(Mandatory) SET STR ETHOAMLOOPTST(Mandatory) ADD BTSOBJALMSHLD(Mandatory) BLK ATERE1T1(Mandatory) TRC MAC(Mandatory) LOD RETANTCFG(Mandatory) BLK ADD AE1T1(Mandatory) ETHTRK(Mandatory) SET BTSANTANGLE(Mandatory) ADD PBE1T1(Mandatory) ADD ETHTRKLNK(Mandatory) SET BTSCLKPARA(Mandatory) EXP ALMLOG(Optional) ADD ETHTRKIP(Mandatory) SET BTSCAVFRQ(Mandatory) STA ALMLOG(Optional) STR ETHMIRRORPORT(Mandatory) SET BTSPMUDEF(Mandatory) BLK SET BTSTMA(Mandatory) ADD BC(Mandatory) OBJALMSHLD(Optional) CHK RETANTENB(Mandatory) E1T1CRS(Mandatory) SET SET BTSIP(Mandatory) STR BTSBATTTST(Mandatory) SWP ETHPORT(Mandatory) STR BTSTST(Mandatory) ADD GCBSADDR(Mandatory) ADD ETHREDPORT(Mandatory) STR RETANTSCAN(Mandatory) SET TCPLYVOICE(Mandatory) STR TRANSPERFTST(Optional) SET TCPARA(Mandatory) SWP BTSBRD(Mandatory) ADD BTSSFPMODE(Optional) BTSENVALM(Mandatory) SET BTSFORBIDTS(Optional) ADD GIURGCONN(Mandatory) CHGBTSOMLTS(Optional) BTSPTUSHKTM(Mandatory) SET IMP BTSDEVIP(Optional) SET BTSETHPORT(Optional) ADD ADD BTSBFD(Optional) BTSPPPLNK(Optional) ADD ADD BTSIPRTBIND(Optional) BTSMPLNK(Optional) ADD ADD BTSETHMA(Optional) NSE(Mandatory) ADD BTSETHLCMEP(Optional) ADD ADD BTSTOPCONFIG(Optional) PBSL(Mandatory) IMP BTSPPPLNK(Optional) IMP BTSMPLNK(Optional) ADD BTSCONNECT(Mandatory) OPR BTSBRDPWR(Mandatory) SET GTRXDEV(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET SNTPCLTPARA(Mandatory) ADD OPC(Optional) ADD OPC(Mandatory) ADD OPC(Optional) ADD PBE1T1(Mandatory) ADD OPC(Optional) ADD N7DPC(Optional) SET GCELLCCBASIC(Optional) SET BTSFMUABP(Optional) SET BTSFMUABP(Optional)

SET BSCBASIC(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET MSGSOFTPARA(Optional) SET BTSCHNFALLBACK(Mandatory) SET BTSCHNFALLBACK(Mandatory) SET BTSCHNFALLBACK(Mandatory) SET ETHPORT(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET GCELLPSBASE(Optional) ADD GCNOPERATOR(Optional) ADD GNRNC(Optional) ADD GNRNC(Optional) SET GCELLGPRS(Optional) SET GCELLGPRS(Optional) SET BSCPSSOFTPARA(Optional) ADD GCNNODE(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET BSCBASIC(Optional) SET GCELLGPRS(Optional) SET BTSRXUBP(Optional) ADD OPC(Mandatory) SET FTPSCLT(Optional) ADD N7DPC(Mandatory) ADD M3LE(Mandatory) ADD BTS(Mandatory) ADD BTSAUTOPLAN(Mandatory) ADD BTSCABINET(Optional) ADD G2GNCELL(Mandatory) ADD GIBCAPNCGRP(Mandatory) ADD G2GNCELL(Mandatory) ADD GIBCAPNCGRP(Mandatory) ADD G3GNCELL(Mandatory)

ADD TSCROSS(Mandatory) ADD DEVIP(Mandatory) ADD IPRT(Mandatory) SET OPT(Mandatory) SET COPTLNK(Mandatory) SET ETHPORT(Mandatory) ADD ETHREDPORT(Mandatory) G3GNCELL(Mandatory) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory) ADD MPLNK(Mandatory) G2GNCELL(Mandatory) ADD ADD ETHIP(Mandatory) RUN BATCHFILE(Mandatory) ADD ADD TRXBIND2PHYBRD(Mandatory) IPLOGICPORT(Mandatory) SWP BTSRING(Optional) ADD ICMPGUARD(Mandatory) SET CLKMODE(Mandatory) SWP BTSOMLLINK(Optional) STR IPCHK(Mandatory) SET BTSFMUABP(Mandatory) ADD VLANID(Mandatory) CLKSRC(Mandatory) SET ADD BTSNFCBBP(Mandatory) IPPATHBIND(Mandatory) SET G2GNCELL(Optional) ADD BTSPMUBP(Mandatory) IPRTBIND(Mandatory) SET ADD BTSAPMUBP(Mandatory) ETHMA(Mandatory) SET ADD BTSDATUBP(Mandatory) BTSBFD(Mandatory) ADD ETHMEP(Mandatory) SET PINGBTSDEMUBP(Mandatory) MAC(Mandatory) ADD BTSDFCUBP(Mandatory) G2GNCELL(Mandatory) SET STR ETHOAMLOOPTST(Mandatory) SET BTSDHEUBP(Mandatory) TRC MAC(Mandatory) ADD G2GNCELL(Mandatory) SET SET BFDPROTOSW(Mandatory) PINGBTSDOMUBP(Mandatory) MAC(Mandatory) SET BTSDPMUBP(Mandatory) STR TRC FRPORTLOOP(Mandatory) MAC(Mandatory) SET BTSDTMUBP(Mandatory) BLK BC(Mandatory) SET ADD BTSDGPSBP(Mandatory) G2GNCELL(Mandatory) SET TRANSPATCHPARA(Mandatory) SET CHK BTSDDPUBP(Mandatory) E1T1CRS(Mandatory) ADD TSCROSS(Mandatory) SET ADD BTSUSCUBP(Mandatory) BC(Mandatory) SET BTSRXUBP(Mandatory) ADD ADD NSVC(Mandatory) CLKSRC(Mandatory) ADD ADD BTSRXU2LOCGRP(Mandatory) NSVLLOCAL(Mandatory) ADD BTSBINDLOCGRP(Mandatory) SET PSCELLTODSP(Mandatory) ADD TSCROSS(Mandatory) ADD BTSANTFEEDERBRD(Mandatory) SET DSPLVDSMODE(Mandatory) ADD RSCGRP(Mandatory) ADD BTSBRD(Mandatory) ADD BTSAUTOPLAN(Mandatory) SET PHBMAP(Mandatory) ADD BTSRXUBRD(Optional) SUBRACK(Mandatory) ADD ATERE1T1(Mandatory) ADD BTSTRXBRD(Mandatory) SET CLK(Mandatory) ADD AE1T1(Mandatory) ADD BTSENVALMPORT(Mandatory) MTP3LNK(Optional) SET BLK AE1T1(Mandatory) ADD BTSANTFEEDERCONNECT(Mandatory) SCTPLNK(Mandatory) SET ADD ADD ABISLOADSHARE(Mandatory) BTSOBJALMSHLD(Mandatory) ADD RETANTCFG(Mandatory) PBE1T1(Mandatory) LOD SET BTSANTANGLE(Mandatory) ADD M3LNK(Mandatory) SET BTSCLKPARA(Mandatory) SET BTSCAVFRQ(Mandatory) BLK ATERE1T1(Mandatory) SET BTSPMUDEF(Mandatory) ADD ETHMD(Mandatory) EXP ALMLOG(Optional) SET COL BTSTMA(Mandatory) LOG(Optional) ADD ETHTRK(Mandatory) STA RETANTENB(Mandatory) ALMLOG(Optional) SET ADD ETHTRKLNK(Mandatory) ADD BTSBATTTST(Mandatory) OBJALMSHLD(Mandatory) STR ADD ETHTRKIP(Mandatory) STR BTSTST(Mandatory) ADD GCBSADDR(Mandatory) STR ETHMIRRORPORT(Mandatory) STR RETANTSCAN(Mandatory) SET TCPLYVOICE(Mandatory) STR TRANSPERFTST(Optional) SET TCPARA(Mandatory) SWP BTSBRD(Mandatory) ADD BTSSFPMODE(Optional) BTSENVALM(Mandatory) SET BTSFORBIDTS(Optional) ADD GIURGCONN(Mandatory) CHGBTSOMLTS(Optional) BTSPTUSHKTM(Mandatory) SET IMP BTSDEVIP(Optional) SET BTSETHPORT(Optional) ADD ADD BTSBFD(Optional) BTSPPPLNK(Optional) ADD ADD BTSIPRTBIND(Optional) BTSMPLNK(Optional) ADD ADD BTSETHMA(Optional) NSE(Mandatory) ADD BTSETHLCMEP(Optional) ADD ADD BTSTOPCONFIG(Optional) PBSL(Mandatory) IMP BTSPPPLNK(Optional) IMP BTSMPLNK(Optional) ADD BTSCONNECT(Mandatory) OPR BTSBRDPWR(Mandatory) ADD SRCONPATH(Mandatory) ADD SRCONPATH(Mandatory)

ADD SUBRACK(Mandatory) SET BTSTMA(Mandatory) SET CLK(Mandatory) EXP ALMLOG(Optional) ADD NSVLLOCAL(Optional) ADD NSVLREMOTE(Optional) SET BTSPSUFP(Optional) ADD BTSABISMUXFLOW(Mandatory) SET GCELLHOFITPEN(Optional) SET CPUTHD(Optional) SET CPUTHD(Optional) SET CPUTHD(Optional) SET CPUTHD(Optional) STR BKP(Optional) SET GCELLCHMGAD(Optional) ULD RSTINFO(Mandatory) ADD XPUVLAN(Mandatory) SET GCELLCHMGAD(Optional) LOD BRD(Optional) CMP TBLDATA(Mandatory) ADD GIURGCONN(Mandatory) EXP ALMLOG(Optional) SET GCELLHOFITPEN(Optional) SET TZ(Mandatory) EXP LOG(Optional) ADD SUBTSK(Mandatory) COL LOG(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional) ADD GSMSCB(Mandatory) EXP ALMLOG(Optional) STA ALMLOG(Optional) SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) BLK ACIC(Mandatory) BLK PBCIC(Mandatory) ADD BSCDSTPADATE(Mandatory) SET BTSDHEUBP(Optional) ADD BSCDSTPADATE(Mandatory)

SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) SET BTSFORBIDTS(Optional) SET BTSFALLBACK(Optional) SET BSCDSTPA(Optional) BLK ATERE1T1(Mandatory) BLK AE1T1(Mandatory) SET BTSFORBIDTS(Mandatory) SET BTSFMUABP(Optional) SET BTSNFCBBP(Optional) ADD AE1T1(Mandatory) ADD BTSMONITORTS(Optional) ADD OP(Mandatory) STR NCS(Mandatory) ADD MTP3LNK(Optional) STR BTSLOG(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET BTSFALLBACK(Optional) ADD N7DPC(Optional) ADD BTSMONITORTS(Mandatory) SET GCELLFREQSCAN(Optional) ADD BTSMONITORTS(Optional) ADD BTSMONITORTS(Optional) ADD BTSMONITORTS(Mandatory) ADD OP(Mandatory) ADD BTSMONITORTS(Mandatory) SET BTSAUTODLDACTINFO(Optional) BLK ACIC(Mandatory) ADD AE1T1(Mandatory) STR BTSLOG(Optional) ADD IPMUX(Optional) ADD BTSABISMUXFLOW(Optional) ADD SUBTSK(Mandatory) ADD SUBCMD(Mandatory)

SET SUBNET(Mandatory) SET GCELLSOFT(Optional) SET BTSFLEXABISPARA(Optional) SET BTSOMLTS(Mandatory) SET BTSAUTODLDACTINFO(Mandatory) SET OTHSOFTPARA(Optional) SET CLK(Optional) SET CLK(Optional) SET GCELLSBC(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLGPRS(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLGPRS(Optional) SET BSSLS(Optional) SET BSCBASIC(Optional) ADD GNRNC(Optional) SET GCELLPRACH(Optional) ADD NSE(Mandatory) ADD NSE(Mandatory) SET ALMPORT(Optional) SET ASWPARA(Mandatory) SET OBJAUTHSW(Mandatory) SET BTSENVALMPORT(Mandatory) OPR BTSBRDPWR(Mandatory) SET TZ(Mandatory) SET SCUPORT(Mandatory) SET SLFSLVSW(Mandatory) SET LICENSECTRL(Mandatory) SET BFDPROTOSW(Mandatory) SET BTSALMPORT(Mandatory) SET BTSETHPORT(Optional) ADD SCTPLNK(Optional) ADD SCTPLNK(Optional) SET SS7PATCHSWITCH(Optional)

SET SS7PATCHSWITCH(Optional) SET SS7PATCHSWITCH(Optional) SET SS7PATCHSWITCH(Optional) SET SS7PATCHSWITCH(Optional) SET SS7PATCHSWITCH(Optional) SET SS7PATCHSWITCH(Optional) SET SS7PATCHSWITCH(Optional) SET SS7PATCHSWITCH(Optional) SET SS7PATCHSWITCH(Optional) ADD BTSSFPMODE(Optional) SET OPSW(Mandatory) SET TZ(Mandatory) SET BTSAISS(Optional) ADD GEXT3GCELL(Mandatory) SET BTSOTHPARA(Optional) SET BTSIPCLKPARA(Mandatory) SET BTSIPCLKPARA(Optional) SET BTSIPCLKPARA(Optional) SET BTSIPCLKPARA(Optional) SET SYS(Optional) SET SYS(Optional) SET GCELLHOAD(Optional) SET SYS(Optional) SET BSCBASIC(Optional) SET SYS(Optional) SET SYS(Optional) SET BSSGPPARA(Optional) CHG BTSPTUSHKTM(Optional) SET MTP3TMR(Optional) SET MTP3TMR(Optional) SET MTP3TMR(Optional) SET MTP3TMR(Optional) SET MTP3TMR(Optional) SET MTP3TMR(Optional)

SET BSSGPPARA(Optional) CHG BTSPTUSHKTM(Optional) SET BTSRINGATTR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET GCELLCCTMR(Optional) SET BTSRINGATTR(Optional) SET MTP3TMR(Optional) SET MTP3TMR(Optional) SET MTP3TMR(Optional) SET BSSGPPARA(Optional) CHG BTSPTUSHKTM(Optional) SET GCELLHOAD(Optional) SET GCELLGSMR(Optional) SET GCELLPSBASE(Optional) SET GCELLPSBASE(Optional) SET GCELLIDLEBASIC(Optional) ADD BC(Optional) SET MTP3TMR(Optional) SET BSSGPPARA(Optional) SET MTP3TMR(Optional) SET BSSGPPARA(Optional) SET MTP3TMR(Optional) SET BSSGPPARA(Optional) SET BSSGPPARA(Optional) SET MTP3TMR(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOIUO(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOIUO(Optional)

ADD G2GNCELL(Optional) SET ADD GCELLHOEMG(Optional) AISSCFG(Mandatory) ADD NCELL(Mandatory) SET GCELLGSMR(Optional) COL SYNCINFO(Mandatory) SET SET BTSEXCURSION(Mandatory) GCELLHOFITPEN(Optional) SET BSCSYNCOFF(Mandatory) COL BSCSYNCINFO(Mandatory) ADD G2GNCELL(Optional) SET GCELLHOIUO(Optional) SET GCELLPSPWPARA(Optional) SET GCELLPSPWPARA(Optional) EXP DEVFILE(Optional) EXP BTSDEVFILE(Optional) SET BTSOMLBACKUP(Optional) SET BTSRINGATTR(Optional) ADD MTP3LNK(Optional) SET BSSGPPARA(Optional) SET BTSAPMUBP(Optional) SET BSCBASIC(Optional) SET GTRXDEV(Optional) SET GCELLCHMGAD(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLHOCTRL(Optional) SET GCELLPWR3(Optional) SET OTHSOFTPARA(Optional) SET GCELLSOFT(Optional) SET GCELLSOFT(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) ADD MTP3LNK(Optional) ADD MTP3LNK(Mandatory)

SET GCELLSOFT(Optional) ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) ADD ATERCONPATH(Mandatory) SET BSCBASIC(Mandatory) ADD ATERCONPATH(Mandatory) ADD ATERCONPATH(Mandatory) SET TCTYPE(Mandatory) SET GCELLIDLETDDBA1(Mandatory) SET GCELLHOTDDBA2(Mandatory) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLIDLETDDBA1(Mandatory) SET GCELLIDLETDDBA1(Mandatory) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) ADD GEXT3GCELL(Optional) SET GCELLIDLETDDBA1(Mandatory) SET GCELLHOTDDBA2(Mandatory) SET GCELLCCUTRANSYS(Optional) SET GCELLIDLETDDBA1(Mandatory) SET GCELLHOTDDBA2(Mandatory) ADD TRMLOADTH(Optional) ADD TRMLOADTH(Optional) ADD SRCONPATH(Mandatory) ADD SRCONPATH(Mandatory) ADD PBSL(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSDPMUBP(Optional)

SAV GCELLTEMPLATE(Optional) ADD GCELL(Optional) EXP GCELLTEMPLATE(Mandatory) ADD BTSAUTOPLAN(Optional) EXP SAV GCELLTEMPLATE(Mandatory) GCELLTEMPLATE(Optional) SAV GCELLTEMPLATE(Mandatory) ADD GCELLQUICKSETUP(Optional) SET BTSAPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET OTHSOFTPARA(Optional) SET BSCNSPARA(Optional) ADD GSMSCB(Mandatory) SET TCPARA(Optional) STR BTSVSWRTST(Optional) SET GCELLOTHEXT(Optional) SWP OMUAREA(Mandatory) ADD TGWIP(Mandatory) ADD TGWIP(Mandatory) ADD TGWIP(Mandatory) ADD TGWIP(Mandatory) ADD TGWIP(Mandatory) SET BSSGPPARA(Optional) SET BTSAIRCON(Optional) SET BTSAIRCON(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) ADD TRMLOADTH(Mandatory) SET BSCTMR(Optional) SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOAD(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOAD(Optional) SET GCELLCHMGBASIC(Optional) SET GCELLCHMGAD(Optional) ADD GCNOPERATOR(Optional) ADD OP(Optional) SET TIME(Optional) SET GCELLFREQSCAN(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOIUO(Optional) PING IP(Optional) TRC IPADDR(Optional) PING MAC(Optional) PING BTSCFM(Optional) TRC MAC(Optional) TRC BTSCFM(Optional) ADD BTSABISMUXFLOW(Optional) ADD GEXT2GCELL(Optional) SET GCELLHOFAST(Optional) PING IP(Optional) SET GCELLBASICPARA(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOIUO(Optional) SET GCELLTMR(Optional) ADD GCNOPERATOR(Optional) SET SET MSTOCELL(Mandatory) LOGLIMIT(Optional) TST SNDRSI(Mandatory) TST UPDMSRAC(Mandatory) SET BTSDHEUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDHEUBP(Optional) ADD SUBTSK(Mandatory) ADD SUBTSK(Mandatory) ADD SUBTSK(Optional)

ADD SUBTSK(Optional) ADD SUBTSK(Optional) ADD SUBTSK(Optional) ADD TRMMAP(Mandatory) ADD ADJMAP(Mandatory) STR FRPORTLOOP(Mandatory) STR BTSVSWRTST(Optional) SET GCELLSOFT(Optional) CHK INNSPCH(Mandatory) SET ALMBLKPARA(Optional) STR CALLRESLOP(Mandatory) ADD GCSCHRUSER(Mandatory) SET ALMBLKPARA(Optional) SET MTP3TMR(Optional) SET MTP3TMR(Optional) CMP TBLDATA(Optional) ADD ATERSL(Optional) ADD ATERCONSL(Optional) ADD PBE1T1(Optional) SET TZ(Mandatory) SET GCELLIDLEAD(Optional) ADD BTSTOPCONFIG(Optional) ADD BTSTOPCONFIG(Mandatory) ADD BTSTOPCONFIG(Optional) COL FAMLOG(Mandatory) ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) SET GCELLTMR(Optional) SET FCCPUTHD(Optional) SET FCMSGQTHD(Optional) SET FCCPUTHD(Optional) SET FCMSGQTHD(Optional) SET FCSW(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) ADD M3LKS(Optional) SET BTSTRANS(Mandatory) ADD ABISLOADSHARE(Mandatory)

ADD IPPATH(Optional) ADD TRMMAP(Optional) ADD TRMLOADTH(Mandatory) SET BSCABISPRIMAP(Mandatory) SET BTSBWPARA(Mandatory) SET BTSDOMUBP(Optional) SET BTSDOMUBP(Optional) SET BTSDOMUBP(Optional) SET BTSDOMUBP(Optional) SET BTSCLKPARA(Mandatory) SET GCELLRESELECTPARA(Optional) SET GCELLHOAD(Optional) ADD ETHTRKLNK(Mandatory) ADD ADD ETHTRK(Mandatory) ETHTRKLNK(Mandatory) ADD ETHTRKLNK(Mandatory) ADD ETHTRKIP(Mandatory) SET BSCABISPRIMAP(Mandatory) ADD IPPATH(Optional) ADD RSCGRP(Optional) ADD TRMLOADTH(Mandatory) ADD PPPLNK(Optional) ADD MPGRP(Optional) ADD IPLOGICPORT(Optional) SET FHO(Mandatory) SET GTRXCHANHOP(Mandatory) BSCABISPRIMAP(Mandatory) SET SET GTRXHOP(Mandatory) SET BSCABISPRIMAP(Optional) SET GTRXBASE(Mandatory) SET ADD GTRXCHAN(Mandatory) IPLOGICPORT(Optional) SET GTRXFC(Mandatory) SET STR GTRXIUO(Mandatory) IPCHK(Optional) SET GTRXADMSTAT(Mandatory) ADD GTRXCHANADMSTAT(Mandatory) ETHMEP(Mandatory) SET ADD GTRX(Mandatory) SET ADD GCELLCCACCESS(Optional) TRXBIND2PHYBRD(Mandatory) SET GTRXRLALM(Mandatory) STR BTSTST(Mandatory) SET GTRXDEV(Mandatory) ADD GTRXBIND2HDLCPATH(Mandatory) SET GTRXCHANHOP(Optional) STR BTSTST(Mandatory) STR TRXBURSTTST(Mandatory) ADD BTSBINDLOCGRP(Mandatory) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) ADD GCELLHOPANTGRP(Optional) SET GCELLHOPQUICKSETUP(Optional) SET GCELLHOPANTQUICKSETUP(Optional) STR TRXPERFTST(Mandatory) SET GTRXCHANHOP(Optional) ADD GTRX(Optional) ADD BTSBRDCAP(Mandatory) ADD BTSRXUBRD(Optional) ADD TRXBIND2PHYBRD(Mandatory) ADD BTSBINDLOCGRP(Mandatory) SET GCELLCHMGAD(Optional) ADD TRXBIND2PHYBRD(Mandatory) BLK ATERE1T1(Mandatory) BLK AE1T1(Mandatory) LOP E1T1(Mandatory) STR E1T1TST(Optional)

ADD BC(Mandatory) SET BTSOMLTS(Mandatory) ADD PPPLNK(Mandatory) ADD BTSPPPLNK(Mandatory) ADD ADD BTSMPLNK(Mandatory) MPLNK(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPLNK(Mandatory) ADD GCELLMAGRP(Optional) SET BTSIDLETS(Mandatory) SET GCELLSOFT(Optional) ADD TSCROSS(Optional) ADD SCHTSK(Mandatory) STR TRANSPERFTST(Mandatory) SET SCHTSKSW(Optional) ADD ADD SUBTSK(Optional) BTSMONITORTS(Optional) ADD SUBCMD(Optional) STR SCHTSK(Optional) ADD ATEROML(Mandatory) ADD BTSABISHDLCPATH(Mandatory) ADD BTSTOPCONFIG(Mandatory) ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) ADD PBSL(Mandatory) SET GTRXCHAN(Optional) SET GTRXDEV(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) ADD BTSMONITORTS(Mandatory) ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) STR BTSTST(Mandatory) STR TRANSPERFTST(Mandatory) STR BTSBATTTST(Mandatory) STR BTSRFTST(Mandatory) SET BSCDSTPA(Optional) ADD BTSRXUCHAIN(Mandatory) PING IP(Optional) TRC MAC(Optional) TRC BTSCFM(Optional) SET GCELLDYNTURNOFF(Optional) SET GCELLDYNTURNOFF(Optional) SET GCELLDYNTURNOFF(Optional) SET GCELLDYNTURNOFF(Mandatory)

SET GCELLDYNTURNOFF(Optional) SET BTSAPMUBP(Optional) SET BTSDHEUBP(Optional) ADD AISSCFG(Optional) ADD AISSCFG(Optional) ADD AISSCFG(Optional) ADD AISSCFG(Optional) ADD AISSCFG(Optional) ADD AISSCFG(Optional) ADD AISSCFG(Optional) SET GCELLIDLEBASIC(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) ADD IPPATH(Mandatory) ADD RSCGRP(Mandatory) PING IP(Optional) SET GCELLPRACH(Optional) ADD SUBRACK(Mandatory) RUN BATCHFILE(Mandatory) ADD GCELL(Mandatory) SET BSCPCUTYPE(Mandatory) ADD BTSAUTOPLAN(Mandatory) ADD BTSCABINET(Optional) ADD GCELLQUICKSETUP(Mandatory) SET BTSANTFEEDERCONNECT(Optional) SET BTSANTFEEDERCONNECT(Optional) SET BTSANTFEEDERCONNECT(Optional) SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional) SET BTSANTFEEDERCONNECT(Optional) SET BTSANTFEEDERCONNECT(Optional) SET BTSANTFEEDERCONNECT(Optional) SET BTSANTFEEDERCONNECT(Optional) SET BTSANTFEEDERCONNECT(Optional) SET BTSANTFEEDERCONNECT(Optional) SET BTSANTFEEDERCONNECT(Optional) SET CSABISCONGCTRL(Optional) SET CSABISCONGCTRL(Optional) SET CSABISCONGCTRL(Optional) SET CSABISCONGCTRL(Optional) SET CSABISCONGCTRL(Optional) SET CSABISCONGCTRL(Optional) SET CSABISCONGCTRL(Optional) SET CSABISCONGCTRL(Optional) SET CSABISCONGCTRL(Optional) SET CSABISCONGCTRL(Optional) SET CSABISCONGCTRL(Optional) SET MSGSOFTPARA(Optional) SET OTHSOFTPARA(Optional) SET PSPREFABISCONGCTRL(Optional) SET PSPREFABISCONGCTRL(Optional) SET PSPREFABISCONGCTRL(Optional) SET PSPREFABISCONGCTRL(Optional) SET PSPREFABISCONGCTRL(Optional) SET PSPREFABISCONGCTRL(Optional) SET PSPREFABISCONGCTRL(Optional) SET PSPREFABISCONGCTRL(Optional) SET PSPREFABISCONGCTRL(Optional) SET PSPREFABISCONGCTRL(Optional) SET PSPREFABISCONGCTRL(Optional) SET AITFOTHPARA(Optional) ADD IPMUX(Mandatory)

ADD IPMUX(Mandatory) ADD NSVLLOCAL(Mandatory) ADD NSVLREMOTE(Mandatory) ADD OP(Optional) SET BTSEXD(Optional) SET GCELLGSMR(Optional) STR E1T1TST(Optional) SET ALMPORT(Optional) SET BTSENVALMPORT(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLTMR(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLHOBASIC(Optional) SET BSCPSSOFTPARA(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLPWR2(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLPWR2(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLHOEMG(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional) SET GCELLHOIUO(Optional) SET BSCPSSOFTPARA(Optional) SET GCELLSOFT(Optional) SET GCELLHOFITPEN(Optional) SET BSCBASIC(Optional) SET E1T1(Optional) SET BSCNSPARA(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) SET BTSRXUBP(Optional) ADD BTSAUTOPLAN(Mandatory) ADD BTSCONNECT(Mandatory) ADD BTSAUTOPLAN(Mandatory) ADD BTSCONNECT(Mandatory) ADD BTSAUTOPLAN(Mandatory) ADD BTSCONNECT(Mandatory) ADD GSMSCB(Mandatory) SET GCELLPSCS(Optional) SET GCELLEGPRSPARA(Optional) SET GCELLPSCHM(Optional) SET GCELLEGPRSPARA(Optional) SET GCELLEGPRSPARA(Optional) SET GCELLPRIVATEOPTPARA(Optional) SET GCELLPSCS(Optional) SET GCELLEGPRSPARA(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET BTSFALLBACK(Optional) SET BTSLAPDWS(Optional) SET GCELLBASICPARA(Optional)

ADD RSCGRP(Mandatory) ADD IPLOGICPORT(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCCAD(Optional) SET GCELLPRIVATEOPTPARA(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) CHK INNSPCH(Mandatory) SET GCELLNC2PARA(Optional) STR CALLRESLOP(Mandatory) ADD GCSCHRUSER(Mandatory) DLD RETANTCFG(Mandatory) SET BSCPSSOFTPARA(Optional) ULD DLD BTSDEVFILE(Mandatory) LICENSE(Mandatory) DLD ULD BTSPATCH(Mandatory) LICENSE(Mandatory) ULD BTSLOG(Mandatory) DLD BTSSW(Mandatory) SET BTSDOMUBP(Mandatory) SET BTSDOMUBP(Mandatory) SET BTSEXD(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) ADD GEXT3GCELL(Mandatory) ADD BTSRETANT(Mandatory) SET GCELLGSMR(Optional) SET GCELLGSMR(Optional) SET GCELLGSMR(Optional) SET BSCFCPARA(Optional) ADD GCELL(Optional)

SET BSCFCPARA(Optional) SET BSCFCPARA(Optional) ADD IPPATH(Optional) SET BSCABISPRIMAP(Optional) ADD SCTPLNK(Optional) ADD SCTPLNK(Optional) ADD IPPATH(Mandatory) ADD VLANID(Mandatory) ADD ETHMA(Mandatory) SET BTSVLAN(Optional) IMP BTSVLAN(Optional) ADD BTSETHMA(Mandatory) ADD SCTPLNK(Mandatory) ADD SCTPLNK(Mandatory) SET DSCPMAP(Optional) SET BTSVLAN(Optional) IMP BTSVLAN(Optional) SET BTSVLAN(Optional) IMP BTSVLAN(Optional) SET GCELLCCACCESS(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) ADD EMU(Optional) SET BTSDFCUBP(Optional) SET GCELLOTHEXT(Optional) SET BTSDFCUBP(Optional) SET BTSDDPUBP(Optional) SET BTSDFCUBP(Optional) SET BTSDDPUBP(Optional) SET BTSDFCUBP(Optional) SET BTSDDPUBP(Optional) SET GCELLOTHEXT(Optional) SET BTSAUTODLDACTINFO(Mandatory) SET GCELLTMR(Optional) SET GCELLTMR(Optional) SET GCELLTMR(Optional) ADD GEXTSMLC(Optional) SET GCELLTMR(Optional)

SET GCELLCHMGAD(Optional) ADD GEXTSMLC(Optional) SET BTSOUTPUT(Optional) ADD EMU(Optional) ADD OP(Optional) SET GCELLLCS(Optional) SET BTSOUTPUT(Optional) STR IPCHK(Optional) SET OTHSOFTPARA(Optional) ADD OP(Mandatory) ADD M3LKS(Optional) SET GTRXRLALM(Optional) SET GTRXRLALM(Optional) SET GTRXRLALM(Optional) SET GTRXRLALM(Optional) SET GTRXRLALM(Mandatory) FMT DATA(Optional) SET BTSRXUBP(Optional) ADD SUBRACK(Mandatory) SET E1T1(Optional) ADD BTS(Optional) ADD ATERSL(Optional) ADD ATERCONSL(Optional) SET BTSOMLBACKUP(Optional) SET BTSRINGATTR(Optional) SET MSP(Optional) SET TZ(Optional)

Downlink quality level threshold for the MS to be assigned with a channel of the better cell. Uplink quality level threshold for the MS to be assigned with a channel of the better cell.

The maximum duration for the BSC to select the best cell according to MRs in the MS assigning procedure. The BSC assig

Whether to enable the BTS to support bypass function. HDLC BTS and IP BTS do not support this parameter. Whether to permit Abis flow control. The flow control function helps in better call management. If congestion occurs, the system lightens its load by rejecting so Used along with "Abis Flow Control Timer 2" to control the change in cell flow control levels.When the flow control level in t When immediate assignment fails, the BSC6900 starts T1 and T2. Used along with "Abis Flow Control Timer 1" to control the change in cell flow control levels.When the flow control level in t When immediate assignment fails, the BSC6900 starts T1 and T2. This parameter controls the strategy for idle timeslot selection and optimization by the PS channels. This parameter controls whether the strategy for timeslot configuration and optimization is started. When this parameter is in the transport pool of a site.

This parameter specifies to enable the Abis adjustment function. Threshold for enabling thewhether BTS local switching. Whenresource the congestion rate TCHH at the Abis interface exceeds this threshold, the It specifies whether the TCHH is preferentially allocated to the MS by the BSC6900, when Abis resources are insufficient. Interval between detection the Abis being in idle state Load and releasing theAbis AbisPrior timeslot. When channels are idlw If the Abis resource load is of greater thantimeslot "Flex Abis Prior Choose Thred" orof"Fix Choose Abis Load Thred" the channels are idle. Before the timer expires, if new service request is received and the Abis timeslot is occupied, then th When "Number of Dynamic Channel Pre-Converted" is greater than 0, the Abis timeslots are not released after the static P Phase tag for GSM protocols that the Abis interface supports

Mean opinion scorefor(threshold) judging BTS computes the MOS of a call periodically and reports Duration available the BTS toforcollect thean ABabnormal after the call. TRXThe or channel is activated. abnormal and records the abnormity in the call history record (CHR). To prevent the impact of a decimal fraction, set this parameter to the product of 50 and the actual MOS. Access pulse type of the PRACH, uplink PTCCH and packet control acknowledge message of the MS. 8bit: 8 bit pulse access mode; 11bit: 11 bit pulse access mode. Access control class of the MS When the cell supports Repeated This parameter specifies whether the access control function is enabled in a cell. When Control Policy. This parameter specifies the index of the access control policy that is used in a cell.

Subcell preferred during the incoming inter-BSC handover to the concentric cell. In the case of incoming inter-BSC handov This parameter specifies the index of an access control (ACC) policy. It is used to identify an ACC policy. Whether the initial service is uplink, downlink or neutral This parameter is used to specify the starting point of the ACC sliding window in an access control policy.

This parameter is used to specify the ACC sliding window size in an access control policy. MSs of the ACC access classes This parameter is used to specify the sliding speed of the ACC sliding window in an access control policy.

Whether to compress the address and control fields. If this parameter is set to ENABLE, the address and control area com

A flag bit indicates Whether to support the compression of the address and control fields. Used for notifying MSs where to retrieve relevant parameters duringfrom cell reselection. This parameter specifies whether to receive the CS paging request A interface when the MS uses a PS service. This The default value of this parameter is 0 in system message 3 and, has no special significance. to the PS domain . In system message 4, if the value of this parameter is 0, it means that the MSs must retrieve the PI parameters and other p from the remaining bytes of system message 7 or 8.

Active coding set (ACS)[F], indicates a set of full-rate coding rates currently available for calls. The AMR is a set of multiple

Active coding set (ACS)[H], indicates set of half-rate coding rates currently available for calls. The AMR is a set of multiple

Active coding set (ACS)[WB], indicates a set of wide-band coding rates currently available for calls. The AMR is a set of m

Whether to activate the function of L2 re-establishment. If this function is activated, the BSC starts the attempt of L2 re-est

Valid duration of the reserved TRX or timeslot AC voltage alarm lower threshold. When the input AC voltage is lower than the value of this parameter, an alarm indicating In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para The BTS reports an alarm if the AC voltage exceeds the value of this parameter.

The BTS reports an alarm if the AC voltage is lower than the value of this parameter. The BTS reports an alarm if the AC voltage exceeds the value of the AC voltage alarm upper threshold. When the input AC In multi-mode scenario, the value of this parameter must be the same as the value of the parameter in other modes. Whether to hand over an MS to another channel during an intra-cell handover through the assignment process

Communication address of the CBUS3 on the bus 485. The configuration of this parameter must be consistent with the ac Whether to requesting enable each RRU external port's customer switch. Interval for theAC bandwidth for thealarm secondary link when definition the system is not in congestion state "0" indicates that the external alarm port's customer definition switch is disabled and this port is not definedeach by customor but secondary by vendor, link andwhen "1" indicates that isthe Bandwidth requested time for the the system notexternal in congestion state alarm port's customer definition switch is enabled. It does not take effect to DC RRU, whose external alarm ports are always defined by customer.

The destination signaling point (DSP) of the adjacent BSC must be an Iur-g DSP. Mode of dynamically adjusting the EGPRS uplink encoding scheme. Value 0 indicates of EGPRS uplink coding scheme is not supported; Whether to adjust dynamic the BTS adjustment offset manually or automatically value 1 indicates that the uplink coding scheme is adjusted according to downlink quality measurements reported by MS; value 2 indicates that the uplink coding scheme is adjusted according to uplink quality measurements reported by BTS. This parameter specifies whether to enable automatic auto-loading and auto-activation of the BTS software. If this parame or BSC starts checking res. If this parameter is set to Yes, the BTS software fails to be forcibly loaded and activated. If this This parameter specifies the automatic load mode of the BTS software. If this parameter is set to common download, comm besides the OML/EML. This may affect the services in the cell. If this parameter is set to quick download(reserve BCCH Tr Administrative state of a cell Administrative state of the TRX Administrative state of the channel End time for adjusting the offset time Cell load threshold for adjusting the offset time. If the load threshold is exceeded, the offset time is not adjusted. Offset Time Adjustment Switch

This specifies the software Start parameter time for adjusting the offset time version 1 that is automatically loaded and activated. The version of the BTS software BTS3000V100R008C11SPC003. This parameter version 2 that is automatically loaded and activated. stored on the This parameter can be setthe to software only BTS software version or a cold patch version. You can The use BTS eithersoftware of the following meth Advanced alarmspecifies management ruleatype BTS3000V100R008C11SPC003. Method 1: If the BTS software or the cold patch is downloaded to the OMU through the MML command DLD BTSSW, you This parameter set to only a BTS version or adownloaded cold patch version. You can of the following Method 2: If the can BTSbe software version or software the cold patch is not to the OMU, youuse caneither decompress the BTS meth softw Method 1: If the BTS software or the cold patch is downloaded to the OMU through the MML command DLD BTSSW, you Method 2: If the BTS software version or the cold patch is not downloaded to the OMU, you can decompress the BTS softw

If the echo path is traced, the echo is judged and controlled according to the trace result of the echo path parameters. Othe This parameter is used for echo judgment and control when the echo parameters are not traced.

If the local input voltage is lower than the value of this parameter and the remote end transmits the voice signal, the AEC f

Extra delay due to the transmission line. This parameter should be set according to the actual conditions and is applicable

This parameter is used to determine whether there are speech signals at the local end. If the local SNR is lower than the v This parameter indicates whether the acoustic echo cancellation (AEC) functional switch is on or off. Threshold for detecting the AEC performance Time for detecting the AEC performance

Counter for radio link failures during an AMR full rate call. See the description of "Radio Link Timeout" in "SET GCELLCCB

Number of SACCH multiframes during an AMR full rate call. See the description of "SACCH Multi-Frames" in "SET GCELL GPS receiver ID GPS receiver type.

Counter for radio link failures during an AMR half rate call. See the description of "Radio Link Timeout" in "SET GCELLCC

Number of SACCH multiframes during an AMR half rate call. See the description of "SACCH Multi-Frames" in "SET GCEL Alarm ID Alarm ID Identifier of the alarm. This parameter uniquely identifies an alarm. Identifier of the alarm. This parameter uniquely identifies an alarm. Identifier of the alarm. This parameter uniquely identifies an alarm. Alarm ID Alarm ID Delay time for mutual-aid detection on a cell after the cell is initialized. When the cell initialization has just finished, the cell Type of alarm selection Alarm selection mode

Whether to trace A-interface messages during end-to-end user tracing. The end-to-end tracing is conducted throughout the Whether to allow flow control for the location update services during the A interface flow control whether to allow flow control for the mobile-originated services during the A interface flow control Whether to allow flow control for the mobile-terminated services during the A interface flow control Whether to allow flow control for the other services including emergency call, call re-establish, and LMU services during th

Whether to enable the A interface flow control mechanism in the BSC6900 Flow control method used by the BSC6900. Flow control method at the Abis interface: When receiving a channel request m begins flow control according to the flow control level of the A interface and releases part of the call. Rate of discarded services in level 1 of the A interface flow control Rate of discarded services in level 2 of the A interface flow control Rate of discarded services in level 3 of the A interface flow control Rate of discarded services in level 4 of the A interface flow control Rate of discarded services in level 5 of the A interface flow control Rate of discarded services in level 6 of the A interface flow control

CSD(Circuit Switched Data) service redundancy level, which is configured to decrease the data loss rate during transmissi Fixed gain value in fixed gain mode Target level in fixed level mode

This parameter restrains the maximum gain to the input signal. It is valid only when "ALC Mode" is "FIXEDLEVEL" or "ADA Maximum target level in adaptive ALC mode Mimumum target level in adaptive ALC mode

ALC level control mode Whether to enable the adaptive level control (ALC) function

Retry times after the timer for the reply from the peer expires during the NSVC live test. If the reply is not received after th Duration of the timer to wait for the reply from the peer during the NSVC live test

Specifies the bandwidth occupied when the " transmission resource group type " is IP and the " bandwidth mode " is HALF Whether to reassign the TBF for a different Trx

Maximum of the is number AMR rate channels the total channels in a cell. When the resource alloca When this ratio parameter set to of ON, the half GMM/SM signalingtoservice is number assignedofonly one PDCH; otherwise, the GMM/SM sig equal to the value of this parameter. When the resource allocation principle is not determined by the BSC, radio resource a Total number of channels = number of half rate channels + number of full rate channels x 2

Whether to allow EDA multiplex. "Not Allow": the TBF of the EDA cannot be multiplexed with other TBR; "Allow": the TBF o

Maximum of the numberreport of halfmissed. rate channels to the total number of channels inmissed a cell. When thethis resource Number ofratio allowed measure If the number of allowed measure report exceeds value,allocation the previop value of this parameter. When the resource allocation principle is not determined by the BSC, radio resource allocation doe Total number of channels = number of half rate channels + number of full rate channels x 2

Value ALLCIC indicates that all E1/T1 timeslots on the A interface must be set with the start CIC. Value ALLNULL indicate

Value ALLCIC indicates that all E1/T1 timeslots on the PB interface must be set with the start CIC. Value ALLNULL indicat

If the feed current of the TMA on tributary 0 is smaller than the value of this parameter, the TMA Low Temperature alarm is

If the feed current of the TMA on tributary 1 is smaller than the value of this parameter, the TMA Low Temperature alarm is

If the feed current of the TMA on tributary 2 is smaller than the value of this parameter, the TMA Low Temperature alarm is

If the feed current of the TMA on tributary 3 is smaller than the value of this parameter, the TMA Low Temperature alarm is

If the feed current of the TMA on tributary 4 is smaller than the value of this parameter, the TMA Low Temperature alarm is

If the feed current of the TMA on tributary 5 is smaller than the value of this parameter, the TMA Low Temperature alarm is

Accumulated alarm clearance failure duration.Threshold for the accumulated duration in which the alarm persists. If the ac Whether the configuration of alarm parameters is allowed. In multi-mode scenario, the value of this parameter must be the same as the value of the parameter in other modes. ID of the intermittent alarm. Alarm ID If the input current of the antenna feeder is smaller than the value of this parameter, an alarm related to the GPS antenna

If the input current of the antenna feeder is greater than the value of this parameter and "GPS or RGPS" is set to "GPS", a

If the input current of the antenna feeder is greater than the value of this parameter and "GPS or RGPS" is set to "RGPS",

Accumulated alarm occurrence duration.Threshold for the accumulated duration in which the alarm persists. If the accumu Alarm Occur Accumulative Time refers to the percentage of the alarm occurrence accumulative time to "Flash Statis Alarm that Alarm Occur Accumulative Time = "Flash Statis Alarm Raise Time Window" x 60%. If the parameter value is 0, no stat Alarm Clear Accumulative Time refers to the percentage of the alarm clearance accumulative time to "Flash Statis Alarm C Clear Accumulative Time = "Flash Statis Alarm Clear Time Window" x 30%. If the parameter value is 0, no statistics is colle

If the number of alarm flashes exceeds the value of this parameter within the time specified by "Flash Statis Alarm Raise T

If the number of alarm flashes is smaller than the value of this parameter within the time specified by "Flash Statis Alarm C

Whether the configuration of alarm parameters is allowed. The value "YES" indicates that the configuration is allowed, and Type of the alarm. The alarm can be a fault alarm or an event alarm.

It is used to perform open loop power control. Alpha parameter is used by the MS to calculate the output power PCH of the

Decimal part of the antenna altitude Height of the specified GSP receiver antenna Integer part of the antenna altitude Height of the specified GSP receiver antenna Alarm severity. One or more severities can be selected. By default, all severities are selected. Alarm severity. One or more severities can be selected. By default, all severities are selected. Whether to supply power to the TMA on tributary 0 Whether to supply power to the TMA on tributary 1 Whether to supply power to the TMA on tributary 2 Whether to supply power to the TMA on tributary 3 Whether to supply power to the TMA on tributary 4 Whether to supply power to the TMA on tributary 5 Maximum degree by which the BSC can control the power of the AMR BTS dynamically

Whether to enable the III power control algorithm for AMR calls. If enabled, power control is performed on AMR calls. Whether to enable the adaptive adjustment function of AMR downlink threshold. After this function is enabled, the BTS est the target voice quality, it indicates that the current AMR handover threshold may not be the best for the current radio cond Number of downlink AMR measurement reports that the BSC predicts. The BSC takes a while to confirm the power contro real-time radio environment. As asampled result, the control is late. AMR signal strength. A single measurement report may Number of measurement reports forpower averaging downlink To prevent late power control to a certain degree, the power control algorithm involves a measurement report prediction filt This parameter specifies the number N. Quality level threshold for decreasing downlink AMR signal power. If the BTS transmits AMR signals at a quality level less does not adjust the transmit power. Quality level threshold for increasing downlink AMR signal power. If the BTS transmits AMR signals at a quality level great does not adjust the transmit power.

Number of measurement reports sampled for averaging downlink AMR signal quality. A single measurement report may no

During downlink power control, if the downlink receive quality level is equal to or greater than this threshold, "AMR DL RX_ Upper threshold for downlink AMR signal strength. If the downlink AMR signal is greater than this threshold, a power is computed. Then,Bad the Trig power is During downlinkreceived power control, if thelevel downlink receive quality level is equal to or decrease greater than "AMR DL Qual Thre Power decrease = downlink received signal level - ("AMR DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Thres Lower threshold for downlink AMRstep signal strength. The maximum power adjustment allowed by the quality zone is chosen from "AMR MAX Down Adj. Value Qual. Zone If the downlink received AMR signal level is less than this threshold, a power increase is computed. Then, the power is inc Power increase = ("AMR DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold")/2 - downlink received sign

Whether to enable the algorithm for the load-based AMR handover between full rate and half rate With "F-H Ho Period" and the duration for triggering handover from full rate to half rate, this parameter determines the curr ATCB offset = (duration for triggering handover from full rate to half rate/"F-H Ho Period" + 1) x "AMR F-H Ho ATCB Adjus

ATCB threshold for the AMR handover from full rate to half rate. If the ATCB of an AMR full rate call is equal to or greater t With "F-H Ho Period" and the duration for triggering handover from full rate to half rate, this parameter determines the curr Path loss offset = (duration for triggering handover from full rate to half rate/"F-H Ho Period" + 1) x "AMR F-H Ho Pathloss

Path loss threshold for the AMR handover from full rate to half rate. If the path loss of an AMR full rate call is equal to or le

Quality threshold for the AMR handover from full rate to half rate. If the uplink and downlink receive quality levels of an AM

Load threshold for the AMR handover from full rate to half rate. If the cell load is greater than this threshold, the AMR full ra

ATCB threshold for the AMR handover from half rate to full rate. If the ATCB of an AMR half rate call is less than this thres

Path loss threshold for the AMR handover from half rate to full rate. If the path loss of an AMR half rate call is greater than Whether to enable the algorithm for the uplink and downlink receive quality based AMR handover from half rate to full rate

Quality threshold for the AMR handover from half rate to full rate. If the receive quality level of an AMR half rate call is grea

Load threshold for the AMR handover from half rate to full rate. If the cell load is less than this threshold, the AMR half rate

Maximum step by which the power can be increased according to received signal quality Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 0. Huawei power control algorithm generation II classifies the received signal quality into three quality zones. The maximum s Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 1. Huawei power control algorithm generation II classifies the received signal quality into three quality zones. The maximum s Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 2. Whether to enable the algorithm compensation of AMR measurement reports in Huawei power algorithm generation II Huawei power control generation II classifies the received signal quality intocontrol three quality zones. The maximum s If this parameter is set to YES, Huawei power control algorithm generation II puts a currently received measurement report the algorithm received signal level in a history to measurement report after measurement report interpolatio Maximum stepcompensates by which thethe power can be increased according received signal level Before making a power control decision, the BSC samples and weights the received signal level and quality in several hist algorithm needs to compensate the received signal level and quality in the history measurement reports where the transmi Minimum interval between two consecutive AMR power control commands Maximum step by which the power can be decreased according to received signal quality

Number of levels by which the BTS increases the power of an SACCH frame. This parameter is used for SACCH power co Whether to enable the BSC to assign AMR half rate channels preferentially according to the channel types allowed by the

Load threshold for assigning half rate channels preferentially. If the current TCH seizure ratio of the cell is greater than this Whether to enable the adaptive adjustment function of AMR uplink threshold. After this function is enabled, the BTS estima target voice quality, it indicates that the current AMR handover threshold may not be the best for the current radio condition Number of uplink AMR measurement reports that the BSC predicts. The BSC takes a while to confirm the power control ef real-time radio environment. As asampled result, the control is late. Number of measurement reports forpower averaging uplink AMR signal strength. A single measurement report may not To prevent late power control to a certain degree, the power control algorithm involves a measurement report prediction filt This parameter specifies the number N. Quality level threshold for decreasing the power of an uplink AMR call. If the MS transmits AMR signals at a quality level le does not adjust the transmit power. Quality level threshold for increasing the power of an uplink AMR call. If the MS transmits AMR signals at a quality level gr does not adjust the transmit power.

Number of measurement reports sampled for averaging uplink AMR signal quality. A single measurement report may not r

During uplink power control, if the uplink receive quality level is equal to or greater than this threshold, "AMR UL RX_LEV U Upper threshold for uplink AMR signal strength If the uplink AMR signal is receive greater quality than this threshold, decrease computed. Then, is de During uplinkreceived power control, if thelevel uplink level is equalatopower or greater than is "AMR UL Qual. Badthe Trigpower Threshold Power decrease = uplink received signal level - ("AMR UL RX_LEV Upper Threshold" + "AMR UL RX_LEV Lower Thresho Lower threshold for uplink AMR signal strength.by the quality zone is chosen from "AMR MAX Down Adj. Value Qual. Zone The maximum power adjustment step allowed If the uplink received AMR signal level is less than this threshold, a power increase is computed. Then, the power is increa Power increase = ("AMR UL RX_LEV Upper Threshold" + "AMR UL RX_LEV Lower Threshold")/2 - uplink received signal Maximum number of retransmissions of the A-interface circuit reset message. When an A-interface circuit of the BSC is res the A-interface circuit reset message. This parameter specifies the maximum number of retransmissions of the A-interface Maximum number of times of resending a reset message at the A interface. When the BSC6900 is reset, the BSC6900 sen expires again and the times of resending the reset message are less than the value of this parameter, the BSC6900 contin

Maximum gain to the signals from the remote end. If the parameter is set to a small value, the target SNR may be restraine Whether to enable the adaptive noise cancel (ANC) function

The system adjusts the remote input so that the ratio of the remote signal to the local noise is above the value of this param Tilt angle of the RET antenna, it is accurate to one place of decimal, for example, the tilt can be 7.7 degree. Uniquely identifies an adjacent node Adjacent node identifier of this IP path New name of the alarm ANR mode

This parameter determines the noise depression degree. A large absolute value of this parameter corresponds to a strong

ANR target noise level Whether to enable the adaptive noise restrain (ANR) function Size of the azimuth angle of the cell antenna

Length of the feeder cable. The GPS satellite card is connected to the antenna through feeder cables. The transmission de Power supply switch of the GPS antenna feeder E1T1 anti-error switch. Whether to enable the BTS to clear the burglar alarm automatically Number of the antenna Number of the antenna feeder channel mapped to the RXU

Antenna pass No. of the RXU of a sub-location group. The parameter is configured only when the MRRU or GRRU is used Antenna pass number of the downlink tributary Number of a port on the A interface board Upper layer application type of the SCTP link. The upper layer application type of A and LB interface is M3UA. In the BSC Application type of the semi-permanent link

Update frequency of the value N (packet drop interval), indicating that the packet drop interval is updated after N packets a Upper length threshold of the TBF buffer queue. If the length of the TBF buffer queue exceeds this threshold, whether the

Congestion threshold of the TBF buffer queue. If the congestion level in the TBF buffer queue exceeds this threshold, whe Initial value of the interval (indicated by N) at which the packets in the TBF buffer queue are discarded. The value N indica certain period. The smaller the value N, the greater the number of discarded packets. Lower threshold of the interval for discarding the packets in the TBF buffer queue, that is, the minimum value of N (packet

Upper threshold of the interval for discarding the packets in the TBF buffer queue, that is, the maximum value of N (packet AQM switch Target threshold of the TBF buffer queue Local area code, for example, 021 for Shanghai Area flag Area flag

Release base the for subchannels. This indicates number of percentage times that aofsubchannel is activated. In a Thresholdstatistics for reporting recovery alarm for parameter the abnormal releasethe alarm. If the the abnormal channel relea If the percentage of the abnormal channel releases in the latest S channel releases exceeds the Abnormal Warn Threshol If the percentage of the abnormal channel releases in the latest S channel releases is equal to or less than the Abnormal R

Threshold for reporting the abnormal release alarm. In a timeslot, the release statistics base, B, multiplied by the number o

Retransmission times upon ARP timeout. When the ARP request times exceeds the retransmission time without a respons ARP packet timeout time Number of the slot where the A interface board is located Number of the slot where the A interface board is located Number of the subrack where the A interface board is located Network management type of the alarm. By default, all network management types are selected.

Network management type of the alarm. By default, all network management types are selected.

Switch for assigning the channel of a better cell to the MS during MS access. When this parameter is set to ENABLE, if the cell supports direct retry and the current cell load is equal to or larger than th current call applies for channels in its own cells. If the application fails, it continues with the direct retry procedure.

Offset relative to the level threshold for determining whether to assign a channel in the overlaid subcell Number of the cabinet where the associated RXU board is installed. This parameter is valid for DRRU, MRRU, GRRU, or B DTCU. Number of the cabinet where the associated RXU board is installed. This parameter is valid for DRRU, MRRU, GRRU, or B DTCU. Number of the slot where the associated RXU board is installed. Number of the slot where the associated RXU board is installed. Number of the subrack where the associated RXU board is installed.

Number of the subrack where the associated RXU board is installed. Absolute level threshold for automatic optimization of neighbor cells and frequencies. The measurement results in measure incremented by one.

Timer for BSC6900 waiting fordelivers a singlean A-interface circuit blockingthe or T3107 unblocking After the assignment command, timeranswer. starts. If the BSC6900 receives an assignment com The BSC6900 starts this T1 timer after sending a single A-interface circuit blocking or unblocking message. If the BSC690 MSC. If the timer expires for the second time, the BSC6900 reports an alarm for BSC circuit blocking or unblocking failure.

MSC reset protection timer, that is, interval between the time when the BSC6900 receives an MSC reset message and the

T17 timer. When receiving an MSC overload message or a single point congestion message for the first time, the BSC690

T18 timer. When receiving an MSC overload message or a single point congestion message for the first time, the BSC690 Timer for waiting for an A-interface circuit reset answer. The BSC6900 starts this timer after sending an A-interface circuit reset message. When this timer expires for the first time, Timer for waiting for an A-interface circuit group blocking or unblocking answer. After sending a CIC group blocking/unbloc blocking/unblocking message. If no response is received before the second expiry of T20, the system reports the BSC Una

Timer for waiting for an A-interface reset answer Whether to enable the ATCB handover algorithm for the concentric cell. According to the neighbor cell signal, the ATCB ha interference, to improve the conversation quality, and to achieve aggressive frequency reuse in the overlaid subcell. Distance the boundary of the subcell the boundary of the This parameter Hysteresisbetween in the distance between theoverlaid boundary of theand overlaid subcell and theunderlaid boundarysubcell. of the underlaid subcell.specifies This pa underlaid subcells are determined according to the relative value between the signal strength of the serving cell and sig is SS(s) and that the signal strength of the neighbor cell is SS(n). If SS(s) - SS(n) < "Distance Between Boudaries of the Subce underlaid subcell. If SS(s) - SS(n) > "Distance Between Boudaries of Subcells", the MS is in the coverage of the overlaid s In the tight BCCH handover algorithm, this parameter specifies the difference between the coverage of the TRX that carrie Whether to enable the BSC to use a 8 kbit/s timeslot to transmit 8 kbit/s data at the Ater interface Whether to enable the BSC to assign half rate channels preferentially when the Ater interface is congested Threshold for considering the Ater interface, if congested, the BSC determines whether to assign full or half rate channels Index of an Ater connection path

Threshold for enabling the BSC local switching. When the congestion rate at the Ater interface exceeds this threshold, the Ater interface timeslot mask

Whether to configure the Ater OML link used for the TC subrack for the port. If it is actually configured and you specify that Ater maintenance link index Ater connection path index,The index is set through the ADD ATERCONPATH command. Indentifies an Ater signaling channel Transport mode of the Ater interface. The Ater interface can be in TDM or in IP transport mode. Number of the RF port on the RF front-end board of the BTS. The number is unique in a board.

A interface timeslot mask

Attach-detach Allowed (ATT). If this parameter is set to YES, when an MS is powered off, the network does not process an TMA attenuation factor of antenna tributary 1 TMA attenuation factor of antenna tributary 2 It specifies the loopback duration. It specifies the test duration. SSL authentication mode of the peer certificate Validation mode of the PPP or MP link negotiation Validation mode of the PPP or MP link negotiation Validation mode of the PPP or MLPPP link negotiation Username to validate, for the PPP or MP link negotiation Username to validate, for the PPP or MP link negotiation Username to validate, for the PPP or MLPPP link negotiation Password to validate, upon PPP or MP link negotiation Password to validate, upon PPP or MP link negotiation Password to validate, upon PPP or MLPPP link negotiation Type of validation protocol for the PPP or MP link negotiation

Whether the self-negotiation is adopted Type of validation protocol formode the PPP or MP link negotiation 1. When the FG2 board is used and the port type is GE, the self-negotiation mode must be adopted. 2. If the self-negotiation mode is FE port link rate,negotiation working mode and flow control mode must be in accordance wi Type of the validation protocol foradopted, the PPPthe or MLPPP of the peer. Otherwise, transmission failure must be incurred. 3. If the self-negotiation mode is adopted on the local system, the peer must use the self-negotiation mode. Whether inter-subrack path can be added automatically Whether to allow automatic adjustment for the uplink threshold and hysteresis of full rate AMR call rates Whether to allow automatic adjustment for the uplink threshold and hysteresis of half rate AMR call rates Whether to enable the BSC to obtain BTS logs automatically Whether to enable the auto-negotiation mode

The parameter specifies the work mode for the automatic download and activation of the BTS software. BTS Software Aut Auto unlock switch Duration of time after which the locked user is unlocked automatically optical adaptation type between high-order path and multiplex section.

Phase tag for GSM protocols supported by the A interface. The value of this parameter is chosen according to the A interfa Alarm level for a digital port Alarm level. It is valid for the digital port.

Threshold of B1 and B2 signal degrade. This parameter specifies the generation threshold and the recovery threshold of th

Threshold of B1 and B2 signal failure. This parameter specifies the generation threshold and the recovery threshold of the

Threshold of B3 signal degrade. This parameter specifies the generation threshold and the recovery threshold of the B3 si

Threshold of B3 signal failure. This parameter specifies the generation threshold and the recovery threshold of the B3 sign Switch of backplane LINE1 Switch of backplane LINE2 Directory for saving the backup file

Path (complete path) of the backup file Quality threshold for determining that a call is disconnected because of poor quality. If the uplink quality or downlink quality due to poor quality. This parameter can be used to calculate the number of call disconnections due to poor quality.

Whether the downlink TBF can be established in advance. Downlink TBF establishment in advance indicates that the down

Bar code 2 of the interface board of the BTS. This parameter is the electronic serial number of the standby PTU board. An IP address of the backup port

Mask of the backup port This parameter specifies the method of saving the BTS backup power. This specifies thetobackup power saving policy of the BTS.shuts down some TRXs when the BTS experiences a Whenparameter this parameter is set "Turn off TRX", the BSC preferentially When this parameter is set to "Cover Priority", the BTS shuts down some TRXs, waits for a certain period of time, and then TRXs. When this parameter is set to "Saving Priority", the BTS shuts down some TRXs and meanwhile decreases the pow Whether the cells at the 1900 frequency support high frequency 1900 Whether the cells at the 850 frequency support high frequency 1900 Whether the cells at the 900 frequency support high frequency 1900

Duration in which intra-cell handover is forbidden after the number of consecutive intra-cell handovers reaches the maximu

Number ofcodes the temperature sensor corresponding to a battery group. You can choose sensor 1 (Battery1Temp) or sensor 2 List of bar of all the cabinets in the BTS If you choose sensor 1, the system automatically uses sensor 1 to control the temperature of the battery group and perform The handling principles are same if yousoftware choose sensor 2. The system reference BTS must support thethe Um interface synchronization. For the EPS4815 boards, this parameter can only be configured as "Battery1Temp". In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Number of the temperature sensor corresponding to a battery group. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Battery capacity. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether the configuration of external battery is allowed. The value "YES" indicates that the external battery can be configu In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Allowed percentage of the battery discharging. After the AC power supply is cut and the power of the battery is discharged Battery type. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Number of the BBAP service listening port

Reference difference between uplink and downlink levels. This parameter works with "Up Down Balance Floating Range" t Battery capacity. The battery capacity should be set according to the vendor specification. If it is improperly configured, the In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Base station color code (BCC) of a cell, provided by the network planning department. It is used for differentiating the neig

Base station color code (BCC) of a cell, provided by the network planning department. It is used for differentiating the neig BTS color code. It uniquely identifies different BTSs that are adjacent and use the same TRX. BCCH frequency of the cell Frequency of the BCCH TRX Frequency hopping mode of the TRX that carries the BCCH

Threshold for reporting the BC congestion alarm. When the BC congestion level exceeds the threshold, the BC congestion

Threshold for clearing the BC congestion alarm. When the BC congestion level is below the threshold, the BC congestion a DSCP corresponding to the background service

Identifies one BC at the Gb interface board. The BCID's value range of PEUa board is 0~255 and that of POUc board is 0~ Current limit coefficient of the battery. The maximum charging current equals the value of "Battery Current Limiting Coeffic In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Boost-Charging Voltage. See the vendor specification for the setting of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether the configuration of external battery is allowed. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

ARP1 priority in the BE service. ARP1 priority weight determines the number of the budget blocks and the block scheduling

ARP2 priority in the BE service. ARP2 priority weight determines the number of the budget blocks and the block scheduling DSP bearer type. MTP3: indicates thatBE theservice. lower layer bearer is the MTP3 used in ATM/TDM scenario; ARP3 priority in the ARP3 priority weight determines the number of the budget blocks and the block scheduling M3UA: indicates that the lower layer bearer is the M3UA used in IP scenario; MTP3_M3UA: indicates that the lower layer bearer is the MTP3 and M3UA used in ATM/TDM/IP scenario.

Time interval for sending a handshake message between BSC6900s. The parameter checks whether the communication a Average period for sending the measurement report over the EGPRS channel Number of UTRAN TDD cells that should be included in measurement report This parameter specifies whether to allow 3G better cell handover algorithm.

Whether to enable the algorithm for the handover to a better cell According to the P/N rule, if the conditions for the handover to a better cell due to interference are met for P seconds within This parameter specifies the number P. According to the P/N rule, if the conditions for the handover to a better cell due to interference are met for P seconds within This parameter specifies the number N.

Timeout times of the BFD packet. If several consecutive BFD packets are not received, the BFD session is set to the DOW

Allowed fluctuation BFD Session No. of the difference between uplink and downlink levels relative to the reference difference. If the differenc For example, assume that the Up Down Balance Basic Difference is set to 8 and that the Up Down Balance Floating Rang uplink and downlink levels is between -22 and 38, the uplink and downlink are considered balanced. Mutual-aid changeback policy of baseband frequency hopping (FH). If multiple TRXs in a baseband FH group are faulty an long as any of the faulty TRXs recovers, it is changed back at once and added to the FH group. Bit offset in the frame of the BTS clock

ARP1 priority in the Background service. ARP1 priority weight determines the number of the budget blocks and the block s

ARP2 priority in the Background service. ARP2 priority weight determines the number of the budget blocks and the block s

ARP3 priority in the Background service. ARP3 priority weight determines the number of the budget blocks and the block s Base Station Controller alarm blink filter switch

Alarm blink filter threshold. When the interval between the generation and clearance of an alarm is equal to or smaller than Measurement period of filtered Base Station Controller alarms Switch controlling whether to perform statistics of Base Station Controller alarms Retry times after the peer response timer expires during NSVC blocking Duration of the peer response timer during NSVC blocking Number of the port in the BM subrack where one end of the ATER connection channel is located Number of the slot in the BM subrack where one end of the ATER connection channel is located

Number of the BM subrack where one end of the ATER connection channel is located

Duration of the flow control protection timer enabled during the flow control between the TCS and the MPS/EPS subracks Whether to use the device IP address as the local IP address. When this parameter is set to "YES", the device IP address local IP address of the PPP link. Whether to report the alarm to the alarm box

Position of break point 1 in an RXU chain. The number of break points must not be greater than the number of RXU board

Position of break point 2 in an RXU chain. The number of break points must not be greater than the number of RXU board Whether to enable the bad quality (BQ) handover algorithm. Whether to trigger BQ handover depends on the uplink and do degradation) include too low signal power and channel interference. According to the P/N rule, if the conditions for emergency BQ handover are met in P of N measurement reports, the hando This parameter specifies the number P.

If ("downlink level of the neighbor cell after filtering" - "downlink level of the serving cell (after power control compensation) According to the P/N rule, if the conditions for emergency BQ handover are met in P of N measurement reports, the hando This parameter specifies the number N. Classes of boards classified according to function modules Classes of boards classified according to function modules Classes of boards classified according to function modules Classes of boards classified according to function modules Number of the board Number of the RF front-end board in the BTS

The upper threshold of the total receive bandwidth of all the TRXs bound to the board, for example, when this value is 250 Software type of the BTS board

The upper threshold of the total send bandwidth of all the TRXs bound to send pass of board, for example, when this value Type of the board Type of the board Board type Board type Board type Board type Type of the new RXU board.

Type of the board. The type can be TMU/DTMU, DTRU, DPTU, QTRU, MRRU, GRRU, BTS3900B, MRFU, GRFU, BTS39

To avoid intermittent blinking, the switchover cannot be performed over a certain period of time when the OML is disconne Contents of a cell broadcast message Time interval for a cell broadcast message

Backup mode of the log. If "ENTIRE" is selected, all logs in the current database are backed up. If "INCREMENTAL" is sel

BS-AG-BLKS-RES, indicating the number of the CCCH message blocks reserved for the AGCH. After the CCCHs are con DPC of the external BSC, which is used for inter-BSC communication. This parameter can be represented in decimal, hexa precede this parameter value with B'. This parameter specifies whether to enable the TRX Intelligent Shutdown feature.

It indicates whether the A interface E1/T1 is the primary BSC6900 or secondary BSC6900.

Gateway IP address of the BSC6900. When the BSC provides the function of simple cell broadcast, the BSC6900 sends c End time for collecting the inter-BSC offset information Start time for collecting the inter-BSC offset information Uniquely identifies a BSC in the TC pool ID of the BSC that controls the external 2G neighbor cell

Period for fine tuning the BTS clock between BSCs IP address of the BSC6900. If the connection mode of the BSC6900 and the CBC is to lead cables out of the PIU, the valu If the connection mode is to lead cables out of the XPU panel, the value of this parameter must be the same as the preset Conditions for enabling the function of BSC local switching. UNCONDITIONALSTART: The function of BSC local IP address of an interface board on the BSC6900 sideswitching is enabled without restriction. ATERCONGESTS: The function of BSC local switching is enabled when the congestion rate of the Ater interface exceeds PREFIXNUMBER: The function of BSC local switching is enabled when the leading digits of the calling or called MSISDN Unique name of the external BSC

Whether to allow high-priority calls to preempt the radio resources of low-priority calls when radio resources are insufficien

Whether to allow the call during an intra-BSC emergency handover to preempt the radio resources of low-priority calls in th In-BSC6900 port No. of the monitoring timeslot

Whether to allow priorities to be classified two types: priority and normal priority. Port number usedthe foreMLPP the communication between the into BSC6900 and high the CBC If this parameter is set to YES, then during the resource preemption, the priorities of all the services are compared, and the If this parameter is set to NO, then during the resource preemption, all the services with an eMLPP priority greater than 2 a Whether to allow calls to queue for radio resources when radio resources are insufficient. Whether to allow the service during an intra-BSC emergency handover to queue for radio resources in the target cell. Reserved parameter 1 that is effective at the BSC level Reserved parameter 10 that is effective at the BSC level Reserved parameter 11 that is effective at the BSC level Reserved parameter 12 that is effective at the BSC level Reserved parameter 13 that is effective at the BSC level Reserved parameter 14 that is effective at the BSC level Reserved parameter 15 that is effective at the BSC level Reserved parameter 16 that is effective at the BSC level Reserved parameter 17 that is effective at the BSC level Reserved parameter 18 that is effective at the BSC level Reserved parameter 19 that is effective at the BSC level Reserved parameter 2 that is effective at the BSC level Reserved parameter 20 that is effective at the BSC level Reserved parameter 21 that is effective at the BSC level Reserved parameter 22 that is effective at the BSC level Reserved parameter 23 that is effective at the BSC level

Reserved parameter 24 that is effective at the BSC level Reserved parameter 25 that is effective at the BSC level Reserved parameter 26 that is effective at the BSC level Reserved parameter 27 that is effective at the BSC level Reserved parameter 28 that is effective at the BSC level Reserved parameter 29 that is effective at the BSC level Reserved parameter 3 that is effective at the BSC level Reserved parameter 4 that is effective at the BSC level Reserved parameter 5 that is effective at the BSC level Reserved parameter 6 that is effective at the BSC level Reserved parameter 7 that is effective at the BSC level Reserved parameter 8 that is effective at the BSC level Reserved parameter 9 that is effective at the BSC level In-BSC6900 slot No. of the monitoring timeslot

In-BSC6900 subrack No. of the monitoring timeslot In-BSC6900 sub-timeslot No. of the monitoring timeslot. If the added monitoring timeslot works at 64 kbit/s, the sub-timeslo numbered from 0, 2, 4, or 6. If the added monitoring timeslot works at 8 kbit/s, the sub-timeslots are numbered from any va When the BTS clock is adjusted, the offset is added to obtain better network performance.

ID of the BSC at the other end of the link. In non-TC pool scenario, this parameter specifies the ID of the primary BSC. In T ID of slave BSC in TC Pool

This parameter is used toof setthe themonitoring parametertimeslot BS_CV_MAX for MS countdown. This parameter is used for the MS to calcula In-BSC6900 timeslot No. started. If the MS receives the packet uplink acknowledge before the timer T3198 expires, the MS updates the receiving st and retransmits the data bloc.

Number in a cycle on a paging sub-channel. this parameter specifies the number of paging sub-chan Whether of to multiframes enable the BTS to transfer BTS/MS power classIntofact, the BSC In an actual network, an MS does not listen to other paging sub-channels but its belonging paging sub-channel only. Refer paging In this case, the mean uptime of the MS battery can be prolonged. Refer to the computing mode of pa Numbersub-channel. of PAGCH blocks of the system lowers. Based on the principle of ensuring that overload does not occur to paging channels, you must set thi A paging message in a location area must be sent in all the cells within this location area at the same time. Therefore, the Number of PBCCH blocks

Type of the BSS local switching with the cooperation of the MSC. Number of PRACH blocks NONSUPPORT: When performing local switching, the BSS need not determine whether the MSC allows an MS to be invo BASIC: request and handover request by theand MSC contain a flag indicatingThe whethe GeneralAssignment strategy of the BSS messages local switching, which includes themessages BSC localsent switching the BTS local switching. two ENHANCED: Assignment request messages and handover request messages sent by the MSC contain a flag indicating w enabled or stopped message to the MSC. Whether to support the paging function of the CS domain of the A interface. Yes: the MS can be called upon paging reque Paging Co-ordination Switch" in "SET BSCPSSOFTPARA" is set to "Open". Type of the board Type of the board Type of the board Board type Board type

Board type Board type Board type

Board type Type of the board that controls the RET antenna. 1. DATU: Board typeIt may represent the DATU or the DATM and is applicable to the BTS3012, BTS3012AE, BTS3012_II, BTS3006 2. GATM: It is applicable to the BTS3900 GSM, BTS3900A GSM, BTS3036, and BTS3036A. 3. RXU:DRRU,MRRU,MRFU,GRRU,GRFU,BTS3900E support the RET antenna connect directly. Type of the newly added antenna board Type of the newly added board Type of the newly added RXU board Type of the board Type of the board Identifies the BM subrack or TC the subrack of theisBSC. The configuration flag specifies operation on the BM or TC. When this parameter is set to "CFGBM", a BM signaling link is added. When this parameter is set to "GFGTC", a TC signaling link is added.

This parameter specifies whether to enable the TRX Working Voltage Adjustment feature. When this parameter is set to Y Bard code of BTS BBU board. Communication type of a BTS Communication type of a BTS

Peer equipment type of the BTS. This parameter indicates whether to connect the BTS to the BSC6900 or cascade the BT BTS detection switch. If the parameter is set to "CLOSE", the function of detecting the BTS is disabled. If the parameter is packet carrying the VLANID to the BTS. BTS index of the adjacent node to be added. The parameter is valid only when Adjacent node type is set to Abis. Index of the BTS, uniquely identifying a BTS in a BSC6900. Index of the BTS running the command Number of the BTS connected to the BSC. The number is unique in a BSC List of BTS indexes. You can specify multiple BTSs,separated by "&" and "&&". For example, "1&2&3&4&5" or "1&&5". Whether to collect offset information by BTS index or BTS name Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.

Base station index, 65535 indicate all base stations. Conditions the function of BTS local switching. IP address for of aenabling BTS. When "BTS Com Type" is set to "LOGICIP", the value of the parameter is the IP address of the BTS. UNCONDITIONALSTART: The function of BTS local switching the local IP address of the BTS PPP link or BTS MLPPP group.is enabled without restriction. ABISCONGESTS: The function of BTS local switching is enabled when the congestion rate of the Abis interface exceeds t PREFIXNUMBER: The function of BTS local switching is enabled when the leading digits of the calling or called MSISDN a Subnet mask of BTS.

Whether to enable the BTS to preprocess measurement reports. This parameter determines where to conduct power contr Name of the BTS, uniquely identifying a BTS in a BSC6900. This parameter cannot contain , ; = " ' more than two (include Connect BSC BTS Name.It is unique in one BSC.This parameter cannot contain ? | : < > " @ # ! % ^ & * . [ ] / \ \\ '. List of BTS names. You can specify multiple BTSs, separated by "&". For example, "Name1&Name2".

If the parameter is set to "ON", all the Ping packets are sent. This whetherallthe allowedare to shut down the BCCH TRX that is configured as "Shut Down Enabl If theparameter parameterspecifies is set to "OFF", theBSC Pingispackets discarded. When this parameter is set to Yes, the BSC shuts down all the TRXs that are configured as "Shut Down Enabled", includin after receiving a power failure message from the BTS. Maximum degree by which the BSC can control the power of the BTS dynamically Whether to specify "Power Control threshold Adjust for SAIC" in the MML command "SET GCELLPWR3"

Software version number of the BTS Transmission compression ratio of a BTS. 1. Modifying the settings of "Transfers Compress Rate" may change the bandwi greater the "Transfers Compress Rate" is, the smaller the compression rate is and the greater the required bandwidth is. 3 Type of the BTS Type of the BTS Type of the BTS Time for which the BTS waits to restore a BFD session

Type of TRX loopback test Battery type. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

If the OML is not established at one port after a period of time, the OML switches to another port and tries to connect to thi Whether to enable the data binding function Identifies a unique PTP BVC with NSE The BSSGP virtual connection identifier. It is used to identify multiple BVCs that multiplexes the NS-VC.

Duration of BVC flow control timer F. A cell sends the flow control message at the interval specified by this timer. Switch for adjusting the dynamical bandwidth of the logical port. If this switch is turned on, the system adjusts the dynamic port. For details about the IPPM, see the description of the command "ACT IPPM".

If the available backward bandwidth is less than or equal to this value, the backward congestion alarm is emitted and back

If the available backward bandwidth is greater than this value, the backward congestion alarm is cleared and backward con

If the ratio of available backward bandwidth is greater than this value, the backward congestion alarm is cleared and backw

If the ratio of available backward bandwidth is less than or equal to this value, the backward congestion alarm is emitted an

If the available backward bandwidth is greater than this value, the backward overload congestion alarm is cleared and bac

If the ratio of available backward bandwidth is greater than this value, the backward overload congestion alarm is cleared a If the available backward bandwidth is less than or equal to this value, the backward overload congestion alarm is emitted

If the ratio of available backward bandwidth is less than or equal to this value, the backward overload congestion alarm is e Ratio of reserved backward bandwidth for handover user Reserved backward bandwidth for handover user Maximum ratio of the estimated bottleneck bandwidth Bandwidth mode

Threshold of bandwidth change based on the load control algorithm. When the system detects that the change of the avail

Threshold for reporting the uplink-downlink imbalance alarm. If the percentage of the uplink-downlink imbalance measurem Index type. The value can be BYIDX or BYNAME. Whether the reselection hysteresis parameter is applied to the C31 criterion

Whether GPRS cell reselection offset is used for C32 calculation during cell reselection. If this parameter is set to 1, then o Descriptive information of the BTS cabinet List of all the cabinet numbers in the BTS Whether the added cabinet is a remote cabinet

Whether to allow call re-establishment. Burst interference or blind spots due to high buildings may lead to a radio link failur Calibration value of the clock

Whether an MS uses the calculated value as the final receive level value. The calculated receive level value is the measur Whether to enable the capacity and coverage of the BTS to be automatically optimized according to the actual situation of Card Frequency Attribute

Whether to indicate that the Path istocarried IP logic portof oraresource group. NULL indicate Used together with "Cell BarIP Qualify" decideon thethe priority status cell. Refer to GSM Rec. 04.08.the IP Path is carried o Cell Bar Qualify Cell Bar Access Cell selection priority Cell reselection priority Bearer type of the logical port NO NO Normal Normal NO YES Prohibited Prohibited Port type of the SBFD/ARP bearer YES NO Low Normal CBC interface parameter. The value of this parameter must be translated into a binary numeral. The following describe eac YES Low Normal Bit 0: phase flagYES Bit 1: message type flag Uniquely identifying a cell broadcast center (CBC) Bit 2: cell list flag Bit 3: whether carry a recovery indication IP address of atoCBC Bit 4: whether to carry a cell ID Bit 5: whether carry a recovery indication during Used together to with "Cell Bar Access" to decide the resetting priority status of a cell. See GSM Rec. 0408. This parameter does not a

Cell Qualify Cell Barside Access selection priority CellBSC6900 reselection priority Port Bar number at the CBC in theCell communication with the NO NO Normal Normal NO YES Prohibited Duration of no cell broadcast message atProhibited the Cb interface. If the BSC6900 does not receive any message from the CBC d YES NO Low Normal YES YES Low Normal Maximum burst size (MBS)

Timer interval for sending handshake messages. According to the value of this parameter, the BSC6900 regularly sends th

Number of enhanced measurement reports (EMRs) sampled for averaging the CV_BEP on the SDCCH. Averaging the CV

Number of enhanced measurement reports (EMRs) sampled for averaging the CV_BEP on the TCH. Averaging the CV_B Whether to enable the certificate Country code, for example, 86 forchain China DISABLE: indicating that the certificate chain is disabled ENABLE: indicating that the certificate chain is enabled

Time interval for sending overload messages, used for the BTS to notify the BSC6900 of the load over a specific CCCH tim This parameter is used by the BTS to inform the BSC of the load on a CCCH timeslot, that is, the load of the access reque exceeds the value of this parameter, the BTS periodically sends the CCCH overload message to the BSC. The interval for

DSCP corresponding to thereport session Offset of the measurement of service the cells at the 1800 MHz frequency. Before cells are sequenced by priority, accordin Threshold ofofthe measurement report of the cells at the 1800 MHz frequency. When the receive level value in the measure The values this parameter correspond the following decibel values: Transmission period of the CCM packet into the MA The values of this parameter correspond to the following decibel values: 0: 0 dB Threshold of forbidding directed retry for cells. When the value of "Assignment Cell Load Judge Enable" in "SET GCELLCC 0: 0 1: 6 dB dB retry. 1: ... 6 dB ... 7: 42 dB 6: 36 dB 7: positive infinity

BCCH frequency of a 2G neighbor cell that MSs can measure in idle mode. Recording the BCCH frequencies of 2G neighb

Whether to generate the 2G BA1 table automatically according to neighbor cell relations or to input the 2G BA1 table manu

BCCH frequency of areceive 2G neighbor that MSscell caninmeasure in dedicated mode. Recording the BCCH of 2G Offset applied to the level ofcell a GSM900 the measurement report before prioritizing cells byfrequencies frequency bands The values of this parameter correspond to the following decibel values: This parameter whetherreport to generate the 2G BA2900 table automatically according to neighbor cellisrelations or when to inpu Threshold of theindicate measurement the cells at in the valid of only th 0: 0 dB power Timeslot attenuation level of theofEDGE TRX 8PSK.MHz The frequency. attenuationThe levelmeasurement ranges from 0report to 50, each which corr 0: 0 dB 1: 6 dB When the EDGE TRX sends signals in 8PSK, the transmit power must be lower than the mean power in GMSK. 1: ... 6 dB ... 7: 42 dB 6: 36 dB 7: positive infinity

Whether the cell can be added to the reselected candidate cell list. If this parameter is set to "NoPermit", the cell cannot be If the coverage type of a cell is outdoor coverage, the BTS detects whether the standing wave alarm is generated only whe If the coverage type of a cell is indoor coverage, the BTS detects whether the standing wave radio alarm is generated only

Even charging voltage of the battery. The battery is charged at the voltage as specified by this parameter. Even charging voltage of the battery. The battery is charged at the voltage as specified by this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Float charging voltage of the battery. The battery is charged at the voltage as specified by this parameter. Float charging voltage of the battery. The battery is charged at the voltage as specified by this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Index of a cell, uniquely identifying a cell in a BSC6900 ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC. Index of a cell, uniquely identifying a cell in a BSC Index of a cell, uniquely identifying a cell in a BSC6900 Index of a cell, uniquely identifying a cell in a BSC6900

Cell Index List of the user-defined neighbor cells to be measured. This parameter is represented as a character string where the IDs o The BSC supports up to 50 cells. Index type of a cell when this command is executed Index type of the cell Index type of the cell. BYNAME: query by cell name; BYID: query by cell index.

This parameter specifies whether a cell is the OL subcell or the UL subcell. This parameter is applied to the enhanced dua Layer of the cell. If the layer of the cell is lower, it is more likely that a handover to the cell will be triggered.

Whether assignment complete contains cell list. string, separated by "&". For example, 1&2&5. List of cellanindexes. All cell indexesmessage are combined as aa character According to GSM Rec. 08.08, during a channel assignment, an assignment complete message contains a cell list only wh For the MSCs of some vendors, however, assignment complete messages must contain cell lists. To meet such a requirem Maximum number of SDCCHs in the cell. Before converting a TCH into an SDCCH, the BSC compares the number of SDC SDCCH. Name of a cell, uniquely identifying a cell in a BSC6900 Name of a cell, uniquely identifying a cell in a BSC

List of of cella names. All cellidentifying names area combined as a character string, separated by "&". For example, cell1&cell2&cell5. Th Name cell, uniquely cell in a BSC6900 ? | : < > " @ # ! % ^ & * . [ ] / \ \\ '

Power of each passage on the MRRU in the cell. When multiple operators are configured on an MRRU, the parameter spe

Threshold of the downlink receive level of an over-coverage cell. If the downlink level of a cell is higher than the value of th

Threshold of the TA of an over-coverage cell. If the downlink level of a cell is higher than the value of this parameter and th

Maximum number of reported paging overload messages in the cell. If the BSC allows the flow control on the re-paging me

Whether to allow the power-off of the battery. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Battery power-off voltage. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

This parameter specifies whether a 2G cell or 3G cell is selected in the inter-RAT cell reselection procedure. The number of times that the downlink transmission quality of the MS is lower than the transmission quality threshold of the of received measurement reports on the downlink transmission quality (Packet Downlink Ack/Nack message) is greater tha

Information about the cell scenario. It needs to be sent to the BTS. Based on the information, the BTS optimizes the alloca

This parameter specifies whether to allow a mobile phone to preferentially camp on a 3G cell after a call is terminated in th The BTS reports an alarm if the temperature of battery group 1 exceeds the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para The BTS reports an alarm if the temperature of battery group 1 is lower than the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Upper limit of the temperature measured by the temperature sensor of the battery group 1. If the measured value is greate In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Lower limit of the temperature measured by the temperature sensor of the battery group 1. If the measured value is smalle In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to allow the configuration of parameters related to the temperature compensation of the battery group In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Threshold of the downlink receive level of an weak-coverage cell. If the downlink level of a cell is lower than the value of th

Threshold of the TA of an weak-coverage cell. If the downlink level of a cell is lower than the value of this parameter and th Threshold for stopping LAPD link congestion control. This parameter cannot be set too small. If this parameter is set too sm small. If the difference is too small, congestion control may be started frequently on signaling links.

Name of the certificate chain file Whether to allow the configuration of alarm parameters. The value "YES" indicates that the configuration is allowed, and th In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Indicates whether the IP path is carried on the IP logic port or the resource group. BTS configuration modes include auto plan mode and normal mode. In auto plan mode, the user can enable the auto planning algorithms and auto optimization algorithms according to the BT Configure switch.

Whether to enable the board parameters to be configured. If this parameter is set to "YES", the user can set board parame

Whether to enable the board parameters to be configured. If this parameter is set to "YES", the user can set the cabinet po Confirm password. The confirm password is required to ensure that a correct password is entered. Customized command group to be processed This parameter is valid only when the operator belongs to the custom level.

Congestion end threshold. If the congestion end threshold is large, the congestion control ends earlier. As a result, the con

Congestion end threshold. If the congestion end threshold is large, the congestion control ends earlier. As a result, the con

If the parameter is set to 1, it indicates that the CGI and RAC data is generated through automatic planning. If the paramet Name of the command group. You can define the name.

Number of the cabinet group where the idle timeslot is located. Congestion start threshold. If congestion start threshold is set to a large value, there will be a time lag in the congestion co unstable. The congestion control will start frequently. Congestion start threshold. If congestion start threshold is set to a large value, there will be a time lag in the congestion co unstable. The congestion control will start frequently. Congestion start threshold. If congestion start threshold is set to a large value, there will be a time lag in the congestion co unstable. The congestion control would start frequently.

This parameter indicates the geographical relationship between the neighboring cell and the serving cell. In the BSC6900,

Combination type of chains. "CHAINTORING" indicates that one chain changes to a ring, and "COMBINECHAINS" indicat

Channel assignment priority of the cell If this parameter is set to CAPABILITY, the factors are listed as follows in a descending order of priority: capacity factors, q If this parameter is set to QUALITY, the factors are listed as follows in a descending order of priority: quality factors, capac If this parameter is set to PSRELATIVELY, the factors are listed as follows in a descending order of priority: capacity factor If this parameter is set to PSABSOLUTELY, the factors are listed as follows in a descending order of priority: PS cooperati

This parameter specifies the proportion of available PDCHs in a cell. When the proportion of available PDCHs in the cell is

This parameter determines whether to activate the function of monitoring the failure of logical channels in a cell. When this

This parameter specifies the proportion of available TCHs in a cell. When the proportion of available TCHs in the cell is low

Channel number of a simple cell broadcast message. This is a key parameter for adding a simple cell broadcast message.

Whether to measure the channel interference during channel assignment. If this parameter is set to NO, the BSC does not When the value of this parameter is YES, if the assignment request message sent by the MSC contains the channel rate ty rate type into the selection of full rate only or half rate only when decoding the assignment request message.

This parameter is used to check whether the Abis timeslot for the PDCH is faulty. When the out-of-synchronization period o

Alarm mode of the ANT_A tributary an RXU board. There threeof alarm modes. Alarm mode 1 has only one type of al Number of ping check timeouts. Theofparameter indicates theare number timeout record failures. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current fixedinand theis Whether to enable the BSC to check automatically whether a BTS is connected to a proper E1isport the greater EIUa. If than a BTS Alarm mode of the ANT_B tributary of an RXU board. There are three alarm modes. Alarm mode 1 has only one type of al Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse c configurations on the BSC side. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the When the parameter is set to 1, "ANT_A ALD Current Minor Alarm Occur Th", "ANT_A ALD Current Minor Alarm Clear Th Alarm mode 3 has twoN-Cur types Duration" of alarms:cannot warning and critical The warning current is periodical ALD Cur-Minor Alarm bealarms configured. Whenalarms. the parameter is set alarm to 3, "ANT_A ALD Currentpulse MinorcA When the parameter is set to 1, "ANT_B ALD Current Minor Alarm Occur Th", "ANT_B ALD Current Minor Alarm Clear Th ALD Cur-Minor Alarm N-Cur Duration" cannot be configured. When the parameter is set to 3, "ANT_B ALD Current Minor A Detection index. The index is a unique value ranging from 0 to 511 if it is not specified. Detection index Total number of times that the BTS checks whether to switch off the air conditioner Total number of times that the BTS checks whether to switch on the air conditioner Whether to perform checksum when receiving message Whether to perform checksum when sending message

Checksum arithmetic type. According to the RFC4960, the ALDER32 algorithm is not applicable to the SCTP checksum. T Type of the detection that is performed between the BSC and the gateway. Duration Number of the channel in the TRX Timeslot for playing sound Number of the channel in the TRX Type of channel loopback test

Channel type of the timeslot on the TRX. The channel type of timeslot 0 must not be set, because the combined BCCH is c Whether an assignment complete message contains the information element of Chosen Channel Whether a handover perform message contains the information element of Chosen Channel Whether an HO REQ ACK message contains the information element of Chosen Channel Whether an encryption complete message contains the information element of Chosen Encryption Algorithm Whether a handover performed message contains the information element of Chosen Encryption Algorithm Whether an assignment complete message contains the information element of Chosen Encryption Algorithm

Whether a multi-density TRXcontains board, that the dynamic power sharingEncryption algorithm to assign channels, to assign Whether to anallow HO REQ ACK message the uses information element of Chosen Algorithm power sharing algorithm to assign channels cannot assign a channel to an MS when the remaining power on the multi-den to an MS when the remaining power on the multi-density TRX board is less than the power required by the MS.

Main BCCH+SDCCH/8+extended BCCH (BCH)+TCH+extended BCCH (BCH)+3TCH

The BCCHs in a cell need to be configured according to the number of channels in the cell and the paging capacity in the l

The main and combined BCCHs shall always be configured in timeslot 0. An extended BCCH can be configured only in tim the CCCH parameter in the system message data needs to be configured as two uncombined CCCHs.

Thisenable parameter indicates in whether collect CHRtologs for aduring specified object.channel configuration. In the case of SDCCH/8 To cell broadcast a cell, to add a CBCH the cell the radio BCCH_CBCH. With the same effect, the SDCCH/8 and SDCCH/4 cell broadcast services serve different network planning Maximum number of allowable CS domain channel request messages within the value of "CHAN REQ Statistical Period"

The data number configurations for half-rate networking differ from messages the data configurations for of other networking. Average of allowable PS domain channel request within the value "CHAN REQ Statistical Period" Statistic period of the arrival rate of channel request messages. Within the preset value of this parameter, the BSC6900 co In thebegins case oftohalf-rate networking, each TRX maintains high RSL Therefore, LAPDa signaling linkREQ multiplexing ra BSC discard subsequent channel request messages untiltraffic. the current time the reaches new "CHAN Statistica

In the case of half-rate networking, each E1 supports up to 13 TRXs. If the LAPD signaling links are unmultiplexed, each E Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identific Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.

Cell identity code. The cell is a radio coverage area that is identified by the BTS identity code and global cell identity code.

Indicates the A interface CIC. When operation mode is set to OPC index, DPC group index, BSC ID, or CIC, the paramete Indicates the Pb interface CIC. If the search object mode is set to search by the specified No., the parameter is mandatory The parameter supports multiple values. The TC DSP compares neighboring speech frame samples after the CIC downlink one-way mute detection is enabled. Wh occurs for the current call. This parameter indicates the period of completing a CIC downlink one-way mute detection of each port. This parameter determines whether the CIC downlink one-way mute detection is enabled. This parameter indicates the proportion of one-way mute CICs in all available CICs over a port.

If one-way mute frames occur for the duration greater than "CIC Downlink One-Way Mute Detection Duration", then it is re Whether an assignment failure message contains the information element of Circuit Pool Whether an HO FAIL message contains the the information element of Circuit Pool Whether an assignment failure message contains the the information element of Circuit Pool List Whether an HO FAIL message contains the the information element of Circuit Pool List Whether an assignment complete message contains the information element of Circuit Pool Whether an HO REQ ACK message contains the information element of Circuit Pool Bandwidth of the logical port

This parameter specifies the estimated carrier-to-interference ratio of a new call. It is used for the Huawei power control alg Slot number of the BSC6900 board that is connecteds to the BTS Subrack number of the BSC6900 board that is connected to the DXX Whether the cell supports the MS with the DTM multi-timeslot capability of class 11

Whether to enable the BSC to include the 3G classmark information element in the Classmark Request message that the B Clock mode of the BTS. Error threshold. If this clear parameter is set to INT_CLK, the BTS does not track any external clock. The internal high precision clock works in fr If this parameter is set to TRCBSC_CLK, the BTS tracks the clock signals received from the BSC. Clock mode If this parameter is set to EXCLK, the BTS tracks the clock signals received from the external input clock. If this parameter set to IP_TIME, BTS shakes hands through the IP network with the IP clock server for synchronizat Type of the clockisprotocol for the IPthe clock server If this parameter is set to IP_TRANSFER, the BTS extracts the clock from an E1 when there is not an IP clock after the BT If this of parameter set to TRCGPS_CLK, the BTS extracts the clock through the DGPS from the GPS. Type the clockisboard If this parameter is set to UM_CLK, the BTS keeps pace with the signals broadcast on the downlink main BCCH of a neigh If this parameter is set to PEER_CLK, the multimode BTS(GSM) keeps pace with the signals that the other mode offer. Delay for which the BTS waits to run the burglar alarm clearance command after reporting the burglar alarm

Whether the alarm to be queried is cleared. You can select "cleared" or "uncleared", or both of them. By default, both of th Interval at which the BTS runs the burglar alarm clearance command automatically

Name of the command to be queried. You can select one or more commands. You can select one or more commands. Sequence number of the command string of the scheduled subtask. Number of the cabinet Number of the cabinet Number of the cabinet Number of the cabinet where the port is located Number of the cabinet Number of the cabinet.

Time delay in the detection of core network interface failure. Within the preset value of this parameter, the BSC6900 contin Used to uniquely identify an MSC Uniquely identifies a node of SGSN, with the specified operator name Index of an MSC. It is used in storing and querying the MSC attributes Index of the operator

Policy of the BSC6900 for judging whether the interface status of the core network is normal. If the value is NONE, the BS Number of returned alarm records. By default, all records can be returned in each query. Type of the cabinet. The slot and subrack arrangements in a cabinet vary according to the cabinet type. Type of the BTS cabinet where the DMPU is installed Maximum number of records allowed in the operation log

Assume that this threshold is not 0. When the accumulated number of alarm blink times exceeds the threshold, the alarm i

Assume that this threshold is not 0. When the number of alarm blink times is smaller than the threshold, the alarm is report

Number simple cell broadcast message. run "DSP GSMSCB" tohandover query and obtain the information. Whether of to aadjust the candidate cell queue toYou givecan priority to intra-BSC/MSC The value of this parameter cannot be 0. This parameter, "Geography Scope", and "Update" uniquely decide a cell broadcast message. Whether to start the refrigeration equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to collect offset information by the BTS or cell Combined loss used to estimate the downlink power during assignment

Level of common access control, used for load control, allowing or forbidding the access of some users of common access Complexity of the password BTS compress rate. Whether the BSC that controls the external cell and the local BSC belong to the same MSC Index type of the BTS connected to BSC

If the duration for buffering the data in queue 0 is less than or equals to the value of this parameter, flow control is cancele

If the duration for buffering the data in queue 1 is less than or equals to the value of this parameter, flow control is cancele

If the duration for buffering the data in queue 2 is less than or equals to the value of this parameter, flow control is cancele

If the duration for buffering the data in queue 3 is less than or equals to the value of this parameter, flow control is cancele

If the duration for buffering the data in queue 4 is less than or equals to the value of this parameter, flow control is cancele

If the duration for buffering the data in queue 5 is less than or equals to the value of this parameter, flow control is cancele

If the duration for buffering the data in queue 0 is more than or equals to the value of this parameter, flow control is triggere

If the duration for buffering the data in queue 1 is more than or equals to the value of this parameter, flow control is triggere

If the duration for buffering the data in queue 2 is more than or equals to the value of this parameter, flow control is triggere

If the duration for buffering the data in queue 3 is more than or equals to or equals to the value of this parameter, flow cont

If the duration for buffering the data in queue 4 is more than or equals to the value of this parameter, flow control is triggere

If the duration for buffering the data in queue 5 is more than or equals to the value of this parameter, flow control is triggere Whether to enable the concentric cell handover algorithm. The concentric cell handover helps to achieve wide coverage in handover from the underlaid subcell to the overlaid subcell and handover from the overlaid subcell to the underlaid subcell Number of the port through which the DXX is connected to the BSC6900 Whether to connect the power monitoring board

Type of the connection between the NE and EMS or LMT. The connection can be a plain connection or SSL encryption co Whether the Iur-g common connection is established between the BSC and a co-BSC6900 RNC or an external RNC. Minimum interval between the two consecutive handover decisions of an MS. The BSC cannot make a handover decision To avoid frequent handover events in the cell, the BSC starts a timer after delivering a handover command to an MS. The The twice intra-cell handover events during this interval are considered consecutive handover events.

Whether to perform the PING operation continuously. When the continuous PING operation is performed, the system send Transmitted packets Duration for starting the CPRI Loop test

This parameter specifies whether to allow the BSC6900 to enable or disable the power amplifier of a TRX based on the tra CPU number on a board Whether to enable the BTS to support CRC4 check

Cell reselection hysteresis. This is one of the parameters used for deciding whether to reselect cells in different location ar Whether to enable the certificate list Name of the certificate revocationrevocation list file DISABLE: indicating that the certificate revocation list is disabled ENABLE: indicating that the certificate revocation list is enabled

Time interval for the BTS resending a channel release message Cell Reselect Offset (CRO), indicating a correction of the C2. Proper of the this BTS parameter can reduce the number of handover times, helpful for assigning an MS to a better cell. In a Numbersetting of times resends a channel release message Generally, do not set the CRO to a value larger than 25 dB. The CRO with a too large value will cause uncertain states in a supporting the protocol of GSM Phase 2 or a later version. Threshold of the time for crosstalk detection. Within the threshold, if the call flag continuously appearing in the code stream The indicates the information cross-connect paththe is current available. When the cross-path is available, a maximum of fourAter IP pa host field board recordswhether in a log the about call, including the information about the Abis interface, in between the second local IP address and the first peer IP address, and the IP path between the second local IP address a and the IP path between the second local IP address and the second peer IP address.

Output range of the supplementary information contained in the CHR in common user mode. Multiple options can be selec Rate threshold of bad speech quality in common user mode. Whether MR is contained in the CHRs in specified user mode Whether the information about the specified abnormal call end is contained in the CHRs in common user mode.

GSM CS data service downlink factor CS data path CS data priority GSM CS data service uplink factor Priority of the CS data service. The parameter is used for BSC6900 flow control. The smaller the value of this parameter, the higher the priority. Whether handover information is contained in the CHRs in common user mode Whether the MR before call release is contained in the CHRs in common user mode.

Whether the MR before handover is contained in the CHRs in common user mode. CHR output mode. In common user mode, the CHRs of all the MSs specified by "CHR Output Range" are output. In specif These two modes can co-exist and they do not affect each other. Area in which CHRs need to be output in common user mode. If this parameter is set to "Output All Records "in Cells, you Whether to output the call history record (CHR)

Type of signaling contained in CHRs Threshold for starting LAPD link congestion control. This parameter cannot be set too high. If this parameter is set too high frequently on the signaling link. Type of the service whose CHR need to be output GSM CS voice service downlink factor Whether speech information is contained in the CHRs in specified user mode. CS voice path CS voice priority GSM CS voice service uplink factor Priority of a speech service in the CS domain. The parameter is used for BSC6900 flow control. The smaller the value of this parameter, the higher the priority.

Self-healing switch for the Ethernet adapter traffic monitoring Timer alignment ready. Timer T1 is started after the MTP2 link enters the Aligned Ready state. If one end of the MTP2 link broken. This parameter only applies to the 64 kbit/s links. For the 2 Mbit/s links, the value of this timer is always 150000. Timer not aligned. Timer T2 is started at the time that the MTP2 link is set up and begins to transmit the SIO message. If o setup fails. This parameter only applies to the 64 kbit/s links. For the 2 Mbit/s links, the value of this timer is always 130000 Timer aligned. Timer T3 is started at the time that the MTP2 link enters the aligned state and starts to transmit SIN (norma state. In other cases, T3 expires, and the MTP2 link setup fails. This parameter only applies to the 64 kbit/s links. For the 2 Timer emergency proving. The two ends of the MTP2 link exchange messages after entering the emergency verification st The link verification can be performed for five times to prevent the possibility of accidentally high error rate. If the error rate Timer normal proving. The two ends of the MTP2 link exchange messages after entering the normal verification state. Eac verification can be performed for five times to prevent the possibility of accidentally high error rate. If the error rate reaches

Timer sending SIB. If one end of the MTP2 link detects congestion, it sends SIB indications to the peer end at an interval s

Timer remote congestion. A link is considered broken when the remote congestion duration exceeds the value specified by Timer excessive delay acknowledgement. A link is considered broken if one end of the link does not receive a verification m 2000. Timer interval of resending FISU. Timer T9 specifies the interval at which the BSC sends the FISU frames. That is, the BS always 10.

Critical threshold of CPU usage. When the CPU usage in "Fast judgement window" reaches or exceeds the threshold, all a Critical threshold of packet queue usage. When the packet queue usage reaches or exceeds the threshold, all active flow DPC of the control BSC

Format of the control acknowledge message of the MS. Four access bursts are used to obtain timing advance without sen

Control Flag Number of the cabinet which controls RET antenna.

ControlPort No. of RET antenna. The number of RET antenna which connect to same feed tributary cannot be more than 6

Number of the slot where the board controlling the RET antenna is located. For SingleRAN BTSs, the valid value ranges fr Number of the subrack where the BTS board is located Slot number of the MPU Subsystem for the centralized management of the resources Number of the BSC6900 slot where the XPU of the control plane is located Number of the BSC6900 subrack where the XPU of the control plane is located Configuration rollback control switch that is used to specify whether to support the configuration rollback function Whether an HO_RQD message contains the Current Channel C-version number of the BTS software Period of new file generation. This is the data file for upgrading board. The data file names of different boards are different. Number of measurement reports sampled for averaging the signal quality on a speech/data channel. Averaging the signal

Number of measurement reports sampled for averaging the signal strength on a speech/data channel. Averaging the signa Data service supported by the BSC6900. You can set this parameter according to actual requirements. Whether to limit the operation date of the operator Date Unique number of the date range during which to disable the BSC from shutting down the TRX dynamically

Date when the TMU board software is released Temperature error allowed when the temperature control system adjusts the temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether the primary BCCH is configured on the inner or extra part of an intelligent underlay-overlay (IUO) cell Index of a same group cell in an enhanced dual band network Name of a same group cell in an enhanced dual band network Index type of a same group cell in an enhanced dual band network DC Lowvoltage Alarm Cabinet No. DC Lowvoltage Alarm Port No. DC Lowvoltage Alarm Slot No.

DC Lowvoltage Alarm Subrack No. DC voltage alarm lower threshold. When the busbar output voltage is lower than the value of this parameter, an alarm indic In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para The BTS reports an alarm if the DC voltage exceeds the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para The BTS reports an alarm if the DC voltage is lower than the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para DC voltage alarm upper threshold. When the busbar output voltage is higher than the value of this parameter, an alarm ind This parameterscenario, specifiesthe thevalue default in themust dynamic transferable channel In multi-mode of pre-converted this parameter PDCHs in one mode be the same as the value pool. of the corresponding para When this parameter is greater than 0, three sub-links are bound to the static PDCH and pre-converted PDCH in a cell by The pre-converted PDCH can be preempted. You can set "Number of Reserved Dynamic Channel" as required when you

Timer for delaying a connection release. This parameter is used for delaying the channel deactivation after the active signa expires, the BSC6900 stops the timer and sends the BTS an RF CHAN REL message. The destination entity number uniquely identifies a destination entity.

Description of the operator account Whether to start the anti-theft equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Destination IP address Destination IP address Destination IP address Identifies a maintenance point in the maintenance group Type of the object the BTS is connected to Type of the object the BTS is connected to. Value range: BTS, BSC6900, and DXX Slot No. of the subsystem where the Iur-g common connection is established to the co-BSC6900 RNC Subrack No. of the subsystem where the Iur-g common connection is established to the co-BSC6900 RNC No. of the subsystem where the Iur-g common connection is established to the co-BSC6900 RNC ID of the TRX that carries the destination main BCCH

Interval for sending test TRAU frames in the period of class-2 mute detection.Test TRAU frame is sent at the specified inte

Maximum number of periods in which the local end does not receive BFD packets from the peer end. If the number of perio Switch for Abis Timeslot Detection Name of the RET antenna Number of the RET antenna. Device IP address of the interface board used by the PPP link. Device IP Address Type Downlink frequency of the external 3G cell

Number of the slot where the DFCB is installed The default DPC corresponds to the CN of the primary operator. When only onesubrack DPC is configured, this parameter Number of the where the DFCB is installedmust be set to "YES", indicating that all the calls for the operator are acc When multiple DPCs are configured, this parameter also determines the DPC that allows the generation of ESN. In this ca Whether to of use customized port this parameter must be set to "YES" when only one DPC is configured. This indicates For the CN a the secondary operator, DEFAULTPORT: indicating that the FTP server uses the default port 21 as a command port and port 20 as a data port to p CUSTOMPORT: indicating that the FTP server uses the customized port to provide FTP services Period for reporting differential GPS data This parameter indicates the IP Address of DHCP Relay Gateway. DHCP Relay ID Whether to enable the diesel engine save switch Whether to allow an MS to report the classmark and whether to hand over the MS from the SDCCH in the frequency band Day in the month on which the command can be executed. Day in the week on which the command can be executed. The relative path in the working path of the FTP user in the FTP server

Directory of the software to be downloaded

Whether the BSC sends an Assignment Fail message with the cause value of directed retry to the MSC before the BSC in Whether to enable a directed retry. The directed retry is to hand over an MS to a neighboring cell in the same procedure a Whether a cell is adirected repeater. With simpler functions thanareas a BTS, repeater consider is a coverage extension device of TRX a BTS. It is a congestion. If the retry always occurs in some of aa network, adjusting the sector and configur Because the BTS coverage increases, however, the total traffic improves accordingly. The setting of this parameter has effects on handovers. Repeaters use the asynchronous transfer mode (ATM) due to a gr Timer to control the duration in which the BSC prevents the handover of an MS from which the BSC receives the Disconne cannot be disconnected. To protect from such a disconnection failure, the BSC does not hand over the MS within the dura

Delay of transmit diversity when 16QAM Generally, theofparameter Whether to activate transmit diversity on is theused. common channel a 3G cell is applicable to general fading environments. Th coding may be adversely affected. To avoid the preceding cases, the delay of transmit diversity must be configurable and Delay transmit invalidof value 255. diversity when 32QAM is used. Generally, the parameter is applicable to general fading environments. Th coding may be adversely affected. To avoid the preceding cases, the delay of transmit diversity must be configurable and invalid value 255. Delay of transmit diversity when 8PSK is used. Generally, the parameter is applicable to general fading environments. The coding may be adversely affected. Therefore, the time delay of transmit diversity must be configurable and can be separat Whether to support transmitting diversity or four diversity receiving Minimum interval between two consecutive downlink power control commands

If the downlink receive quality level of an AMR full rate call is greater than this parameter, the call needs to undergo Huawe

If the downlink receive quality level of an AMR full rate call is smaller than this parameter, the call needs to undergo Huawe

If the downlink receive quality level of an AMR half rate call is greater than this parameter, the call needs to undergo Huaw

If the downlink receive quality level of an AMR half rate call is smaller than this parameter, the call needs to undergo Huaw

ID of the data link connection of the NSVC. It is an interworking parameter which must be consistent on the BSC and the p

If the ratio of downlink flux to uplink flux is greater than or equal to the threshold during the fast flux measurement, the dow

Whether the cell supports DLDC Threshold for downlink edge handover. If the downlink receive level remains less than this threshold for a period of time, th interference, and adjacent channel interference may occur when this threshold is set improperly. In addition, to ensure upli

Filter adjustment factor for downlink power control. Setting this parameter high helps to smooth the filtered values and to re

Upper quality threshold for Huawei power control generation III on a full rate call. If the downlink receive quality level of a fu

Lower quality threshold for Huawei power control generation III on a full rate call. If the downlink receive quality level of a fu

Expanded size of the GPRS RLC window. This parameter is used to expand the size of the GRPS RLC window. The expa

Upper quality threshold for Huawei power control generation III on a half rate call. If the downlink receive quality level of a h

Adjustment hysteresis of AMR downlink coding generation rate (full rate). According to call. a certain the radio indic Lower quality threshold1for Huawei power control III on a half rate If thealgorithm downlink and receive qualityquality level of ah which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others Adjustment coding rates.hysteresis 2 of AMR downlink coding rate (full rate). According to a certain algorithm and the radio quality indic which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others Adjustment coding rates.hysteresis 3 of AMR downlink coding rate (full rate). According to a certain algorithm and the radio quality indic which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others Adjustment coding rates.hysteresis 1 of AMR downlink coding rate (half rate). According to a certain algorithm and the radio quality indi which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others Adjustment coding rates.hysteresis 2 of AMR downlink coding rate (half rate). According to a certain algorithm and the radio quality indi which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others Adjustment coding rates.hysteresis 3 of AMR downlink coding rate (half rate). According to a certain algorithm and the radio quality indi which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others Adjustment coding rates.hysteresis 1 of AMR downlink coding rate (wide band). According to a certain algorithm and the radio quality in which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others Adjustment coding rates.hysteresis 2 of AMR downlink coding rate (wide band). According to a certain algorithm and the radio quality in which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others coding rates. Threshold for determining whether downlink interference exists. If the downlink level is equal to or greater than "Interf.of DL dBm.

Threshold for determining whether downlink interference exists. If the downlink level is equal to or greater than "Interf.of DL

When the downlink load of a cell is larger than the value of this parameter and is smaller than "2G Cell DL Overload Conge

Number of measurement reports sampled for averaging downlink signal strength. A single measurement report may not re

Lower voice quality threshold associated with the automatic adjustment of the AMR downlink handover threshold. The valu Target value of the voice quality automatically adjusted through the downlink threshold of AMR handover Upper voice quality threshold associated with the automatic adjustment of the AMR handover downlink threshold.

Factor of downlink threshold adjustment. It indicates the linear relation between the threshold adjustment value and the log Maximum step by which to decrease downlink power according to signal strength

Maximum step by which to increase downlink power according to signal strength Number of downlink measurement reports that the BSC predicts. The BSC takes a while to confirm the power control effec time environment. result, the power is late. Whenradio the downlink load As of aa cell is greater thancontrol the value, the downlink of the cell is in the overload congestion status. To prevent late power control to a certain degree, the power control algorithm involves a measurement report prediction filt This parameter specifies the number N.

Quality level threshold for decreasing downlink signal power. If the BTS transmits signals at a quality level less than this th

Quality level threshold for increasing downlink signal power. If the BTS transmits signals at a quality level greater than this

Number of measurement reports sampled for averaging downlink signal quality. A single measurement report may not refle

During downlink power control, if the downlink receive quality level is equal to or greater than "DL Qual, bad Trig Threshold

During downlink power control, if the downlink receive quality level is equal to or greater than "DL Qual, bad Trig Threshold

Downlink quality threshold for emergency handover. This parameter is represented as the product of 10 and a quality level

Downlink quality limit for emergency handover in an AMR full rate call. The value of this parameter corresponds to the qua

Downlink quality limit for emergency handover in an AMR half rate call. The value of this parameter corresponds to the qua

This parameter specifies the downlink signal strength factor multiplied by 10 during the calculation of the downlink power c

Length of the exponential filter for downlink signal strength. A single measurement report may not reflect the actual networ

Upper receive level threshold for downlink power control. If the downlink receive level is greater than this threshold, the po

Lower receive level threshold for downlink power control. If the downlink receive level is smaller than this threshold, the po

Length of the slide window filter for downlink signal strength. A single measurement report may not reflect the actual netwo

This parameter specifies the downlink quality level factor multiplied by 10 during the calculation of the downlink power cont Length of the exponential filter for downlink signal quality. A single measurement report may not reflect the actual network

Length of the slide window filter for downlink signal quality. A single measurement report may not reflect the actual network

A power control step cannot exceed the step computed according to "III DL RexLev Protect Factor" and "III DL RexQual P Upper threshold for downlink signal strength If downlink signal level isthe greater than this threshold, is computed. theDL power is decre A the power controlreceived step cannot exceed step computed according atopower "III DLdecrease RexLev Protect Factor"Then, and "III RexQual P Power decrease = downlink received signal level - ("DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold" Lower threshold for downlink signal strength The maximum power adjustment step allowed by the quality zone is chosen from "MAX Down Adj.Value Qual.Zone 0", "MA If the downlink received signal level is less than this threshold, a power increase is computed. Then, the power is increase Time between the Packet Uplink+Ack/Nack and setup of the DL TBF. After receiving Pack Powerinterval increase = ("DL sending RX_LEVofUpper Threshold" "AMR DL message RX_LEV Lower Threshold")/2 - downlink received the signal le CCCH, the MS fails to respond to the downlink assignment message. Therefore, a delay is required for establishing DL TB message properly. Interval for resending downlink test messages

Number of times of the BSC6900 resending downlink test messages after the downlink test function is enabled. If the BSC

Adjustment threshold 1 of AMR downlink coding rate (full rate). According to a certain algorithm and the RQI in the call me interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by an Adjustment threshold 2 of AMR downlink coding rate (full rate). According to a certain algorithm and the RQI in the call me interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by an Adjustment threshold 3 of AMR downlink coding rate (full rate). The adjustment thresholds and the hysteresis of coding rat (n + 1) + AMR Coding Rate adj.hyst (n + 1)], n = 1 or 2. Adjustment threshold 1 of AMR downlink coding rate (half rate). According to a certain algorithm and the RQI in the call me interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by an Adjustment threshold 2 of AMR downlink coding rate (half rate). According to a certain algorithm and the RQI in the call me interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by an Adjustment threshold 3 of AMR downlink coding rate (half rate). According to a certain algorithm and the RQI in the call me interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by an Adjustment threshold 1 of AMR downlink coding rate (wide band). According to a certain algorithm and the RQI in the call m interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by an Adjustment threshold 2 of AMR downlink coding rate (wide band). According to a certain algorithm and the RQI in the call m interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by an MDU board number when the antenna pass of downlink tributary A is selected MDU board number when the antenna pass of downlink tributary B is selected

Clock domain required by the slave side in the 1588V2 protocol. This parameter is valid when the 1588CLK type is configu

Coding scheme of the default GPRS downlink. Dynamic adjustment coding: the coding scheme used during initial access t

Default coding scheme of the downlink EDGE link. If the downlink adopts the dynamic adjustment coding scheme, this par

Default coding scheme used on the downlink EGPRS2-A link. If the downlink uses the dynamic coding scheme, this param

Fixed coding scheme that is used on the downlink EGPRS2-A link. If the downlink uses the fixed coding scheme, this para Adjustment mode of the downlink GPRS link coding scheme. If the fixed coding scheme is used, this parameter is set to a

Coding scheme of the downlink EDGE link. If the downlink uses the fixed coding scheme, this parameter is set to a value r

Whether to allow BTS power control Delay of releasing the downlink TBF. After the last downlink RLC data block is transmitted on the network side and all the t block is retransmitted continuously so that short the downlink TBFIf isnecessary, not released. the downlink delay release, if the uppe Whether to prohibit sending point-to-point messages. this During parameter is used for controlling whether to s delay releasing to downlink transmitting. In addition, the MS must respond to the Packet Downlink Ack/Nack message thro Downlink Ack/Nack with the channel request description. If this parameter is set to 0, the release delay of downlink TBF is

Retransmission threshold when the coding mode of the downlink TBF is changed from CS2 to CS1. When the downlink TB

Retransmission threshold when the coding mode of the TBF is changed from CS3 to CS2. When the TBF retransmission r

Retransmission threshold when the coding mode of the downlink TBF is changed from CS4 to CS3. When the downlink TB

Retransmission threshold when the coding mode of the downlink TBF is changed from CS1 to CS2. When the TBF retrans

Retransmission threshold when the coding mode of the TBF is changed from CS2 to CS3. When the downlink TBF retrans

Retransmission threshold when the coding mode of the downlink TBF is changed from CS3 to CS4. When the downlink TB Door status alarm switch Dual-antenna gain used to estimate the downlink power during assignment As an integer, the DSP code can be expressed by a decimal digit or a hexadecimal digit. If the DSP code is expressed by DSP code expressed in the format of segments 8-8-8

As a key field for identifying the block of A interface CIC status, it indicates the DPC group index of the circuit ID of the A in

DSP Index of DPC group. Indextype. of a the DPC group. see "ADD GCNNODE" command. STP: the signaling transfer point. Whenindicates multiple DPCs or one DPC serves as a logical entity, this logical entity is called a DPC group. A: indicates the signaling point of the A interface control When the MSC pool function is activated, the user planesignaling resourcesplane. on the A interface are shared among the MSCs in the p IUR_G: indicates the signaling point of the base station controller that is connected to the BSC. LB: indicates the signaling point of the LB interface.

The DSP index uniquely identifies a DSP. Iur-g DPC index of a neighboring RNC Maximum signal level difference between the neighbor cell and the serving cell for triggering directed retry Whether to optimize the call drops resulting from Abis territorial link fault. The value 0 means "optimize" and 1 means "not

Whether to optimize the call drops resulting from connection failure (handover access failure). The value 0 means "optimiz

Whether to optimize the call drops resulting from connection failure, operation and maintenance (OM) intervention. The va Whether to optimize the call drops resulting from a connection failure except for handover access failure, OM intervention, into the statistics of call drops.

Whether to optimize the call drops resulting from connection failure (radio link failure). The value 0 means "optimize" and 1 Whether to optimize the call drops resulting from connection failure (unavailability of radio resources). The value 0 means

Whether to optimize the call drops resulting from equipment fault. The value 0 means "optimize" and 1 means "not optimiz

Whether to optimize the call drops resulting from error indication (unsolicited DM response). The value 0 means "optimize"

Whether to optimize the call drops resulting from error indication (sequence error). The value 0 means "optimize" and 1 me

Whether to optimize the call drops resulting from error indication (T200 timeout). The value 0 means "optimize" and 1 mea

Whether to optimize the call drops resulting from forced handover failure. The value 0 means "optimize" and 1 means "not

Whether to optimize the call drops resulting from incoming-BSC handover timeout. The value 0 means "optimize" and 1 me

Whether to optimize the call drops resulting from outgoing internal inter-cell handover timeout. The value 0 means "optimiz

Whether to optimize the call drops resulting from intra-cell handover timeout. The value 0 means "optimize" and 1 means "

Whether to optimize the call drops resulting from no MS measurement reports for a long time. The value 0 means "optimiz

Whether to optimize the call drops resulting from outgoing-BSC handover timeout. The value 0 means "optimize" and 1 me

Whether to optimize the call drops resulting from release indications. The value 0 means "optimize" and 1 means "not optim

Whether to optimize the call drops resulting from resource check. The value 0 means "optimize" and 1 means "not optimize

If the duration for buffering the data in queue 0 is more than or equals to the value of this parameter, the subsequent pack

If the duration for buffering the data in queue 1 is more than or equals to the value of this parameter, the subsequent pack

If the duration for buffering the data in queue 2 is more than or equals to the value of this parameter, the subsequent pack

If the duration for buffering the data in queue 3 is more than or equals to the value of this parameter, the subsequent pack

If the duration for buffering the data in queue 4 is more than or equals to the value of this parameter, the subsequent pack

If the duration for buffering the data in queue 5 is more than or equals to the value of this parameter, the subsequent pack This parameter specifies the interval at which the power of a TRX is continually decreased.

This parameter specifies the delay time before decreasing the power of in thethe TRXs. Duration of the timer for entering the DRX mode. DRX is the parameter cell broadcast message. It indicates non-con period when the MS is in non-DRX mode, the MS monitors all the CCCH blocks the BSC stores thethe context MS Whether to support the discontinuous reception mechanism (DRX). To reduce power consumption, DRX of is the introduc This parameter specifies the step by which the power of a TRX is decreased atthe aand time. MS. Normally, this value is greater than that of DRX_TIMER_MAX. Therefore, the value of DRX_TIMER_MAX is used. BSCs supporting the DRX must send scheduling messages to MSs so that the MSs can use the DRX function. The period 0: switch to DRX mode immediately; message to the be broadcasted and the position of each broadcast message in the scheduling period. 1: switch to the DRX mode in one second. Value n indicates that the MS enters the DRX mode n seconds later. Whether to start the dehumidification equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Number of the E1T1 port for bearing the PPP link

Number of the E1T1 port for bearing the PPP link

The DSCP is a field of the IP data packet. It is used to assign the differentiated service to the communication networks. Th Service code of the PING command, used to identify the PING command Differentiated service code is used to identify the service priority of the user.

DSCP to be contained in the header of an IP packet. According to this parameter, the router provides differentiated service Duration for recovering all the DSPs. This timer is started when the first DSP is recovered. When all the DSPs of the local Meanings:DSP No. Value range:0~21 Number of the DSP. If you do not specify this parameter, all DSPs are specified. Content:none Recommended value(default value):none Number of the DSP where the alarm is generated Number of the DSP in the DPU board

Target DSP number This parameter specifies the value of the timer set to wait the fault recovery before the cell redistribution on the DSP. When expires. Whether daylight saving time has to be used Name of the destination file Destination IP address Destination IP address of BFD Session. Destination IP address Subnet mask Subnet mask of BTS Route. Destination of timeslot cross Target timeslot mask Threshold of the load in the target cell for the directed retry. Only a cell whose load is lower than or equal to this threshold

Type of the DRX supporting the VGCS service. An MS reads the NCH only when a new notification message of group call Downlink TRX index number of the newly added board Index number of the downlink tributary TRX board pass number connected with the downlink tributary TRX board pass number connected with the downlink tributary Number of the slot where the TRX board that connects to downlink tributary is located Number of the slot where the TRX board that connects to downlink tributary is located Number of the subrack where the TRX board that connects to downlink tributary is located Number of the subrack where the TRX board that connects to downlink tributary is located

Whether a BTS randomizes the dummy bits in all the signaling messages that the BTS sends to an MS. That is, dummy bi The duplex mode of FE port is duplex or half-duplex. Duration for starting the BTS test

Duration for starting the TRX idle timeslot test Duration for starting the BTS test

Duration for starting the TRX idle timeslot test Downlink multiplex threshold of dynamic channel conversion. When the subscriber number on the channel reaches the val Multiplex Threshold" for triggering converting dynamic channel in time and reducing PDCH multiplex.

An MS can be used to test the Um interface software synchronization only when the DL signal strength after the power con Number of a DXX. It is unique in one BSC6900 and uniquely identifies a DXX. Number of a DXX. It is unique in one BSC6900 and uniquely identifies a DXX.

Number of the upper DXX port Mode ofwait preempting the dynamic channel for the CS the domain PSdynamic domain.channel Only theischannel configured theTBFs TCH/F Time to for releasing the dynamic channel after TBF and on the released. When allinthe on m th "Preempt all dynamic TCHFs" indicates the circuit domain can preempt all the dynamic channels. channel is still occupied and timer is stopped; otherwise, the dynamic channel is released after the timer expired. "No preempt of CCHs" indicates the circuit domain can preempt all the dynamic channels except the CCHs. "No preempt of service TCHF" indicates the circuit domain cannot preempt all the dynamic channels of bearer services.

Number of full-rate TCHs reserved for the CS domain. This parameter is valid only when "Level of Preempting Dynamic Ch This parameter specifies whether to allow the BSC6900 to enable the TRX Intelligent Shutdown feature on a cell. Whether to enable the cell to support dynamic transmit diversity or dynamic PBT Duration for the test in E1 mode Number of the E1 port. For the BTS3012, BTS3012AE, BTS3012 II and the UTRP board in SingleRAN BTSs, the number Number of the E1 port on the BTS connected to the BSC. Type of the transmission board E1/T1 port number

Number of the E1/T1 port from which the BTS extracts the transport clock. This parameter is valid only when the clock type Number of the port extended by the backboard TOP communication mechanism of the BTS. The TOP relation can be conf indicates the number of the E1/T1 port on the backplane of the primary BBU and the range 24-27 indicates the number of Type of the E1/T1 from which the BTS extracts the transport clock. This parameter is valid only when the clock type is set

Peer IP address to be checked. The input address (CHKIPADDR) must be the address (regardless of the network segmen As a performance counter for 3G cells, Ec/No indicates the ratio of the energy per received chip to the spectral noise powe If the Ec/No of a 3G neighbor cell is greater than "HOECNOTH3G" plus this parameter, the neighbor cell is listed in the can

Threshold for determining the layer of the 3G neighbor cell. If the Ec/No of the 3G neighbor cell is less than this threshold, The early classmark sending control (ECSC) parameter specifies whether the MSs in a cell use early classmark sending. information. The CM3 (classmark 3) information contains the frequency band support capability of the MS (used for the fu

End serial number of the alarm record If the current system flow control level is greater than this parameter, the handover between the underlaid and overlaid sub Date when the scheduled task is stopped system flux level is the current flux control level of the system. End date of the alarm record. By default, the end date is 2037-12-31. 0-11: There are 12 flow control levels. Where, 0 indicates the lowest level and 11 indicates the highest level. End date of the alarm record. By default, the end date is 2037-12-31. The handover performed over the maximum threshold may have tremendous impacts on the system. Thus, this parameter End dateAll Threshold - Inner Flow Control Discard Begin Threshold) x 100]/10+1 (round-down for division operation). If the Discard range is from 0 to 11. End date of the daylight saving time According to the P/N rule, if the conditions for the handover between the subcells of an enhanced dual-frequency network 2) Flow control threshold for the CPU P. to start to discard the channel access messages and paging messages: 80% This parameter specifies the number According to the P/N rule, if the conditions for the handover between the subcells of an enhanced dual-frequency network .This Flow control threshold CPU toN.discard all channel access messages and paging messages: 100% parameter specifiesfor thethe number

. CPU usage smaller than 80% corresponds to level 0. CPU usage equal to or greater than CPU flow control threshold 80%

Whether the current cell supports EDGE According to the P/N rule, if a neighbor cell meets the conditions for selecting the neighbor cell for edge handover in P of N This parameter specifies the number P. According to the P/N rule, if a neighbor cell meets the conditions for selecting the neighbor cell for edge handover in P of N This parameter specifies the number N. According to the P/N rule, if the conditions for edge handover are met in P of N measurement reports, the handover is trigg This parameter specifies the number P. According to the P/N rule, if the conditions for edge handover are met for P seconds within N seconds, the handover is trig This parameter specifies the number P. According to the P/N rule, if the conditions for edge handover are met in P of N measurement reports, the handover is trigg This parameter specifies the number N. According to the P/N rule, if the conditions for edge handover are met for P seconds within N seconds, the handover is trig This parameter specifies the number N. Effect Immediately Flag(reserve) Whether to support the 11-bit EGPRS access request Whether the current cell supports EGPRS2-A

Used for EDGE 8PSK transmission quality statistics. If MEAN_BEP is less than or equals to this threshold, the transmissio

Used for EDGE GMSK transmission quality statistics. If MEAN_BEP is less than or equals to this threshold, the transmissio

Type of the end date. "WEEK" indicates that the end date is a weekday. "DATE" indicates that the end date is a month day Priority level of an emergency call. If this parameter is set to 15, the functions of reserving TCHs for emergency calls and p be used for TCH preemption. The value 1 means the highest priority and 14 means the lowest. Whether to verify the centralized signaling link in the case of the link establishment. ON: emergency verification, that is, the signaling link can be ensured. You are advised to use the normal verification. That is, the emergency verification switch is

Error emit threshold. Whether to allow the function of enhanced multi-level precedence and preemption (eMLPP). With the eMLPP function ena when preemption occurs, the lowest Differentiated service codethe of MS the with specified EML priority initiates a handover, and the MS with a higher priority seizes the i The eMLPP has up to seven priorities: A, B, 0, 1, 2, 3, and 4. The two highest priorities A and B are internally reserved for With the support of the MSC, HLR, and mobile terminal (containing a SIM card), the eMLPP function can be perfectly imple

Indicating whether the eMLPP function is enabled in a cell and indicating the eMLPP priority of the cell. From high to low, t

Whether to include the eMLPP Priority information element in the Paging Command message over the Abis interface when Service priority of the specified EML Service priority of the extension maintenance link (EML).0 is the highest priority. Specified EML Vlan Id Month on which DST ends IP address of the NE management system Whether to enable the fallback function for the BTS Whether to enable the power supply of the TMA Encryption mode used when the NE serves as the FTP client AUTO: indicating thatsupported the FTP client automatically Encryption algorithm by the BSS side selects the encryption mode Encryption mode supported when thetext NE mode servesisas the forcibly. FTP server PLAINTEXT: indicating that the plain used AUTO: indicating that the FTP client automatically selects encryption mode ENCRYPTED: indicating that the encrypted mode is used the forcibly. PLAINTEXT: indicating that the plain text mode is used forcibly. ENCRYPTED: indicating that the encrypted mode is used forcibly.

Whether to enable end-to-end user tracing for the BSC. If this parameter is set to YES, the BSC starts end-to-end user tra End number of the alarm record

It indicates the end CIC of the A interface CIC segment. When operation mode is set to OPC index, DPC group index, BSC

It indicates the end CIC of the Pb interface CIC segment. If the search object mode is set to search by the specified range,

This parameter specifies the end date of a period during which the TRX Intelligent Shutdown feature is disabled. If the ambient temperature reaches the value of this parameter, the heater is shut down. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para This parameter specifies the end month of a period during which the TRX Intelligent Shutdown feature is disabled. Number of the end sub-timeslot This parameter specifies the time for dynamically disabling the TRX Intelligent Shutdown feature each day. It indicates the end CIC of the Ater interface CIC segment.

It indicates the end CIC of the A interface CIC segment. When Operation mode is set to subrack No., slot No., port No., or Number of the end timeslot Status of the scheduled task. This parameter determines whether to start the scheduled task. Status of the scheduled subtask to be added

If the load of the underlaid subcell is greater than this threshold, certain calls in the underlaid subcell are handed over to th Whether concentric cell algorithm in a concentric Whether to to enable supportthe PSenhanced downlink MAC back pressures in GSM. When the cell. buffer is overflowed, the L2 transmission rate is l If a cell supports the enhanced concentric cell function, when an handover or an underlaid-to-overlaid blocks may occur. When "User Plane DL Flow Ctrl Switch" is set overlaid-to-underlaid to "ON", the LDR needs to be disabled through the "SET decide whether to trigger an enhanced concentric cell handover. If thesupport overlaidthe subcell are handed overcell to the underlaid when the seizurelevel ratiovalue of thewith underla If all thethe cellcalls doesinnot enhanced concentric function, the subcell MS compares thechannel actual receive the based handover algorithm is used to hand over the calls from the overlaid subcell to the underlaid cell level by level. This parameter specifies the period of the handover at each hierarchy level. Signal level step for the hierarchical load-based handover from the overlaid subcell to the underlaid subcell

If the load of the underlaid subcell is less than this threshold, certain calls in the overlaid subcell are handed over to the un

When this parameter is set to "ON", if there are no available Abis transmission resources, a high-priority user can preempt

When this parameter is set to "ON", if there are no available Abis transmission resources, the BSC6900 starts the queuing If the load of the underlaid subcell is greater than this threshold, the period of the load-based handover from the underlaid

Type of destination entity. For see RFC4666. Type of the the M3UA local entity. Fordetails, details about the IPSP, see RFC4666. Whether to enable the cell to centralize two busy halfASP rateand TCHs in different timeslots into one timeslot through handover a M3UA_ASP: suggested to use when there is a M3UA_ASP: suggested to use when there is a signaling signaling transfer transfer point point (STP) (STP) between between the the local local entity entity and and the the destination destination e e M3UA_IPSP: suggested to use when there is no signaling transfer point (STP) between the local entity and the M3UA_IPSP: suggested to use when there is no signaling transfer point (STP) between the local entity and the destination destination M3UA_SS7SP: suggested to use when the destination entity is a narrowband signaling point M3UA_SP: represents all types of the destination entity

Initial signal level used to compute the handover zone for an MS during the hierarchical load-based handover from the und Whether to enable the enhanced packet loss concealment (EPLC) function

Return code of the command. If this parameter is specified, only the corresponding record is displayed. If this parameter is

Whether to disable emergency calls. For the MSs of access levels 0 to 9, if the value of this parameter is NO, emergency c Error-frame alarm threshold Error-frame detect switch Differentiated service code of the specified ESL Service priority of the ESL

Priority of a service running over an extended signaling link (ESL). ESLs are used for more reliably transmitting important s Specified ESL Vlan Id End synchronization number of the alarm record

Timer for the BSC waiting for an Establish Indication message after sending an Immediate Assignment message. If T3101

Whether to add the TA value to a complete layer-3 message to provide the LCS function on the A interface

When the OML is switched to a port where the connection is successfully established, the switchover cannot be performed End time of DST The operation time of the log record is prior to this time. If this parameter is not specified, the end time is not limited.

Execution of the commands Time whenmode the scheduled subtask is stopped. If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you 1. ONE_BY_ONE: indicating that the commands are executed one by one according to the execution sequence. Only one 2. PARALLEL: indicating that multiple commands are executed in parallel. Multiple commands can be executed once. The operation time of the log record is prior to this time. If this parameter is not specified, the end time is not limited. End time of the alarm record. By default, the end time is 23:59:59. End time of the alarm record. By default, the end time is 23:59:59.

End date and time of a broadcast message. This is a key parameter for identifying a simple cell broadcast message. You c End date of the user operation. Input format: YYYY&MM&DD End time Type of the log to be queried. The result is displayed by the specified type. End time of the user operation. The input format of this parameter is HH&MM&SS. Weekday on which DST ends Sequence of the end week of DST

Upper limit of extended output analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of this p

Lower limit of extended output analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of this pa Sensor type of extended analog signal 1

Maximum measurement range of extended analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the Minimum measurement range of extended analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the

Upper limit of extended output analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of this pa

Lower limit of extended output analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of this pa Sensor type of extended analog signal 2

Maximum measurement range of extended analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the Minimum measurement range of extended analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the

Upper limit of extended output analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of this pa

Lower limit of extended output analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of this pa Sensor type of extended analog signal 3

Maximum measurement range of extended analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the Minimum measurement range of extended analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the

Upper limit of extended output analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of this pa

Lower limit of extended output analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of this pa Sensor type of extended analog signal 4

Maximum measurement range of extended analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the Minimum measurement range of extended analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the

Whether it is a SoLSA exclusive access cell. If it is a SoLSA exclusive access cell, only the MS subscribing the Localised S

Threshold for the rate of the number of bad frames to the total number of TRAU frames. If the bad frame rate exceeds this

Received signal strength at an MS expected in power forecast, which helps to compute the initial transmit power of the BT

Received signal strength at the BTS expected in power forecast, which helps to compute the initial transmit power of an M

ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC6900. The cells in the BSC are numbered sequential Name of the cell ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC. The cells in the BSC are numbered sequentially. Name of the cell Index of the cell in the adjacent BSC Name of the cell in the adjacent BSC

Whether to support the downlink throughput enhancement function of the dual timeslot cell. When this switch is turned on, Whether to enable alarm extension input for the BTS

Type of an measurement Whether theextension network requires an MSreport. to send an extension measurement report There are three types of extension measurement reports: type 1, type 2, and type 3. Type 1: No matter whether the BSIC was decoded, reports the MS sends the network a measurement report on the six strongest T Time interval between two extension measurement Type 2: The MS sends the network a measurement report on the six strongest TRXs. For the six carriers, the BSIC must b Type 3: The MS does not need to decode the BSIC for the TRXs that the measurement report concerns. The measuremen Whether a cell is an extension cell. A double-timeslot extension cell regards an additional TDMA frame as access delay extension. In theory, the supported TA

Whether to send the Dummy message during the deactivated period of the extended uplink TBF Interval of sending a paging message or notification message on the FACCH. Messages on the FACCH are sent in the mo paging or notification message on the FACCH for the purpose of reducing the impact on the voice quality.

Whether to allow sending notification messages on the FACCH. If the value of this parameter is YES, an MS engaged in a

Whether to allow sending paging messages on the FACCH. If the value of this parameter is YES, an MS can receive a pag Activation factor switch

If this parameter is set to ON, the BSC assigns the channels in the TRXs of the cell in a polling manner. Therefore, each T

Penalty signal level imposed on a target cell to which the handover fails due to congestion or poor radio quality. This pena Continuous speed adjustment Discrete speed adjustment Duty ratio-based speed adjustment Fan adjustment mode Type of the fan Fan adjustment mode

Type of the fan box After a channel request message is received, the type of the channel needs to be specified. In this case, if the threshold of assigned. Ring II function switch. The parameter should be set to "YES" when the ring II function is enabled.

Whether to enable the memory self-check and self-healing function

Whether to send and process the flow control frame on the physical layer. The setting of this parameter must be negotiate

If the parameter is set to "YES", it indicates that some data packets are discarded to ensure the basic functions of the BTS

Threshold for stopping RSL flow control. If the occupancy of the LAPD queue is less than this threshold, the BSC6900 stop Flow control parameter index Flow control parameter index Flow control parameter index Flow control parameter index Flow control parameter index Flow control parameter index Flow control parameter index Cabinet No. of the parent BTS Cabinet No. for the port of the father BTS

Threshold for starting RSL flow control. If the occupancy of the LAPD queue is greater than this threshold, the BSC6900 st CRC verification mode of PPP link. CRC verification mode of MP link.

Flow control switch. Other switches are valid only when "Flow control switch" is "ON". Float charging voltage. Float charging compensates the discharged capacity of the battery so that the battery can be charg Offset of a FDD cell Input mode ofascenario, the BAreport. lists. In multi-mode value of parameters this parameter in one mode must bebethe sametoas the value of theofcorresponding This parameter specifies one of the for FDD reselection. Threshold of FDD cell report. When the priority of athe 3Gthe cell is sequenced, the and value of cell this parameter added the receive level the 3G cell in para the m AUTO: In this mode, system fills inif the BA1 BA2 lists according to neighboring relations of cells. A FDD cell becomes a candidate cell alltothe following conditions areexceeds met for five consecutive seconds: When the receive level value in the measurement report of a 3G cell the value of this parameter, the measuremen The values of this parameter correspond the following decibel values: MANU: In this mode, can maintain thetoreceive BA byof yourself. If theserving neighboring relations of cells are changed, for exam 1.Receive level of parameter theyou FDD cell > Average level the current cell + "FDD Q offset"; The values of this correspond thetables following decibel values: 0: 0 dB The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive 0: 0 dB 1: 6 dB This parameter indicate whether to generate the FDD BA2 table automatically according to neighbor cell relations or to inp 2. Ec/No of the FDD cell > "FDD Qmin" "FDD Qmin Offset"; 1: 6 dB ... 3. ... 7: Receive 42 dB level of the FDD cell > "RSCP Threshold"; If 6:multiple 36 dB FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level. This parameter one25.304. of the thresholds of the signal level for 3G cell reselection. See 3GPP TSs specifies 45.008 and 7: positive infinity A FDD cell becomes a candidate cell if alltothe are met for five consecutive seconds: The values of this parameter correspond thefollowing followingconditions decibel values: 1.Receive level of the FDD cell > Average receive level of the current serving + "FDD Q offset"; Diversity of a 3G cell. Thiscell parameter indicates whether transmitcell diversity mode the cell common channel in a 0: -20 dB,indication Minimum level threshold of UTRAN reselection. During theneighboring cellthe reselection decision fromlevel aon GSM to a FDD this The FDD cell meets the following condition in the case of any 2G cell: Receive of the FDD cell >cell, Receive 1: -6 dB, are met for five consecutive seconds: conditions 2. of the FDD number cell > "FDD Qmin" Qmin Offset"; Downlink frequency that for an Ec/No MS -in"FDD the connected mode retrieves from the 3G neighboring cell list. The numbers ar Offset of the minimum threshold during alevel FDD 2: Ec/No -18 dB, 1.Receive level of the FDD cell >>Average receive ofcell thereselection. current serving cell + "FDD Q offset"; 3. Receive level of the FDD cell "RSCP Threshold"; A FDD cell becomes a candidate cell if all the following conditions are met 2G for five seconds: 3: -8 dB, The FDD Ec/No cell meets the following condition in the case any neighboring cell:consecutive Receive level of the FDD Minimum ofthe the 3G FDD cell candidate If multiple FDD cells meet the preceding conditions, theof MS reselects the cell with the strongest receive level.cell > Receive 1.Receive level of FDD cell > Average receive level of the current serving cell + "FDD Q offset"; 4: -16 dB, 2. Ec/No of the FDD cell > "FDD Qmin" "FDD Qmin Offset"; See 3GPP TSs 45.008 and 25.304. The FDD meets theFDD following inincluded the caseinofmeasurement any neighboring 2G cell: Receive level of the FDD cell > Receive 5: -10 dB, 3. Receive level ofparameter the cell > condition "RSCPto Threshold"; Number ofcell UTRAN FDD cells that should be report The values of this correspond the following decibel values: 2. Ec/No of the FDD cell > "FDD Qmin" "FDD Qmin Offset"; 6:multiple -14 dB, FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level. If 0: (always select cellFDD if acceptable) 3. of athe cell > "RSCP Threshold"; 7: -Receive -12 dB. level See 3GPP TSs 45.008 and 25.304. 1: -28 dB, If multiple FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level. The values of this parameter correspond to the following decibel values: 2: -24 dB, TSs See 3GPP 45.008 and 25.304. 0 ...= -114 dBm, 1 = 28 -112 dBm, 15: dB. 2 = -110 dBm, ... This parameter specifies whether Ec/No or RSCP is used for the measurement report on a FDD cell. Ec/No stands for the 14 = -86 dBm, 15 = -84 dBm.

Minimum RSCP of the 3G FDD cell candidate Scrambling code of a 3G cell, used for distinguishing MSs or cells. Scrambling codes are used after spreading. Therefore, On the uplink, the scrambling function is used for differentiating MSs. On the downlink, the function is used for differentiatin

Number of CPU usage sampling times for fast judgment. The value of this parameter must be of half size of "Filter window

Whether the BTS reports the frame erase ratio in a measurement report or preprocessed measurement report If the FER carried in the measurement report (MR) received is lower than or equal to "FER threshold 1", the value of "FER Level N" is incremented by one.

If the FER carried in the MR received is greater than "FER threshold 2" but meanwhile lower than "FER threshold 3", the v

If the FER carried in the MR received is greater than "FER threshold 3" but meanwhile lower than "FER threshold 4", the v

If the FER carried in the MR received is greater than "FER threshold 4" but meanwhile lower than "FER threshold 5", the v

If the FER carried in the MR received is greater than "FER threshold 5" but meanwhile lower than "FER threshold 6", the v

If the FER carried in the MR received is greater than "FER threshold 6" but meanwhile lower than "FER threshold 7", the v

This specifies the received frequency mode"FER of a threshold cell. When7", this is set7toand "NO_FH", the N" TRXs of the If theparameter FER carried in the MR is hopping greater than theparameter value of "FER Quality all Level is increm hopping on the cell. When this parameter is set to "RF_FH", the cell is in RF frequency hopping mode. In this case, there c frequency hopping, some cells on the cell must join in RF frequency hopping, and some cells on the cell must not join in fre

The name of the file cannot contain the path and suffix. The suffix is automatically added. The name of the file is compose Path of the target file

Name of the backup file. The file name is composed of English letters, numerals, and common symbols, and the character Path to save the exported file. The path must be a valid path on the OMU server. If the OMU runs the LINUX system, the i If the relative path is used, the root directory is same as that of the OMU installation directory. That is, if the OMU software Type of the alarm log file to be exported

Maximum number of former values when the receive level of the serving cell or the receive level of the neighbor cell is filte Execution result. If you select "FALSE", only the records of failed operations are displayed. If you select "TRUE", only the records of succes

Whether to enable 0.2 dB downlink power control. This power control function improves the power control precision. Whether to start the fire-extinguishing equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

This parameter specifies the static Abis resource load threshold. If the static Abis resource load is less than the static Abis Time threshold for delaying the report of a clear alarm. If the alarm recurs within the time specified by this parameter after

Time threshold for delaying the report of an alarm. If the alarm is cleared within the time specified by this parameter, the al

Whether to enable the filtering of the intermittent alarms. If the value of this parameter is "DISABLE", "Flash Statis Alarm R

Time window for observing the clearance of the intermittent alarms. In this time window, the BTS statistical alarm is cleared

Service timeslot mode for the BTS. If this parameter is set FIX_16K_ABIS, thethis BSC6900 assigns fixedstat Ab Time window for assignment observing the intermittent alarms generated during thetostatistical period. In time window, thea BTS utilization. If this parameter is set to SEMI_ABIS, the BTS to which a TCH belongs assigns a fixed Abis transmission times not support this parameter. Whether to enable the function of Flex mobile allocation index offset (MAIO). In the tight frequency reuse case of the GSM or co-channel interference between channels can be reduced partially.

Whether to enable the function of the Flex training sequence code (TSC). If the value of this parameter is ON and the BTS Period of collecting the traffic statistics

Fast flux measurement period. The ratio of the uplink flux to the downlink flux is calculated at the interval specified by this p Port flow control switch Link flow control switch Link flow control switch Logical port flow control switch Port flow control switch

One of the nine parameters (filter parameters A1 to A8 and filter parameter B) used to configure the filter for determining w C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) One of the nineflow parameters (filterisparameters A1threshold to A8 andfor filter parameter B) the used to configure the filter for dropping determining w If C1(nt) isport less than B andswitch C(nt) less than the edge handover, signal level is considered rapid Specified control C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates One of the nine parameters (filterisparameters A1threshold to A8 and filter parameter B) the used to configure the filter for dropping determining w If C1(nt) is less and C(nt) lessmaximum than the for edge handover, signal level is considered rapid Setting the filterthan helpsB to configure the allowed signal level drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates One of the nine parameters (filterisparameters A1threshold to A8 and filter parameter B) the used to configure the filter for dropping determining w If C1(nt) is less and C(nt) lessmaximum than the for edge handover, signal level is considered rapid Setting the filterthan helpsB to configure the allowed signal level drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates One of the nine parameters (filterisparameters A1threshold to A8 and filter parameter B) the used to configure the filter for dropping determining w If C1(nt) is less and C(nt) lessmaximum than the for edge handover, signal level is considered rapid Setting the filterthan helpsB to configure the allowed signal level drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates One of the nine parameters (filterisparameters A1threshold to A8 and filter parameter B) the used to configure the filter for dropping determining w If C1(nt) is less and C(nt) lessmaximum than the for edge handover, signal level is considered rapid Setting the filterthan helpsB to configure the allowed signal level drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates One of the nine parameters (filterisparameters A1threshold to A8 and filter parameter B) the used to configure the filter for dropping determining w If C1(nt) is less and C(nt) lessmaximum than the for edge handover, signal level is considered rapid Setting the filterthan helpsB to configure the allowed signal level drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates One of the nine parameters (filterisparameters A1threshold to A8 and filter parameter B) the used to configure the filter for dropping determining w If C1(nt) is less and C(nt) lessmaximum than the for edge handover, signal level is considered rapid Setting the filterthan helpsB to configure the allowed signal level drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates If C1(nt)the is less and C(nt) is the lessmaximum than the threshold for edge the signal level is considered dropping rapid Setting filterthan helpsB to configure allowed signal levelhandover, drop degree. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates Setting the filter helps to configure the maximum allowed signal level drop degree.

Maximum transmit power level of MSs. of the cell reselection parameters message 3, this parameter iswh u Trend of the received signal level of theAs cellone during a period. This parameter helpsintosystem configure the filter for determining In a GSM900 cell, the maximum power control level of an MS ranges from 0 to 19, corresponding respectively to the follow minimum transmit power supported MStransfers is level 19 (corresponding to 5buffer dBm).toOther transmit levelsthese are reserv This parameter determines whether by thean BSC the LLC PDUs in the the target cellpower or discards LLC In a GSM1800 or GSM1900 cell, the maximum power control level of an MS ranges from 0 to 31, corresponding respective is level 0 (corresponding to 30 dBm). The minimum transmit power supported by an MS is level 15 (corresponding to 0 dBm Type of the FMUA board Name of the electronic label file Name of the file Name of the file Name of the file. The following special characters are not allowed in the file name: \, /, :, *, ?, ", <, >, |, (, ), &, and $. Name of the specified file. By default, the file is in the OMU active-area path \ftp\license folder. File name of the software to be downloaded

File name of the software to be downloaded.The file name must be with the extension of *.zip.If you do not enter the file na

Switch specifying whether to allow the downlink EGPRS TBF and the uplink GPRS TBF to share the same channel. On: al Length of the timer for determining the intermittent disconnection of the SS7 link to the DPC. When the time of SS7 link dis any operation. Time limit for restraining the noise level Whether the forced phase-2 access is allowed for the MSs Whether to forcibly enable the EFR function. When this parameter is set to YES, if both the MS and the BSC6900 support

Whether an MS is forced to send a Handover Access message, which is indicated by an information element in the handov Port No. of the father BTS connected with the BTS Number of the port for the destination father BTS Maximum time of delay for multiplexing. This parameter is used for the system to send the multiplexed data. If the time for Whether to generate the frequency and BSIC by using the automatic optimization algorithm

If this switch is on, it indicates that the frequency and BSIC are generated automatically. If this switch is off, it indicates tha

If this switch is on, it indicates that the frequency and BSIC are generated automatically. If this switch is off, it indicates tha MP segment size,the length of packet should be bigger or equel with it. Frame offset of the BTS clock

Based on different requirements, you can set different time points for the scheduled task. Seven time modes are available: 1. ONTIME: When this parameter is set to "ONTIME", the command is executed once only at the specified time point. 2. DAILY_T: When this parameter is set to "DAILY_T", the command is executed every day. You can also set up to five ti Frame offset. The frame technology arranges the frame numbersisofexecuted different cells the same BTS be differen 3. DAILY_C: When this offset parameter is set to "DAILY_C", the command everyunder day. You can set thetostart time a the cell is not offset. If the value is 255, this parameter is not sent. If the parameter is set to a value except for 0 and 255, t 30 minutes. according to the value of this parameter. 4. WEEKLY_T: When this parameter is set to "WEEKLY_T", the command is executed every week. You can set the day 5. WEEKLY_C: Whendiscontinuous this parameter is set to "WEEKLY_C", theiscommand is executed every week. can set the day Whether the downlink transmission (DTX) function enabled for full rate (FR) calls. ThisYou function is also res execution interval is one week and the default time interval is 30 minutes. 6. MONTHLY_T: Whenthe this is set to "MONTHLY_T", thetime command is two executed month. You canindicates set the Time mode used when logparameter is exported. "ONTIME" indicates the between exact every time. "RELATIVE_T" 7. MONTHLY_C: When this parameter is set to "MONTHLY_C", the command is executed every month. You can set the default execution interval is one month and the default time interval is 30 minutes. Frequency of the TRX Frequency 1 Frequency 10 Frequency 11 Frequency 12 Frequency 13 Frequency 14 Frequency 15 Frequency 16 Frequency 17 Frequency 18 Frequency 19 Frequency 2 Frequency 20 Frequency 21 Frequency 22 Frequency 23 Frequency 24 Frequency 25 Frequency 26 Frequency 27 Frequency 28 Frequency 29 Frequency 3 Frequency 30 Frequency 31 Frequency 32 Frequency 33 Frequency 34 Frequency 35

Frequency 36 Frequency 37 Frequency 38 Frequency 39 Frequency 4 Frequency 40 Frequency 41 Frequency 42 Frequency 43 Frequency 44 Frequency 45 Frequency 46 Frequency 47 Frequency 48 Frequency 49 Frequency 5 Frequency 50 Frequency 51 Frequency 52 Frequency 53 Frequency 54 Frequency 55 Frequency 56 Frequency 57 Frequency 58 Frequency 59 Frequency 6 Frequency 60 Frequency 61 Frequency 62 Frequency 63 Frequency 64 Frequency 7 Frequency 8

Frequency 9

Frequency Used for the fast-moving handover of this parameter must be transla Whether to correction enable theparameter. automatic frequency correction algorithm. Thisalgorithm, parameterthe is value used for the fast-moving handover algo error ratio (BER). The BSC6900 sends this parameter to the BTS, which adjusts the frequency of an MS according to the value of this param Frequency band types of the board This parameter is only applicable to the DDPU/DFCU/DFCB/DCOM/DDPM/DCBM. Threshold for load sharing in the MHzQTRU, frequency band. Assume thatMRRU, an MS supports multiple the 900 MH The frequency band types for the900 DTRU, DRRU, DRFU, GRRU, GRFU, and MRFUsub-bands cannot beinconfigured a load is greater than this threshold, the BSC assigns channels according to the priority levels of the P-GSM, E-GSM, and R channels in the TRXs of the R-GSM sub-band preferentially. List of frequency bands

Frequency multiplexing mode in the TRX. To enable a loose frequency multiplexing mode such as 4x3 multiplexing, set thi

List of the frequencies to be measured. This parameter is represented as a character string where the IDs of the TRXs to b Type of a scanning result in the period from the start of a frequency scanning task to the reporting of the scanning result. Frequency scanning refers to the scanning of an uplink receive level of a cell frequency. The scanning result reflects the st Whether to enable the edge handover algorithm. When an MS makes a call at the edge of a cell, the call may drop if the re downlink signal level of the serving cell is less than "Edge HO DL RX_LEV Threshold", the edge handover is triggered. Whether the uplink DTX function is enabled for FR calls. For details, see GSM Rec. 05.08. Uplink DTX is not restricted by Slot No. of the father BTS Slot No. for the port of the father BTS Subrack No. of the father BTS Subrack No. for the port of the father BTS Type of the file used for saving exported logs Activation factor table index Activation factor table index Activation factor table index ATCB difference between the overlaid and underlaid subcells

Duration of the handover from full rate to half rate. If the cell load is greater than the preset threshold, the calls that meet th According to the P/N rule, if the conditions for the handover from full rate to half rate are met for P seconds within N secon This parameter specifies the number P. Path loss difference between the overlaid and underlaid subcells

Period of the handover from full rate to half rate. If the cell load is greater than the preset threshold, the calls that meet the According to the P/N rule, if the conditions for the handover from full rate to half rate are met for P seconds within N secon This parameter specifies the number N.

If the available forward bandwidth is less than or equal to this value, the forward congestion alarm is emitted and forward c

If the available forward bandwidth is greater than this value, the forward congestion alarm is cleared and forward congestio

If the ratio of available forward bandwidth is greater than this value, the forward congestion alarm is cleared and forward co

If the ratio of available forward bandwidth is less than or equal to this value, the forward congestion alarm is emitted and fo If the available forward bandwidth is greater than this value, the forward overload congestion alarm is cleared and forward

If the ratio of available forward bandwidth is greater than this value, the forward overload congestion alarm is cleared and f If the available forward bandwidth is less than or equal to this value, the forward overload congestion alarm is emitted and

If the ratio of available forward bandwidth is less than or equal to this value, the forward overload congestion alarm is emitt Ratio of reserved forward bandwidth for handover user

Reserved forward bandwidth for handover user If the load balance between a 2G cell and a 3G cell is greater than the threshold, load balance is triggered.

Coefficient used to modulate the load level of a 2G system so that the load level of the 2G system can be compared with th G711 Mode. A/U law configuration, 0-A law (default), 1-U law Expected signal receiving strength on the BTS side when GPRS dynamic power control is implemented End time for collecting the offset information

Cell load threshold for collecting the offset information. If the load threshold is exceeded, the offset information is not collec Whether to collect the offset information Start time for collecting the offset information

Obtains the QoS parameter from the Aggregate BSS QoS Profile (ABQP) of packet flow context (PFC) when the MS and t

This parameter specifies whether to enable the VGCS/VBS check function. If the BSS works abnormally, the BTS may per Format of the geographic coordinates. The values include "DEG" and "SEC".

Whether the assignment of channels in overlaid subcells is enabled for the VGCS service in the case of underlaid subcell c

Whether direct preemption of the channels of other services is enabled for the VGCS service. If the value of this paramete

Global routing management switch. If this switch is turned on, the IP addresses in the controlled range cannot be in the sa Delay of transmit diversity when GMSK is used. Generally, the parameter is applicable to general fading environments. In delay may have negative impacts on some codes of the EDGE service. Therefore, the delay of transmit diversity must be c

Whether the current supports GPRS EGPRS priority type cell of the channel If this parameter is set to GPRS, the EDGE MSsarea. cannot usethe thisMS channel. Hysteresis value of thecell cellsupports in the same routing When in the ready state reselects a cell, if the original cell and Whether the currently the GPRS If this parameter is set to EGPRSNORCH, the GPRS and EDGE can useresources, this channel at the same cell reselection can lead to increase of signaling traffic, inefficient MSs use of radio decrease of MSpriority. data transmissio If this parameter is set to EGPRSPRICH, the EDGE MSs have the priority to use this channel. cell. The difference of the signal level must be greater than the value of the cell reselection hysteresis parameter. Otherwis If this parameter is set to EGPRSSPECH, only the EDGE MSs can use this channel. If this parameter is set to NONGPRS, this parameter becomes invalid.

Threshold of hierarchical cell structure (HCS) signal strength. The MS calculates the C31 according to the signal strength a

Timer used when the MS calculates the C2 (used to evaluate the channel quality during cell reselection). The time informa

Used for the GPRS transmission quality statistics. When the transmission quality threshold is exceeded, the transmission q

This parameter is used to prevent repeated cell reselection of a fast moving MS. The MS does not select this cell when the

Synchronization clock adopted when two satellite cards are used together. GPS:Trace GPS only. GLONASS:Trace GLON Period for reporting GPS data Whether to allow hierarchical access and to reserve resources for high-priority MSs

Number of the VGCS call that the BTS originates in the timeslot in the TRX in fallback mode. This parameter is represente

Number of the VGCS call that the BTS originates in the timeslot in the TRX in fallback mode. This parameter is represente Index of the BSC Node Redundancy Group. It identifies a BSC redundancy group. The BSC node redundancy is a function A interface are faulty, the other BSC in this group takes over the voice and data services. In this manner, the reliability and Name of the BSC Node Redundancy Group

Maximum number of secondary links that are released in batches when the Abis resource preemption occurs on the Abis i Transport resource group number Type of the transport resource group

Geographical coverage of a simple cell broadcast message. You can run "DSP GSMSCB" to query and obtain the informa This parameter, "Code",cells and that "Update" specify a cell broadcast Number of neighboring meet uniquely the following conditions: If "MBR"message. is indicated in a system message, the MS reports

parameter. Ratio of bandwidth occupied by the CS service in the GSM These neighboring cells must meet the following requirements: 1. The receive levels of theCS(Circuit neighboring cells must be higherMSs. than 15 "900 Standard priority for GSM Switched) high-priprity is Reporting the highestThreshold" priority. or "1800 Reporting Threshold 2. The BSIC of a neighboring cell must be valid. 3. The signals of the neighboring cells must be the strongest among all the neighboring cells at the same frequency band. Whether to support the cell reselection from the GSM network to the TD network in the packet transmission mode Packet type against the ICMP attack When the BTS is accessed from the public network, the BTS security network IP address must be configured.

IP address of the BTS security gateway. This parameter needs to be configured when the BTS connects to the BSC6900 t Whether to support CS half rate data services ATCB difference between the overlaid and underlaid subcells

Duration of the handover from half rate to full rate. If the cell load is less than the preset threshold, the calls that meet the c According to the P/N rule, if the conditions for the handover from half rate to full rate are met for P seconds within N secon This parameter specifies the number P.

Path loss difference between the overlaid and underlaid subcells According to the P/N rule, if the conditions for the handover from half rate to full rate are met for P seconds within N secon This parameter specifies the number N. Whether the tower-top amplifier is installed on antenna tributary 1. Whether the tower-top amplifier is installed on antenna tributary 2. Heartbeat interval when the SCTP server is idle

Number of the cabinet where the main board of the RXU chain or ring is located. According to the P/N rule, if the conditions for the handover to a different micro cell due to fast movement are met in P of N This parameter specifies the number P. According to the P/N rule, if the conditions for the handover to a different micro cell due to fast movement are met in P of N This parameter specifies the number N. Threshold for interrupting the power supply to the TRXs. If the BTS works with the battery power supply, when the battery

Type of a high frequency type supported by to the BSC6900, Threshold for interrupting the power supply the TMU. If the BTS works with the battery power supply, when the battery v Frequencies on DCS1800: 512-885 Frequencies on PCS1900: 512-810

Full rate TCHs are assigned preferentially to the MSs with priority levels equal to or less than this threshold, except when t

This parameter specifies whether the MS with priority level 1 directly releases the preempted call. When this parameter is s Whether to enable the priority-based channel assignment algorithm

Whether to enable load power-off against high temperature Whether to consider history priority records during channel assignment. If this parameter is set to YES, the history priority records are considered. If this parameter is set to NO, the history priority

Whether assignPassword a channelNumbers. in the overlaid or underlaid subcell in the case of the intra-BSC incoming handover to the con MaximumtoHistory If this parameter is set to SysOpt, the measured BCCH of the target cell is included in the intra-BSC inter-cell handover req If this parameter set to OSubcell, a channel the overlaid subcell is assigned preferentially. Whether the cell is supports the MS with the DTMinmulti-timeslot capability If this parameter is set to USubcell, a channel in the underlaid subcell is assigned preferentially. If this parameter is set to NoPrefer, a channel is assigned simply according to channel assignment algorithms.

Whether to allow handover between different operators. If the BSC6900 supports RAN sharing, MSs in a cell of this operat

If the downlink received signal level of a neighbor cell is greater than "Min DL Level on Candidate Cell" plus "Min Access L

If the uplink received signal level of a neighbor cell is greater than "Min UL Level on Candidate Cell" plus "Min Access Leve

Type of indexing the target cell Unique name of the target cell Whether to use handover algorithm generation 1 or 2 currently

Handover direction forcast switch. When this parameter is set to YES, the BSC6900 can forecast the handover direction of This parameter indicates P in the P/N rule for MS handover direction forcast. P/N rule: Among N handovers, the MS is handed over to Class B chain neighboring cell for successively P times, then the This parameter indicates N in the P/N rule for MS handover direction forcast. P/N rule: Among N handovers, the MS is handed over to Class B chain neighboring cell for successively P times, then the

Fast handover can be triggered only when the downlink level of the serving cell is less than this parameter. According to the P/N rule, if the conditions for the handover to a better 3G cell are met for P seconds within N seconds, the This parameter specifies the number P. According to the P/N rule, if the conditions for the handover to a better 3G cell are met for P seconds within N seconds, the This parameter specifies the number P.

The 3G better cell handover can be triggered only when the Ec/No of a neighboring 3G cell is greater than this threshold f According to the P/N rule, if the conditions for fast handover are met in P of N measurement reports, the handover is trigge This parameter specifies the number P. Type of handover in terms of connection transfer between channels or between cells

Fast handover can be triggered only when the path loss difference between the serving cell and a neighbor cell on the cha If the cell is an enhanced concentric cell, this parameter with the current downlink received signal level and "UtoO HO Rec This specifiesconcentric whether acell, 2G cell to a 3G cell preferentially selected as thesignal targetlevel, cell for handover. If theparameter cell is an ordinary this or parameter withisthe current downlink received "RX_LEV Threshold When this parameter is set to Pre_3G_Cell, the BSC prefe neighboring 3G cell as the handover target cell if the receive level of the neighboring 2G cell that ranks the first in the can

An MS cannot be handed over from the underlaid subcell to the overlaid subcell in this duration after the MS is handed ove Index of the frequency hopping data, used for a TRX to locate the frequency hopping sequence Logical number of the MA group

Whether to enable power boost before handover. Implementation mode of frequency hopping When the receive level of an MS drops rapidly, a handover occurs. In this case, the BSC6900 cannot adjust the transmit p to the maximum before the BSC6900 sends a handover command to the MS. In addition, the transmit power of the BTS is

If the receive level of the neighboring 2G cell that ranks the first in the candidate cell list is equal to or smaller than this thr

If this parameter is set to ON, the channel on a single frequency of an MA group is allocated to an MS with the non-FH attr Hoping sequence number (HSN) of a hopping antenna group. If the value of this parameter is 0, the services over a TRX a a pseudo-random manner, that is a disciplinary random manner.

Frequency hopping mode antenna of the TRX. Frequency hopping in antenna interference averaging frequency diversity. TRX index that a hopping index corresponds to. Aassists hopping enables signalsand of multiple TRXs to switch be If this parameter is set to RF_FH, the TX and RX parts of the TRX take part in the frequency hopping. In this case, the num frequency hopping. The baseband signals are switched for the frequency-hopping transmission. The RX part, however, tak

To avoid ping-pong handover, the received signal of the original serving cell is decreased by "Quick handover punish value Time for reserving the handover reference for one of the two BSCs that collect the offset information

The 3G better cell handover is triggered only when the RSCP of a neighboring 3G cell is greater than this threshold for a p

Whether an HO REQ ACK message contains the information element Speech Version during an SDCCH handover. If a sig According to the P/N rule, if the conditions for the handover to a better 3G cell are met in P of N measurement reports, the This parameter specifies the number N. According to the P/N rule, if the conditions for the handover to a better 3G cell are met in P of N measurement reports, the This parameter specifies the number N. According to the P/N rule, if the conditions for fast handover are met in P of N measurement reports, the handover is trigge Indicates the host type ofthe thenumber signalling This parameter specifies N. point. When the BSC node redundancy feature is enabled, the primary BSC and the secondary BSC each must be configured w "SLAVEHOST". When the BSC node redundancy feature is disabled, the host type of the signaling point of the BSC is set Host type of an IP BTS

Handover threshold during the handovers between cells on different layers or of different priorities. This value is used to su Inter-layer handover threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis"; Inter-layer handover threshold of a neighboring cell = "Inter-layer HO Threshold" + "Adjacent Cell Inter-layer HO Hysteresis Whether to enable the TRX to support antenna hopping In a GSM cell, the broadcasts the frequency, system information, and paging group. If an MS is in an Fast handover canBCCH be triggered only when the uplinkframe signalnumber, level of the serving cell is less than this parameter. Whether enable the TRX support hopping antenna function hopping is involved. With this function, the messages transmitted in the ma To avoid to such a problem, thetoantenna In GSM cell, the BCCH the frequency, frame number, and paging group. If an MS is in an foradual-frequency BTSs. broadcasts If this parameter is set to NONE, the BTS system does notinformation, support antenna hopping. To avoid such as problem, the antenna hopping function is involved. With this function, the messages transmitted in the m for dual-frequency BTSs. The number of the optical port of the main board in the RXU chain or ring.

Maximum priority level of an MS that can use reserved channel resources. If the priority level of an MS is greater than this Whether to enable the configuration of power system parameters. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Load power-off voltage threshold. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

This parameter determines whether the BSC6900 supports new establishment causes of an MS in the initial access reque Whether the downlink DTX function is enabled for half rate (HR) calls. This function is also restricted by the DTX switch in

Whether to enable the BSC to assign half or full rate channels to MSs according to the channel seizure ratio in the overlaid

Whether the uplink DTX function is enabled for HR calls. For details, see GSM Rec. 05.08. Uplink DTX is not restricted by Hopping sequence number (HSN), indicating 64 types of frequency hopping sequences. If this parameter is set to 0, the fr If this parameter is set to a value from 1 to 63, the frequency hopping is performed in a pseudo-random manner, that is a d Number of the slot where the main board of the RXU chain or ring is located. The slot No. is unique in the same BTS.

Whether dynamic use of HSNs is enabled. If the functions of frequency hopping and Flex MAIO are enabled in a cell and t

Number of the subrack where the main board of the RXU chain or ring is located. The subrack No. is unique in the same B

Bidirectional Forwarding Detection Hop Type. If the ambient temperature is higher than "High Temperature Critical Point", the temperature control system controls the dif In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para If the outlet temperature is higher than "High Temperature Critical Point" and the difference between the outlet temperature In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable battery power-off against high temperature. Humidity alarm switch Upper limit of humidity. When the humidity exceeds the upper limit, a humidity alarm is reported.

Lower limit of humidity. When the humidity is lower than the lower limit, a humidity alarm is reported. When the ambient humidity of the APMU is greater than the value of this parameter, the BTS reports an overhigh ambient In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para When the ambient humidity is greater than the value of this parameter, the BTS reports an overhigh ambient humidity alarm In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para When the ambient humidity of the APMU is less than the value of this parameter, the BTS reports an overlow ambient hum In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para When the ambient humidity is less than the value of this parameter, the BTS reports an overlow ambient humidity alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Delay for which the BTS waits to switch on the air conditioner

This timer is started after a connection is established successfully. If a detection message is not received when this timer e Duration in IASU mode Port number in IASU mode. For the BTS3002C, the port number cannot be set to "E1PORT3". Type of the transmission board in IASU mode

This timer is started after a connection is established successfully. When this timer expires, a detection message will be se Minimum C/I ratio that IBCA AMR FR services allow. An idle channel can be assigned to such a service only when the C/I a value less than this threshold.

Minimum C/I ratio that IBCA AMR HR services allow. An idle channel can be assigned to such a service only when the C/I a value less than this threshold. Whether to enable the IBCA algorithm

Length of the timer for a new call to wait for the measurement report (MR) on the signaling channel when dynamic measur Number of measurement reports sampled for averaging path loss. A single measurement report may not reflect the actual

When the IBCA algorithm is enabled, this parameter is used to calculate the actual soft blocking threshold of an existing ca

When the IBCA algorithm is enabled, this parameter is used to calculate the target CIR of an existing call. The formula is a Difference between uplink and downlink path losses, which is used to estimate the downlink path loss of a call when the do "IBCA Downlink Path Loss Offset" = combined loss of BTS + hierarchical dual-antenna gain of BTS (3 dB) Whether to measure the IBCA neighbor cells of the serving cell dynamically. If the dynamic measurement is enabled, when operate. Thus, the call measures and reports only these frequencies to the BSC6900. Length of the timer for a call to measure the path loss in the neighboring cell with strong interference of the target cell. The parameter is set to 0, dynamic measurement of the BA2 list is not enabled in the emergency handover, and the parameter

Whether is allowed. this parameter is NO, set to YES, the TSC synchronization procedu Whether the the IBCA IBCA forced flexibleBTS TSCsynchronization function is enabled. When When this parameter is set to the flexible function is disabled performed as required. Note that the synchronization status of the IBCA neighboring cells is determined by the internal sof neighboring cells are considered to be out of synchronization. Minimum C/I ratio that IBCA FR/EFR services allow. An idle channel can be assigned to such a service only when the C/I r a value less than this threshold.

Length of the timer for a call to wait for other valid MRs after receiving the first valid MR of the target cell if dynamic measu Minimum C/I ratio that IBCA HR services allow. An idle channel can be assigned to such a service only when the C/I ratio value less than this threshold.

In the ICDM matrix algorithm, the signal strength (0-63) is divided into 10 levels. The signal strength that is smaller than or

Whether to enable the ICDM algorithm for the cell. The ICDM algorithm helps to improve the precision in estimating the pa

Period of information exchange between the BSC boards. The information helps to estimate the C/I ratio for the IBCA algo

Adds a specified offset to the downlink target receive level when power control algorithm III is used to calculate the initial tr

Adds a specified offset to the uplink target receive level when power control algorithm III is used to calculate the initial tran

Adds a specified offset to the downlink target receive quality when power control algorithm III is used to calculate the initial

Adds a specified offset to the uplink target receive quality when power control algorithm III is used to calculate the initial tra In an IUO cell (or a CoBCCH cell), the path loss of an MS to the serving cell or a neighboring cell measured on the underla Path loss difference due to different frequency selectivity. This value is calculated based on the IUO level values measured

Determines the MAIO selection method for each timeslot. The Optimal MAIO policy selects the optimal MAIO being evalua

The IBCA interference evaluation process only considers the interference of the strongest N existing calls on the newly-est

Estimates the receive of the unmeasured IBCA neighboring cells. When a consecutive "IBCA Measurement Indicates whether this level neighboring cell is the IBCA neighboring cell of the serving cell. That is, whenNon a cell is configuredNce as used to estimate the receive level of the unmeasured IBCA neighboring cells. The estimated value is "IBCA Pathloss Est o "IBCA RxLev Offset".

When the IBCA algorithm is enabled, this parameter is used to calculate the target CIR of a new call. The formula is as foll Length of the timer for a call to measure the path loss in the neighboring cell with strong interference of the target cell. The Estimates receive level of the unmeasuredofIBCA neighboring When a consecutive "IBCA Non Measurement parameter the is set to 0, dynamic measurement the BA2 list is notcells. enabled in the normal handover, and the parameter Nce "Wa used to estimate the receive level of the unmeasured IBCA neighboring cells. The estimated value is "IBCA Pathloss Est o "IBCA RxLev Offset". When the IBCA algorithm is enabled and the HSN is not 0, the IBCA priority and the SDCCH/PDCH priority are divided by

Specifies a period during which the inter-BSC information exchange must be completed. The information is mainly used by

When the path loss of an MS to a neighboring cell cannot be measured based on the existing measurement results, it is es

Estimates level of the unmeasured IBCA neighboring When of a consecutive "IBCA Non Nce Considers the the receive influence of history path loss information during thecells. calculation the ICDM algorithm pathMeasurement loss. The smaller used to estimate the receive level of the unmeasured IBCA neighboring cells. The estimated value is "IBCA Pathloss Est o "IBCA RxLev Offset".

Use this parameter when the path loss of an MS to serving cells cannot be measured based on the existing measurement

MSs that support SAIC can tolerate a lower carrier-to-interference ratio. This variable indicates the downward adjustment s

Whether to deny the access of a call when none of the MAIO evaluation results meets the C/I ratio requirement of the call Whether the handover of the calls on the single channels is allowed (single channels are the two half-rate sub-channels on allowed; if this parameter is set to OFF, the handover of the calls on the single channels is not allowed. This parameter is v Whether a MAIO meets the access requirement. When the C/I ratio of a MAIO is higher than this threshold, the MAIO can

Whether to enable the IBCA algorithm for the overlay and underlay of an IUO cell Whether a single IBCA MS can dynamically measure the neighboring cells. When this parameter is set to YES, the neighb parameter is set to YES, it is recommended that "Direct Retry" be set to NO.

The lowest C/I ratio that can be tolerated by IBCA WAMR FR. The C/I ratio of an idle channel must be larger than this para This parameter is used to enable the Intelligent Combiner Bypass (ICB) function on the BCCH TRX of a cell. This parameter specifies whether to allow the cell to enable the ICB function. When this parameter is set to YES, the TCHs

Whether to enable the intelligent control of the diesel engine. If this parameter is set to ENABLE, the PMU will control the d ICMP packet length. It is the total length of the ICMP packet containing the IP header. DSCP corresponding to the interaction service with the THP level of PRIORITY1 DSCP corresponding to the interaction service with the THP level of PRIORITY2 DSCP corresponding to the interaction service with the THP level of PRIORITY3 Number of the scheduled task Number of the scheduled task Index This parameter indicates the idle code of the A interface. It is used for the interconnection of the A interfaces. IDLE code

When the number of idle SDCCH channels in a cell is smaller than this parameter, the system searches for available TCHs Index type BTS index type Type of an index Index type Type of an index Subscribers can specify the cell according to the index or the name. Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index. Index type. BYNAME: query by name; BYID: query by index. Index of the semipermanent link Support the index based on the TLLI and IMSI mode

Index type, supporting the index based on the cell and BSC mode. Whether the handshake mechanism is enabled at the Cb interface. Currently, the BSC6900 and the CBC communications normal. Number of the outgoing interface of a link Whether to set the middle frequency offset to positive offset or minus offset

Indication offset in the middle frequency offset configuration

Whether to report the progress. "NO" indicates that the progress is not reported. "YES" indicates that the progress is repor

Number of invalid measurement reports allowed when the BSC6900 filters the measurement reports. When the number of Value of an IMEI Timer for the BSC6900 waiting for a CC message after sending a CR message. If the timer expires, the seized SDCCH is

The channel activation and immediate assignment messages are sent at the same time to accelerate the signaling process This parameter specifies whether to support the takeover of the packet immediate assignment by the BTS. It is relative to t through the resources allocated by the BSC. When receiving the immediate assignment message, the MS can send the da

Whether to allow immediate TCH assignment. If this parameter is set to YES, the BSC can assign a TCH immediately whe

Maximum time delay in resending an immediate assignment message. Within the period specified by this parameter, an im

Maximum number of retransmissions of an immediate assignment message. When the value of this parameter is reached, Whether the BSC6900 sends immediate assignment retransmission parameters to the BTS Whether to assign channels according to the access_delay value in channel request messages during immediate channel

When the access_delay value in the channel request message is smaller than this parameter, the overlay channels are as

Whether to adjust the offset time immediately after the BTS is reset Timer carried by the Wait Indication information element when the BSC6900 sends an immediate assignment reject messa After the MS receives the immediate assignment reject message, the MS reattempts to access the network after the timer Value of an IMSI International mobile subscriber identity of the MS. IMSI containing the number 0 to 9.

Timer for the BSC6900 waiting for a handover complete message after sending a handover request acknowledgment mes

Threshold for fine tuning the BTS clock. If the offset of the BTS clock is smaller than the threshold, no fine tuning is perform Fine tuning period in the BSC

Included angle formed by the major lobe azimuths of the antennas in two cells under one BTS. A major lobe azimuth is me Number of the in-port cabinet on a BTS

Whether to separate E1 from other optical fibers for the use of other devices. If this parameter is set to YES, other BTSs ca

The triggering of intra-cell F-H handovers must meet the P/N criteria, that is, when the condition for intra-cell F-H handover

The triggering of intra-cell F-H handovers must meet the P/N criteria, that is, when the condition for intra-cell F-H handover Information exchange content to be supported Infrared alarm switch

For an AMR call, if the currently occupied channel is a full rate channel and the Radio Quality Indication (RQI) is always hig

For an AMR call, if the currently occupied channel is a half rate channel and the Radio Quality Indication (RQI) is always lo

Power overload threshold for triggering incoming handover to the TRX under the prerequisite that the power amplifier of th Initial coding mode used for full rate AMR calls. The four values 0, 1, 2, and 3 of this parameter respectively represent the

Initial coding mode used for half rate AMR calls. The four values 0, 1, 2, and 3 of this parameter respectively represent the

Initial coding mode used for broadband AMR calls. The three values 0, 1 and 2 of this parameter respectively represent the Specifies the timeslot mask in BSC6900

Whether to assign channel requests in the overlay subcell to the underlay subcell according to "UL Subcell Lower Load Th Whether to allow underlay-to-overlay edge handovers Index of the cell in the BSC Name of the cell in the BSC Whether to allow underlay-to-overlay load handovers Overlay-to-underlay load handovers are performed by levels. This parameter indicates the duration of each level. Level step during overlay-to-underlay hierarchical load handovers

In an enhanced dual-band network, if the load of the overlay subcell is higher than this parameter, the system cannot initia Incoming BSC6900 port number Number of a BTS port In-port number of a DXX Mode of inputting the latitude and longitude of a cell location Whether to allow inter-BSC SDCCH handovers Incoming BSC6900 slot number Number of the in-port slot on a BTS Incoming BSC6900 subrack number Number of the in-port subrack on a BTS Time interval for sending a simple cell broadcast message

Hysteresis value during the handovers between cells on different layers or of different priorities. This value is used to supp

Type of an interference band statistics algorithm used when the frequency scanning function is enabled. The interference b

Reduces ping-pong handovers between cells on a same layer. This parameter is invalid when cells are on different layers. Specifies an interval between two consecutive interference handovers

The triggering of interference handovers must meet the P/N criteria, that is, when P out of N measurement reports meet th

The triggering of interference handovers must meet the P/N criteria, that is, when P out of N measurement reports meet th

Whether to allow the interference handover algorithm. Interference handovers are triggered when the receive level is highe Threshold used for interference measurement. The BSS to measures uplink quality of theduring radio channel channelsassignment occupied by MSs, and calculates and reports the interference o Whether considerthe interference priorities Threshold used interference measurement. these levels are for called interference band thresholds. The BTS determines the current interference level based on these thr The BSS measures thedetermine uplink quality of the channels occupied MSs, and calculates and reports the interference indication message to whether to radio perform a handover. Theby interference band statistics result provides referenceo Threshold used interference measurement. these levels are for called interference band thresholds. The BTS determines the current interference level based on these thr The BSS measures thedetermine uplink quality of the channels occupied MSs, and calculates and reports the interference indication message to whether to radio perform a handover. Theby interference band statistics result provides referenceo Threshold used interference measurement. these levels are for called interference band thresholds. The BTS determines the current interference level based on these thr The BSS measures thedetermine uplink quality of the channels occupied MSs, and calculates and reports the interference indication message to whether to radio perform a handover. Theby interference band statistics result provides referenceo Threshold used interference measurement. these levels are for called interference band thresholds. The BTS determines the current interference level based on these thr The BSS measures thedetermine uplink quality of the channels occupied MSs, and calculates and reports the interference indication message to whether to radio perform a handover. Theby interference band statistics result provides referenceo Threshold used interference measurement. these levels are for called interference band thresholds. The BTS determines the current interference level based on these thr The BSS measures thedetermine uplink quality of the channels occupied MSs, and calculates and reports the interference indication message to whether to radio perform a handover. Theby interference band statistics result provides referenceo these levels are called interference band thresholds. The BTS determines the current interference level based on these thr indication message to determine whether to perform a handover. The interference band statistics result provides reference

Value of the timer for synchronization between BSCs. If a BSC fails to synchronize with the control BSC before the timer e Period during which interference levels are averaged. The interference levels on idle channels are averaged before the BT 08.08, 08.58, and 12.21.

This parameter specifies whether the reselection from 2G cells to 3G cells is allowed. Threshold for setting the flag of accepting inter-RAT CS service handover of a 2G cell This parameter specifies whether the handover from 3G cells to 2G cells is allowed. Whether to reserve resources for the incoming BSC handover on the Iur-g interface Width of load band [EcNo] during the inter-RAT hierarchical load-based handover Initial EcNo value of the inter-RAT load-based handover band Step of changing the EcNo value during the inter-RAT hierarchical load-based handover Width of load band [RSCP] during the inter-RAT hierarchical load-based handover Initial RSCP value of the inter-RAT load-based handover band

Step of changing the RSCP value during the inter-RAT hierarchical load-based handover When this parameter is set to Service-based, the inter-RAT handover is triggered on the basis of the service distribution. I basis of the load balance.whether In this case, the target cell2G is selected according to the traffic load on the target cell and the loa This parameter specifies the handover from cells to 3G cells is allowed. the service-based algorithm or the load-based algorithm according to the traffic load on the cell. When this parameter is set to OFF, no inter-RAT service handover or inter-RAT load hando Time span before the command is executed. The logs generated within the time span are to be exported. Interval for sending packets to test Ethernet OAM loop Frequency index of the interference measurement in type 3 of an extension measurement report Lower threshold of the overlay level during underlay-to-overlay handovers. When the receive level of an MS is higher than

The timer is used to set the time when the BSC6900 waits for an Internal Handover Command message after a Internal Ha

Timer started after the BSC6900 delivers a handover command in an intra-BSC inter-cell handover. If the BSC6900 receiv Whether to allow AMR handovers. This parameter has no impact on dynamic non-AMR F-H handovers.

This parameter specifies whether the intra-cell handover is enabled. Note: A forced intra-cell handover is not subject to this

Timer started after the BSC6900 delivers a handover command in an intra-BSC intra-cell handover. If the BSC6900 receiv Whether it is an RNC under the same MBIC in GU mode

Minimum Ec/No value of a 3G cell during the load-based GSM-to-UMTS handover When the load of a cell is greater than or equal to Load HO Threshold, all the calls in the serving cell send handover reque control the number of calls to be handed over at each level. This parameter specifies the duration for performing the load-b Minimum RSCP value of a 3G cell during the load-based GSM-to-UMTS handover Incoming BSC6900 start timeslot number Number of a DXX In-timeslot Interval for executing the scheduled subtask. If the time mode is set to "DAILY_C", "WEEKLY_C", or "MONTHLY_C", you

Automatic switchover interval. This parameter needs to be set only when "OMU automatic switchover switch" is set to "ON

Whether a measurement report can contain the information about a cell with an invalid BSIC. The cell with an invalid BSIC IP address IP address of the server IP address of the local NSVL IP address of the remote NSVL

IP address of a BTS port. It cannot be the same as any IP address configured in the BSC6900.

IP address of the FTP server. When the FTPServer.exe file is downloaded through the FTP Tool button on the LMT, the ad

The local IP address must be the configured IP address (including the IP address and port address of the interface board). IP address of the board Local IP address of the Ethernet port Source IP address of the packet for preventing the ICMP attack IP address of the next hop Local IP address of the aggregation group IP address of the router First IP address of the SGSN It must be the valid address of the A, B, or C type and cannot be the broadcast address or network address. Second IP address of the SGSN It must be the valid address of the A, B, or C type and cannot be the broadcast address or network address. Third IP address of the SGSN Fourth IP address of the SGSN When the number of error frames on the IP layer reaches the value of this parameter, the frame error alarm is generated.

When the number of error frames on the IP layer decreases to the value of this parameter, the frame error alarm is cleared Whether to compress the packet headers Whether to compress the IP header of a MP group IP address index of the Ethernet port IP address index of the aggregation group IP packet multiplex index Type of the physical IP transmission medium

Type of IP physical transmission cable medium, E1 or FE/GE. Whether to enable the heater. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether the BSC is a reference BSC Whether the cell is a chain neighboring cell. The parameter is used in the quick handover algorithm. Quick handover aims urban backbone road, a selected route, or a high-speed railroad. The target cell must be a chain neighboring cell. Whether to support clock server redundancy configuration Whether to support clock server redundancy configuration Whether to enable the BTS to support ring networking. IP BTS does not support this parameter. If this parameter is set to "YES", the check threshold for a specific board is used. In this case, the following paramters are A service support attribute of a cell, that is, whether an external GSM cell supports EDGE Whether to indicate the first class transport resource group A service support attribute of a cell, that is, whether an external GSM cell supports GPRS

Whether to enable the TRX to carry the main BCCH in the cell Whether a BSC in the TC pool is the primary BSC Whether this location group is the main location group. If the value is Yes, this location group is the main location group. If A service support attribute of a cell, that is, whether an external GSM cell supports NC2

Configuration mode of the IP subnetwork. Static configuration: fixed local NSVL and remote NSVL parameters through ma Whether it is QOSPATH Whether the Um interface software synchronization between BSCs is supported Whether multiple DEMUs are configured

Whether to enable the BTS to support local switching ISSUPERBTS If the BTS supports local switching, when the calling and called MSs are both within the BTS or BTS group, the voice signa are released and saved. Whether to support the TC pool function. The TC Pool feature is implemented by connecting the maim processing subrack the shared TC resources form a TC Pool. The TC Pool feature is applicable to only the BSC6900s whose "Service mode " Whether it is a TC board.If the board is for the TC subrack, set the parameter to YES. If the board is not for the TC subrack, set the parameter to NO.

Whether the subrack is a remote main TC subrack Whether to control the temperature difference between the air inlet and air outlet and that between the air outlet and ambie In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Whether to configure the transmission cabinet. The BTS uses this parameter to calculate the number of TRXs to be shut d Number of a row to be changed in a BA list

Reserved parameter for cells. There are 30 parameters of this type, which can be used as new parameters in later version Used for parameter control Value of a reserved parameter for cells Type of the adjacent node

Type of the interface. This is determined by the type of the protocol currently used by the BTS. Point-to-Point Protocol (PP

Concentric cell attributes of TRX. If the cell where a TRX is located is configured as a concentric cell, set this parameter to

Conversion policy the dynamic channel cell, of theorconcentric Whether a cell is aofnormal cell, concentric enhancedcell dual band network cell. In a concentric cell, the coverage areas of different TRXs form circles of different radiuses. The triggering of concentric circle handovers must meet the P/Nconcentric criteria, that is, when P out of N measurement reports me Owing to different coverage areas of the overlaid and underlaid parts, the two parts can be logically regarded as two cells. part cover. The underlaid covers the overlaid part, and thus the also share somereports traffic. me The cannot triggering of concentric circlepart handovers must meet the P/N criteria, thatunderlaid is, when part P outcan of N measurement An enhanced dual band network is amelioration to the existing dual band network. In such a network, two cells physically w the algorithm of enhanced dual band network. Switch for the J0 tracing mark mismatching alarm Byte display format of J0 Expected receiving value of J0. J0 byte, also called the trace byte of the regenerator section on the optical port (RTIM), is

Sending value of J0. J0 byte, also called the trace byte of the regenerator section on the optical port (RTIM), is one of the o J0 type Switch for the J1 tracing mark mismatching alarm Byte display format of J1

Expected receiving value of J1. J1 byte, also called the trace byte of the high-order path on the optical port, is one of the o

Sending value of J1. J1 byte, also called the trace byte of the high-order path on the optical port, is one of the optical port i J1 type Switch for the J2 tracing mark mismatching alarm Byte display format of J2 Byte length of J2 Expected receiving value of J2 Sending value of J2

A zero or a space used to fill in the J byte of the optical port based on the J byte of the peer equipment. If the J bytes are in Whether to enable the LAPD Jitter Buffer algorithm. This algorithm adds a buffering adaptation layer under the LAPD layer In this way, the frame disorder is avoided.

Default receive delay of the PS Jitter Buffer on the BTS. A greater value of this parameter indicates a longer end-to-end de Whether the LAPD Jitter Buffer is enabled on the BSC side Determines whether the last three bits of K2 indicates the single end and the dual end

K offset used in K sequencing. To reduce ping-pong handovers, the system performs K sorting based on the downlink rece

Duration of the PPP/MP link keep-alive timer Location area code (LAC). MSs can freely move in the local location area with no need of location update. Reasonable loc Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.

Location area code (LAC). The MS can move within the local location area without location update. The reasonable classif Aggregation mode. When this parameter is set to static aggregation, the LACP protocol is activated; otherwise, the LACP Decimal value when the latitude where a cell is located is indicated in the format of degree Decimal value when the longitude where a cell is located is indicated in the format of degree Integer value when the latitude where a cell is located is indicated in the format of degree Value of the minute part when the latitude is indicated in the format of degree_minute_second Decimal value of the second part when the latitude is indicated in the format of degree_minute_second Integer value of the second part when the latitude is indicated in the format of degree_minute_second Longitude of the GPS receiver antenna Longitude of the GPS receiver antenna

Delay statistics period. This parameter indicates the period to collect the statistics information about the link transmission d Number of delay adjustment suspension periods. This parameter specifies the delay statistics periods in which the bandwi adjustment at the logical port.

Bandwidth reduction delay threshold. This parameter is used to trigger the function of bandwidth reduction at the logical po Average delay reduction filtering index Average delay increase filtering index

Layer where a cell is located. The network designed by Huawei has four layers: Umbrella (layer 4), Macro (layer 3), Micro ( A network basically consists of four layers, namely, Umbrella, Macro, Micro, and Pico. Cell priorities influence the sorting o priority level. If you assign different layers and priorities to a 1800-M cell and a 900-M cell, PBGT handovers from the 1800

When the load of the serving cell reaches the threshold, the inter-layer handover algorithm takes effect. Through configura

Timer of increasing the Lb flow control level when the BSC receives an SMLC congestion indication. If the BSC receives a

Timer of decreasing the Lb flow control level. If no SMLC congestion indication is received within the valid period of the tim Fourth action taken for load control First action taken for load control Second action taken for load control The local entity number uniquely identifies a local entity.

Level offunction the log type of the board Logical OAM:Operation And Maintenance Process Log level to be collected. TDM_Switching:TDM switching process GCP:All the GCP subsystems are configured as CPUS to act as the control plane processing subsystems for GSM BSC Alarm mask switch RGCP:Subsystem 0 of RGCP is configured as the MPU subsystem to act as the resource management subsystem. The o MCP: Computing Process, which includes Interference Based Channel Allocation (IBCA) Class Mathematics of the maintenance domain GTC:GSM BSC TC Process GPCU:GSM BSC PCU Whether to support the Process reporting of the main diversity level IP:GOUc/IP IP over GE Optical interface,GOUa/IP IP over GE Optical interface,PEUa/IP IP over E1/T1/J1 interface,FG2c/ Hysteresis during the over handovers between cells on different layers or inter-level of differenthandover priorities.algorithm This value used to throu supp Whether to value allow inter-layer and E1/T1/J1 inter-level handovers. The inter-layer and is is achieved FR:PEUa/FR Frame Relay interface Inter-layer handover threshold of the serving cell = "Inter-layer HO threshold" "Inter-layer HO Hysteresis"; HDLC:PEUa/HDLC Packet over E1/T1/J1 interface Inter-layer handover threshold of a neighboring cell =interface "Inter-layer HO threshold" + "Adjacent Cell Inter-layer HO Hysteresis TDM:POUc/TDM channelized Optical STM-1/OC-3 GbIP:FG2a/GbIP GSM BSC Gb IP interface The triggering of inter-layer handovers must meet the P/N criteria, that is, when the condition for inter-layer handovers is m Abis_TDM:EIUa/Abis_TDM E1/T1 circuit Interface for Abis,OIUa/Abis_TDM channelized Optical STM-1 Interface for Abis Ater_TDM:EIUa/Ater_TDM circuitmust Interface channelized Optical Interface for Ater The triggering of inter-layer E1/T1 handovers meet for the Ater,OIUa/Ater_TDM P/N criteria, that is, when the condition forSTM-1 inter-layer handovers is m A_TDM:EIUa/A_TDM E1/T1 circuit Interface for A OIUa/A_TDM channelized Optical STM-1 Interface for A SAU:Service Aware Uint Logical function type of the board Logical function type Application type of the POUc_TDM board

The Logical Index of PB signaling link Lower humidity threshold for the environment alarm box to report an alarm indicating that the ambient humidity is too low. I In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding param The occur threshold of 20258 alarm,you can set it from 90% to 99% The recover threshold of 20258 alarm,you can set it from 90% to 99% Key field used to identify one LAPD link

Type of the parameters to be displayed when a cell template is queried. The value "DIFFERENCE" indicates that the param Rate type of the designated link Lower limit for triggering an alarm Lower limit of an alarm. It is valid for the analog port. The loopback channel number when the port loopback mode is set to single channel local loopback

Upper threshold of the low noise amplifier. When the working voltage of the low noise amplifier attenuator in the RXU boar

Lower threshold of the low noise amplifier. When the working voltage of the low noise amplifier attenuator in the RXU boar Optical interface tributary numbering method. This parameter indicates the sequence of tributaries in an SDH frame. Rate of the semipermanent link

Initial bearing tag of the M3UA link. This parameter can be set to either active mode or standby mode. For details about th Link load sharing. In the value, the number of 1s (represented by n) determines the maximum number (2^n) of links for the for the load sharing. The AND operation between this value and " signaling route mask " in the N7DPC is equal to 0.

Signaling link mask corresponding to the M3UA link set. It is used for the M3UA link load sharing. It is valid only when the w indicates that up to one link is used for the load sharing, B0001 and B1000 indicate that up to two links are used for the loa

If the load of a cell is lower than the value of this parameter, the cell can admit the users handed over from other cells with

Type of load balancing algorithm of the MSC Pool. Generally, the BSC6900 chooses an MSC according to the obtained ne Intervals that the BSC broadcasts a cell's traffic load to its neighbor cells. The uplink load and downlink load indicate the tr number of downlink TBFs carried on all PDCHs in a cell / total number of PDCHs in a cell x ("PDCH Downlink Multiplex Th Load current shunt coefficient

This parameter specifies whether to use the load handover or the enhanced load handover. This parameter specifies whether a traffic load-sharing handover is enabled. The load handover helps to reduce cell conge primary measure to adjust abnormal traffic burst in partial areas. If load handovers occur frequently in a partial area, the ce Indicates that if a 2G neighboring cell supports load handovers, the BSC adds the load information of the local cells in the

Indicates that if a 3G neighboring cell supports load handovers, the BSC adds the load information of the local cells in the If the path loss in the serving cell minus that in a handover candidate cell is not smaller than the parameter value, the hand handed over to a neighboring cell through the PBGT handover can be handed over now. The value "0" indicates that the e

After a load handover succeeds, the BSC punishes the former serving cell during "Penalty Time on Load HO" by subtractin

When load of a cellsucceeds, reaches or exceeds "Load HO all the that"Penalty are using thison cellLoad as the serving cell ge After athe load handover the BSC punishes theThreshold", former serving cellcalls during Time HO" by subtractin problem, the BSC uses the hierarchical load handover algorithm to control the number of users included in each level of ha This parameter indicates the duration of each handover level. In hierarchical load handovers, starting from "Edge HO DL RX_LEV Threshold", a "Load HO Step Level" is added to the up RX_LEV Threshold" + "Load HO Bandwidth" are switched to other cells. This parameter specifies the ratio of the MSs that simultaneously perform a load handover. You can enlarge the ratio to ac a reasonable value. In the handover algorithm of the first generation, load handovers can be performed only when the receive level of the curre In the handover algorithm of the second generation, load handovers can be performed only when the level difference betw Whether to enable load power-off. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to allow the cell load reselection. If this parameter is set to PERMIT and "NC2 Load Reselection Switch" is set to

Threshold for allowing the MS to reselect a cell during load reelection. When the receive level of the serving cell is lower th

When the uplink load or downlink load of the target cell is lower than this threshold, it can accept the MSs from the serving When the uplink load or downlink load of the cell exceeds this threshold, the load reselection decision is made. If this parameter is set to YES, the channel assignment algorithm II randomly selects the start range for channel traversal;

This parameter specifies whether the dynamic PDCHs that have been converted into the PDCHs are considered during the TRM load threshold switch Local BSC identity. It identifies a BSC. Local IP address of PPP link. The IP address of the PPP link on the BSC side. Local IP address of the MP group Local IP address of BTS PPP Link. Local IP address of BTS MLPPP Group.

Identifies a local NSVL The value of this parameter can include one or two conditions. Identifies the port of the The setting ofrecords this parameter must be consistent the setting at the SGSN side. "&" is used tolocal concatenate therouter. conditions, and the are obtained when the two with conditions are matched. Conditions are written in the format of "name : value". Number of the location group under the BTS. It is unique for each BTS. "name" is the key of location information, "value" is the value of location information. Both "name" and "value" are case sensitive. Number of a location group For example: 1. If you need to obtain all the alarms regarding the subrack 0, set lockeyinfo to "Subrack No : 0". For example: 2. If you need to obtain all the alarms regarding the slot 8 in subrack 0, set lockeyinfo to "Subrack No : 0&Slo

Identifies the first local IP address that communicates with the peer end. When it is set to 0, it is invalid. This IP address m

Identifies the second local IP address that communicates with the peer end. When it is set to 0, it is invalid. This IP addres Whether to lock all the non-default local accounts Local SCTP port number Board start load control Mode of software loading

CPU usage threshold for log flow control. When the average CPU usage of sliding windows reaches or exceeds the thresh

Packet queue usage threshold for log flow control. When the average packet queue usage of sliding windows reaches or e Whether the SCTP is bound to a logical port. For details, see "ADD IPLOGICPORT". Logical port No. bound by the SCTP. For details, see the parameter "Logic port No." of the "ADD IPLOGICPORT". Logical port slot No. bound by the SCTP. For details, see the parameter "Slot No." of the "ADD IPLOGICPORT".

CPU usage threshold for recovery from log flow control. When the average CPU usage of sliding windows is lower than the

Packet queue usage threshold for recovery from log flow control. When the average packet queue usage of smooth windo Whether to control the log flow The log type to be collected. Type of the log. "COMLOG" indicates a common log. "CMPLOG" indicates a compressed log. Decimal value when the longitude where a cell is located is indicated in the format of degree Value of the degree part when the latitude is indicated in the format of degree_minute_second Integer value when the longitude where a cell is located is indicated in the format of degree Value of the minute part when the longitude is indicated in the format of degree_minute_second Decimal value of the second part when the longitude is indicated in the format of degree_minute_second

Integer value of the second part when the longitude is indicated in the format of degree_minute_second Loopback point. There are 14 loopback points. Whether a loopback point is available depends on the subrack configuratio NSS Interface Unit: indicates the A interface board in various configuration modes, such as BM/TC separated, BM/TC com Latitude of the Abis GP receiver antenna NSS TC(Near Interface): indicates the TX/RX point on the DSP in the TC subrack on the Abis interface side. The loop NSS TC(Near A Interface): indicates the TX/RX point on the DSP in the TC subrack on the A interface side. The loopback Latitude of the GPS receiver antenna NSS TNU(Near Abis Interface): indicates the data switching point on the TNUa board in the TC subrack on the Abis interfa NSS A Interface): indicates the data switching point on the TNUa board in the TC subrack on the A interface sid Loop type Loop TNU(Near level NSS Aterloop:Make Interface Unit: indicates Ater interface boardside, in thewhile TC subrack. It isplatform available in BM/TC separated config 1. Local loop test on thethe local board at system the system willonly send test frames. BSS Ater Interface indicateswill thebe Ater interface in on thethe BMother subrack. It isthe available only in separated 2. Remote loop:TheUnit: remote-loop made by theboard device side of local board. In BM/TC this case, the localconfi boa BSS TC(Near Abis Interface): indicates the TX/RX point on the DSP in the BM subrack on the Abis interface side. In BM/T Loop Detect Switch transmission mode, or in Abis over TDM transmission and Ater over IP transmission mode. BSS TC(Near A Interface): indicates the TX/RX point on the DSP in the BM subrack on the A interface side. In BM/TC com Loopback LAPD linkand Ater over IP transmission mode. mode, or intype Abisofover TDM BSS TNU(Near Abis Interface): point onreuse the TNUa the BM subrack onthe theBCCH Abis interfa When the load of an SDCCH onindicates the TRX the thatdata is in switching loose frequency and isboard in theincompatible band of is low BSS TNU(Near A Interface): indicates the data switching point on the TNUa board in the BM subrack on the A interface sid BSS Interface indicates Direction of anUnit: external voice the loopAbis interface board in various configuration modes, such as BM/TC separated, BM/TC c TMU/PTU: indicates the TMU or PTU board on the BTS. TRU DSP: indicates the DSP in the TRU of the BTS. Loopback type Loopback type Time of an external voice loop

Number of suspension periods after the bandwidth adjustment is performed based on the packet drop ratio. This paramete parameter can be used to control the rate of the bandwidth adjustment at the logical port.

Whether to permit the preemption of lower-level sublink resources. If the value of this parameter is YES, a CS domain serv

The CS services are preferred. This parameter indicates that the CS services are permitted to preempt the dynamic Abis r Whether to permit the low noise amplifier (LNA) bypass

Whether to assign overlay channels in an IUO cell based on the receive level conditions Whether to power off the TRX in the case of overlow temperature of the BTS cabinet. If this parameter is set to "Yes", the BTS powers off the TRX and reports a "Load Power Off Alarm" to protect the TRX in th Whether to power off the TRX of a BTS when the temperature of the BTS cabinet is too low. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Loopback mode Number of the IP logical port that carries the IP path Logical port number Logical port number

Number of the IP logical port that carries the IP path It is applicable to the radio transmission environment to improve the link quality. Link adaptation (LA) indicates adjusting th Downlink Ack/Nack Type of logical port message sent by the MS. The network side determines the coding mode for data transmission accordi retransmit the data block with different punching codes and the MS store the historical error information. The data block is cell with the dissatisfied transmission quality on the air interface is set to the LR mode. Whether to enable power shutdown upon low voltage of the battery. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Load power-off voltage threshold. If "Load Shutdown Flag" is set to "Enable" and the load voltage is lower than the value o In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Third action taken for load control Whether to include the list command Query results can be displayed vertically or horizontally Format of the result list Loading type Type of the log

Type of the log Temperature control threshold for low temperature. When the ambient temperature is less than "Low Temperature Critical In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Lower temperature threshold for the environment alarm box to report an alarm indicating that the ambient temperature is to In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding param

Lower voice quality threshold associated with the automatic adjustment of the AMR handover uplink threshold;The value o Target voice quality value associated with the automatic adjustment of the uplink threshold of AMR handover Upper voice quality threshold associated with the automatic adjustment of the AMR handover uplink threshold

Factor of uplink threshold adjustment. It indicates the linear relation between the threshold adjustment value and the logari

Number of DSPs, each of which carries 252 LVDS links on the DPUd or DPUb board. If this parameter is set to 0, every D

The level 1 Voltage Standing Wave Ratio (VSWR) threshold. When the VSWR is higher than this parameter, the TRX will r

The level 2 Voltage Standing Wave Ratio (VSWR) threshold. When the VSWR is higher than this parameter, the TRX will r Whether "Shutdown Voltage" is valid. In multi-mode base station scenario, the value of this parameter in different modes must be the same for the same multi-m Number of the M3UA service listening port

MAC address of the VLAN

When the number of error frames on the MAC layer reaches the value of this parameter, the frame error alarm is generate

Coding mode in which an ARFCN is sent to anlayer MS during an assignment orof handover. If the parameter set alarm to CA_MA, When the number of error frames on the MAC decreases to the value this parameter, the frame is error is cleaa information contained in an assignment or handover command. If this parameter is set to OPTIMIZED_CA_MA, the assign Identifies a maintenance group. band. Maintenance group: maintenance alliance (MA), which is a component of the maintenance domain (MD). Maintenance dom or more maintenance group.

When this parameter is set to YES, the BSC6900 is allowed to reduce the transmit power of the non-BCCH timeslots on th This parameter specifies whether to enable the Enhanced BCCH Power Consumption Optimization feature. Generally, the TRX. This parameter specifies the end time of the period during which the power of the non-BCCH timeslots on the BCCH TRX This parameter specifies the range of power derating over the non-BCCH timeslots on the BCCH TRX.

This parameter specifies the start time of the period during which the power of the non-BCCH timeslots on the BCCH TRX

Bar code 1 of the interface board of the BTS. This parameter is the electronic serial number of the active PTU board. An e Bar code 1 of the BTS interface board Number of main location group. Each cell contains only one main location group. Number of the port to which the active OML of the BTS is connected Main version No. of the TMU board software. It is configured according to the actual situation.

Mobile allocation index offset 1. Start frequency number, which is the number of the frequency where frequency hopping s Mobile allocation index offset 10. Start frequency number, which is the number of the frequency where frequency hopping Mobile allocation index offset 11. Start frequency number, which is the number of the frequency where frequency hopping Mobile allocation index offset 12. Start frequency number, which is the number of the frequency where frequency hopping

Mobile allocation index offset 2. Start frequency number, which is the number of the frequency where frequency hopping s

Mobile allocation index offset 3. Start frequency number, which is the number of the frequency where frequency hopping s

Mobile allocation index offset 4. Start frequency number, which is the number of the frequency where frequency hopping s

Mobile allocation index offset 5. Start frequency number, which is the number of the frequency where frequency hopping s

Mobile allocation index offset 6. Start frequency number, which is the number of the frequency where frequency hopping s

Mobile allocation index offset 7. Start frequency number, which is the number of the frequency where frequency hopping s

Mobile allocation index offset 8. Start frequency number, which is the number of the frequency where frequency hopping s

Mobile allocation index offset 9. Start frequency number, which is the number of the frequency where frequency hopping s

Critical alarm threshold against excessive TMA feed current of feed tributary 0. When the actual current is greater than the

Critical alarm threshold against excessive TMA feed current of feed tributary 1. When the actual current is greater than the

Critical alarm threshold against excessive TMA feed current of feed tributary 2. When the actual current is greater than the

Critical alarm threshold against excessive TMA feed current of feed tributary 3. When the actual current is greater than the

Critical alarm threshold against excessive TMA feed current of feed tributary 4. When the actual current is greater than the

Critical alarm threshold against excessive TMA feed current of feed tributary 5. When the actual current is greater than the Name of the MA

Name of the maintenance association. Subnet mask corresponding to the local IP address of the PPP link Subnet mask of the MP group in BSC. Subnet mask of the board Mask of the source IP network segment of the packet against the ICMP attack Subnet mask Subnet mask of the CBC IP subnet mask of a BTS port Subnet mask of BTS PPP link. Subnet mask of BTS MLPPP Group.

IP address of the main clock server. It must be a legal A/B/C type address but not a broadcast address or network address It must be the valid address of the A, B, or C type and cannot be the broadcast address or network address. Step of upward power adjustment according to the quality of the received signals

If the number of the association retransmissions exceeds this value, the parameter is deleted automatically. The value mus

Maximum bandwidth for dynamic adjustment at the logical port Number of consecutive intra-cell handovers allowed in a cell. When the interval between two intra-cell handovers is lower t cell for a certain period of time. Maximum number of attempts to resend the downlink assignment messages Number of attempts to re-establish the downlink TBF

This parameter specifies the largest step of each TRX power reduction. Maximum number of TRXs that can be configured for one cell. For the BTS3900B GSM, when the "Frequency and BSIC P Number" (one or two, one by default) can be selected. Maximum number of TRXs that can be configured for one cell. For the BTS3900B GSM, when the "Frequency and BSIC P Number" (one or two, one by default) can be selected. Maximum multiplexing frame length.

Maximum number of BTSs that are allowed to concurrently download software under a BSC The value of this parameter cannot be less than the maximum PPPMUX sub-frame length (MUXMAXSFL). This parameter The following condition must be met: wMuxMaxSfL <= ( wMuxMfl-8 )/2. Maximum length of the PPP multiplexing frame Maximum number of retries when the user logs in Maximum capacity for storing the alarm log Maximum output power of the diesel

If the number of the path retransmissions exceeds this value, the parameter is deleted automatically. The value must be sm

Retransmission times of Pb link check (LapdCheck) messages. When a BSC sends a Pb link check message to an extern Maximum number of PDCHs that can be assigned in the TRX

Maximum value of the PDCH ratio in a cell. The number of available TCHs and PDCHs in a cell is set to a fixed value. The Maximum number of attempts to resend the polling messages Expire Prompt Dates.

Maximum a Physicalwhen Information message to be When transmitted. Whenisthe retransmission times current exceeds thisbeparame Maximum times currentforcoefficient the battery is charged. the battery charged, the maximum can 0.01 assigned channel and stops timer T3105 after receiving this message. Maximum current coefficient when the battery is charged. When the battery is charged, the maximum current can be 0.05 charge current for the battery cabinet is 30 A. In a non-synchronized handover, an MS keeps charge current for the battery cabinet is 30 A. sending Handover Access Burst messages (usually, the value of timer T31 MSG_ABIS_HO_DETECT message to the BSC. in one mode must be the same as the value of the corresponding para In multi-mode scenario, the value of this parameter The BTS includes the information of different physical layers in the Physical Information message, thus ensuring correct tra For details, see protocols 08.58 and 04.08.

Maximum retransmission for radio priority 1. The 2bit Radio Priority message carried by the MS in the Packet Channel Req

Maximum retransmission for radio priority 2. The 2bit Radio Priority message carried by the MS in the Packet Channel Req

Maximum retransmission for radio priority 3. The 2bit Radio Priority message carried by the MS in the Packet Channel Req

Maximum retransmission for radio priority 4. The 2bit Radio Priority message carried by the MS in the Packet Channel Req Maximum PPPMUX sub-frame length. If the PPP frame length is larger than this value, the PPPMUX multiplexing is perfor following condition must be met: wMuxMaxSfL <= ( wMuxMfl-8 )/2

Maximum length of the PPP multiplexing frame Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the pow downward power adjustment when the quality of the received signals falls into quality zone 0. Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the pow downward power adjustment when the quality of the received signals falls into quality zone 1. Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the pow downward power adjustment when the quality of the received signals falls into quality zone 2. This parameter specifies the actual coverage area of a cell. After receiving the channel request message or handover acce that of "Cell Extension Type" in the "ADD GCELL" command. Number of measurement reports (MRs) used for averaging the time advance before the call drops Whether to initiate a forcible call drop when the time advance exceeds "MAX TA Drop Call Threshold"

Whether the time advance after filtering exceeds the threshold. If the threshold is exceeded, a forcible call drop is initiated. Maximum positioning time. Maximum number of (16 kbit/s) Abis timeslots that the PDCHs can use in the TRX Maximum TTL value of the sent TRACERT packet Step of upward power adjustment according to the quality of the received signals Maximum Valid Dates. Detection index. The index is a unique value ranging from 0 to 31 if it is not specified. Local IP address for multi-hop BFD

Used for requesting the MS to report the measurement information of neighboring cells in multiple frequency bands. This p For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values Number of the BTS. The BTS is numbered uniquely in a BSC. Name of the BTS. The BTS is named uniquely in a BSC. Mobile country code. This parameter identifies the country where a mobile subscriber is located, for example, the Chinese

Local mobile country code (MCC). It is used to identify the country that the mobile subscriber belongs to. For example, the Number of MC priorities. This parameter is valid when the MP group type is MC. Number of MC prioritie levels. Number of the cell. The cell is numbered uniquely in a BSC. Name of cell 2

Cabinet No. of the management board. The management board refers to the TMU or RXU that directly communicates with If the MCPA Optimization Switch is turned on, the MCPA priority update mode is adjusted. Standard for the GSM multi-carrier BTS Identifies a maintenance domain Level of the maintenance domain.The priority of the maintenance domain ranks from 0 to 7 from low to high. name of the MD Name of the maintenance domain. Whether to allow the MS to the send the PS measurement report to the network side Common measurement period Type of the measurement report (MR) reported by the MS Identifies a maintenance point in the maintenance alliance A maintenance point is an edge node of the MA. Identifies a maintenance end point (MEP) of a maintenance association.

The type of the maintenance point added to the maintenance group. LocalMep indicates a local maintenance point and Re MP/MC sequence header option Frame encapsulation format supported by MP/MC. Minimum receive level for a neighbor cell to become a candidate cell during cell reselection. When the receive level of the bad normal cell reselection level. Minimum bandwidth for dynamic adjustment at the logical port

Selects 3G candidate cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring Minimum receive level offset. An MS can be handed over to a neighboring cell only when the downlink level of the neighboring cell is greater than the su

Threshold for triggering prompt alarm clearance when the ANT_A tributary antenna current is too heavy. When the actual c

Threshold for triggering prompt alarm clearance when the ANT_B tributary antenna current is too heavy. When the actual c

Warning alarm threshold against excessive TMA feed current of feed tributary 0. When the actual current is greater than th

Warning alarm threshold against excessive TMA feed current of feed tributary 1. When the actual current is greater than th

Warning alarm threshold against excessive TMA feed current of feed tributary 2. When the actual current is greater than th

Warning alarm threshold against excessive TMA feed current of feed tributary 3. When the actual current is greater than th

Warning alarm threshold against excessive TMA feed current of feed tributary 4. When the actual current is greater than th

Warning alarm threshold against excessive TMA feed current of feed tributary 5. When the actual current is greater than th

Threshold for triggering prompt alarm clearance when the ANT_A tributary antenna current is too heavy. When the actual c

Threshold for triggering prompt alarm clearance when the ANT_B tributary antenna current is too heavy. When the actual c In a direct retry, when the receive level of a neighboring cell is no smaller than this parameter, the neighboring cell can be Minimum time required for a TCH to transform to a SDCCH and then transform back to a TCH

Selects 3G candidate cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring Minimum interval at which two BFD packets are received. Minimum interval at which the BTS receives BFD packets

Minimum interval between sent BFD packets Minimum interval at which the BTS sends BFD packets Mirror destination Ethernet port number Mirror Ethernet port number Mirror type

Mobile network code. This parameter identifies the public land mobile network (PLMN) to which a mobile subscriber belong

Mobile network code (MNC). It is used to identify the PLMN that the mobile subscriber belongs to. Working mode of the system clock. Working modes of the system clock are as follows: (1) MANUAL: In this mode, a clock and the switching of the clock Usage threshold of the CPUyou for must callingspecify access. If the source usage of theprevent CPU exceeds the threshold, the source. calling access request i (2) AUTO: In this mode, you do not need to specify a clock source and the system automatically selects the clock source w (3) FREE: In this mode, the crystal oscillator of board is used.

SCTP link work mode. Server mode: BSC6900 starts the listening and waits for the peer to send the SCTP-INIT message. Configuration mode Working mode after switchover Mode of file output.

Backup mode of the switch protection group Alarm mode of of feed tributary 0. this There are threeisalarm Working mode a port. When parameter set tomodes. CHECK_ON_STANDBY_PORT, the connectivity check is performe Alarm mode 1 has only one type of alarms. The alarm is fixedon and CHECK_ON_PRIMARY_PORT, the connectivity checkcurrent is performed thegreater active than port. the normal working current. Alarm feedtwo tributary three alarm Alarm mode mode of 2 has types 1. of There alarms:are warning alarmsmodes. and critical alarms. The alarm current is fixed and greater than the Alarm one type of alarms. The alarm is fixed and greater than the normal working current. pulse c Alarm mode mode 1 3 has has only two types of alarms: warning alarmscurrent and critical alarms. The warning alarm current is periodical Alarm feedtwo tributary three alarm Alarm mode mode of 2 has types 2. of There alarms:are warning alarmsmodes. and critical alarms. The alarm current is fixed and greater than the Alarm one type of alarms. The alarm is fixed and greater than the normal working current. pulse c Alarm mode mode 1 3 has has only two types of alarms: warning alarmscurrent and critical alarms. The warning alarm current is periodical Alarm feedtwo tributary three alarm Alarm mode mode of 2 has types 3. of There alarms:are warning alarmsmodes. and critical alarms. The alarm current is fixed and greater than the Alarm one type of alarms. The alarm is fixed and greater than the normal working current. pulse c Alarm mode mode 1 3 has has only two types of alarms: warning alarmscurrent and critical alarms. The warning alarm current is periodical Alarm feedtwo tributary three alarm Alarm mode mode of 2 has types 4. of There alarms:are warning alarmsmodes. and critical alarms. The alarm current is fixed and greater than the Alarm one type of alarms. The alarm is fixed and greater than the normal working current. pulse c Alarm mode mode 1 3 has has only two types of alarms: warning alarmscurrent and critical alarms. The warning alarm current is periodical Alarm feedtwo tributary three alarm Alarm mode mode of 2 has types 5. of There alarms:are warning alarmsmodes. and critical alarms. The alarm current is fixed and greater than the Alarm one type of alarms. The alarm is fixed and greater than the normal working current. pulse c Alarm mode mode 1 3 has has only two types of alarms: warning alarmscurrent and critical alarms. The warning alarm current is periodical Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse c

Monitoring period Timeslot multiplexing mode at the Abis interface of the BTS. The BTS supports two multiplexing modes: statistical multiple

Monitoring duration A BTS supports the following six types of timeslot objects: OML: operation and maintenance link of the BTS. Each BTS has only one OML. In the case of statistical multiplexing on a Month when the TMU board software is released kbit/s timeslot, the OML works at 16 kbit/s. In this case, the OML uses a 16 kbit/s timeslot. ESL: extended signaling of theonly BTS. If the BTS supports Flex Abis, theparameter case of statistical on of a 64 kbit/s A quick handover can be link initiated if the rate of an MS is higher thaninthis during amultiplexing certain period time. no timeslot is assigned to the ESL. In this case, the ESL shares the same timeslot with the OML. RSL: signaling in each TRX. has one In the case of statistical ongenerated a 64 kbit Whenradio the number of layer error link frames on the MPEach groupTRX reaches the RSL valuelink. of this parameter, the framemultiplexing error alarm is timeslot, the RSL link works at 16 kbit/s. In this case, the RSL link uses a 16 kbit/s timeslot exclusively. Whentraffic the number of error frames theTCH MP group TCH: channels in each TRX.on The works decreases at 16 kbit/s.to the value of this parameter, the frame error alarm is clear Idle: idle timeslots of the BTS. An idle timeslot works at 16 kbit/s. In the case of statistical multiplexing on a 64 kibt/s timesl MP group numbertimeslots of the BTS. The monitoring timeslots work at 8 kbit/s, 16 kbit/s, 32 kbit/s, and 64 kbit/s. The mo Semi: monitoring A 2048 Mbit/s E1 contains thirty-two 64 kbit/s timeslots. Timeslot 0 is reserved for synchronization and cannot be assigned MP group number Statistical multiplexing means that signaling timeslots are time-division multiplexed in an E1 timeslot, such as the OML an multiplexes theMLPPP OML has a multiplexing of up to evenThe if the multiplexing ratio exceeds 4:1. group in the BTS3900 Number of an group on a BTS. Itratio is unique in 4:1 a BTS. scope of the number of th MLPPP HDLC and IP BTS do not support this parameter.

Number of the serial port where the board is located. The management board refers to the TMU or RXU that directly comm Is Support MCPPP. MP type

Number of the slot where the MPU subsystem is located

Whether power control algorithm allows measurement report compensation. Number of the subrack where theIIMPU subsystem is located When making a power control decision, the BSC retrieves a certain number of history measurement reports and performs level values and receive quality values are used in filtering, you must compensate the receive level values and receive qua If the number of measurement reports lost consecutively is no larger than this value, linear interpolation is performed for th discarded, and the value will be recalculated when new measurement reports arrive.

When the number of the lost measurement reports exceeds this parameter during a power control period, the power contro Frequency at which the BTSs submit pre-processed measurement reports to the BSC Attenuation factor for the TMA of antenna tributary 1 Attenuation factor for the TMA of antenna tributary 2

Switch of measurement report collection within a specified scope. If the specified scope is a site, the switch applies to all th

The control switch of measurement report collection includes OFF (do not collect), ON_WITH_SDCCH (collect measureme Maximum length of a received packet. The value of this parameter is negotiated at both ends of a communication. Number of MSs used when the offset information is collected

Whether to collect the information about the MSs of different capabilities in a cell. This parameter has no impact on service

Available capacity of the MSC. This parameter is valid only when the MSC pool function is enabled. It is set according to th Number of bits occupied by the Network Resource Identifier in the TMSI. NRI specifies a CN node in the MSC pool.

Special NRI(Network Resource Identifier) that is coded together with common NRIs. This parameter is used to indicate tha Whether to enable the MSC pool function on the BSC6900. The MSC pool function enables up to 32 MSCs to provide services for mobile subscribers in a BSC6900. With the MSC po Administrative state of the MSC. This parameter is valid only when the MSC pool function is enabled. It is set according to Protocol version of the MSC that is connected to the BSC6900. The supported signaling varies with the protocol versions. Call reestablishment timer

MSISDN value MSISDN prefix 1. When matching the call specified by the mobile number, the BSC6900 adds the MSISDN prefix 1 accord MSISDN is 123456. MSISDN prefix 2. When matching the call specified by the mobile number, the BSC6900 adds the MSISDN prefix 2 accord MSISDN is 123456. MSISDN prefix 3. When matching the call specified by the mobile number, the BSC6900 adds the MSISDN prefix 3 accord MSISDN is 123456. MSISDN prefix 4. When matching the call specified by the mobile number, the BSC6900 adds the MSISDN prefix 4 accord MSISDN is 123456. MSISDN prefix 5. When matching the call specified by the mobile number, the BSC6900 adds the MSISDN prefix 5 accord MSISDN is 123456. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled. If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are calling are 135 or 139, the BSC local switching function is enabled.

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching Maximum number of Channel Request messages that can be sent by an MS in an immediate assignment procedure. After the to MSenable initiates the immediate assignment procedure, it always listens the messages on the BCCH and all the com Whether "Triggering the quick PBGT algorithm only when an MS istofar from the BTS" Request messages at a specified interval. If the downlink quality is poor, the MS may send SABM frames to the BTS multiple times.

Control command of the MSP switchover protection group

Threshold of the MS Receiver Diversity (MSRD) mode PDCH Downlink multiplex threshold in the Mobile Station Receiver Diversity (MSRD) mode. When this parameter is set to of the coding rate in MSRD mode, the MS is required to adopt the MSRD mode. The M criteria supports setting minimum values for the downlink receive level of neighboring cells. The M criteria met only whenthe , board is located. The management board refers to the TMU or RXU that directly commu Number of the issubrack where Estimated downlink level of neighboring cells >= ("Min DL level on candidate Cell" + "Min Access Level Offset") Estimated uplink level of neighboring cells >= ("Min UL level on candidate Cell" + "Min Access Level Offset")

When the number of received measurement reports on the downlink transmission quality (Packet Downlink Ack/Nack mes

Duration of the flow control timer F of the MS. The MS sends the flow control message according to this duration. If no handshake message is received from the peer within the delay, the master service is activated. A master service obje signaling links on the A interface of the local BSC are faulty. Maximum TX power for the MS to access the PCH Switch for the self-healing of the OMU when the OMU process memory is overloaded

Usage threshold of the CPU for called access. If the usage of the CPU exceeds the threshold, the called access request is Detection method Identify an MTP2 link Metric system. The values of this parameter include "MET" and "IMP". Maximum transport unit Maximum transmission unit Maximum size of a packet that can be transmitted or received on a FE port. Bus voltage of the battery rack of the BTS

Multi-band point report value, including "report six cells with the strongest signal at each frequency point", "report one cell w

Period of performing class-1 mute detection. If the bad frame rate reaches "Bad Frame Threshold of Mute Detection Class

Whether the one-way audio problem is checked in class-2 detection. In this manner, the one-way audio problems found in Period of performing the class-2 mute detection. After the BTS or TC initiates a class-2 mute detection request, the class-2 TRAU frame is received, mute speech is detected; if the class-2 mute detection response and the expected test TRAU fram

Time for prohibiting the call from accessing the corresponding channel where one-way audio is detected on the Abis interf Whether to forcibly release a call after the forced handover fails in the case of one-way audio on the Abis interface Maximum time waiting for multiplexing Frame timeout duration of the PPP multiplexing group IP packet multiplexing type Minimum number of reserved working status TRXs of the cabinet BFD local description mark

System parameter in the LAPD protocol. The value of this parameter specifies the maximum number of times when a fram Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Whether the BSC6900 sends the LAPDm N200 parameter to the BTS. If this parameter is set to YES, the BSC sends the LAPDm N200 parameter. If this parameter is set to NO, the BSC6900 d

Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Maximum value of the N3101 counter. In the dynamic uplink allocation mode, the network side enables multiple MSs to sh network side waits for the RLC uplink data block sent by the MS. If the RLC uplink data block sent by the MS is valid, N310 Maximum value of the N3101 counter. When the uplink transmission ends, if the network side receives the last RLC data b N3103 is increased on the network side and the uplink packet acknowledged/unacknowledged message is retransmitted. Maximum value of the N3105 counter. After the downlink TBF is set up successfully, the N3105 is started on the network s RRBP domain. In this case, N3105 is reset. Otherwise, the value of N3105 is increased and the downlink data block of the

Counter theintegrity checkingistimes "Parameter [N393]".ofAfter link integrity is verified accordr Counter on on the the DTE DTE side, side. recording After BC link verified accordingoftoDTE "Parameter DTEBC [N391]", the global state query of the checking times "Parameter of DTE [N393]", the BC link state is switched to the normal state. If the BC link state ope Counter on the DTE side, the must checking times "Parameter of DTEof[N393]". After BC link integrity is verified accord faulty state. "Parameter of recording DTE [N392]" be smaller than "Parameter DTE [N393]". of the checking times "Parameter of DTE [N393]", the BC link state is switched to the normal state. If the BC link state ope faulty state. "Parameter of DTE [N393]" must be greater than "Parameter of DTE [N392]". Whether to support the network assisted cell change (NACC). The NACC is used in the network control modes NC0, NC1 shorter time. Name of the OSP Name of the DSP Name of an MTP3 route Name of the signalling link set Name of the MTP3 link Name of the adjacent node Local entity name. The local entity name must be unique. Name of the destination entity The M3UA route names and the M3UA routes are in the one-to-one matching relation. Name of the M3UA link set. The name of the M3UA signalling link set must be unique. M3UA signaling link name. The M3UA link names and the M3UA links are in the one-to-one matching relation. Name of the PCU Whether to preferentially allocate loose multiplexing frequencies to non-AMR users

Filter consistent of the collision signal strength of power control. When sampling must be performed (NAVGI) times before Whether to enable the Tandem Free Operation (TFO) function on the BTS through a CHANNEL ACTIVATION or MODE M improve end-to-end voice quality. The TFO function cannot be used to improve the voice quality of an MS-to-PSTN call.

Uniform number of neighboring cell 1 index within a BSC6900, which uniquely identifies a cell and is in the range 0 to 5047 Name of neighboring GSM cell 1

Index of neighboring GSM cell 2. Uniform number of a cell index within a BSC6900, which uniquely identifies a cell and is i Name of neighboring GSM cell 2 Uniform number of a cell index within a BSC6900 , which uniquely identifies a cell. Name of a cell Uniform number of a neighboring cell index within a BSC, which uniquely identifies a cell. The value range of the index of a 3G external cell is 5048 to 8047. Name of a neighboring cell

When this switch is on, it indicates that the data of the adjacent cell is generated automatically. When this switch is off, it in

Cell ID of a neighboring cell Local Area Code (LAC) of a neighboring cell Mobile Country Code (MCC) of a neighboring cell

Mobile Network Code (MNC) of a neighboring cell Whether the PCU of the cell supports the 64 neighboring cells. This parameter determines the capability of reporting the number of the neighboring cells of the BSC in the NACC and NC

Whether to involve the load of the target cell in the algorithm for NC2 cell reselection. If this parameter is set to Support, th Whether to support the network control 2 (NC2). The NC2 enables the network side to control the cell reselection for the M network side can control the cell reselection for the MS. Network color code that is provided by the telecom operator. The NCC is used to identify networks from area to area. The The BCC and the NCC form the BSIC.

Network color code. It is used to uniquely identify different public land mobile network (PLMN) of the adjacent country. A set of NCCs of the cells to be measured by the MS. This parameter is an information element (IE) in the system informat If a bit of the value of this parameter is set to 1, the MS reports the corresponding measurement report to the BTS. The va

NCC bitmap of the measurement report sent by the MS. The MS reports only the NCC bitmap of the BSIC and the cell me For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values Neighboring cell interference level threshold 0 Neighboring cell interference level threshold 1 Neighboring cell interference level threshold 2 Neighboring cell interference level threshold 3 Neighboring cell interference level threshold 4 Neighboring cell interference level threshold 5 Neighboring cell interference level threshold 6 Neighboring cell interference level threshold 7 Number of blocks occupied by the NCH in the group call service

Network control mode for cell reselection the MS. modes. NC0: normal MS control. The MS shall perform Number of the start block occupied by theofNCH in theThere groupare callthree service control. The MS shall send measurement reports to the network . The MS shall only perform autonomous cell re-selection can control the cell reselection for the MS. The DSP and OSP are in the associated mode or non associated mode. IP address mask of the VLAN

Minimum interval between two consecutive emergency handovers performed by an MS. During this interval, no emergency IP address of the next hop Next hop Next hop IP address of the next hop Network ID

Name of the file to be downloaded. The file name must be complete and does not contain a wildcard. This parameter is related to the paging channel of the system. There are three network operation modes: network operatio system is not configured with the Gs interface and the PCCCH is not configured. Network operation mode III is used when

No Mains Supply Alarm Cabinet No. No Mains Supply Alarm Port No. No Mains Supply Alarm Slot No. No Mains Supply Alarm Subrack No. Lower limit of input voltage 1 Upper limit of input voltage 1 Lower limit of input voltage 2 Upper limit of input voltage 2 Lower limit of input voltage 3 Upper limit of input voltage 3 Lower limit of input voltage 4 Upper limit of input voltage 4 Lower limit of input voltage 5 Upper limit of input voltage 5 Lower limit of input voltage 6 Upper limit of input voltage 6 Whether to allow non-AMR voice F-H handover

Decides the offset of the current ATCB together with other two parameters: "F-H Ho Period" and period of triggering a F-H

When the ATCB value of non-AMR full rate voice is no smaller than this parameter, the condition for non-AMR F-H handov Decides the current path cost offset together with other two parameters: "F-H Ho Period" and period of triggering a F-H ha Path cost offset = (Period of triggering a F-H handover / "F-H Ho Period" + 1) * "Non-AMR F-H Ho Pathloss Adjust Step".

When the path loss value of non-AMR full rate voice is no larger than this parameter, the condition for non-AMR F-H hando

Quality threshold for non-AMR F-H handovers. When the uplink receive quality and downlink receive quality of a user are b When the load of a cell is no smaller than this threshold, non-AMR F-H handovers are triggered in the cell.

When the ATCB value of non-AMR half rate voice is no larger than this threshold, the condition for non-AMR H-F handove

When the path loss value of non-AMR half rate voice is no smaller than this threshold, the condition for non-AMR H-F hand Whether to trigger non-AMR H-F handovers according to the uplink and downlink receive quality

Quality threshold for non-AMR H-F handovers. When the receive quality of a user is no smaller than this parameter, the us When the load of a cell is no larger than this threshold, non-AMR H-F handovers are triggered in the cell. Type of the adjacent node Decisions of no-downlink measurement report handovers can be made only when the number of consecutive no-downlink

Whether to enable the no-downlink measurement report handover algorithm When a certain number of no-downlink measurement reports are received consecutively and the uplink receive quality is n preferentially; however, if no candidate cells are available and intra-cell handover is enabled in the current cell, intra-cell ha

Normal output capacity of the battery group in specific discharging conditions (such as discharge rate, temperature, and fin

Whether to enable the III power control algorithm for Non-AMR calls. If enabled, power control is performed on Non-AMR c

Period when the cell is in the non-DRX state

When the ANT_A tributary antenna current abnormally check mode is set to Mode 3, the parameter ALD Current Prompt A

When the ANT_B tributary antenna current abnormally check mode is set to Mode 3, the parameter ALD Current Prompt A Whether to allow the cell normal reselection. If this parameter is set to PERMIT and "NC2 Load Reselection Switch" is set Normal work temperature threshold of the cabinet

Whether to discard paging messages without TMSIs and all-cell paging messages that considerably increase the load on t

Maximum number of measurement periods in which there is no traffic. If the number of measurement periods in which ther

If the BTS works in fallback mode and uplink VGCS connection is idle for a period specified by this parameter, the BTS dis Number of TRACERT packets sent to each TTL For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values Network resource indication that specifies a CN node in the MSC pool

Controls of the FDD_Indic0 NR_OF_FDD_CELLS and the name FDD_Cellinformation field in 2quater a Identifiesthe thevalues mapping relation from thefield, NRI the to the SGSN uniquely withfield, the operator When this parameter is set to YES, FDD_Indic0 is set to 1, the NR_OF_FDD_CELLS count does not include cells with scr When this parameter is set to NO, FDD_Indic0 is set to 1, the NR_OF_FDD_CELLS count includes cells with scrambling c Identifies a unique NSE The identifier of a network service entity (NSE).An NSE manages a group of NSVCs. For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values Whether the cell is located in the south latitude or north latitude NSVC ID, identifies a unique NSVC. This ID must be negotiated with the peer SGSN.

If the inlet temperature between "High Temperature Critical Point" and "Low Temperature Critical Point" and the differen NSVC index, identifies ais unique NSVC. well as the difference between the inlet temperature and the ambient temperature. If outlet temperature is between Temperature Critical "Low Temperature Critical and the differe Inthe multi-mode scenario, the value of "High this parameter in one modePoint" must and be the same as the value of thePoint" corresponding para as the difference between the inlet temperature and the ambient temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Number of retransmissions of the VGCS UPLINK GRANT message Ratio of the minimum guarantee bandwidth of the OAM stream to the port bandwidth Minimum guarantee bandwidth of the OAM stream Minimum guarantee bandwidth of the OAM stream Minimum guarantee bandwidth of the OAM stream Ratio of the minimum guarantee bandwidth of the OAM stream to the port bandwidth

DSCP value of the OAM stream. The data of the OAM stream are not added to queues 0 to 5 for transmission. Instead, the Minimum guarantee bandwidth switch of the OAM stream Operation object Type of the object Index of object This parameter indicates the object index.

Shield type of the alarm. "ALL" indicates one shield type instead of all types. Type of the alarm shield object

Object index types used when commands are executed When the PDCHs are insufficient, the streaming service with high priority can preempt the PDCHs that are seized by the s are preempted, then the streaming service with low priority is disrupted.

Whether to allow overlay-to-underlay handovers This parameter specifies whether to configure the backup OML. When YES is configured in the BTS, an OML is configured the OML is disconnected. If the established OML is disconnected, the BTS automatically switches the OML over to anothe If OML Detection Switch is set to OFF, then the OML timeslot automatic detection is not supported. In this case, the OML i OML to the specified timeslots. This parameter specifies the detecting time of Abis-Bypass site OML when it is broken. Differentiated service code of the specified OML The summation of average down-bandwidth of OML&ESL link in BTS. The summation of average up-bandwidth of OML&ESL link in BTS. Service priority of the specified OML

Priority of services on the OML. The operation and maintenance link (OML) is used to transfer the OM information between Specified OML Vlan Id Size of the OML/ESL/EML Downlink LAPD window External virtual IP address of the OMU Subnet mask of the OMU in the external network Account of the operator

Code of the original signaling point (OSP) in the signaling network. In the signaling network, each signaling point is identifie Code of the signaling point of the local office in the signaling network. In the signaling network, each signaling point has a

Uniquely identifies an OSP. see "ADD OPC" command. Primary operator or secondary operator. Primary operator is an operator that provides equipment, whereas secondary operator is an operator that leases equipmen Index of the operator. This parameter uniquely identifies an operator. Operator index set to which the CBC belongs

In the normal mode, if the board cannot be reset, no operation is performed. In the force mode, if the board cannot be rese It is one key filed of identifying A interface CIC status and indicates the alignment mode of A interface circuit. It is one key filed of identifying Ater interface timeslot status and indicates the alignment mode of Ater interface circuit. It is one key filed of identifying A interface timeslot status and indicates the alignment mode of A interface circuit. It is one key filed of identifying Pb interface CIC status and indicates the Pb interface CIC.

Name of the operator. This parameter uniquely identifies an operator Channel assignment policies used when TCHs are assigned in an IUO cell: SysOpt: The system selects the preferentiallythe overlay; NoPrefer: use the normal channel assignment algorithm to assign channels.

Preferentially assigns channels on the overlay when the uplink receive level on the SDCCH is no smaller than "Assign-opti

Preferentially assigns channels on the overlay when the uplink receive level on the SDCCH is no smaller than "Assign-opti

This parameter specifies the TRX priority in channel assignment. The smaller this parameter is, the higher the TRX priority

Optical interface standard Type of the operation The operation type can be "FORBID" or "RESTORE". Iur-g signaling point index of an internal RNC in GU mode

If "Port Type" is set to "TOPEXTOUTPORT", this parameter determines the extended E1/T1 port through which the timeslo Operation type of the command.

Ordinary frequency. Multiple frequencies are separated by "&". For example, "22&33&44&55" are allocated to TRXs in asc This parameter indicates the total number of hardware modules, excluding those of GSM.

One of the parameters that decide the underlay and overlay areas in an enhanced IUO cell. The underlay and overlay are Whether to assign channel requests initiated in the underlay subcell to the overlay or underlay subcells according to "UL S subcell.

The timer is used to set the time when the BSC6900 waits for a handover success message after a handover command is

The timer is used to set the time when the BSC6900 waits for an HO REQ ACK message after a Handover Request messa Whether to use external 2G neighboring cells as the target cells of load handovers

When the load of the underlay subcell is higher than this parameter, some of the calls in the underlay subcell will be switch Power overload threshold for triggering outgoing handover from the TRX under the prerequisite that the power amplifier of Lower threshold of the overlay level during overlay-to-underlay handovers. When the receive level of an MS is higher than Whether to switch some of the calls in the underlay subcell to the overlay when the load of the underlay is higher than this

If the underlay load is higher than "UL Subcell Serious Overload Threshold", the underlay-to-overlay handover period subtr When the load of the underlay subcell exceeds "UL Subcell General Overload Threshold", all the calls that are using this c fail. To solve this problem, the BSC uses the hierarchical load handover algorithm to gradually switch some of the calls in t Level step during underlay-to-overlay hierarchical load handovers

When the load of the underlay subcell is lower than this parameter, some of the calls in the overlay subcell will be switched Specifies the timeslot mask out BSC6900 Outgoing BSC6900 port number Number of the outgoing port of the DXX Number of the outgoing timeslot of the DXX

Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it shou

Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it shou

Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it shou

Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it shou Output power of the location group. For a location group that consists of MRRU or GRRU boards, the default output power the frequency band is 1800M/1900M, the default output power is 15W. Output power of the location group Output power unit of the location group

When the load of the underlay subcell is higher than this parameter, the underlay-to-overlay load handover period subtract Whether to report a cell out-of-service alarm after a cell is out of service

Outgoing BSC6900 slot number Slot number of the load outlet interface board Outgoing BSC6900 subrack number

This parameter specifies whether to allow the inter-RAT load handover in connection mode (after the assignment is comp

When the Service Handover field in an ASS REQ message is 0, a direct retry process targeted at a 3G network is initiated

When this parameter is set to Open, the BSS decides whether to hand over the current service to the 3G network accordi Validity period for the BSC to keep the load information about a 3G neighboring cell on the RNC Outgoing BSC6900 start timeslot number

Abnormally alarm raise threshold triggered by too heavy current of the ANT_A tributary antenna. When the actual current i

Abnormally alarm raise threshold triggered by too heavy current of the ANT_B tributary antenna. When the actual current i

Abnormally alarm raise threshold triggered by too heavy current of the RET tributary antenna. When the actual current is h

Clearance threshold for the alarm triggered when the ANT_A tributary antenna is over current. When the actual current is b

Abnormally alarm clearance threshold triggered by too heavy current of the ANT_B tributary antenna. When the actual cur

Clearance threshold for the alarm triggered when the RET tributary antenna is over current. When the actual current is bel

When the ANT_A tributary antenna current abnormally check mode is set to Mode 3, the parameter ALD Current Prompt A

When the ANT_B tributary antenna current abnormally check mode is set to Mode 3, the parameter ALD Current Prompt A Interval for the BTS transmitting overload messages to the BSC6900. This parameter is used to control the reporting frequ The overload can be the TRX processor overload, downlink CCCH overload, or AGCH overload. For details, see GSM Rec Temperature threshold of the derating function of the cabinet

Threshold for critical flow control. When the usage of the CPU exceeds the threshold, the CPUS performs critical flow cont

Threshold for major flow control. When the usage of the CPU exceeds the threshold, the CPUS performs major flow contro

Threshold for minor flow control. When the usage of the CPU exceeds the threshold, the CPUS performs minor flow contro

This parameter specifies whetherWhen the multi-carrier transceiver unit supports the Multi-Carrier Intelligent Voltage Threshold for slight flow control. the usage of the CPU exceeds the threshold, the CPUS performs slight Regulation flow contro When this parameter is set to YES, the multi-carrier transceiver unit automatically regulates its working voltage according t BTS3900 GSM, BTS3900L GSM, BTS3900A GSM, DBS3900 GSM, BTS3900E base stations. For other base stations, thi Whether to support the function of moving the packet assignment down to the BTS. To improve the access speed of the M acknowledgement message sent by the MS. Then the BTS allocates the reserved uplink resources to the MS to move the

Average number of paging messages allowed in a cell in a period Lifetime of a paging message in the queue of the BTS. The setting of this parameter must be consistent with the setting of timer T3113. The units of this parameter is 250ms. Maximum number of paging messages allowed in a cell in a period For the BTS, this parameter is used to determine paging retransmissions. This parameter and the number of paging times configured in the MSC.

This parameter sets the PAN_DEC value used by the counter N3102 of the MS. When the timer T3182 of the MS expires, This parameter sets the PAN_INC value used by the counter N3102 of the MS. When receiving the packet uplink acknowle 7; Value N indicates that PAN_DEC is N; Not use: this parameter is not used.

RAN_MAX value, the maximum value of the N3102. 4: the value of PAN_MAX is 4; 32: the value of PAN_MAX is 32. Valu

Priority level at which the BSC shuts down the power amplifier of the TRX when the intelligent shutdown function is enable Patch number of the TMU board software Patch number of the TMU board software

IP path check flag Uniquely identifies an IP path IP path ID,Identifying an IP path. Transmission loss difference between radio frequencies on different bands Whether to perform path loss-based sorting in a better cell handover algorithm Type of the IP path Patch type

BTS power attenuation on the measured PBCCH Whether to use the PBGT handover algorithm. PBGT handovers are based on path loss. The PBGT handover algorithm s only on TCHs and among cells on a same layer and a same priority level. The triggering of PBGT handovers must meet the P/N criteria, that is, when the condition for PBGT handovers is met for a

PBGT handovers to a neighboring cell are allowed only when the downlink level difference between the neighboring cell an The triggering of PBGT handovers must meet the P/N criteria, that is, when the condition for PBGT handovers is met for a

Maximum times for an external PCU to retransmit a PB interface maintenance message. When the PCU fails to receive a r Minimum interval between two consecutive power control commands

Channel used for the measured receiving power. It is used to set the measured receiving power level of the channel and c It is one key filed of identifying Pb interface CIC status and indicates the PCU No. corresponding to the Pb interface CIC. PCU number, identifying a unique PCU. Port number of the E1/T1 of the Pb interface

Number of the PCU to which the current cell belongs Whether the PCU supports the PREEMPT_ABIS_LINK message. If the BTS supports the FLEXABIS function, the CS serv message. PDCH downlink multiplex threshold, Indicating the maximum TBFs on the downlink PDCH (parameter value/10).We recom reducing PDCH multiplex.

This be used together with "Level of Preempting Dynamic in the following This parameter parameter must specifies whether to enable the Power Optimization Based Channel" on Channel Type feature.conditions: The working voltage 1. When "Level of Preempting Dynamic Channel" is set to "No preempt of service TCHF" and "PDCH Reforming" is set to 2: When "Level of Preempting Dynamic Channel" is set to "Preempt all dynamic TCHFs" or "No preempt of CCHs" and "PD PDCH uplink multiplex threshold, indicating the maximum TBFs on the uplink PDCH (parameter value/10). We recommand PDCH multiplex. Pending timer of the M3UA link set Peer BSC ID. It identifies a BSC. ID of the peer BSC6900 IP address of the peer BSC6900 on the homing BSC6900 side Subnet mask of the port IP address at the peer BSC6900. Identifier of the peer BTS on the homing BSC6900 side Peer IP address of the PPP link. The IP address of the PPP link on the peer side of the BSC. Peer IP address of the MP group. Detects the IP address of the gateway IP address of the peer end of BTS PPP Link.

IP address of the peer end of BTS MLPPP Group. First destination IP address. The invalid value is 0. Second destination IP address. The invalid value is 0. The peer IP address should not be the same as the local address. Subnet mask of the peer IP Destination SCTP port number

Whether to punish the target cell when a handover fails or to punish the current serving cell when a handover is of more TA Peer Software Version After a handover fails due to congestion of the target cell, the system needs to punish the target cell to prevent the MS from Ping-pong handovers can easily occur when handovers are of more TA or bad quality. In these cases, the system needs to

Penalty duration for cell reselection. Cell penalty can be performed only in this duration. When this parameter is set to a gr When the cell reselection failure message is received or the load cell reselection is initiated, the "Cell Penalty Level" is sub Penalty Duration". Timer of penalty on a neighboring cell when a handover fails due to faults of data configuration. Ping check period of IP Path Measurement period for each frequency group Compression flag of the PPP link protocol domain Compression flag of the PPP link protocol domain Whether to compress the protocol field of the PPP link. Whether to support the paging message classification function: 0,close; Whether to support packet flow context (PFC). The PFC flow is used to control the QoS of the packet service of the MS. 1,paging message classification flow control; 2,re-paging flow control. Maximum number of paging messages that the BSC6900 can process over the A interface within a measurement period Maximum number of PS paging messages that the BSC6900 can process within a "Paging Statistical Period". Measurement period for calculating the arrival rate of paging messages Value of the per-hop behavior (PHB) PHB type of the IPMUX to be enabled

Whether to enable the private key password Cell Reselect Parameters Indication (PI), sent on the broadcast channel, indicates whether "Cell Reselect Offset", "Cell Re DISABLE: indicating that the private key password is disabled ENABLE: indicating that the private key password is enabled Indicates the number of the packets for remote loopback test of the OAM in the Ethernet Indicates the length of the packets for the remote loopback test of the OAM in the Ethernet

Loopback packet length Maximum multiplexing frame length. The length of the multiplexed packet must not exceed the maximum multiplexing fram payload, excluding the IP/UDP header.

Whether the cell supports the PACKET SI STATUS flow. In the PACKET SI STATUS flow, the MS sends the Packet PSI/S Indicates the size of the PING packet, neither IP header nor ICMP header is included.

Sent packet size Persistence level 1 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS,

Power attenuation level of all the other timeslots of the BCCH except for timeslot 7 in 16QAM. The attenuation level ranges

Persistence level 2 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS, Persistence level 3 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS,

Power attenuation level of all the other timeslots of the BCCH except for timeslot 7 in 32QAM. The attenuation level ranges Persistence level 4 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS,

Power attenuation level of the EDGE TRX. There are 50 power attenuation levels. At each level, the power is attenuated b

Statistics period of the packet drop ratio. This parameter indicates the period for collecting the statistics information about t

Packet drop ratio threshold for speed reduction. When the packet drop ratio exceeds the value of this parameter, the rate o Point at which to play sound Whether to enable sound playing

Duration of sound playing. If this parameter is set to 0, the sound is played repeatedly. If this parameter exceeds the durat

CPU usage threshold for performance monitoring. When the average CPU usage of sliding windows reaches or exceeds th

Packet queue usage threshold for performance monitoring. When the average packet queue usage of sliding windows rea Interval for sending cell paging group packets when Paging Messages Optimize at Abis Interface is enabled Number of cell paging group packets when Paging Messages Optimize at Abis Interface is enabled

Whether to enable Paging Messages Optimize at Abis Interface. The BSC6900 combines multiple paging messages to a c

CPU usage threshold for recovery from performance monitoring. When the average CPU usage of sliding windows is lowe

Packet queue usage threshold for recovery from performance monitoring. When the packet queue usage of sliding window Whether to monitor the RRM performance Number of the port Port No. of environment alarm Port No. of the XPU board. If you do not specify this parameter, all ports of the XPU board are queried.

Number of the E1/T1 port on the Ater interface board. E1 mode: 0~31 (EIU), 0~62(OIU), 0~251(POUc). T1 mode: 0~31(EI Port number It is one key field of identifying the block of the Ater timeslot and indicates the port No. of the Ater interface timeslot. Port number of the E1/T1 of the Pb interface

Number of the port where the alarm is generated, only the ports for data transmission are supported, such as E1/T1 port, c Indicates the port number for running this command. E1/T1 port number E1/T1 port number E1/T1 port number Indicates the port number for running this command. Port number Port number Port number

Ethernet port FE/GE port number Ethernet port Port number E1/T1 port number Port number Port number of Pb signaling link Port No. of the BSC6900 board connected with the BTS Alarm port number Number of the port on the BTS side Number of the port on the BTS side Number of the port through which the BTS is connected to the BSC6900 Number of the FE or GE port

Number of the Ethernet port. The number must be consistent with that of the port carrying the FE connection of the IP BTS

Port number Maximum transmission delay of the POC service (push to talk over cellular). The transmission delay of the POC service m service received by the network side, Transfer Delay in the ABQP must be lower than the transmission threshold of the PO Maximum bandwidth of the POC service (push to talk over cellular). The transmission delay of the POC service must be re received by the network side, GbrValue in the ABQP must be lower than the maximum bandwidth of the POC service. Minimum bandwidth of the POC service (push to talk over cellular). The transmission delay of the POC service must be rel received by the network side, GbrValue in the ABQP must be larger than the minimum bandwidth of the POC service.

Whether to support the push to talk over cellular (POC) service This parameter specifies a condition for generating a BTS alarm. When the output power of a TRX of a transmitter is lower range is 0 to 9, indicating -10 dB to -1 dB. This parameter specifies a condition for generating a BTS alarm. When the output power of a TRX of a transmitter is lower value range is 0 to 9, indicating -10 dB to -1 dB. Description of the rollback point Name of the rollback point This port is provided by the FTP server to be visited by the FTP client.

Number of the port where to set up the link after the BTS ring is swapped. If this parameter is set to 0, the BTS works on a Number of the port where to set up the link after the main and backup OMLs of the BTS are swapped Number of the DXX port Maximum number of ports on the DXX Port protocol type Whether to enable the panel port of the XPU board

Indicates the type of the physical port used by the local maintenance point in the maintenance group. FE indicates the FE Type of the port. If this parameter is set to "TOPEXTOUTPORT", the local E1/T1 ports are used to extend the transmission extend the transmission of local boards. That is, the local boards can obtain the timeslots from other boards through the ex Whether to transmit the 2Quater message on the BCCH Norm channel or the BCCH Ext channel Type of the patch operation

Rated maximum output power of the diesel engine. Refer to the rated output power described on the diesel engine label. Relay switch 1 Relay switch 2 Relay switch 3 Relay switch 4 Relay switch 5 Relay switch 6 Battery current shunt coefficient

Power attenuation level of timeslot 7 of the BCCH in 16QAM. The attenuation level ranges from 0 to 50, with the step of 0. This parameter specifies the transmit power level of the TRX. The greater this parameter is, the smaller the transmit power Power attenuation level of timeslot 7 ofrange the BCCH 32QAM. The attenuation level ranges from 0 to 50, with the step of 0. For different types of BTSs, the value of thisinparameter is different. BTS3X: 0-10 Power type managed by the PMU BTS3001C: 0-13 BTS3002C: 0-10 supply system of the cabinet Type of the power Double-transceiver BTSs (BTS3012,BTS3012AE,BTS3006C): 0-10 DBS3900 GSM, BTS3900 GSM, BTS3900A GSM: 0-10.

This parameter specifies the maximum transmit power supported by the power amplifier of the TRX. The macro BTS and t

When the number of error frames on the PPP layer reaches the value of this parameter, the frame error alarm is generated

When the number of error frames on the PPP layer decreases to the value of this parameter, the frame error alarm is clear PPP link number of BSC. PPP link number PPP link number Number of a BTS PPP link.

Whether to enable the PPP frame multiplexing function. If this parameter is set to ENABLE, the PPP frame multiplexing fun

This parameter applies to the FG2a and GOUa boards. For the FG2c, GOUc, or POUc board, this parameter is always set This parameter specifies whether the preempted call is released after the handover failure. If this parameter is set to No, M with high priorities initiate the queuing procedure or the calls fail. Therefore, the access rate of MS with high priorities is de

This parameter specifies whether to preempt PDCHs when no TCH is available during the handover of the preempted call.

If this parameter is set to ON, the BSC initiates a TCHF preemption when receiving a link establishment indication from an Sampling rate of pre-processed measurement reports.

Priority of a route. A smaller value of this parameter indicates a higher priority. The BTS preferentially selects the route with Access priority of the MS that is allowed to access the cell. The MS sends the packet channel request containing the 2-bit parameter setting of the cell. If the radio priority equals to the parameter setting of the cell, the BSC sets up the TBF for the

This parameter specifies whether to support flow control based on priority. When this parameter is set to on, the system pr

Whether the BTSs send the original measurement reports to the BSC after pre-processing them. When this parameter is s

Printing control threshold. If the CPU usage of sliding windows reaches or exceeds the threshold, printing flow control is tri

Printing control threshold. When the packet queue usage of sliding windows reaches or exceeds the threshold, printing flow

Printing control threshold. If the CPU usage of sliding windows is lower than the threshold, printing flow control on the seria

Printing control threshold. When the packet queue usage of sliding windows is lower than the threshold, printing flow contr

Whether to control the printing flow on the serial port

This parameter controls handover between cells at the same layer. Generally, the cells at the same layer are set with the s

This parameter controls the handovers among cells on a same layer. A smaller priority value indicates a higher priority. Ce Priority of the hierarchical cell structure If the static Abis resource load is greater(HCS). than the value of "Fix Abis Prior Choose Abis Load Thred" and the dynamic Abis 0: indicates the lowest priority; 7: indicates the highest priority. Route priority. The highest priority is represented by 0.

Priority of the signaling link. 0 indicates the highest priority. A low-priority link carries services only when the high-priority lin Route priority. The boards FG2a, GOUa, UOIa(IP), FG2c, and GOUc support the configuration of routes with different prio standby mode. When the route with higher priority is available and only this route is valid, the system switches to the route Preferential customized detection type when the customized sequence is used for port detection. Number of customized detection types involved when the customized sequence is used for port detection.

Subsidiary customized detection type when the customized sequence is used for port detection. This parameter is valid on Name of the private key file Port detection sequence used during BTS startup.

Identifies the DSP protocol type, including ITUT(International Telecommunication Union - Telecommunication Standardiza Protocol type of the trunk frame. The setting of this parameter must be consistent with the setting at the SGSN side.

The transmission resource in the Abis timeslot is considered as faulty only when the BTS detects that the Abis timeslot is f This parameter specifies a period of time during which a cell cannot be enabled or disabled to prevent frequent cell enablin specified by this parameter.

This parameter is set to prevent the BSC from frequently enabling or disabling the TRX. After a TRX is powered on, the BS Port selection Port selection Port selection This parameter indicates whether to include Abis interface messages in PS CHR logs. This parameter indicates whether to include Gb interface messages in PS CHR logs.

This parameter indicates whether to include internal information in PS CHR logs. The internal information is the basic user This parameter indicates whether to include internal messages in PS CHR logs. The messages are generated in service d PDU removal indication. This parameter indicates whether to include Um interface messages in PS CHR logs. GSM PS data service downlink factor GSM PS data service uplink factor Whether to support PS Handover(PS HO). The PS HO is used to reduce the interval of the cell reselection of the MS. PS high PRI data path

PS high PRI data priority Priority for PS services over the Abis interface in IP, IP over E1, or HDLC mode when PS preferred. When "Level of Preem value, the priority for PS services becomes low.

Period for sending the packet message PSI. If the period is too long, the message PSI cannot be obtained in realtime. If th Whether the BSC supports the state message PSI. The state message PSI refers to PSI STATUS.

PS low PRI data path

PS low PRI data priority Priority for PS services over the Abis interface in IP, IP over E1, or HDLC mode when CS preferred. When "Level of Preem Service PRI" is set to a great value, the priority for PS services becomes low.

Threshold of the receive level for triggering the handover of the PS services from the overlaid subcell to the underlaid subc This parameter indicates the mode of exporting PS CHR logs. When the parameter is set to "Common User Mode&q exported (the command is "ADD GPSCHRUSER"). The two modes can coexist without affecting each other. This parameter specifies the level threshold for the random access of the MS. If the receive level of the RACH burst in the value of PS RACH Min. Access Level, the BTS considers that an access request exists on this timeslot, and determines to Minimum voltage level for accessing PS services of the location group This parameter indicates whether to record PS CHR logs. Maximum number of messages in the statistical period for the arrival of PS resource requests

Statistical period for the arrival of PS resource requests Whether to enable the DPSU0 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the DPSU1 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the DPSU2 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the DPSU2 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the DPSU3 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the DPSU4 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the DPSU5 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the DPSU6 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the DPSU7 to supply power for the BTS. This parameterscenario, specifiesthe whether BTS is allowedinto enable PSU Control feature. In multi-mode value the of this parameter one modethe must beSmart the same as the value of the corresponding para When this parameter is set to YES, the BTS automatically enables or disables the PSU according to the traffic volume to im The following types of BTS support the PSUthe Smart Control Threshold of the receive level for triggering handover of feature: the PS services from the underlaid subcell to the overlaid subc BTS3012AE BTS3900A, BTS3900, DBS3900, and BTS3900L: support the PSU Smart Control feature through the matching APM30. Switch for the self-healing of the OMU processes Port type of environment alarm Number of the port that provides the time information on the SNTP server

Cell Reselect Penalty Time (PT) is used to ensure the safety and validity of cell reselection because it helps to avoid frequ Subnet protocol type Alarm port type Line coding method Receiving frame structure Sending frame structure Frame structure Number of a BTS HDLC path. It is unique in one [BTS].

Ethernet port type Power system type. When the PMU is installed on the rack, you can select the custom power system type. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

This parameter specifies the patch version loaded to the BTS. This can be set Nameparameter of the certificate file to only a hot patch version. You can use either of the following methods to query the version nu Method 1: If the BTS hot patch is downloaded to the OMU through the MML command DLD BTSPATCH, you can run the M Method 2: If the BTS hot patch is not downloaded to the OMU, you can decompress the BTS hot patch package. Then, ch Number of the patch version

Period timer of PVC utilization report. This timer is started during initialization. When the timer expires, the PVC utilization i Private key password Password

User password for the FTP server. When the FTPServer.exe file downloaded through the LMT is installed, the user passw Minimum length of the user password Power level First alarm switch of power distribution monitoring board

Second alarm switch of power distribution monitoring board Whether to allow active power control. If this parameter is set to YES, the system performs power forecast in the process o MSs and BTSs can adjust the transmit power. If this parameter is set to NO, the system does not perform power forecast, Whether to enable the optimized power control algorithm III Whether to enable power control algorithm II or power control algorithm III

If a class 3 MS on the DCS1800 band does not receive the original power command after random access, the power that t

The MS does not receive the original power command after random access. This parameter indicates whether the power d

Whether to enable the power amplifier for all location groups. 0x01 indicates that the TRX power amplifier is enabled for al Power mode.

Time interval between the time when the BTS detects that the external power supply is shut down and the time when the b

When this parameter is set to YES, The BSC6900 preferentially uses the TRX with good power-saving performance accor Finetune of the TRX power. During the static finetune of the TRX power, the BSC adjusts the TRX power at a step of 0.2 d the cabinet-top output power cannot be adjusted at a step of 2 dB, and the TRX output power cannot be consistent with th

When the ANT_A tributary antenna power switch is ON, it is allowed to configure related parameters of the ANT_A tributar

When the ANT_B tributary antenna power switch is ON, it is allowed to configure related parameters of the ANT_B tributar When the RET tributary antenna power switch is ON, it is allowed to configure related parameters of the RET tributary.

Minimum DSCP of queue 0. The IP packets with DSCP in a relation that "Min DSCP of queue 0" <= DSCP <= 63 is added

Minimum DSCP of queue 1. The IP packets with DSCP in a relation that "Min DSCP of queue 1" <= DSCP < "Min DSCP o

Minimum DSCP of queue 2. The IP packets with DSCP in a relation that "Min DSCP of queue 2" <= DSCP < "Min DSCP o

Minimum DSCP of queue 3. The IP packets with DSCP in a relation that "Min DSCP of queue 3" <= DSCP < "Min DSCP o

Minimum DSCP of queue 4. The IP packets with DSCP in a relation that "Min DSCP of queue 4" <= DSCP < "Min DSCP o

This parameter specifies the threshold of the signal level for cell reselection in connection mode before ""Qsearch C"" is o

Whether to enable the fast moving micro-cell handover algorithm. The fast moving micro-cell handover algorithm enables f

This parameter is used in the P/N criteria decision: If an MS quickly passes through N out of P micro-cells lately, the BSC e

A time threshold determined based on the radius of a cell and the moving speed of an MS. If the MS crosses the cell in a t

This parameter is used in the P/N criteria decision: If an MS quickly passes through N out of P micro-cells lately, the BSC e

This parameter specifies the level threshold for cell reselection in idle mode. level of the serving cell is lower than 5, the MS starts to search for 3G cells; if this parameter is set to 10 and if the signal l following decibel values: 0: -98 dBm 1: -94 dBm 2: -90 dBm 3: -86 dBm 4: -82 dBm 5: -78 dBm 6: -74 dBm In to -70 search 9: connection -74 dBm mode, if the signal level is below [0-7] or above [8-15], the MS starts10: dBmfor 3G cells. For example, if t then the dBm MS starts to search for 3G cells. 0: -98 13: -58 14: dBm -54 dBm For-94 thedBm purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values 1: determine whether interferences exist on channels. ... For thedBm purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values 6: -74 This parameter specifies one threshold ofchannels. the signal level for cell reselection in packet transfer mode. determine whether interferences exist on 7: (always) example, if this parameter is set to 5 and if the signal level offorthe is lower than QoS 5, themechanisms MS starts tofor search for 3s Whether to support QoC optimization. The GSN equipment theserving GPRS cell provides flexible different 8: -78 dBm values of this parameter correspond to the following decibel values: apply for one value for each QoS attribute. When receiving the request from the MS, the network must allocate a QoS leve 9: -74 dBm ... ... 9: -74 dBm This parameter is used to avoid allocating the calls whose signal strengths differ greatly to the same timeslot. 14: -54 dBm The BSC measures the signal merge conditions on each timeslot every 0.5 seconds. If the difference between the highest 15: Positive infinity (never) If N signal merge events are consecutively detected among P times of measurements, the forcible intra-cell handover is tri Here, N indicates "UL Signal Strength Difference Detections", P indicates "UL Signal Strength Difference Maintains".

The P/N criteria is used to determine low downlink power for multi-density carriers. If the downlink power of a multi-density

The P/N criteria is used to determine low downlink power for multi-density carriers. If the downlink power of a multi-density Whether to use the statistical multiplexing algorithm for multi-density power

Maximum number of times that the BTS finds that the air conditioner needs to be switched off. If the number of times that t

Maximum number of times that the BTS finds that the air conditioner needs to be switched on. If the number of times that t Step of downward power adjustment according to the quality of the received signals Whether to query the classmark of the call in an incoming BSC handover

Auxiliary This parameter contains eight bits. Whether devices to allow of therack fast0. handover algorithm The eight bits, from the most significant bit to the least significant bit, indicate whether to install a voltage stabilizer, interna When a bit is set to 0, the relevant auxiliary device is not installed. For example, if this parameter is set to 10000000, rack Whether to configure a battery rack for rack 0 Capacity of the battery rack configured for rack 0

Ratio of the maximum charging current of the battery pack configured for rack 0 to the capacity of the battery pack. For exa

Auxiliary devices of rack rack configured 1. This parameter eight bits. Type of the battery for rack contains 0 The eight bits, from the most significant bit to the least significant bit, indicate whether to install a voltage stabilizer, interna When a bit is set to 0, the relevant auxiliary device is not installed. For example, if this parameter is set to 10000000, rack Whether to configure a battery rack for rack 1 Capacity of the battery rack configured for rack 1

Ratio of the maximum charging current of the battery pack configured for rack 1 to the capacity of the battery pack. For exa

Auxiliary devices of rack rack configured 2. This parameter eight bits. Type of the battery for rack contains 1 The eight bits, from the most significant bit to the least significant bit, indicate whether to install a voltage stabilizer, interna When a bit is set to 0, the relevant auxiliary device is not installed. For example, if this parameter is set to 10000000, rack Whether to configure a battery rack for rack 2 Capacity of the battery rack configured for rack 2

Ratio of the maximum charging current of the battery pack configured for rack 2 to the capacity of the battery pack. For exa Type of the battery rack configured for rack 2

The NS performs location management based on routing areas during GPRS packet services. Each routing area has a rou

The NS performs location management based on routing areas during GPRS packet services. Each routing area has a rou Identifies the routing area of the current cell Route area of the current cell

Route area of the current cell

Route area of the current cell Correlation threshold of the sequence random access. This parameter specifies thetraining level threshold forfor thethe random access of the MS. If the receive level of the RACH burst in the As defined in the GSM recommendation, the system can determine whether the received are random access signa value of CS RACH Min. Access Level, the BTS considers that an access request exists onsignals this timeslot, and determines to Random Access Error Threshold Number of Correct Bits in the 41-Bit Training Sequence 90-100 33 Level threshold of the MS random access for the BTS to determine the RACH busy state. When the receive level of the ran Number of RACH burst timeslots 101-120 34 in a RACH load measurement. The value of this parameter 35 indicates the interval during which the BSC6900 determines whether an RACH timeslot is bus 121-140 141-160 36 Minimum CS services of the location group 161-175 voltage level for accessing 37 176-195 38 Routing area color code of the GPRS cell 196-221 39 222-243 40 Whether to allow the MS to access another cell 244-250 41 0-89 or 251-255 38. Hysteresis of cell selection in different routing area. When a standby or ready MS starts cell reselection, if the original cell a the MS cannot start cell reselection. The larger the hysteresis of GPRS cell selection, the harder to start cell reselection. Port rate of the IP interface board

Switch for controlling the AMR rate. Value 0 indicates that C/I is used to control the AMR rate. Value 1 indicates that BER i

This parameter specifies whether the RATSCCH function is enabled during the call establishment procedure. RATSCCH is

Original measurement report sampling rate (for each call, one out of four measurement reports is collected) Type of recording the execution result 1. REC_ALL: indicating the execution of all the commandstakes are recorded no matter whether theconfiguration commands are LASTRBP indicates the that last rollback point. results The system automatically the position where the current com 2. REC_ERR: indicating that only the execution results of failed commands are recorded. 3. REC_NON: indicating that the execution results of all the commands are not recorded no matter whether the commands

Number of the RXU chain or ring. The value scope is 0~11 for Non-SingleRAN BTS and 0~249 for SingleRAN BTS. The R The first RXU chain number when combining two RXU chains to be one RXU ring. RF the number TRX. when combining two RXU chains to be one RXU ring. Thereceive secondmode RXU of chain The BTS3012, BTS3012AE, BTS3012II, BTS3006C, and BTS3002E do not support Main Diversity. The DBS3900 GSM and BTS3900 GSM support Four Diversity Receiver and Main Diversity.

Speed reduction efficient of the logical port. When detecting link congestion through IPPM, the system reduces the bandw Whether to allow the reassignment function Whether to re-assign the radio channels on a different band or on the same band. This can help minimize the decrease in IUO cell receive quality threshold (AMRFR), which is used for IUO handover decision IUO cell receive quality threshold (AMRHR), which is used for IUO handover decision

One of the parameters that decide the underlay and overlay areas. The underlay and overlay areas are determined by "RX

One of the parameters that decide the underlay and overlay areas. The underlay and overlay areas are determined by "RX Whether to use the downlink receive level as a condition in IUO handover decision

With traffic control enabled, the BSC discards some paging messages. This parameter specifies whether to record detailed

One of reduction the parameters decide the underlay and overlay areas. Speed alarm that recovery threshold If "Enhanced Concentric Allowed" is set to OFF, the underlay and overlay areas are determined by "RX_QUAL Threshold" Threshold", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "TA Threshold", and "TA Hystere Whether to use the downlink receive quality as a condition in IUO handover decision Whether to back up the data of the board Interval for releasing the secondary links in the congestion state

Secondary link bandwidth that is released each time in the congestion state Port for output LINE2(The actual value range may differ on the LMT ) Back-up port for output LINE2(The actual value range may differ on the LMT ) Port for output LINE1(The actual value range may differ on the LMT ) Back-up port for output LINE(The actual value range may differ on the LMT ) Switch of panel BITS1(2M) Switch of panel BITS2(2M)

Whether to use SGSN clock source.Only the Gb interface board needs to set this parameter. If the SGSN clock and the M

Region information of the IP BTS configured with local switching. Local switching can be performed between only the BTS Absolute time of re-homing Delay time of re-homing Policy type of re-homing Whether to re-initialize the neighboring cell pair for software synchronization Cabinet number of the associated module. The associated two MRFUs or GRFUs must be in the same cell.

Whether to enable the configuration of the "Extend Connection" attribute. The "Extend Connection" attribute describes the Function to be performed by two associated modules Slot number of the associated module Subrack number of the associated module

Tributary Number of the DFCB that is cascaded to the DFCU. The "Extend Connection" attribute describes the cascading r Remark Purpose description of the route record

Remote NSVL ID of the Gb IP route A key parameter that indicates how many times the BSC6900 broadcasts cell messages. You can obtain the cell broadcas The value 0 indicates no repeat.

When the cell supports Repeated Downlink FACCH, the BTS enables the repeated transmission of FACCH frames if the m If the cell supports the Repeated Downlink FACCH function and the measured downlink quality is lower than the downlink

When the cell supports Repeated Downlink SACCH, the BTS enables the repeated transmission of SACCH frames if the m Whether to reserve the binding of the alarm ID and the alarm port Whether to perform resource checks on the resource usage system and resource management system. Resource checks

Indicating that during cell reselection, the level of the target cell should meet the following condition: Level of target cell > [M NC2 cell reselection interval in the same cell

The number of received Packet Measurement Report messages on the receive level of the serving cell is measured contin

If the number of times when the receive level of the serving cell within "Normal Cell Reselection Watch Period" is lower tha

This parameter specifies the number of the reserved PDCHs that are not used for channel converstion in the dynamic tran This parameter specifies the number of idle channels that should be reserved on a cell after the TRX is shut down. When t assignment on the cell that is enabled with the TRX Intelligent Shutdown feature.

Whether to withhold link breakdown alarms in case of BTS resets due to data configurations If OML links break down after BTS resets caused by data configurations and recover within the period specified by this par If OML links fail to recover within the period specified by this parameter, OML link breakdown alarms are reported. Interval for resetting the counter when the user fails to log in Retry times after the peer response timer expires during NSVC reset The waiting time from BTS detect OML disconnect to BTS reset. Duration of the peer response timer during NSVC reset Reason for activating the radio status procedure

Whether the HO RQD messages sent by the BSC to an MSC carry response request cells. Response request cells are op Whether to resume broken download Duration of the PPP/MP link restart timer Duration of the PPP/MP link restart timer Restoration type of the alarm

Time for the BSC to initiate the common measurement or information exchange procedure after this procedure fails While assigning channels, the BSC ensures that the sum of the number of channels occupied by high-priority users and th the sum of the number of channels occupied by users of "Highest Priority" and the number of idle channels is larger than th

Interval fornumber executing the scheduled subtask Maximum of levels that the BTS RF power decreases. This parameter is used to control the decrease in the BTS R The unit is determined according to time mode. Interval for sending the radio resourcethe indication messages. The TRX reports the interference level for each of the channe 1. This parameter specifies whether to configure the DRFU, MRFU, GRFU, or XRFU or link. of a TRX. For details, s 1. If the time mode is set to "DAILY_T" or "DAILY_C", the is day. This parameter is used by a BTS to inform the BSC6900 of unit the interference levels on by idleslot channels 2.2.When setting the BTS to support the configuration of the RFU by slot, set this parameter to "YES". When setting the BT If the time mode is set to "WEEKLY_T" or "WEEKLY_C", the unit is week. 3.3.IfIfthis parameter is set to "YES", you must enter the numbers of the subrack and slot where the new board is located. the time mode is set to "MONTHLY_T" or "MONTHLY_C", the unit is month. If you need to specify the CPRI connection relations (SFP port number and cascading level) based on a rule that is differen 4. If this parameter is set to "NO", you must set "TRX Board No.", "RFU Link No." and "RXU Chain Head Port No.". Satellite card protocol that is enabled to communicate with the satellite card connecting to the DGPS. If "RGPS" is specifie enabled to communicate with the satellite card connecting to the DGPS.

Whether to support RAN information management (RIM). IN the RIM procedure, RANs(Radio Access Network) can exchan

Time for disconnecting a call when the MS fails to decode theisSACCH. Once a dedicated channel is assigned to the MS, t The loopback channel number when the port loopback mode set to TDM remote loopback Transmission mode onmessage the Ater interface of the remote TC subrack. The meaning of values as follows: Each time an SACCH is not decoded, the counter S decreases by 1. Each time anisSACCH message is correctly STANDALONETC: not converged situation and it cannot be improved through power control or channel handover, the connection is to be re-established or re MASTERINPOOLTC: control subrack for TC convergence SLAVEINPOOLTC: non-control subrack for TC convergence RNC ID of a 3G external cell. The value of this parameter must be consistent with the data configuration at the RNC.

Internal index of a neighboring RNC. This parameter is set to 255 when the neighboring RNC that serves the 3G external n Internal index of a neighboring RNC Name of a neighboring RNC. The name is used to uniquely identify a neighboring RNC. Name of the root certificate file Identifies a router uniquely Router port number. The setting of this parameter must be consistent with the setting at the SGSN side.

Whether to allow the BTS to report the downlink voice quality index (VQI). The VQI is used to indicate voice quality. It is ca Cell reselection measurement report period in packet idle mode Cell reselection measurement report period in packet transmission mode Speed reduction alarm report threshold

Whether to allow the BTS to report the voice quality index (VQI). If this parameter is set to Report, the BTS reports the VQ measured separately, and thus the speech quality is monitored. For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values Resource group number of the PATH The parameter indicates whether the resource group is shared or is used by a specific telecom carrier.

Resource management mode. The logical port working in the SHARE mode can be shared by multiple carriers. The logica

Timer for punishing the neighboring cells when handover failures occur due to resource-related causes, such as resources This parameter adjusts "Min RSCP threshold" to enable the selection of 3G candidate cells based on cell priorities

This parameter determines the layers of 3G neighboring cells. If the measured value of a 3G neighboring cell is lower than RSD alarm triggering source RSF alarm triggering source Used for calculating C2. The MS with a large value can be assigned with high access priority. Average down-bandwidth of RSL link in BTS. Differentiated service code of the specified RSL RSL service priority Average up-bandwidth of RSL link in BTS. Specified RSL Vlan Id Size of the RSL LAPD window

Reason for locking the configuration and management control rights Threshold of the level difference between a neighboring cell and the serving cell, based on which the BSC filters the meas are later submitted to NaStar for analysis. When a measurement report shows that the signal strength difference between

This is the description file for resetting the board. The reset file names of different boards are different. Name of the result file generated after the command is executed. If this parameter is not specified, the name of the result f entering the name. The flag of the main area can be queried through the "LST OMUAREA" command. The characters (@, Whether to enable the restart function Timer Maximum number of TCH channels reserved for emergency call users Parameter 1 reserved for future use. Parameter 10 reserved for future use. Parameter 2 reserved for future use. Parameter 3 reserved for future use. Parameter 4 reserved for future use. Parameter 5 reserved for future use. Parameter 6 reserved for future use. Parameter 7 reserved for future use. Parameter 8 reserved for future use.

Parameter 9 reserved for future use.

Number of reserved idle channels. If this parameter is set too small, the TRX may be frequently enabled/disabled; if this pa Recovery mode of the MSP protection group

Routing context. The routing context identifies a specified route. If the routing context is to be configured, its value must be

Ratio of the RTCP path bandwidth to the A interface bandwidth. According to the Real-time Transport Control Protocol (RT Whether to enable the real-time transport control protocol (RTCP) function. The BSC6900 and the MSC negotiate whether when IP transmission is used over the A interface. Destination IP address Routing mask Index of a route. The index is unique in a BTS.

It is used to calculate the round-trip time of the protocol stack and the RTO value. The value must be smaller than "RTOBE

It is used to calculate the round-trip time of the protocol stack and the RTO value. The value must be greater than "RTOAL

When the "RTOMIN" and "RTPMAX" parameters are set to fixed values, the larger the value is, the longer the check of the When the "RTOMIN" parameter is set to a fixed value, the larger the value is, the longer the check of the link is. When the "RTOMAX" parameter is set to a fixed value, the larger the value is, the longer the check of the link is. Whether to measure the delay on the link between the BTSs that serve the calling MS and the called MS respectively

Maximum number of RTTI TBFs that can be multiplexed on the PDCH. A PDCH can be assigned when the number of RTT Type of the route. When the BTS does not support IP over E1, the parameter Route Type needs to be set to NEXTHOP(N Protocol (PPP) and the peer IP address is unknown. The benefit of setting Route Type to OUTIF(Out Interface) is that the

Logical port speed increase step. When detecting the available bandwidth increase through IPPM, the system increases th

Bandwidth increase step adjustment period. This parameter indicates the period to increase the bandwidth of the logical po R-version number of the BTS software Receive bandwidth of IP path Receive bandwidth Minimum receiving power level for the MS in the cell to access the system For AMR FR voice services, a fixed amount of offset is added to the corresponding grade of the received signal quality for

Minimum received signal level of the MS. This level is reported in the system information. This parameter specifies the min Whether to use the emergency handover algorithm in case the receive level of the MSs drops rapidly, thus preventing call Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. Number of the RXU chain to which the RXU belongs Number of the RXU chain. The RXU chain No. is unique in one BTS. Number of the RXU chain where the board is located Index type of the RXU Type of the RXU board index Name of the RXU Name of the RXU board. The RXU name is unique in one BTS. Name of an RXU Position number of the RXU on the RXU chain Position No. of the RXU board on the RXU chain Position of the RXU board on an RXU chain Type of the RXU board

Whether to enable the switch to set the S1 value. S1 byte, also called the synchronization status byte, is one of the optical

S1 sending value. It is a synchronization status byte used by the local end to examine the quality of the received clock sign Whether to enable the special analog alarm. The value of this parameter consists of 32 bits, eachinofone which determines whether the of corresponding specialpara ana In multi-mode scenario, the value of this parameter mode must be the sametoasenable the value the corresponding BT1_DISABLE, AH_DISABLE, AT1_DISABLE, AT2_DISABLE, and BT2_DISABLE. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Whether the MSC independently processes the trunking services. When this parameter is set to YES, the MSC independe Whether an MS supports the SAIC function. Single Antenna Interference Cancellation (SAIC) is used to reduce the impact BTS/MS Power Control are adjusted to improve the radio performance of the BSS. Adjustment step of the downlink signal quality threshold in power control algorithm II for MSs that support SAIC. The netwo network. Adjustment step of the downlink signal quality threshold in power control algorithm III for MSs that support SAIC. The netw network. The value of this parameter consists of five bits, which determines whether to enable the alarms. "0" indicates that the ana In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Index of a cell with the same coverage as the current cell Index type used when the command is executed

The BSC6900 checks the load of the same coverage cell of the target cell once a minute. When the number of times in wh

This is disabled used by the BTS to to inform the BSC6900 of radio link connection A cellparameter that can be is allowed be disabled only when the load of the samefailure. coverage cell is lower than this thresh When the BTS receives the SACCH measurement report from the MS, the counter for determining whether a radio link is f measurement report, the counter Name of the same coverage cell increases by 2. When the value of this parameter is 0, the BTS regards the radio link as faulty. The BTS sends a connection failure indicat respectively. The judgment standard is whether the measurement report in SACCH is correctly decoded. The value of this parameter consists of three bits, which determines whether to enable the alarms. "0" indicates that the ala In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the special alarm switch. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Level specifications of special Boolean value alarms. Two specifications are available: high level and low level. By default, In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Whether Boolean alarms,ofthat water sensor alarm (bit 0), smog sensor alarm (bit 1), and door sen Whether to to enable enable the the special energy saving function the is, TRX for the BTS3002E. and GS_DISABLE~2. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Number of the BTS. The BTS is numbered uniquely in a BSC. This parameter indicates that when the MS reports the EMR, it adds the value of this parameter to the received signal leve If the SCALE_Order reported the MS is 10 dBm, level values 0-63 map with -100 dBm to -37 dBm. Name of the BTS. The BTS isby named uniquely in a BSC. If the SCALE_Order reported by the MS is 0 dBm, level values 0-63 map with -110 dBm to -47 dBm. If the SCALE_Order reported by the MS is Automatic, the MS chooses the least SCALE while ensuring that the MS can re

DSCP corresponding to the streaming service When the network receives measurement reports, in consideration of the accuracy of a single measurement report, the me information of the serving cell. Number of the cell where the TRX reside. The cell is numbered uniquely in a BSC. Name of cell 1 A key parameter that indicates the coding scheme of a simple cell broadcast message Number of the sub-channel

Command string of the scheduled subtask. This command can be only a service command, and the system command can Type of querying used to set the measurement report collection scope.

Indicates the index of the inter-subrack connection path Scrambling code of a 3G cell. The scrambling code is used to differentiate terminals or cells. It is used after spread spectr spectrum. Scrambling is used to distinguish terminals on the uplink and to distinguish cells on the downlink. Start serial number of the alarm record SCTP link number of XPU board. This number identifies an SCTP link uniquely. Date when the scheduled task is started Start date of the alarm record. By default, the start date is 2000-01-01. Start date of the alarm record. By default, the start date is 2000-01-01. Maximum number of days for storing history alarms SD alarm triggering threshold Start date Start date of the daylight saving time (DST)

Number of SDCCH channels. Rules for SDCCH channel allocation: 1. Allocate channels 1 and 3 of main frequency B prefe Whether a call must camp on the SDCCH for a specific duration before being assigned with a traffic channel.

Duration for a call camping on the SDCCH before being assigned with a traffic channel. Level threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC6900 d number of call drops on SDCCH (receive level) is incremented by one. Quality threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC6900 by one. First, the downlink quality level multiplied by 10 is higher than this threshold. Second, the TA is smaller than the TA Level threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC6900 d call drops on SDCCH (receive level) is incremented by one. Quality threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC6900 one. First, the uplink quality level multiplied by 10 is higher than this threshold. Second, the TA is smaller than the TA thres Whether to allow SDCCH dynamic allocation, that is, whether to allow dynamic conversion between TCHs and SDCCHs.

Enable SD Whether to enable the SDCCH quick handover test function. If this parameter is set to Yes, the BSC6900 initiates intra-cel network security is improved.

This parameter specifies whether the BSC6900 automatically shuts down the power amplifier of the TRX to save power wh

After a new SDCCH is assigned to an MS, the MS can be handed over to another channel only if the time during which the Maximum number of discarded MRs allowed on the SDCCH in a power control period

Period in which level penalty is performed on the neighboring cells of the cell where a fast-moving MS is located. The neig

Level value of the penalty that is performed on the neighboring cells of the cell where a fast-moving MS is located. The nei DSCP corresponding to the signaling

Specifies the SF and SD event priority High temperature threshold for triggering power shutdown of the battery. If the power shutdown upon battery high tempera In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Sliding time window for collecting statistics on the alarms that disappear in a specified period of time.Sampling time window

Sliding time window for collecting statistics on the alarms that occur in a specified period of time.This parameter is similar t Low voltage threshold for triggering power shutdown of the battery. If the power shutdown upon low voltage is enabled and In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to allow the MS to search for a 3G cell when the BSIC must be decoded Self Software Version

This parameter specifies whether the SI Type 3 message contains the 2QUATER indicator. Whether to report BSS INVOKE TRACE message. When the parameter is set to YES, the BSC sends a BSS INVOKE TRA BSC does not send a BSS INVOKE TRACE message to the MSC. Whether to report the classmark queried by the BSC6900 to the MSC

Whether to send a CONFUSION message to the MSC. This parameter specifies whether to send a message carrying fault

If this parameter is set to No, the BSC responds with an SAPI N'Reject message against the DL short message after hang

Priority of the notification message transmission on the FACCH. From high to low, the priorities are A, B, 0, 1, 2, 3, 4 and N

Priority of the paging message transmission on the FACCH. From high to low, the priorities are A, B, 0, 1, 2, 3, 4 and No P The time for BTS reset. Whether the BSC sends the System Information Type 2ter message. Whether the BSC sends the System Information Type 5ter message.

Whether the SI Type 3 message contains the 3G Early Classmark Sending Restriction field. The 3G Early Classmark Send

Split position on the RXU chain Whether to enable the BTS to support the separation between the physical and logical. Whether the BTS supports the sep non-separate mode, a one-to-one mapping exists between the physical board and the logical TRX. Number of the command listening port of the server. You should not use any port number occupied by other applications.

Number of the data port of the server in active mode. You should not use any port number occupied by other applications. Delivery serial number of the RET antenna IP address of the FTP server to be visited by the FTP client Service mode of the BSC6900. This parameter specifies configuration mode of subracks. Service bearer mode of the BTS Service bearer mode of the BTS Name of the command function

Service type of the BTS. The QoS processing depends on the DSCP, VLAN ID, and VLAN priority that vary according to th

Whether to enable the diesel engine parameters to be configured Whether to enable the environment temperature alarm parameters of the APMU to be configured. The APMU of the APM3 In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the environment temperature parameters to be configured. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether to enable the environment humidity alarm parameters of the board to be configured. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Number of the SFP port. If the switching relation is added on the SFP port, it indicates that the SFP port is used to connec Available capacity of the SGSN Name of the SGSN

Length of the NRI(Network Resource Identifier) or NULL-NRI. The length determines the maximum value of the NRI and N

Special NRI(Network Resource Identifier). Each SGSN pool has one NULL-NRI. When the NRI value in the TLLI of the MS Whether to enable the SGSN pool function. With SGSN pool, a BSC6900 is connected to multiple SGSNs in the pool, and handovers and node redundancy backup. Protocol version supported by the SGSN Administrative state of the SGSN. The value "ALLOW" indicates that the SGSN can handle the PS services normally. The PS services.

Usage threshold of the CPU for call access from other CPU. If the usage of the CPU exceeds the threshold, the call acces Slot number of the load sharing interface board Whether to allow sharing Shield flag of the alarm

This parameter specifies the delay time before shutting down the TRXs when the BTS experiences a power failure. Whether the BSC sends a System Information Type 2ter message to a non-dualband cell. When the parameter is set to YE cell sends the System Information Type 2ter message. When the parameter is set to NO and "Send System Information 2t Whether to enable a handover between signaling channels Number of times that the downlink signal strength exceeds the threshold Uniquely identifies a signaling link set Uniquely identifies a signaling link set ID of an M3UA link in the specified link set

Signaling local weight over the local NSVL. When this parameter is set to a larger value, the NS is more likely to select this

Signaling local weight over the remote NSVL. When this parameter is set to a larger value, the NS is more likely to select t Priority of the signaling service.0 is the highest priority. Number of times that the downlink signal is measured

Number of measurement reports used for averaging the signal quality of signaling channels. This parameter helps avoid sh ID of an MTP3 link in a specified link set Number of measurement reports used for averaging the signal strength of signaling channels. This parameter helps avoid Minimum interval between the successful TBF establishment and the first initiation of the Packet Timeslot Reconfiguration

Single pass exclude MSISDN number 1. One-way audio means that only one party in a call can hear the voice. Certain nu Single pass exclude MSISDN number 10. Certain numbers, such as the premium rate number, are not used for the single

Single pass exclude MSISDN number 11. Certain numbers, such as the premium rate number, are not used for the single Single pass exclude MSISDN number 12. Certain numbers, such as the premium rate number, are not used for the single Single pass exclude MSISDN number 13. Certain numbers, such as the premium rate number, are not used for the single Single pass exclude MSISDN number 14. Certain numbers, such as the premium rate number, are not used for the single Single pass exclude MSISDN number 15. Certain numbers, such as the premium rate number, are not used for the single Single pass exclude MSISDN number 16. Certain numbers, such as the premium rate number, are not used for the single Single pass exclude MSISDN number 17. Certain numbers, such as the premium rate number, are not used for the single Single pass exclude MSISDN number 18. Certain numbers, such as the premium rate number, are not used for the single Single pass exclude MSISDN number 19. Certain numbers, such as the premium rate number, are not used for the single

Single pass exclude MSISDN number 2. Certain numbers, such as the premium rate number, are not used for the single p Single pass exclude MSISDN number 20. Certain numbers, such as the premium rate number, are not used for the single

Single pass exclude MSISDN number 3. Certain numbers, such as the premium rate number, are not used for the single p

Single pass exclude MSISDN number 4. Certain numbers, such as the premium rate number, are not used for the single p

Single pass exclude MSISDN number 5. Certain numbers, such as the premium rate number, are not used for the single p

Single pass exclude MSISDN number 6. Certain numbers, such as the premium rate number, are not used for the single p

Single pass exclude MSISDN number 7. Certain numbers, such as the premium rate number, are not used for the single p

Single pass exclude MSISDN number 8. Certain numbers, such as the premium rate number, are not used for the single p

Single pass exclude MSISDN number 9. Certain numbers, such as the premium rate number, are not used for the single p Source IP address Source IP address Log of which site need to be collected.

Zone where the BTS synchronizes with other BTSs. Only two BTSs with the same synchronization zone can be synchroniz The IP address must be a valid class A, B, or C address, and it cannot be a broadcast address or network address.

Self-loop Thegroup precautions are BTS. as follows: No. of thetype. location under the The location group No. is unique for each BTS. 1. If the self-loop type is set to "E1SELFLOOP" and the BTS type is BTS3002C, BTS3001C, or BTS3001CP, the transmiss 2. If the self-loop type is set to "IASUSELFLOOP", only 3002C, 3006C, 3002E support IASU self loop type, and when the B Signaling route load sharing. In the value, the number of 1s (represented by n) determines the maximum number (2) of rou routes are not used for the load sharing. The AND operation between this value and " signaling link mask " in the link set is If no handshake message is received from the peer within the delay, the slave service is activated. A slave service object p signaling links on the A interface of the peer BSC are faulty.

Type of the start date. "WEEK" indicates that the start date is a weekday. "DATE" indicates that the start date is a month d Index of the SMLC Whether the built-in SMLC or external SMLC is used in the BSS. Smog alarm switch Month in which DST starts Number of CPU usage samples involved in the calculation of the average CPU usage in the sliding window Number of the slot

Number of the slot Number of the slot where the XPU board is located Number of the slot where the XPU board is located Number of the slot A key field used to identify the Ater timeslot and indicate the number of the Ater interface timeslot Number of the slot Number of the slot where the alarm is generated

Number of the slot where the alarm is generated, the number of the slot where the OMU board is positioned is not support Indicates the slot number for running this command Slot number for running this command Number of the slot. The subrack number and slot number uniquely identify a board. Slot No. of the subsystem where the Iur-g common connection is established Number of the slot where the BTS board is located Number of the slot where the BTS board is located Slot number of the XPU board bound to the NSE Slot number of board to which Pb signaling link belongs Number of the slot where the port is located

Slot number of the BSC6900 board that is connected to the BTS RF send mode of the TRX. The BTS3006C andwhere BTS3002E doboard not support Wide Band Combining, Power Booster Technology, DPBT, or Transmitter I Number of the slot the BTS is located. The DBS3900 GSM GRRU does not support Wide Band Combining, Transmitter Independent or Combining, Power Boost The BTS3900 GSM and BTS3900A GSM do not support Transmitter Independent or Wide Band Combining. The connection mode between the DRRU and the antenna. The connection mode between the DRFU and the antenna. The connection mode between the MRRU/GRRU and the antenna. The connection mode between the MRFU/GRFU and the antenna.

The connection mode between the BTS3900E and the antenna. Data format of the specified signaling point. When this parameter is of setthe to SNTP "WNF",client the SPC is expressed in the form of an integer number. Synchronization period service When this parameter is set to "NDF", the SPC is expressed in three segments. The number of bits included in each segme As an integer, the OSP expressed digit a hexadecimal digit. If the OSPsegment code is expressed When the signaling pointcode codecan bitsbeparameter is by setatodecimal "BIT14", theornumber of bits included in each is 3, 8, andby 3. When the signaling point code bits parameter is set to "BIT16", the number of bits included in each segment is 4, 8, and 4. Number bits contained in thebits signaling pointiscode When theofsignaling point code parameter set to "BIT24", the number of bits included in each segment is 8, 8, and 8. Assume that the signaling point code bits parameter setthe to parameter "BIT14" and the SPC is data expressed three segments 5-7-2. Y OSP code expressed in the form of segments 8-8-8, is see "Signal point format"inof the "ADD OPC" 1. Convert the value in each segment to a binary number and fill 0s into a segment if the number of bits included in that se the is of 111. Startsecond CIC ofsegment the E1/T1 theAs Pbpreviously interface stated, when the signaling point code bits parameter is set to "BIT14", eight bits 101 00000111 010. 2. Convert this binary number to a decimal number. The decimal form of this binary number is 10,298.

This parameter is used for load control. It determines whether the users of special access class are allowed to access the The value of this parameter consists of seven bits. Each bit determines whether to enable the one-way Boolean alarm. "0" In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para The value of this parameter consists of five bits. Each bit determines whether the one-way Boolean alarm is triggered by lo In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

If the number of one-way mute events exceeds the value of "Speech Channel Alarm Threshold" within this period, then the Whether to contain the information element of Speech_Ver in the Assignment Complete message Whether to contain the information element of Speech_Ver in the Handover Perform message Whether to contain the information element of Speech_Ver in the HO_REQ_ACK message Whether to contain the information element of Speech Ver in the HO_RQD message Speech version mode that the BTS uses for the VGCS call number in the timeslot in the TRX in fallback mode Speech version mode that the BTS uses for the VGCS call number in the timeslot in the TRX in fallback mode

Speech version configured on the TRX timeslot when the BTS works in fallback mode. When "CHNTYPE" of the TRX time Rate over the GE electrical port. When this parameter is set to 1000M, the GE electrical port performs negotiation at the ra result can be either 100 Mbit/s or 1000 Mbit/s.

Level value of the penalty that is performed on the neighboring cells of the cell where a fast-moving MS is located. The nei

Period in which penalty is performed on the neighboring cells of the cell where a fast-moving MS is located. The neighborin Whether to support SPLIT_PG_CYCLE on CCCH. The parameter SPLIT_PG_CYCLE is used to define the DRX period. Y the paging group based on SPLIT_PG_CYCLE is not supported on CCCH. This parameter specifies whether the BSC6900 supports the cell broadcast function and whether the BSC6900 supports s If the BSC6900 supports standard cell broadcast, the BSC6900 should be connected to the CBC. Whether to support the common bidirectional measurement procedure on the Iur-g interface. Whether to support the bidirectional information exchange procedure on the Iur-g interface.

Whether to support In Inter-RAT Inter-cell PS Handover. The MS in the UMTS cell can be handed over to the BSC local ce

Whether support Out Inter-RAT Inter-Cell PS Handover. The MS in the BSC local cell can be handed over to the UMTS ce

Whether the function of Network Assisted Cell Change (NACC) resource guarantee is allowed. In NC2 or NACC cell resele

Whether the BSC forwards the paging message from the trunking MSC to the MS. When this parameter is set to YES, the Whether resource check on on the the LAPD Pb interface. Whether to to enable enable the the enhanced layer 3 check mechanism links. If the PCU_BSC_LAPD_CHECK_ACK message cann The introduction of enhanced resource check is to improve theLink. efficiency of resource checking and define the dependencie Pb link, set the Pb link to fault state and report the ONE PBSL The external PCU initiates the enhanced resource check. The resources to be checked, consisting of the cell resources, c The external PCU sends the check message to the BSC. The BSC divides the check message into three independent che

Whether to enable the single pass check function on the Pb links between the BSC and the external PCU. When the Pb lin Whether to enable the PCIC check function on the Pb links between the BSC and the external PCU. When the configuratio are blocked, and the priority of the Pb link is lowered.

Whether to support RAN Sharing.RAN sharing refers to the technique that the GBSS equipment is categorized into multipl

Cell supports reduced latency capability. This parameter is used to reduce the latency during the transmission, thus improv

whether the main operator enables the RanSharing function. If the RanSharing function is enabled, one to three co-operat Whether the FTP client supports the state firewall Uniquely identifies an OSP

Whether a base station supports normalized data configuration. Normalized data configuration means that the cabinets, su

Whether the data configuration of the SingleRAN BTS supports normalized SingleRAN mode. Normalized SingleRAN mod

Whether the data configuration of the SingleRAN BTS supports normalized SingleRAN mode. Normalized SingleRAN mod A cell Index must be unique in one BSC6900 . It is used to uniquely identify a cell. Name of a cell A source cell index must be unique in one BSC. It is used to uniquely identify a source cell. The value of this parameter ranges from 0 to 2047.

Name of a source cell

Source cell ID The batch file to be executed: The content of the batch file consists of service commands to be executed in batches. The s cannot appear in the file name. Priority of the clock source Priority of the clock source. There are four priorities (in descending order): 1, 2, 3, 4. Whether the currently used handover algorithm in the source cell is HO Algorithm I or HO Algorithm II Source IP address of BFD Session. Local area code (LAC) of the source cell Mobile country code (MCC) of the source cell Identifies a maintenance point in the maintenance group Mobile network code (MNC) of the source cell Source of timeslot cross Type of the clock source. Source timeslot mask Number of the subrack Number of the subrack Number of the subrack where the XPU board is located Number of the subrack Number of the subrack It is one key field of identifying the Ater timeslot and indicates the subrack No. of the Ater interface timeslot. Number of the subrack Number of the subrack where the indicator alarm to be queried is generated The subrack number for running this command The subrack number uniquely identifies a subrack. Subrack No. of the subsystem where the Iur-g common connection is established Number of the subrack where the BTS board is located Number of the subrack where the BTS board is located Subrack number of the XPU board bound to the NSE Subrack number of board to which Pb signaling link belongs Number of the subrack where the port is located Subrack number of the BSC6900 board that is connected to the BTS Number of the subrack where the BTS board is located Number of the subrack at one end of the inter-subrack connection channel Number of the subrack at the other end of the inter-subrack connection channel

Name of the subrack to be added Number of the tributary Type of the subrack Sequence of alarm records Traffic local weight over the local NSVL. When this parameter is set to a large value, the NS is more likely to select this IP

Traffic local weight over the remote NSVL. When this parameter is set to a larger value, the NS is more likely to select this The parameter specifies which type of service TRXs should be preferentially processed when the PSU is faulty. Service type of the IP interface board. The service type can be CS speech, CS data, PS high priority, or PS low priority.

After a handover due to bad quality is successful, the penalty on the original serving cell is performed within the "Penalty T CPU usage alarm clearance threshold

CPU usage alarm threshold. When the CPU usage exceeds the threshold, a CPU usage alarm is reported. "CPU occupan

DSP usage alarm clearance threshold. When the DSP usage is lower than the threshold, the DSP usage alarm is cleared.

DSP usage alarm threshold. When the DSP usage exceeds the threshold, a DSP usage alarm is reported. "DSP occupanc When the network receives measurement reports, the measurement values in several straight measurement reports are fil traffic/data channels. When the network receives measurement reports, the measurement values in several straight measurement reports are fil signaling channel. Number of the subsystem No. of the subsystem where the Iur-g common connection is established Start synchronization number of the alarm record

After the time advancing handover is successful, the penalty on the original serving cell is performed within the "Penalty Ti Start of DST

The operation time of the log record should be after this time. If this parameter is not specified, the start time is not limited. If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter.

The operation time of the log record should be after this time. If this parameter is not specified, the start time is not limited. Start time of the alarm record. By default, the start time is 00:00:00. Start time of the alarm record. By default, the start time is 00:00:00. A key parameter that indicates the date and time when the BSC6900 broadcasts cell messages Start number of the alarm record

Whether to preferentially use the variable bitmap code when encoding the frequency in the System Information and encod This parameter indicates whether the arrival of channel request messages is controlled.

It indicates the start CIC of the A interface CIC segment. When operation mode is set to OPC index, DPC group index, BS

It indicates the start CIC of the Pb interface CIC segment. If the search object mode is set to search by the specified range

This parameter specifies the start date of a period during which the TRX Intelligent Shutdown feature is disabled. When the environment temperature reaches the specified value of this parameter, the heater is started. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para This parameter specifies the start month of a period during which the TRX Intelligent Shutdown feature is disabled.

This parameter indicates whether the arrival of paging messages are controlled. This parameter indicates whether the arrival of PS resource request messages is controlled. Number of the start sub-timeslot Time for which the BTS waits to start the fallback function after the OML is interrupted. With this parameter, the BTS does This parameter specifies the start time for dynamically enabling the TRX Intelligent Shutdown feature each day. It indicates the start CIC of the Ater interface CIC segment.

It indicates the start CIC of the A interface CIC segment. When Operation mode is set to subrack number, slot number, po

Number of the start timeslot Whether to enable the smart temperature control mechanism of the FMUA. Smart temperature control refers to the mecha In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Whether to enable the smart temperature control mechanism of the NFCB. Smart temperature control refers to the mechan Number of the start CIC. The C/C of each E1/T1 timeslot can be calculated on the basis of this parameter. Assume that the timeslots are all 65535. Number of the cabinet where the outgoing port of the BTS is located Start date. The input format is YYYY&MM&DD. Number of frequencies measured in each group (excluding the frequencies in the original BA table). Satellite flag Start time

Whether to enable the EICC algorithm. Enhanced Interference Rejection Combining combines the signals received by mul

This parameter specifies whether the sending of system information 5, 5bis, and 5ter can be stopped on the SACCH on th

Time for which the BTS waits to stop the fallback function after the OML is set up. With this parameter, the BTS does not s Whether to enable the signaling point with the signaling transfer function Number of the outgoing port of the BTS where the monitoring timeslot is located Start time of frequency scanning Number of the slot where the outgoing port of the BTS is located Number of the subrack where the outgoing port of the BTS is located Number of the sub-timeslot on the outgoing port of the BTS Start time. The input format is HH&MM&SS. Number of the timeslot on the outgoing port of the BTS Type of the BTS. ID of the BSC in the TC pool where an A interface circuit is blocked or unblocked ID of the BSC in the TC pool to which an A interface E1/T1 is added Command string that is transparently transmitted to the BTS

Maximum sub-frame length. This parameter indicates the maximum sub-frame length for multiplexing. If the length of a sub Maximum sub-frame length. The data stream to be multiplexed on the same multiplexing channel must be of the same typ multiplexed. Number of the scheduled subtask

Subnet Number in a BSC This parameter specifies whether the CS services preempt the sublink resources of PS services.

Whether to allow the CS services to preempt the sublink resources of PS services when the Abis resources are congested Number of the sub-timeslot on the port

Sub-version No. of the TMU board. It is configured according to the actual situation. Whether the CIC circuits in use on the A interface can be assigned. When this parameter is set to YES and the MSC assig new calls to the ongoing A interface circuit, the new calls are rejected, and the original calls are not affected. Whether to use Back-up port for LINE2 Whether to use Back-up port for LINE1

Whether multislot class. Whether to to support support the the high broadcast of the cellHigh namemultislot class function enables a single MS to be allocated with a maxim timeslots on the downlink can be assigned to an MS. If an MS is of the high multislot class 34, a maximum of five timeslots timeslots on the downlink are allocated to the MS, then only one timeslot on the uplink can be allocated to the MS.

Whether to support dual transfer mode (DTM). The DTM allows an MS to use the circuit switching service and the packet s

Whether to support EDA. Extended dynamic allocation (EDA) enables the MS to be allocated with more timeslots on the u

Whether to support the enhanced DTM function. Comparing to the DTM, the enhanced DTM improves the CS setup and re Whether the FE/GE BTS supports inter-BTS local switching

Support intracell handover to change the active speech version, then can increase the usage of TFO(Tandem Free Opera Whether to support the cell list in the common measurement messages over the Iur-g interface. When this parameter is se in the cell list in the sent common measurement messages, such as the common measurement report, common measurem

Minimum timeslots between two successive channel requests. After sending the access request, if the MS does not receiv Server IP address used on the SGSN side in the IP subnet dynamic configuration procedure Server UDP port number used on the SGSN side in the IP subnet dynamic configuration procedure Operating state of the environment alarm port

If this parameter is set to "ON", you must set "OMU automatic switchover interval". Otherwise, "OMU automatic switchover Switch for authenticating objects. When the switch is enabled, the BSC system authenticates the BTS objects of the user; Whether to enable the alarm port Power switch state. Weekday on which DST starts State of the panel port switch Switch for the OMU self-healing Grace Protection Period Switch determines whether to enter the grace protection period. Turn on or turn off the BFD protocol switch

Whether to enable the board parameters to be configured. If this parameter is set to "YES", the user can set board parame Whether to enable the 3ah function on the BTS port. The field indicates whether the primary path can be switched back when it is available. The association is smoothly switched over to the primary path after the number of heartbeat responses is received. Set patch switch parameter1

Set patch switch parameter10 Set patch switch parameter2 Set patch switch parameter3 Set patch switch parameter4 Set patch switch parameter5 Set patch switch parameter6 Set patch switch parameter7 Set patch switch parameter8 Set patch switch parameter9

Number of the switching port. If "Link Attribute" is set to "BBU", the switching port must be configured. The value ranges fro Whether to enable the local user management function Sequence of the start week of DST

Symbol offset of the BTS set manually. After the offset information of the BTS is collected, the symbol offset is adjusted. A

Synchronization status. This parameter is used to identify different 3G cells. This parameter should be same with the confi

Site synchronization method. AISS stands for the air-interface soft synchronization method, and GPS stands for the GPS s System flux thresholds correspond to the system flux obtained based on message packets, CPU load, and FID queuing lo Synchronization mode of the IP clock 0-11: There are 12 flow control levels. Where, 0 indicates the lowest level and 11 indicates the highest level. Interim synchronization period (in days). The BTS can re-initiate the synchronization only after the period. A load handover is allowed only when the system flux is lower than the value of this parameter. The handover performed o Interim synchronization period (in hours). The BTS can re-initiate the synchronization afterDiscard the period. [(Average Message Usage - Inner Flow Control Discard Begin Threshold)/(Inner Flow only Control All Threshold - Inner greater than Inner Flow Control Discard Begin Threshold, the level is calculated. The value range is from 0 to 11. Interim synchronization period (in minutes). The BTS can re-initiate the synchronization only after the period. 2) Flow control for the CPU to start to discard the channel access messages and paging messages: 80% Contact way of threshold the Base Station Controller supplier .Description Flow control the CPU to discard all channel access messages and paging messages: 100% of threshold the Base for Station Controller

. CPU usage smaller than 80% corresponds to level 0. CPU usage equal to or greater than CPU flow control threshold 80% Location of the Base Station Controller

Whether sending the system information type 10 message on the VGCS/VBS TCH is allowed. For detailed information, se Name of the Base Station Controller of Network Element Services provided by the Base Station Controller Timer T1, specifying the duration of monitoring the BVC blocking (unblocking) procedure. Value of the first timer for the PTU handshake

When the reception of a TFP causes unavailability of a route, this timer is started to regularly check whether the route is re

This timer is a protection timer waiting for an uninhibit acknowledgement message (LUA) from the peer end after an uninhi

This timer is a protection timer waiting for a force uninhibit acknowledgement message (LUA) from the peer end after a for

This timer is a protection timer waiting for an inhibition acknowledgement message (LIA) from the peer end after an inhibiti This timer is started when a link fails to be started. The restart of the link is initiated after this timer expires. When a normal changeover cannot be initiated, services will be changed over to an alternative link after this timer expires

Timer T2, specifying the duration of monitoring the procedure of resetting SIG BVC and PTP BVC. Value of the second timer for the PTU handshake

Timer in the LAPD protocol. The value of the timer indicates the time when the LAPD link waits for the response or acknow

This parameter specifies the expiry value of timer T200 used for the FACCH/TCHF over the Um interface. For the function

This parameter specifies the expiry value of timer T200 used for the FACCH/TCHH over the Um interface. For the function

This parameter specifies the expiry value of timer T200 used for the SACCH over the Um interface when the TCH supports This parameter specifies the expiry value of timer T200 used for the SACCH on the SDCCH. For the function of timer T200 and the effect of the parameter, see the description of "T200 SDCCH". This parameter specifies the timeout value of timer T200 used for the SDCCH over the Um interface. T200 prevents the data link from deadlock The data link layer transforms link t This parameter specifies thelayer expiry value of timerduring T200 data usedtransmission. for the SACCH over the Um interface when the the physical TCH supports Each message must be confirmed by the peer end. In unknown cases, both ends are waiting if a message is lost. At this ti the transmit end retransmits the message. The number of retransmissions is determined by N200. T200 and the N200 ens This parameter specifies the expiry value of timer T200 when the SDCCH supports SAPI3 services. For the function of timer T200 and the effect of the parameter, see the description of "T200 SDCCH".

Timer in the LAPD protocol. The value of the timer indicates the maximum duration for no frame exchange in the LAPD link After a local link is inhibited, this timer is started to regularly check the management states at both ends of the link. After a remote link is inhibited, this timer is started to regularly check the management states at both ends of the link.

This timer is a protection timer waiting for an extended changeover acknowledgement message (XCA) from the peer end a

Timer T3. T3 is started after the message SUSPEND is received on the BSC side. T3 is stopped after the message SUSP Value of the third timer for the PTU handshake When the BTS sends physical information to the MS, the BTS starts the timer T3105.If the timer T3105 expires before the Phy.Info.". For details, see GSM Rec. 04.08 and 08.58.

Timer for retransmitting the VGCS UPLINK GRANT message T3168 is used to set the maximum duration for the MS to wait for the uplink assignment message. After the MS originates Duration of releasing TBFnetwork after theside. MS Ifreceives last data MS receives the RLC dataT3168 block contain assignment message the on the the MS the receives the block. packetWhen uplinkthe assignment message before expires acknowledgement and the timer T3192 is started. If the timer T3192 expires, the MS releases the TBF related resources a MS is the half duplex mode and receives no packet uplink assignment message, the MS enters the packet idle mode. If the This parameter specifies the length of the timer for periodic location update. Timer on the DTE side, specifying the duration of acknowledging the sending BC link integrity.

When a normal changeback cannot be initiated, services will be changed back to a normal link only after this timer expires

Timer T4. T3 is started after the message v is received on the BSC side. T4 is stopped after the message RESUME ACK i

This timer is a protection timer waiting for a changeback acknowledgement message (CBA) from the peer end after the firs

Timer T5. When the downlink TBF is set up, if the BSC side does not receive the valid RACAP, the BSC originates the rad

This timer is a protection timer waiting for a changeback acknowledgement message (CBA) from the peer end after the se

Timer T6. The BSC sends the SGSN request to download the BSS PFC. When the QoS parameter is obtained, the timer i

Timer T8. The BSC sends the SGSN request to download the BSS PFC. When the QoS parameter is obtained, the timer i This timer is started when a transmission prohibited message (TFP) is sent. The TFP will not be sent any more during the

When the network receives measurement reports, the measurement values in several straight measurement reports are fil

Whether the TA is used as a decisive condition for the concentric cell handover Whether to enable the time advance (TA) handover. The TA handover determines whether the timing advance (TA) is high One of the the distance parameters thatgreater determine thevalue coverage longer is, the the TA is. of the OL subcell and UL subcell. When "Enhanced Concentric Allowed" is set to OFF, "TA Hysteresis", "RX_LEV Threshold", "RX_LEV Hysteresis", "RX_Q When "Enhanced Concentric Allowed" is set to ON, "TA Hysteresis", "UtoO HO Received Level Threshold", "OtoU HO Rec

The P/N criterion must be met for triggering a TA handover. That is, the TA handover can be triggered only if P measurem An emergency handover is triggered when TA is greater than or equal to the value of this parameter.

This parameter specifies the interval of broadcasting the speech data of the talker on the downlink group call channel that Number of the output segment 1: Segment 1 describes the measurement basic information of thethe equipment. When the network receives reports, measurement values in several straight measurement reports are fil Output Segment No. 2: Segment 2 describes the connection information. 1: Segment 1 the basic information of the equipment. 3: Segment 3 describes describes theinterface module information. Unique identifier of the Um software synchronization task 2: information. 4: Segment Segment 2 4 describes describes the the connection configuration information. One of the parameters that determine the of the OL subcell and subcell. can be triggered only if P measurem 3: Segment 3 the module information. The P/N criterion must be met for triggering a TA handover. That is, the TAUL handover 5: Segment 5 describes describes the information of coverage the peer equipment. When "Enhanced Concentric Allowed" is set to OFF, "TA Hysteresis", "RX_LEV Threshold", "RX_LEV Hysteresis", "RX_Q 4: Segment 4 describes the configuration information. 6: Segment 6 describes the version information of the host. When "Enhanced Concentric Allowed" is set to ON, "TA Hysteresis", "UtoO HO Received Level Threshold", "OtoU HO Rec 5: Segment 5 describes the information of the peer equipment. 7: Segment 7 describes the cabinet information. 6: Segment 6 describes the version information of the host. 8: Segment 8 describes the subrack information. Filter period ofdescribes the signal strength in information. the packet transmission mode of the MS. The MS in the packet transmission mode me 7: 9: Segment Segment 7 9 describes the the cabinet board information and electronic label information of the Flash. 8: Segment 8 describes the subrack information. 10: Segment 10 describes the slot information. Filter period of the signal strength in the packet idle mode of the MS. The MS in the packet idle mode measures the downl 9: describes thethe board 11:Segment Segment911 describes portinformation information.and electronic label information of the Flash. 10: Segment 10 describes the slot information. 12: Segment 12 describes the antenna information. 11: Segment 11 describes the port information. 12: Segment 12 describes the antenna information.

Maximum time in which the BTS attempts to set up the OML after swapping the main and backup OMLs. If the BTS fails to

The BTS repeatedly attempts to connect to port 0 or port 1 after the switchover. If the connection on one port fails within th Test code for the MTP3 link. After the successful test, the link can be used for carrying signaling services. If the test fails, t Timer 170. Tc, specifying the interval for the BVC and MS to send flow control messages. When this parameter is set to a small and MS send flow control messages, certain bandwidth is required. If this parameter is set to a too small value, the transm transmission performance and provide more bandwidth. Temperature compensation coefficient. This parameter defines the charging voltage increase or decrease unit of each bat In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

This parameter specifies the cyclic redundancy check (CRC) switch, which can be set to On or Off. The value of this param Whether to allow the cell to dynamically change a channel from full rate to half rate or from half rate to full rate. If this param to determine the channel assignment priority. The channels in a TRX that does not allow dynamic adjustment take priority.

If the current channel seizure ratio reaches or exceeds this value, the half-rate TCH is assigned preferentially; otherwise, th

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the DL FER carried in the

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the downlink level carried

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the downlink quality carri

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the UL FER carried in the

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the uplink level carried in

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the uplink quality carried

After a new TCH is assigned to an MS, the MS can be handed over to another channel only if the time during which the MS

Maximum number of discarded MRs allowed on the TCH in a power control period Whether the TCH rate type uses the MSC strategy or BSC strategy. When this parameter is set to NO and the MSC policy and the BSC policy is used, the BSC preferentially selects full-rate or half-rate channels based on the internal load. This parameter specifies the interval at which the speech service on a TCH is handed over.

This parameter specifies whether to perform periodic intra-cell handover for speech services on TCH. Threshold for determining that the underlaid subcell is busy. The BSC assigns channels in the underlaid subcell to the MS The assigns channels the overlaid subcell the MS ifinthe a concentric cell. If ratio the channel seizure ratio of overlaid valueBSC of this parameter, andinfull-rate channels are to assigned channel seizure in the underlaid subcell does notsub ex Channel seizure ratio = (Num. of busy TCHF + Num. of busy TCHH/2)/(Num. of available TCHF + Num. of available TCHH Mode of TC. concentric cell. SEPERATE_PRINCIPAL: Specifies that the MTP3 link is configured for the primary BSC in the case of BM/TC separated c SEPERATE_SUBORDINATE: Specifies the MTP3 link isis 10. configured for the slave BSC in the case of BM/TC separate Test code length of the signaling link. By that default, the value TOGETHER: Specifies that the MTP3 link is configured in the case of BM/TC combined configuration mode. SEPERATE_BSC_INTERFACE: Specifies that the MTP3 link is configured for the primary BSC in the case of BM/TC sepa

Whether to enable the class-1 mute detection. Number of the cabinet where the main board of the RXU ring is located Number of the TC port where one end of the ATER connection channel is located If you enable the TC pool function when configuring the basic information of the BSC6900, you need to enter the TC Pool

Number of the TC slot where one end of the ATER connection channel is located The type of TC resource GTC: TCofresources that support voice coding/decoding and channel packet conversion Number the TC subrack wherenormal one end of the ATER connection is located UTC: TC resources that support only the optimized handover on the Iur-g interface ITC: TC resources thatTDD support only the dual-stack function on the A interface When the priority of cell is ranked, the value of this in parameter is added the receive level ofadjacent the TDDrelation cell in thecell me Input mode of the BAa table. In auto mode, thewhen system the receive BA1 and BA2ofto tables based A TDD cell can become a candidate cell only thefills average level the TDD cellon is the greater than the TDDofCell R The values of this parameter correspond to the following decibel values: tables. Threshold forthis determining whether the MRtoabout a TDD cell is valid. The value of parameter corresponds the following decibel value: 0: 0 dB The measurement report is valid if the receive level of the TDD cell in the measurement report is greater than the value of 0: negative infinity 1: 6 dB Whether the FDD BA2 table corresponds is generated to automatically to the neighboring relation or typed manually. The value of this parameter the followingaccording decibel value: 1: -28 dB ... 0: 0 dB 2: dB 7: -24 42 dB 1: ... 6 dB ... 15: 28 dB 6: 36 dB 7: positive infinity This parameter specifies whether to activate the diversity mode on the common channel of a 3G cell.

Downlink frequency of frequency 1 in table 3GBA2. This parameter indicates the detected downlink frequency in the 3G ad This parameter specifies whether the TDD MI system information optimized function is enabled. When this parameter is se system information carries neighboring cell scrambling codes. This parameter specifies whether to send the system information MI which contains the 3G neighboring cell information in Minimum RSCP quality threshold that the TDD 3G candidate cell must reach

TDD cell parameter ID. The ID is used to distinguish terminals or cells. This parameter is used after spread spectrum. Ther Cell parameter ID of a TDD cell. The cell parameter ID distinguishes between MSs or cells. It is used after spread spectrum spectrum. This parameter specifies whether to optimize the system information 2Quater and MI of the TDD neighboring cell. That is,

SyncCase in the TDDBA1 table. This parameter determines the synchronization status. Value 0 indicates Sync case 1 and If the ratio of available TDM bandwidth is greater than this value, congestion control is stopped. If the ratio of available TDM bandwidth is less than or equal to this value, congestion control is triggered. Each subrack has six TDM port numbers, ranging from 0 to 5. Subrack 1 TDM Port No. refers to the TDM port number on

Each subrack has six TDM numbers, ranging from 0 to 5. Subrack 2 TDM Port No. refers to the TDM number on subrack 2 Terminal endpoint ID of the Pb signaling link Temperature alarm switch Upper limit of temperature

Lower limit of temperature When the environment temperature of the APMU is greater than the value of this parameter, the BTS reports an alarm. Fo In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para When the environment temperature is greater than the value of this parameter, the BTS reports an alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para When the environment temperature of the APMU is less than the value of this parameter, the BTS reports an alarm. For th In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para When the environment temperature is less than the value of this parameter, the BTS reports an alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Change value of the floating charge voltage of the storage battery when the temperature of the storage battery changes by

Description of a cell template. This parameter specifies the index number of a cell template. Each template is numbered uniquely in a BSC6900. This parameter specifies the index number of a cell template. Each template is numbered uniquely in a BSC6900. Name of a cell template, uniquely identifying a cell template in a BSC6900. When the temperature of the BTS cabinet is greater than the value of this parameter, the TRX is powered off.

TRX power-off temperature threshold. If the temperature of the BTS cabinet is less than the value of this parameter while " TRX power-off temperature threshold. If the temperature of the BTS cabinet is less than the value of this parameter while " In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Whether the System Information Type 3 message carries TER indication. Duration of the timer for starting the IP path status test on the Gb interface Content of the cell broadcast message

AEC is an important measure to improve the speech quality. If the AEC works for a consecutive time that is longer than the In the VSWR test, the TRX transmits signals at a default frequency. You can specify the frequency used for the test.

This parameter indicates start frame number of the BTS. It is used to keep synchronization between the BTS and MS after Target OMU TGW ID This parameter indicates the address of the operation and maintenance console for TGW. This parameter indicates the mask of the operation and maintenance console for TGW. Slot number of the BSC6900 interface board interworking with TGW.

Subrack number of the BSC6900 interface board interworking with TGW. Timer Th. After receiving the MS flow control message, the SGSN uses the values of the updated Bmax and R based on th suitable flow control parameters, which can improve the transmission performance. When this parameter is set to a greate

Voltage threshold for switching off the air conditioner. If the power supply voltage is less than this threshold, the air conditio

Voltage threshold for switching on the air conditioner. This parameter assumes that the air conditioner is switched off. If the

Combination of the THP1 and ARP1 priority in the Interactive service. THP1-ARP1 priority weight determines the number o

Combination of the THP1 and ARP2 priority in the Interactive service. THP1-ARP2 priority weight determines the number o

Combination of the THP1 and ARP3 priority in the Interactive service. THP1-ARP3 priority weight determines the number o

Combination of the THP2 and ARP1 priority in the Interactive service. THP2-ARP1 priority weight determines the number o

Combination of the THP2 and ARP2 priority in the Interactive service. THP2-ARP2 priority weight determines the number o

Combination of the THP2 and ARP3 priority in the Interactive service. THP2-ARP3 priority weight determines the number o

Combination of the THP3 and ARP1 priority in the Interactive service. THP3-ARP1 priority weight determines the number o

Combination of the THP3 and ARP2 priority in the Interactive service. THP3-ARP2 priority weight determines the number o

Combination of the THP3 and ARP3 priority in the Interactive service. THP3-ARP3 priority weight determines the number o

Load balance threshold type. It indicates the threshold calculation mode. During channel assignment, the assignment of channels on the BCCH TRXs depends on the uplink receive level, quality, a 1. The uplink receive levelthe after filtering higher "Level Thresh.from for Assigning This parameter specifies timer set toiswait for athan private message the SGSN.Main BCCH Carrier Channel Under TIG 2. The uplink receive quality level after filtering is lower than "Quality Thresh. for Assigning Main BCCH Carrier Channel Un 3. The non-BCCH load is higher than "Intracell Non Main BCCH Load Threshold of TIGHT BCCH".

During channel assignment, the assignment of channels on the BCCH TRXs depends on the uplink receive level, quality, a 1. The uplink receive level after filtering is higher than "Level Thresh. for Assigning Main BCCH Carrier Channel Under TIG 2. The uplink receive quality level after filtering is lower than "Quality Thresh. for Assigning Main BCCH Carrier Channel Un 3. The non-BCCH load is higher than "Intracell Non Main BCCH Load Threshold of TIGHT BCCH". During channel assignment, the assignment of channels on the BCCH TRXs depends on the uplink receive level, quality, a 1. The uplink receive afterfor filtering is higher thanBCCH "Levelhandover. Thresh. forThat Assigning Main BCCH Carrier Channel Under TIG The P/N criterion mustlevel be met triggering a TIGHT is, the TIGHT BCCH handover can be triggere 2. The uplink receive quality level after filtering is lower than "Quality Thresh. for Assigning Main BCCH Carrier Channel Un 3. The non-BCCH load is higher than "Intracell Non Main BCCH Load Threshold of TIGHT BCCH".

The P/N criterion must be met for triggering a TIGHTBCCH handover. That is, the TIGHTBCCH handover can be triggered When an intra-cell TIGHT BCCH handover needs to be performed (handover from the non-BCCH to BCCH), the downlink

Whether to enable the BCCH aggressive frequency reuse algorithm If the SDCCH load on the TRXs of the compatible BCCH in loose frequency reuse pattern is greater than the "IBCA Loose IMSI pagingthe timer. After enabling the MSC function,BCCH the BSC6900 receives from the MSC the paging message attach Otherwise, SDCCHs on the TRXs of thepool compatible are preferentially assigned. If the BSC6900 receives a response message with the IMSI before the timer expires, the BSC6900 locates the destination If the BSC does not receive a response when the timer expires, the BSC6900 clears the relation information between the I Whether to limit the operation time of the operator Time Duration of frequency scanning

Within the preset time, no AMR FR-to-HR handover is allowed if the previous FR-to-HR handover fails due to channel una

After a handover due to bad quality is successful, the penalty on the original serving cell is performed within the "Penalty T

After an OL subcell to UL subcell handover of an MS fails, the MS does not perform OL subell-UL subcell handovers within Indicates the timeout time of the PING packet Timeout time for waiting for the TRACERT packet response Timeout time

Longest time for multiplexing Indicateswaiting the timeout time of the CFM link tracing detection When the multiplexed packet is no longer added with new data and the timer expires, the multiplexed packet is transmitted This parameter is determined by the number of multiplexed packets. When the number of multiplexed packets increases, t

After the fast handover is successful, the penalty on the original serving cell is performed within the "Quick handover punis

Indicates the times of sending PING packets This parameter determines whether the dynamic voltage adjustment function is enabled on the basis of the number of time this function.

After the time advancing handover is successful, the penalty on the original serving cell is performed within the "Penalty Ti

After an UL subcell to OL subcell handover of an MS fails, the MS does not perform UL subcell to OL subcell handovers w This parameter indicates the queue timer for assignment. When the BSC6900 receives an assignment request and no channel is available for assignment, the BSC6900 starts the q

If the BSC6900 receives the configuration data about all the connected MSCs before the timer expires, the BSC6900 conc

When the operation time of the OMU exceeds the value specified by this parameter, some records are deleted from the op

Temporary logical link ID in the decimal format Lowest expected value of the air outlet temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Temperature alarm lower threshold. If the temperature of the battery is lower than the value of this parameter, an alarm ind In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para When the internal temperature of the BTS reaches the Temperature Alarm Lower Threshold, it reports a low temperature a In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para When the time mode is set to "ONTIME", you should set this parameter.

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter spe

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter spe

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter spe

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter spe

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter spe TRMMAP index Index of the traffic mapping used by the current adjacent node's gold user. Loopback time length

Test mode Duration time for determining that a call is hung up because of poor quality. If the uplink quality or downlink quality in the m disconnection is due to poor quality. This parameter can be used to calculate the number of call disconnections due to poo Maximum rate of the accumulated alarm blink duration to the alarm blink measurement period. Assume this threshold is no measurement period, see "SET ALMBLKSW".

TMSI of the MS Minimum rate of the accumulated alarm blink duration to the alarm blink measurement period. Assume this threshold is no blink measurement period, see "SET ALMBLKSW". This timer is a protection timer waiting for a signalling link test acknowledgement message (SLTA) from the peer end after This timer is used to send the signalling link test messages (SLTM) to the peer end regularly. Name of the data table distributed on the board.

The Ater signaling link operates in the terrestrial transmission or satellite transmission mode. In the areas such as desert a

E1 transmission type of the Pb interface. The terrestrial transmission or satellite transmission can be selected. In the areas Offset to DST, namely, the adjustment to time.

Cell Reselect Temporary Offset (TO) indicates the temporary correction of C2. This parameter is valid only within the value Number of the cabinet where the board is located Number of the slot where the board is located

Type of the host log to be collected. Number of the subrack where the board is located If this parameter is set to NORMAL, the text log in the \common\fam\famlog directory of the OMU installation path is collec If this parameter is set to FORMAT, the binary log in the \common\fam\famlogfmt directory of the OMU installation path is c

Number of the optical port where the main board of the RXU ring is located. Length of the timer that is started to wait for a channel requested by an incoming BSC handover request message. When the MSC allows the queuing of incoming BSC handover requests, the BSC6900 starts the queuing procedure and th

CPU usage threshold for debugging tracing flow control. When the average CPU usage of sliding windows reaches or exce

Packet queue usage threshold for debugging tracing flow control. When the average packet queue usage of sliding window CPU usage threshold for recovery from debugging tracing flow control. When the average CPU usage of smooth windows

Packet queue usage threshold for recovery from debugging tracing flow control. When the average packet queue usage of Whether to control the debugging tracing flow

Threshold for determining whether the uplink service is preferred. Within the "Flux Measurement Period", if the ratio of the Traffic mode of the M3UA link set. At present, only the active/standby and load sharing mode is available. If the M3UA in the linkwhether set work in uplink overriding mode, only one Within link in the setMeasurement works in the active mode, Threshold forlinks determining the service is preferred. the link "Flux Period", if theand ratioallofother the This parameter specifiestothe data transmission mode automatically activated take over as the active link. between the BTS and the BSC6900. The license control modes are d Terrestrial Transmission: The between the BTSmode, and the transmitted through the in E1active or fiber. This transmis If the M3UA links in the link setdata work in load-sharing allBSC6900 the M3UAislinks in the link set work mode and carry Satellite Transmission: The data between the BTS and the BSC6900 is transmitted through the satellite. This transmission Terrestrial and Satellite: In normal cases, the terrestrial transmission mode is used. When the terrestrial transmission is fau Slot number of the transparently transmitting interface board

Transport type of the adjacent node to which the path belongs. Transport type Transport type Transmission type of the BTS Transmission Type

Whether to configure the optical transmission mode for E1 port 0 of the BTS3006C/BTS3002E. If the optical transmission m

Whether to configure the optical transmission mode for E1 port 1 of the BTS3006C/BTS3002E. If the optical transmission m Whether to configure the optical transmission mode for E1 port 2 of the BTS3006C/BTS3002E . If the optical transmission

Whether to configure the optical transmission mode for E1 port 3 of the BTS3006C/BTS3002E. If the optical transmission m Whether to enable the limit of the tracing range Forbidden time of cell reselection The load handover is triggered when the traffic load in a cell is greater than the value of this parameter. Port number of the aggregation member Slot number of the aggregation member aggregation group number Specified TRMMAP index of the user panel TRM load threshold index. The TRM load threshold must be configured. TRM load threshold index TRM load threshold index. It is the unique ID of the load threshold. TRM load threshold index TRM load threshold index TRM load threshold index TRM load threshold index Transmission resources mapping switch Trunk group number of the logical port TRUNK group number

Whether to enable the TRX aiding function. Four aiding modes are available. BCCH aiding: The main BCCH is aided to an TRUNK group number baseband FH in the cell is faulty or BCCH aiding is performed in the cell, baseband FH aiding occurs and the cell is initializ aiding switchback can be performed and the cell is restored to the baseband FH mode. Duration Frequency hopping index of the channel in the TRX Index of a TRX, uniquely identifying a TRX in a BSC6900.

The ID of TRX added in the main location group, the TRX ID must be globally unique. The same TRX cannot be bound by Index of TRX 1 Index of TRX 10

Index of TRX 11 Index of TRX 12 Index of TRX 13 Index of TRX 14 Index of TRX 15 Index of TRX 16 Index of TRX 17 Index of TRX 18 Index of TRX 19 Index of TRX 2 Index of TRX 20 Index of TRX 21 Index of TRX 22 Index of TRX 23 Index of TRX 24 Index of TRX 3 Index of TRX 4 Index of TRX 5 Index of TRX 6 Index of TRX 7 Index of TRX 8 Index of TRX 9 List of IDs of carriers for frequency hopping.

List of TRX indexes. You can specify one TRX index or more TRX indexes, for example, 1 or 0&1&2&&5 in the same BTS. Mobile allocation index offset (MAIO) of the channel in the TRX Number of a TRX in a BTS. The number of a TRX is unique in a BTS.

Allowed number of carriers bound to a board. Number of the channel bound to the TRX on the TRX board. TRX Pass No. of the DTRU/DRRU/BTS3900B of the BTS in s in 0 to 7. TRX board pass number in the sub-location group to which the TRX of the main location group is bound

This parameter specifies whether the TRX priority is considered during channel assignment. When the parameter is set to Type of the TRX board bound to the TRX It indicates the Ater interface timeslot number It indicates the A interface timeslot number. The parameter supports multiple values. Timeslot number

Timesolt of bearing channels Number of the timeslot on the port Bearer E1/T1 port timeslot of PPP link. Bearer E1/T1 port timeslot of MP link.

The TSC of is the short for the Code. Timeslot E1/T1 linkTraining carryingSequence the PPP link. The timeslot of an E1 port cannot be used by different PPP links. The TSC must be the same as the BCC. The delay equalization is performed by using the specified TSC when the MS or B incorrectly invalid reception, and prevent the co-channel interference.

Number of idle timeslots. You can configure up to 128 idle timeslots for the BTS at a time. A BTS can be configured with u

Whether to allow TSC planning. If this parameter is set to No, the TSC values in all MA groups of the cell cannot be modifi Timeslot cross index Duration in timeslot mode Index of the monitoring timeslot. The index is unique in a BTS. Name of the scheduled task.

Time slots for Ater operation and maintenance. These time slots are provided by the ports connected to the Ater connectio The 64 kbit/s timeslots on the port are numbered from 1 to 31. Number of the slot where the main board of the RXU ring is located. The slot No. is unique in the same BTS. Timeslot number of Pb signaling link Assignment priority level of the channel. If this parameter is less, the assignment priority level of the channel is higher.

Maximum degree by which the output power of the multi-density TRX board can exceed the maximum output power within

Fast flux measurement duration. Normal flux measurement is performed after the fast flux measurement lasts over the per

Whether to enable fast flux detection. When this parameter is set to Open, fast timeslot adjustment is possible after the TB Rate of the monitoring timeslot Number of the subrack where the main board of the RXU ring is located. The subrack No. is unique in the same BTS. Test mode Test timeslot Type of battery test Test Type. PIM:passive intermodulation test.

This parameter specifies whether to allow the BTS to enable the TRX Intelligent Shutdown on Timeslot Level feature. Whe

RXU topology type, that is, RXU ring topology or RXU chain topology. In the case of the ring topology, the optical ports of t TTL(Time to Live) of the PING packet Indicates the live time of the packet for CFM link tracing detection

If the number of channels (including PDCH and TCH) occupied on a cell that can be disabled is lower than this threshold, t This parameter specifies the end time of a period during which the cell is disabled.

This enable the Dynamic Power Offisfeature. When this parameter is set to ENABLE, th This parameter parameter specifies specifies whether the start to time of a period during Cell which the cell disabled. When this parameter is set to DISABLE, the BSC will never disable the cell; When this parameter is set to SLEEP, the BSC SLEEPING only for the BTS3900E. For other base stations, this parameter cannot be set to SLEEPING.

When the load of the same coverage cell is higher than this threshold for a period, the disabled cell is enabled. Temperature alarm upper threshold. If the temperature of the of battery is higher thantwo thetransmissions value of this parameter, an sends alarm m in Tx-integer (T for short). This parameter specifies the number timeslots between when an MS In multi-mode scenario, valueinofGSM this Rec. parameter mode be theon same as the and value of the corresponding para The access algorithm is the defined 04.08intoone reduce themust collisions the RACH improve the efficiency of the Temperature upper threshold the cabinet. of When the cabinet temperature is higher than thisrelations parameter, an alarm This parameter works with theofconfiguration the CCCH to determine the parameter S. The between this indicat param In multi-mode scenario, the to value thisorparameter be the same asshare the value of the corresponding para When this parameter is set 3, 8,of14, 50, S is 55inifone the mode CCCHmust and SDCCH do not a physical channel. When this parameter is set to 3, 8, 14, or 50, S is 41 if the CCCH and SDCCH share a physical channel. Value of the timer for reserving the channels in the observed cell When this parameter is set to 4, 9, or 6, S is 76 if the CCCH and SDCCH do not share a physical channel. When thisthe parameter set to 4,the 9, or 6, Sinisthe 52 observed if the CCCH Value of timer for is reserving TRXs celland SDCCH share a physical channel. When this parameter is set to 5, 10, or 20, S is 109 if the CCCH and SDCCH do not share a physical channel. When thisthe parameter set to 5,the 10,TCHFs or 20, S 58serving if the CCCH Value of timer for is reserving in isthe cell and SDCCH share a physical channel. When this parameter is set to 6, 11, or 25, S is 163 if the CCCH and SDCCH do not share a physical channel. Value of timer for is waiting collection When thisthe parameter set tofor 6, the 11, response or 25, S isto86information if the CCCH and SDCCH share a physical channel. When this parameter is set to 7, 12, or 32, S is 217 if the CCCH and SDCCH do not share a physical channel. Value timer for is searching MS S is 115 if the CCCH and SDCCH share a physical channel. When of thisthe parameter set to 7, for 12,the or 32, The timeslot for sending messages is a random value from theBTS collection of {0, 1..., MAX(T, 8)-1}. Value of the timer for activating the reserved resources of the The number of timeslots (excluding the timeslot used to send messages) between two adjacent channel request message When T increases, thewaiting interval two adjacentreport channel requests Value of the timer for forbetween the synchronization from the BTSincreases, and RACH conflicts decrease. When S increases, the interval between two adjacent channel request messages increases, and RACH conflicts decrease The access time of the MS, however, is prolonged and the network performance is decreased when T and S increase. Und The maximum power that operators 1 can use on pass A of MRRU board. The maximum power that operators 2 can use on pass A of MRRU board. The maximum power that operators 3 can use on pass A of MRRU board. The maximum power that operators 4 can use on pass A of MRRU board. The maximum power that operators 1 can use on pass B of MRRU board. The maximum power that operators 2 can use on pass B of MRRU board. The maximum power that operators 3 can use on pass B of MRRU board. The maximum power that operators 4 can use on pass B of MRRU board. Transmit bandwidth of IP path Transmit bandwidth

Indicates the interval between the two sent PING packets This parameter specifies the frequency band of new cells. Each new cell can be allocated frequencies of only one frequen GSM900: The cell supports GSM900 frequency band. Extension timeslots of random access. This parameter determines the interval of sending another channel re DCS1800: transmission The cell supports DCS1800 frequency band. GSM900_DCS1800: The cell supports GSM900 and Explanation of the finish type of the batch commandsDCS1800 frequency bands. Type of the subrack GSM850: The cell supports GSM850 frequencywhose band. execution fails, the execution of the batch commands is stopped an 1. ANY_ERR_RETURN: If there is a command GSM850_DCS1800: The cell supports GSM850 and DCS1800 frequency bands. 2. ALL_END_RETURN: If all commands in the batch file are executed in one operation, the execution of the file is success PCS1900: The cell supports PCS1900 frequency band. GSM850_PCS1900: The cell supports GSM850 and PCS1900 frequency bands. Type of the PCU

Frequency band to which the newly added cell belongs. Only one frequency band can be selected as the frequency band o Type of a cabinet Cell type. Currently, the fast BTS construction is available for only GSM900 and DCS1800 cells. Power attenuation factor of uplink tributary 0 Whether there is a TMA on uplink tributary 0

Index of uplink tributary 0. Each uplink tributary can be configured with a maximum of 12 TRXs. This parameter indicates t TRX board pass number connected to uplink tributary 0

Number of the slot where the TRX board that connects to uplink tributary 0 is located Number of the subrack where the TRX board that connects to uplink tributary 0 is located Power attenuation factor of uplink tributary 1 Whether there is a TMA on uplink tributary 1

Index of uplink tributary 1. Each uplink tributary can connect to a maximum of 12 TRXs. This parameter indicates the seria TRX board pass number connected to uplink tributary 1 Number of the slot where the TRX board that connects to uplink tributary 1 is located Number of the subrack where the TRX board that connects to uplink tributary 1 is located

Service priority of call reestablishment when CS services are preferred. This parameter is used for the flow control in the ca

Service priority of the CS emergency call when CS services are preferred. This parameter is used for the flow control in the

Service priority of the CS MS-originated call when CS services are preferred. This parameter is used for the flow control in

Service priority of the CS MS-terminated call when CS services are preferred. This parameter is used for the flow control in

Service priority of the incoming BSC handover when CS services are preferred. This parameter is used for the flow control

Service priority of the intra-BSC handover when CS services are preferred. This parameter is used for the flow control in th

Priority of other services when CS services are preferred. This parameter is used for the flow control in the case of Abis ov

PS service priority when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP/H Priority of supplementary services when CS services are preferred. This parameter is used for the flow control in the case

VBS service priority when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP VGCS service priority when CS services are preferred. This parameter is used for the flow control in the case of Abis over

In A over IP, if the parameter is set to ON, the circuit IE in the A interface extended signaling must be processed in the sam Whether the BSC selects the TCHs on the link that reports an RAI alarm. Reestablish service priority of a PS preferred call CS emergency call service priority of a PS preferred call CS original call service priority of a PS preferred call CS terminated call service priority of a PS preferred call BSC handover service priority of a PS preferred call BSC intra handover service priority of a PS preferred call Other service priority of a PS preferred call PS service priority of a PS preferred call Supplement service priority of a PS preferred call VBS service priority of a PS preferred call VGCS service priority of a PS preferred call

In case of intra-BSC, if this parameter is set to ON, the same channel type and voice version as those of the original chann UDP multiplexing mode of the receiving party. The mode that does not support the function of compressing the RTP heade indicates that the receiving party supports both the UDP MUX RTP header and the function of compressing the RTP head

UDP multiplexing mode of the sending party. If the mode that does not support the function of compressing the RTP heade that the sending party supports both the UDP MUX RTP header and the function of compressing the RTP header. UDP port number of the local NSVL. The setting of this parameter must be consistent with the setting at the SGSN side.

UDP port number of the remote NSVL. The setting of this parameter must be consistent with the setting at the SGSN side.

Group to which the operator belongs. This parameter is used to limit the right of the operator. Upper humidity threshold for the environment alarm box to report an alarm indicating that the ambient humidity is too high. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Used to identify the uplink access message from the MS. The value 64 is invalid. Unit time for the error code ratio test Upper limit for triggering an alarm Upper limit of the alarm. This parameter is valid for the analog port. Minimum interval between two consecutive uplink power control commands

Current call is an AMR full-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power con

Current call is an AMR full-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power contr

Current call is an AMR half-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power co

Current call is an AMR half-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power cont

The P/N criterion must be met for triggering a UL BQ handover. That is, the UL BQ handover can be triggered only if P me

The P/N criterion must be met for triggering a UL BQ handover. That is, the UL BQ handover can be triggered only if P me

If the ratio of uplink flux to downlink flux is greater than or equal to the threshold during the fast flux measurement, the uplin

Duration for uplink data transmission on the original channel if the TC resources are changed before and after the handove Number of downlink GRPS TBF RLC blocks sent before RRBP field is sent

If the UL receive level remains lower than the "Edge HO UL RX_LEV Threshold" for a period, the edge handover is trigger Number of downlink GRPS TBF RLC blocks sent before RRBP field is sent

Period of acknowledging the EGPRS TBF RLC uplink data block Filter adjustment factor for uplink power control. If this parameter is set to a large value, the filtered values become smooth increased.

Current call is a full-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power control is p

Current call is a full-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power control is pe Current call is a half-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power control is

Current call is a half-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power control is p Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold

When the uplink load of a cell is larger than the value of this parameter and is smaller than "2G Cell UL Overload Congest When the network receives measurement reports, in consideration of the accuracy of a single measurement report, the me signal strength. Maximum permissible adjustment step when the BSC decreases the uplink transmit power

Maximum permissible adjustment step when the BSC increases the uplink transmit power After the BSC delivers the power control command, it should wait for a certain period before affirming the effect of the pow receive quality ofload the MS. power adjustment delayed. When the uplink of a Thus, cell is the greater than the value,isthe uplink of the cell is in the overload congestion status. To compensate the delay of power adjustment, the power control algorithm implements the prediction and filtering function This parameter determines the number of uplink measurement reports predicted by the BSC. In other words, the value of t

The MS transmit power is decreased only when the quality level of the MS transmit signal is smaller than the value of the p

The MS transmit power is increased only when the quality level of the MS transmit signal is greater than the value of the pa

When the network receives measurement reports, the measurement values in several straight measurement reports are fil

In the case of power control, when the uplink receive quality is not smaller than "UL Qual. Bad Trig Threshold", the actual "

In the case of power control, when the uplink receive quality is not smaller than "UL Qual. Bad Trig Threshold", the actual "

An emergency handover due to bad quality is triggered when the uplink receive quality is not smaller than "UL Qual. Thres

The value of this parameter corresponds to multiplying quality level 0 to 7 by 10. An emergency handover can be triggered

The value of this parameter corresponds to multiplying quality level 0 to 7 by 10. An emergency handover can be triggered

This parameter specifies the uplink signal strength factor multiplied by 10 during the calculation of the uplink power control

When the network receives measurement reports, the measurement values in several straight measurement reports are fil When the uplink receive level reaches the threshold, Huawei III power control is performed. When the uplink receive level is lower than the threshold, Huawei III power control is performed.

When the network receives measurement reports, the measurement values in several straight measurement reports are fil

This parameter specifies the uplink quality level factor multiplied by 10 during the calculation of the uplink power control ste

When the network receives measurement reports, the measurement values in several straight measurement reports are fil

When the network receives measurement reports, the measurement values in several straight measurement reports are fil

Signal strength factor for the protective limitation on calculating the uplink power control adjustment step. The calculated st

Signal strength factor for the protective limitation on calculating the uplink power control adjustment step. The calculated st When the uplink receive level reaches the threshold, Huawei II power control is performed.

When the uplink receive level is below the threshold, Huawei II power control is performed. Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate ac equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold Whether a UL subcell to OL subcell handover is allowed

Number of uplink GRPS TBF RLC blocks sent before an acknowledgement is required Whether the crosstalk optimization function over the Um interface is allowed. If this parameter is set to YES when call drop If this parameter is set to YES and the ongoing service is speech service, the BSC also sends the Channel Release messa Timer of penalty on a neighboring cell when a handover fails due to faults of air interface connection.

Phase tag for GSM protocols that the Um interface supports Whether to support the balanced mode or the unbalanced mode. When this parameter is set to YES, you can set the DIP s When this parameter is set to NO, you cannot set the DIP switches on the interface boards. You must set the DIP switches Retry times after the peer response timer expires during NSVC unblocking

Abnormally alarm triggering threshold when the ANT_A tributary antenna current is too light. When the actual current is low

Abnormally alarm triggering threshold when the ANT_B tributary antenna current is too light. When the actual current is low

Abnormally alarm triggering threshold when the RET tributary antenna current is too light. When the actual current is lower

Abnormally alarm clearance triggering threshold when the ANT_A tributary antenna current is too light. When the actual cu

Abnormally alarm clearance triggering threshold when the ANT_B tributary antenna current is too light. When the actual cu

Abnormally alarm clearance triggering threshold when the RET tributary antenna current is too light. When the actual curre Index of upper-level BTS connected to the BTS Number of the upper-level BTS. The number is unique in a BSC6900. Index type of upper-level BTS connected to the BTS Index type of the upper-level BTS

Name of the upper-level BTS connected to the BTS. The BTS name is unique within a same BSC6900. This parameter ca

Name of the upper-level BTS. The name is unique in a BSC6900. The invalid characters (\, /, :, *, ?, ", <, >, |, and #) canno Update code for a simple cell broadcast message. This parameter together with "Code" uniquely identifies a cell broadcast message.

Default coding scheme of the uplink GPRS link. If the uplink adopts the dynamic adjustment coding scheme, this paramete

Default coding scheme of the uplink EDGE link. If the uplink adopts the dynamic adjustment coding scheme, this paramete Uplink multiplex threshold of dynamic channel conversion. When the subscriber number on the channel reaches the value Multiplex Threshold" for triggering converting dynamic channel in time and reducing PDCH multiplex.

Default coding scheme used on the uplink EGPRS2-A link. If the uplink uses the dynamic coding scheme, this parameter s

Inactive period of extended TBF. theEGPRS2-A network side receives the last uplink RLC data block (CountValue=0) of th Fixed coding scheme that isuplink used on theAfter uplink link. If the uplink uses the fixed coding scheme, this parameter data block, the MS can use the inactive uplink TBF without rebuilding a new uplink TBF. This inactive uplink TBF is switche of releasing the uplink TBF. When the uplink TBF is inactive, the downlink TBF can be established according to this uplink

Adjustment mode of the uplink GPRS link coding scheme. If the fixed coding scheme is used, this parameter is a value ran

Coding scheme of the uplink EDGE link. If the uplink uses the fixed coding scheme, this parameter is set to a value rangin

One of the thresholds to determine whether the uplink interference exists. If the uplink level is not smaller than "Interf.of UL

One of the thresholds to determine whether the uplink interference exists. If the uplink level is not smaller than "Interf.of UL Maximum time in which a user uses the uplink of its VGCS call continuously when the BTS works in fallback mode Size of the OML/ESL/EML Uplink LAPD Window Whether to allow MS power control

Upper class transport resource group No. It is valid only when " Is First Class Transport Resource Group " is set to NO.

Upper number of the logical port If the difference between uplink receive levels of calls within the same timeslot is greater than "Offset of the difference betw criterion.

After the existing uplink receive level, uplink receive level after the previous optimization, and the value of this parameter a If the difference between uplink receive levels of calls within the same timeslot is greater than "Offset of the difference betw criterion.

Delay of releasing the non-extended TBF. After receiving the short last uplink RLC data block (CountValue=0), networ This parameter specifies whether theuplink transmission of point-to-point messages is disabled. If necessary, thethe transmiss delay. In this way, the downlink TBF can be established on the unreleased uplink TBF. This uplink TBF is automatically rel disabled.

Retransmission threshold when the coding mode of the uplink TBF is changed from CS2 to CS1. When the retransmission

Retransmission threshold when the coding mode of the uplink TBF is changed from CS3 to CS2. When the retransmission

Retransmission threshold when the coding mode of the uplink TBF is changed from CS4 to CS3. When the retransmission

Retransmission threshold when the coding mode of the uplink TBF is changed from CS1 to CS2. When the retransmission

Retransmission threshold when the coding mode of the uplink TBF is changed from CS2 to CS3. When the retransmission

Retransmission threshold when the coding mode of the uplink TBF is changed from CS3 to CS4. When the retransmission

Whether to allow cell urgent reselection. If this parameter is set to PERMIT and [NC2 Load Reselection Switch is set to Su Mode of querying the information on an MS Whether to support USF granularity 4 User name of the FTP server

User name for the FTP server. When the FTPServer.exe file downloaded through the LMT is installed, the user name is ad Start time when the TRX energy saving function is enabled for the BTS3002E.

End time when the TRX energy saving function is enabled for the BTS3002E. Upper temperature threshold for the environment alarm box to report an alarm indicating that the ambient temperature is to In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding param When a UL subcell-OL subcel handover decision is performed to a call, the BSC determines whether the number of hando allowed.

After an MS performs a OL subcell to UL subcell handover successfully, the MS cannot be handed over to the OL subcell When this parameter is set to YES, the existing call is performed in the OL subcell, and "OL to UL HO Allowed" is set to YE If theofexisting call is performed in the UL a UL to OL subcell is triggered, "UL to OL Level HO Allow One the parameters that determine thesubcell, coverage of subcell the OL subcell and ofhandover the UL subcell. "UtoO and HO Received Thr Thred". Otherwise, if the traffic volume in the UL subcell is smaller than "En Iuo Out Cell General OverLoad Thred", the tim If this parameter is set to NO, the traffic volume in the UL subcell is not taken into account for triggering the UL subcell to O Hierarchical handover period of the load handover from the UL subcell to the OL subcell. If the channel seizure ratio of the may occur in the target cell and call drops may be caused. Through the hierarchical load handover algorithm, the calls in th Hierarchical level step of the load handover from the UL subcell to the OL subcell

This parameter specifies the type of a 3G cell. A cell type can be Frequency Division Duplex (FDD) or Time Division Duple Vendor code of the RET antenna

This parameter is used to limit the maximum number of channels that can be used by the VGCS in a cell. This prevents too

This parameter specifies whether the preemption of channels between public network services and the VGCS is allowed w

This parameter is used to reserve a certain number of channels in a cell for the Voice Group Call Service (VGCS) to use d This parameter specifies the usage threshold of the CPU for VIP user calls that can be admitted. When the usage of a CPU are rejected. Is VIP Cell.The parameter is used for BSC6900 flow control.

This parameter specifies the eMLPP priority value corresponding to the VIP call. When the eMLPP(Enhanced Multi-Level P

This parameter specifies the usage threshold of the CPU for VIP user calls that are transferred from other CPUs. When the

If the parameter is set to Disable, the added IP path is not configured with the VLAN ID. If the parameter is set to Enable, t Specified Vlan enabling flag VLANID flag of first local IP address VLANID Flag of second Local IP address VLANID of the IP address of the specified next hop VLAN of the MA in the MD VLAN ID of the service type VLAN to which the maintenance association belongs in the maintenance domain. VLAN ID of first Local IP address VLAN ID of second Local IP address VLAN priority

VLAN priority level of the service type. This parameter helps to determine the packet service priority level at the data link la VLAN switch for the service type Speech version supported by a cell 24V voltage alarm switch Upper limit for triggering a 24 V voltage sensor alarm Lower limit for triggering a 24 V voltage sensor alarm 48V voltage alarm switch Upper limit for triggering a 48V voltage sensor alarm Lower limit for triggering a 48V voltage sensor alarm Whether to enable the standing wave alarm parameters to be configured

This parameter specifies a condition for generating a BTS alarm. This parameter together with "VSWR TRX error threshold Filtering times of serious standing wave alarms

Standing wave alarm threshold. When the VSWR is greater than the value of this parameter, the TRX reports a standing w

Serious standing wave alarm threshold. When the VSWR is greater than the value of this parameter, the TRX reports a se

This parameter specifies a condition for generating a BTS alarm. This parameter together with "VSWR TRX unadjusted thr V-version number of the BTS software

This timer is used to set the time of waiting for a ReleaseIndication message after a ChannelRelease message is sent. If th When the BSC6900 sends a ChannelRelease message and the current call uses the AMRFR encoding mode, the timer T3 the BSC6900 deactivates the channel. When the BSC sends a ChannelRelease message and the current call uses the AMRHR encoding mode, the timer T3109 deactivates the channel.

Timer of waiting for the MS's response to the location measurement request sent from the BSC. If the BSC does not receiv

The TCHs reserved for the emergency call are assigned to the user during the service assignment. If the TCHs are not ass

When the dynamic PDCH needs to use MAIO of the SDCCH, the SDCCH is not allowed to be assigned to new calls within allowed to be preempted. Timer of waiting for the SMLC's response to the MS location request sent from the MSC. If the SMLC does not send any re sends an MS location failure indication to the MSC. Whether to start the heating equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para Water sensor alarm switch Whether to limit the operation weekday of the operator. If the weekday needs to be limited, see the description of "Week".

This parameter is used to select the location of a cell, east or west longitude. Whether to start the humidification equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding para

Whether to trigger an active/standby port switchover. If this parameter is set to YES, an active/standby port switchover is tr

Whether to start the dynamic adjustment of the LAPD window. If this parameter is set to ALLOW, the LAPD transmit and re You can select multiple weekdays.

Working mode of the M3UA link set, including M3UA_ASP and M3UA_IPSP. For details about the ASP and IPSP, see the Time when the BTS stops checking for a radio link alarm. If this time is up, the BTS stops checking for or reporting a radio

Whether to enable the BTS to report a major radio link alarm. If this parameter is set to YES, the BTS reports a major radio

Period for clearing a radio link warning. If a radio link warning is cleared within this period, the BTS reports the recovery ala

Time when the BTS starts to check for a radio link alarm. If this time is up, the BTS starts to check for and report a radio lin

Whether to enable the BSC to deliver radio link alarm parameters to the BTS. If this parameter is set to YES, the BSC deliv Flag of the work area to be formatted

Working of the RXU board BTS portmode working mode. This parameter must be consistent with that the peer. Work a BTS. A BTS can work in Working mode. E1: The E1 system is recommended by the IUT-T. E1ofcarries signals at mode 2.048 of Mbit/s. G.703 defines the ele E1: The E1 system is recommended by the ITU-T. E1 carries signals at 2.048 Mbit/s. G.703 defines the electrical specifica T1: The T1 system is recommended by the ANSI and widely used in the North America. T1 carries signals at 1.544 Mbit/s. Work mode of subrack T1: The A T1circuit system is uses recommended the ANSIthe and widely in the North America. T1 carries signals at 1.544 Mbit/s. E1_BA: that two wires by to transmit same butused contra-directional signals. The 120-ohm E1 line and 100-ohm If "DESTNODE" of the BTS is set to BSC, BTS, or DXX, the setting of "WORKMODE" of the BTS port must be the same a E1_UNBA: A circuit that uses one transmission signal cable and one common grounding cable to transmit signals. The 75If "DESTNODE" of the BTS is set to OTHER, for example, TGW(Transmission Gateway), "WORKMODE" of the BTS port m The setting of the E1/T1 DIP switch of the BTS must match the setting of "WORKMODE" of the BTS port. Window size of the Ater signaling link

Time for which the BTS waits to swap the OML after the OML is interrupted. With this parameter, the BTS does not swap t Waiting time before establishing a link in the reverse direction after the transmission of a BTS is disrupted Wait to restore time Time zone

Feature ID GBFD-110502 GBFD-110502 GBFD-110502 GBFD-116601 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-114201 GBFD-114201 GBFD-117702 GBFD-117301 GBFD-113101 MRFD-210301 GBFD-118201 GBFD-116801 GBFD-119110 GBFD-119110 GBFD-511002 GBFD-511002 GBFD-113201 GBFD-511002 GBFD-119501 GBFD-511002 GBFD-511002 GBFD-511002 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-119305 GBFD-110402 GBFD-111101 GBFD-115501 GBFD-115701 GBFD-115502 GBFD-115701 GBFD-115507 GBFD-115701 GBFD-110501 GBFD-510502

GBFD-118201 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-110601 GBFD-510501 GBFD-111202 GBFD-111705 GBFD-111705 GBFD-111202 GBFD-111804 GBFD-118201 GBFD-119204 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-118201 GBFD-118201 GBFD-118201 GBFD-118201 MRFD-210304 GBFD-111202 GBFD-111202 GBFD-115602 GBFD-115602 GBFD-115602 GBFD-115602 GBFD-115602 GBFD-115602 GBFD-115602 GBFD-115602 GBFD-115505

GBFD-115505 MRFD-210502 MRFD-210502 GBFD-115505 GBFD-115505 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-111202 MRFD-210304 GBFD-113801 MRFD-210304 MRFD-210304 GBFD-116401 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-118602 GBFD-115601 GBFD-115601 GBFD-115601 GBFD-115601 GBFD-115601

GBFD-115601 GBFD-115601 GBFD-510002 GBFD-510002 GBFD-118605 GBFD-114101 GBFD-113101 GBFD-111005 GBFD-119401 GBFD-116201 GBFD-111005 GBFD-111803 GBFD-111203 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-119115

GBFD-115402 MRFD-210502 GBFD-115402 MRFD-210502 MRFD-210304 MRFD-210304 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-115503 GBFD-117601 GBFD-115506 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501

GBFD-510501 GBFD-510501 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-110703 GBFD-115502 GBFD-115502 GBFD-115506 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-115503 GBFD-111803 GBFD-111803 GBFD-115703 GBFD-115703 GBFD-118601 GBFD-115703 GBFD-118602 GBFD-118605 MRFD-210602 GBFD-118611 GBFD-118622 None MRFD-210304 GBFD-115603 GBFD-115603

GBFD-115603 GBFD-115603 GBFD-115402 GBFD-118201 GBFD-510401 MRFD-210501 GBFD-510401 MRFD-210501 GBFD-118611 GBFD-118622 GBFD-111202 MRFD-210602 GBFD-111202 GBFD-510104 GBFD-111202 GBFD-111804 GBFD-118602 GBFD-114701 GBFD-119904 GBFD-119904 GBFD-119904 GBFD-119904 GBFD-119904 GBFD-119904 GBFD-119904 GBFD-119904 MRFD-210301 MRFD-210401 MRFD-210401 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-118609 GBFD-118611 GBFD-118622 GBFD-111804 GBFD-111804 GBFD-111804 MRFD-210304

MRFD-210304 GBFD-110502 GBFD-110607 GBFD-113201 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-510901 GBFD-110502 GBFD-111203 GBFD-111803 GBFD-111705 GBFD-111705 GBFD-111203 GBFD-111803 GBFD-111203 GBFD-111803 GBFD-113201 GBFD-114402 GBFD-114402 GBFD-116901 GBFD-116901 GBFD-116901 GBFD-111203 GBFD-117701 GBFD-111203 GBFD-114701 MRFD-210301 MRFD-210301 GBFD-111203 GBFD-116902 GBFD-111202

GBFD-111804 GBFD-110302 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 None None MRFD-210305 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118609 MRFD-210301 GBFD-115501 GBFD-115502 GBFD-111202 GBFD-118601 GBFD-111202 MRFD-210305 MRFD-210305 None GBFD-111804 MRFD-210304 MRFD-210304 None None

None None MRFD-210502 MRFD-210502 GBFD-111203 MRFD-210305 MRFD-210301 GBFD-111004 GBFD-114101 None GBFD-118609 GBFD-118609 GBFD-111605 GBFD-111605 GBFD-114401 GBFD-114401 GBFD-114401 GBFD-110601 GBFD-510501 GBFD-111202 GBFD-118201 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-113725 GBFD-110801 GBFD-110802 GBFD-111202 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 GBFD-110101 GBFD-113701

GBFD-510002 GBFD-510002 GBFD-118603 GBFD-510002 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-119902 GBFD-119902 GBFD-119902 GBFD-111804 GBFD-111806 GBFD-113725 GBFD-114201 GBFD-114302 GBFD-114301 GBFD-114302 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-118609 GBFD-118609 GBFD-110801 GBFD-110802 GBFD-113801 GBFD-118201 GBFD-119902 GBFD-119902 GBFD-119902 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-510002 GBFD-510002 None None

None GBFD-111705 GBFD-118611 GBFD-118622 MRFD-210304 GBFD-111202 GBFD-111202 GBFD-110601 GBFD-510501 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-510501 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 MRFD-210301 MRFD-210301 None None None None GBFD-111202 GBFD-111202 GBFD-117802 GBFD-113602 GBFD-113602 GBFD-111203 GBFD-111003 MRFD-210305 GBFD-110301 GBFD-110303 GBFD-118602 GBFD-111602

GBFD-111803 GBFD-113726 GBFD-113601 GBFD-118201 GBFD-116902 GBFD-118201 GBFD-118605 GBFD-113726 MRFD-210301 GBFD-118201 GBFD-113601 GBFD-118601 GBFD-117701 GBFD-118621 GBFD-115001 GBFD-115001 GBFD-114701 GBFD-113601 GBFD-115001 GBFD-115001 GBFD-115001 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301

MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 GBFD-114701 GBFD-114701 GBFD-114701 GBFD-118201 GBFD-113726 GBFD-113726 GBFD-114701 GBFD-114101 GBFD-110802 MRFD-210301 GBFD-110303 GBFD-111003 MRFD-210301 MRFD-210301 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117702 GBFD-119305 GBFD-119305 MRFD-210502 MRFD-210401 MRFD-210401 None None

None None None None None MRFD-210602 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111801 GBFD-113726 GBFD-111801 GBFD-111202 GBFD-111611 GBFD-111202 GBFD-118601 GBFD-118601 GBFD-111202 GBFD-118601 GBFD-118605 GBFD-111202 GBFD-111202 GBFD-118401 GBFD-111202 GBFD-118201 MRFD-210602 MRFD-210305 GBFD-118601 GBFD-117702 GBFD-118601 GBFD-110802 GBFD-111202 GBFD-118401 GBFD-111202

GBFD-118601 GBFD-111605 GBFD-110703 GBFD-118103 GBFD-111202 GBFD-118401 GBFD-111202 GBFD-510701 GBFD-111202 GBFD-118609 GBFD-111207 GBFD-111202 GBFD-117802 GBFD-118602 GBFD-119001 GBFD-119001 GBFD-119001 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-110801 GBFD-110802 MRFD-210301 GBFD-114101

GBFD-114101 GBFD-111202 GBFD-111202 MRFD-210301 GBFD-110503 GBFD-111202 GBFD-113701 GBFD-111101 GBFD-510702 GBFD-111202 GBFD-118605 GBFD-118605 None GBFD-110401 GBFD-110402 GBFD-113601 GBFD-113601 GBFD-113601 GBFD-113601 GBFD-113601 GBFD-110401 GBFD-110301 GBFD-118605 GBFD-113601 GBFD-117501 GBFD-117501 MRFD-210301 MRFD-210305 GBFD-111003 GBFD-111003 GBFD-118603 GBFD-118630 GBFD-110607 GBFD-114301 GBFD-114302 GBFD-114301 GBFD-114302 MRFD-210301 MRFD-210301

MRFD-210301 MRFD-210301 GBFD-119115 GBFD-114301 GBFD-114302 GBFD-114301 GBFD-114302 GBFD-111101 GBFD-114101 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 MRFD-210301 MRFD-210301 MRFD-211402 MRFD-210301 MRFD-210301 GBFD-111202 GBFD-510901 MRFD-210301 MRFD-210301 MRFD-210602 GBFD-114402 GBFD-110601 GBFD-510501 MRFD-210301 GBFD-111804 GBFD-113001 MRFD-210301 MRFD-211402 GBFD-111202 MRFD-210301 GBFD-118701 GBFD-110801 GBFD-110802 GBFD-110801 GBFD-110802 GBFD-111003

GBFD-111202 GBFD-111202 GBFD-116201 GBFD-116201 GBFD-510803 GBFD-510804 GBFD-114325 MRFD-210304 MRFD-210304 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-110801 GBFD-110802 GBFD-110801 GBFD-110802 GBFD-111705 MRFD-210305 GBFD-111202 GBFD-118605 GBFD-510701 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210305 GBFD-111203 GBFD-111203 GBFD-510601 GBFD-111203 MRFD-210305 GBFD-114101 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-510103 GBFD-111202

GBFD-111005 None GBFD-111203 GBFD-111203 GBFD-113602 GBFD-111005 GBFD-111804 None GBFD-118605 MRFD-210206 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-118609 GBFD-118609 GBFD-111202 GBFD-111202 GBFD-118602 GBFD-118602 GBFD-118602 GBFD-118609 GBFD-111207 MRFD-210301 GBFD-111203 MRFD-210301 GBFD-111207 MRFD-210301 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111005

None GBFD-111705 GBFD-111705 GBFD-111705 MRFD-210301 MRFD-210301 MRFD-210301 GBFD-111803 GBFD-111203 GBFD-119301 GBFD-119301 GBFD-119301 GBFD-119301 GBFD-119301 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-118605 GBFD-111005 GBFD-111202 GBFD-111202 GBFD-119403 GBFD-110501 GBFD-118611 GBFD-118622 GBFD-111202 GBFD-111202 MRFD-210502 MRFD-210501 GBFD-111202 MRFD-210304 GBFD-111202

GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210301 GBFD-111202 GBFD-118609 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-113725 GBFD-117401 GBFD-119701 GBFD-117401 MRFD-210403 GBFD-113725 MRFD-210304 GBFD-111202 GBFD-111202 GBFD-111203 MRFD-210305 MRFD-210304 MRFD-210304 GBFD-110601 GBFD-510501 GBFD-113602 GBFD-111202 GBFD-118201 GBFD-111003 GBFD-117602 GBFD-110301 GBFD-110302 MRFD-210305 GBFD-111202 GBFD-110601 GBFD-510501 GBFD-111202 MRFD-211503 None None

None None MRFD-211503 MRFD-211503 None None None None MRFD-211503 GBFD-110601 GBFD-510501 MRFD-210206 MRFD-210301 GBFD-111203 MRFD-210305 MRFD-211402 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 MRFD-211503 MRFD-211503 GBFD-111207 GBFD-111602 MRFD-210301 GBFD-110402 GBFD-111202 GBFD-110301 GBFD-110303 MRFD-210305 MRFD-210305 GBFD-510301 GBFD-510302 GBFD-510301 GBFD-510302 GBFD-110402 GBFD-111203 GBFD-118602 GBFD-118622 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203

GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-111705 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111705 GBFD-111203 GBFD-118605 GBFD-111203 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-111705 None GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111705 GBFD-111705 GBFD-118201 GBFD-114101

GBFD-111202 MRFD-210602 MRFD-210602 MRFD-210602 MRFD-210602 GBFD-118605 GBFD-111202 GBFD-111202 MRFD-210301 GBFD-111804 GBFD-111202 None MRFD-210401 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-110204 GBFD-510501 GBFD-119405 GBFD-110205 GBFD-111203 MRFD-210305 GBFD-111203 GBFD-111602 GBFD-111202 GBFD-111202 GBFD-114501 GBFD-114402 GBFD-114402 GBFD-114402 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 MRFD-210304 MRFD-210304 GBFD-111202 GBFD-113101

GBFD-110501 GBFD-118602 GBFD-118622 GBFD-111203 MRFD-210305 GBFD-111202 None None None None GBFD-510701 GBFD-111202 MRFD-211402 MRFD-211402 MRFD-211402 MRFD-210301 GBFD-111203 GBFD-118609 GBFD-111202 MRFD-210602 MRFD-210602 None None GBFD-114301 GBFD-114302 GBFD-111202 GBFD-111202 GBFD-117401 GBFD-111203 MRFD-210305 MRFD-210502 GBFD-118611 GBFD-118622 None GBFD-111202 GBFD-110608 GBFD-111005 GBFD-111203 GBFD-111203 GBFD-111203 MRFD-210403

GBFD-111202 GBFD-110607 GBFD-110607 GBFD-110601 GBFD-110601 GBFD-510501 GBFD-114301 GBFD-510804 GBFD-510804 GBFD-114201 GBFD-115902 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-510002 GBFD-119501 GBFD-510802 GBFD-110601 GBFD-510501 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-114101 GBFD-117601 GBFD-117601 GBFD-115501 GBFD-115501 GBFD-115501 GBFD-115502 GBFD-115502 GBFD-115502 GBFD-115507 GBFD-115507 GBFD-110601 GBFD-510501

GBFD-110601 GBFD-510501 GBFD-511103 GBFD-110703 GBFD-115506 GBFD-115506 GBFD-115506 GBFD-115506 GBFD-117601 GBFD-117601 GBFD-511103 GBFD-110703 GBFD-110703 GBFD-110703 GBFD-110703 GBFD-110703 GBFD-110703 GBFD-110601 GBFD-115501 GBFD-510501 GBFD-510501 GBFD-115502 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-110703 GBFD-110703 GBFD-119203 GBFD-510301 GBFD-510302 GBFD-510301 GBFD-510302

GBFD-115501 GBFD-115501 GBFD-115501 GBFD-115502 GBFD-115502 GBFD-115502 GBFD-115507 GBFD-115507 GBFD-111202 GBFD-111202 GBFD-118620 GBFD-114201 GBFD-119106 GBFD-119106 GBFD-114201 GBFD-119106 GBFD-510804 GBFD-114101 GBFD-119106 GBFD-510804 GBFD-114201 GBFD-114101 GBFD-119106 GBFD-119106 GBFD-114201 GBFD-119106 GBFD-110703 GBFD-117601 GBFD-110203 GBFD-114101 GBFD-118901 GBFD-119106 GBFD-119106 GBFD-118901 GBFD-118901 GBFD-119106 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-119106 GBFD-118901 GBFD-118901 GBFD-119106 GBFD-119106 GBFD-118901 GBFD-119106 MRFD-210304 GBFD-117602 GBFD-111804 GBFD-111806 GBFD-111804 GBFD-111803 GBFD-111803 GBFD-117401 GBFD-111804 GBFD-111806

GBFD-111804 GBFD-118602 GBFD-118622 MRFD-211402 GBFD-110601 GBFD-510501 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 None MRFD-211503 MRFD-211503 MRFD-211503 MRFD-211503 MRFD-211503 GBFD-111605 GBFD-111605 GBFD-111605 GBFD-113602 GBFD-114802 GBFD-111202 None

GBFD-118611 GBFD-118622 GBFD-118602 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-118605 GBFD-114101 MRFD-210301 MRFD-210301 MRFD-210304 MRFD-210301 GBFD-114101 GBFD-114101 GBFD-116101 MRFD-210301 GBFD-111202 None GBFD-118609 GBFD-118601 None GBFD-118601 None None GBFD-110607 GBFD-510301 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-113521 GBFD-118601 GBFD-111207

GBFD-114101 GBFD-113101 GBFD-111207 GBFD-119303 GBFD-119501 GBFD-111207 GBFD-114101 GBFD-113101 GBFD-111207 GBFD-119303 GBFD-119501 GBFD-118201 GBFD-111202 GBFD-114101 GBFD-113101 GBFD-111203 GBFD-119303 GBFD-119501 GBFD-111202 GBFD-114101 GBFD-113101 GBFD-113101 GBFD-114101 GBFD-119303 GBFD-113101 GBFD-119501 GBFD-114101 GBFD-113101 GBFD-111602 GBFD-118101 GBFD-111202 GBFD-111202 GBFD-118401 GBFD-111207 None MRFD-210501 MRFD-211501 MRFD-210501 GBFD-118605 GBFD-114301 GBFD-114301 GBFD-111101 MRFD-210304 GBFD-111203 MRFD-210304 MRFD-210304 GBFD-111202 GBFD-116101 MRFD-210301 GBFD-114402 GBFD-114402 GBFD-114402

GBFD-114201 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-111202 GBFD-119201 GBFD-510803 GBFD-510804 GBFD-116201 GBFD-116201 GBFD-116101 MRFD-210301 GBFD-110202 GBFD-110521 GBFD-111804 None GBFD-118611 GBFD-118622 GBFD-115001 GBFD-510307 GBFD-115001 GBFD-118611 GBFD-118622 GBFD-118605 GBFD-111202 GBFD-116101 MRFD-210301 GBFD-111202 GBFD-510309 GBFD-111202 GBFD-113501 GBFD-113503 GBFD-111203 GBFD-111203 GBFD-116401 MRFD-210304 GBFD-111803 GBFD-111203

GBFD-111602 GBFD-111202 GBFD-111602 GBFD-111202 GBFD-111602 GBFD-111801 GBFD-111803 GBFD-111202 GBFD-111203 GBFD-111203 GBFD-113201 MRFD-211503 GBFD-113201 GBFD-113201 GBFD-113201 GBFD-113201 GBFD-118605 GBFD-118605 GBFD-113201 GBFD-113402 GBFD-118602 GBFD-118622 GBFD-118602 GBFD-113201 GBFD-115704 GBFD-111203 MRFD-210305 GBFD-110202 GBFD-118630 GBFD-118630 None None GBFD-118605 GBFD-111202 MRFD-210304 GBFD-110502

GBFD-115403 GBFD-117802 GBFD-116101 MRFD-210301 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 MRFD-210305 MRFD-210304 MRFD-210304 GBFD-113602 GBFD-111203 MRFD-210305 GBFD-111202 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210305 GBFD-116101 MRFD-210301 GBFD-116101 MRFD-210301 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304

MRFD-210304 MRFD-210304 GBFD-114101 GBFD-111203 GBFD-117602 GBFD-117602 MRFD-210301 GBFD-111202 MRFD-210301 GBFD-111202 MRFD-210301 MRFD-210301 GBFD-114001 GBFD-111202 GBFD-110801 GBFD-110802 GBFD-110801 GBFD-110802 GBFD-110801 GBFD-110802 GBFD-114001 GBFD-119203 GBFD-510301 GBFD-510302 GBFD-510307 GBFD-510307 GBFD-111202 GBFD-111005 GBFD-110601 GBFD-510501 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 GBFD-110502 GBFD-117802

GBFD-111203 None GBFD-118601 GBFD-111705 None None GBFD-118611 GBFD-118622 None None MRFD-211503 None GBFD-510701 GBFD-111202 GBFD-111705 MRFD-210103 GBFD-111202 GBFD-111705 GBFD-111202 GBFD-114301 MRFD-210301 GBFD-114301 GBFD-114301 GBFD-114301 GBFD-114301 GBFD-114301 GBFD-114301 GBFD-114301 GBFD-114301 GBFD-114301 GBFD-114301 GBFD-110801 GBFD-110802 GBFD-114301 GBFD-114301 GBFD-114301 GBFD-111705

GBFD-116801 GBFD-116801 GBFD-116801 GBFD-116801 GBFD-116801 GBFD-116801 GBFD-116801 GBFD-116801 GBFD-113701 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210401 GBFD-111203 MRFD-210305 MRFD-210301 GBFD-111203 MRFD-210304 GBFD-116201 GBFD-111203 MRFD-210305 GBFD-117601 GBFD-111202 GBFD-117301 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-117301 GBFD-113521 GBFD-117001 GBFD-118201 GBFD-117001 GBFD-119501 GBFD-119501 None None None GBFD-118611 GBFD-118622 None

GBFD-118605 MRFD-211503 GBFD-110601 GBFD-110601 GBFD-110601 GBFD-110601 GBFD-110601 GBFD-110601 GBFD-110601 GBFD-110601 GBFD-110601 GBFD-114101 GBFD-111003 GBFD-111101 GBFD-111202 MRFD-210303 GBFD-111203 MRFD-210401 GBFD-111203 MRFD-210301 MRFD-210403 GBFD-111202 GBFD-113101 GBFD-114201 GBFD-111202 GBFD-119303 GBFD-119501 GBFD-111804 GBFD-115601 GBFD-114101 GBFD-110501 GBFD-113301 GBFD-110601 GBFD-510501 GBFD-111202 GBFD-111202 None GBFD-510702 GBFD-510607 GBFD-510601 GBFD-510701 GBFD-118604 GBFD-118610 GBFD-118201

MRFD-210301 GBFD-114801 GBFD-115501 GBFD-111203 MRFD-210305 GBFD-111203 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101

GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101 GBFD-110101

GBFD-110101 GBFD-510101 GBFD-510101 MRFD-210301 GBFD-111005 GBFD-112401 MRFD-210301 GBFD-510901 GBFD-112401 GBFD-110601 GBFD-510501 GBFD-114803 GBFD-115501 GBFD-510701 GBFD-111202 GBFD-510701 GBFD-111202 GBFD-111203 MRFD-210305 GBFD-118605 GBFD-118605 None GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605 GBFD-118605

GBFD-118605 GBFD-511103 GBFD-511103 GBFD-118602 GBFD-119115 GBFD-118201 GBFD-118201 GBFD-118201 GBFD-118201 GBFD-119901 GBFD-510301 GBFD-510302 MRFD-210502 GBFD-510301 GBFD-510302 GBFD-510307 None GBFD-114101 GBFD-111101 GBFD-114101 GBFD-114101 GBFD-114101 GBFD-114201 GBFD-114101 GBFD-114101 GBFD-116201 GBFD-114101 GBFD-510401 MRFD-210501 MRFD-210502 GBFD-116001 GBFD-510309 GBFD-510309 GBFD-113725 GBFD-113725 GBFD-117301 GBFD-118605 GBFD-118605

GBFD-113602 GBFD-118605 GBFD-118605 GBFD-114401 GBFD-114302 GBFD-111202 GBFD-118601 GBFD-118601 GBFD-113401 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-118602 GBFD-111202 GBFD-510501 GBFD-510501 GBFD-111202 GBFD-111202 GBFD-110101 GBFD-115001 GBFD-115001 GBFD-115001 GBFD-111202 GBFD-111005 MRFD-210305 GBFD-119404 GBFD-113201 GBFD-118701 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-111203 GBFD-111203 GBFD-110601 GBFD-510103 GBFD-510103 GBFD-510103 GBFD-510102 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-114301 GBFD-114302 GBFD-510102 GBFD-111203 GBFD-110601 GBFD-510501 GBFD-113201 GBFD-110601 GBFD-510501 GBFD-114402 GBFD-113701 GBFD-117002 GBFD-113701 GBFD-117101 GBFD-110601 GBFD-510501 GBFD-113701 GBFD-113703 GBFD-113703 GBFD-113701 GBFD-110601 GBFD-510501 GBFD-118201 GBFD-114301 GBFD-114302 GBFD-111804 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-510102 GBFD-113725 GBFD-113725

GBFD-110601 GBFD-510501 GBFD-510102 GBFD-113703 GBFD-113703 GBFD-111202 GBFD-116001 GBFD-111202 GBFD-111601 GBFD-111202 GBFD-111601 GBFD-113401 GBFD-114801 GBFD-111101 GBFD-113401 GBFD-115502 GBFD-114803 GBFD-113201 GBFD-113401 GBFD-115502 GBFD-113701 GBFD-111202 GBFD-117001 GBFD-111202 GBFD-118609 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-111202 GBFD-111804 GBFD-111207 GBFD-111202 GBFD-111202 GBFD-111804 GBFD-117002

GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002

GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-111604 GBFD-111202 GBFD-118605 GBFD-118603 GBFD-118603 GBFD-118603 GBFD-111203 GBFD-111203 GBFD-111202 GBFD-118602 None GBFD-113001 GBFD-111202 None MRFD-210301 MRFD-210301 MRFD-211402 MRFD-210301 GBFD-111202 GBFD-111202 GBFD-114701 MRFD-210301 GBFD-111203 GBFD-113601 GBFD-111202 GBFD-111202

GBFD-111202 GBFD-111202 GBFD-510102 GBFD-111203 GBFD-111804 GBFD-110502 GBFD-119202 GBFD-110502 GBFD-110502 GBFD-110502 GBFD-110502 GBFD-113201 GBFD-113201 GBFD-118201 GBFD-110502 GBFD-111203 GBFD-114101 GBFD-110601 GBFD-510501 GBFD-118201 GBFD-118201 GBFD-115402 GBFD-111202 GBFD-111202 GBFD-115504 GBFD-115504 MRFD-211402 MRFD-210304 GBFD-115504 GBFD-115504 GBFD-111005 GBFD-115501 GBFD-115502 GBFD-115507 GBFD-114701

GBFD-114402 GBFD-114402 MRFD-210301 MRFD-210301 GBFD-114402 GBFD-114402 GBFD-114402 GBFD-114402 GBFD-114701 GBFD-111202 GBFD-111203 GBFD-115402 GBFD-110608 GBFD-114701 GBFD-111202 GBFD-114701 GBFD-111202 GBFD-113602 GBFD-110601 GBFD-510501 GBFD-112401 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-111005 GBFD-111001 GBFD-111005 GBFD-111001 GBFD-111005 GBFD-111001 GBFD-111005 GBFD-111001 GBFD-111005 GBFD-111001 GBFD-111005 GBFD-111001 GBFD-111005 GBFD-118201 GBFD-111005

GBFD-511104 GBFD-511103 GBFD-114301 GBFD-114302 MRFD-211404 GBFD-511103 GBFD-511103 GBFD-511103 GBFD-511103 GBFD-511103 GBFD-511103 GBFD-114301 GBFD-114302 GBFD-511103 GBFD-111203 MRFD-210305 None GBFD-110801 GBFD-110802 GBFD-114402 GBFD-110601 GBFD-110601 GBFD-510501 GBFD-115504 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 MRFD-211402 GBFD-511103 GBFD-511103 GBFD-511103 GBFD-114701 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-117501 MRFD-210301 GBFD-111203 MRFD-210403 GBFD-118603 GBFD-118603

GBFD-118601 GBFD-111202 GBFD-118611 GBFD-118605 GBFD-118622 MRFD-211502 MRFD-211502 None None None GBFD-118603 GBFD-118603 GBFD-118606 GBFD-118603 GBFD-118606 GBFD-118603 GBFD-118603 GBFD-118630 GBFD-118630 GBFD-118611 GBFD-118622 MRFD-210103 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 None GBFD-118601 GBFD-118601 GBFD-111202 GBFD-118201 GBFD-510103 GBFD-118606 GBFD-118606 GBFD-117801 GBFD-111202 GBFD-114201 GBFD-118605 GBFD-114101

MRFD-210301 GBFD-113726 GBFD-510104 GBFD-116201 GBFD-118603 None GBFD-118201 GBFD-111202 GBFD-117803 GBFD-117702 GBFD-113726 MRFD-210301 MRFD-210301 GBFD-111202 GBFD-111202 GBFD-117804 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 GBFD-118605 GBFD-118605 GBFD-113101 GBFD-113201 GBFD-113201 GBFD-119303 GBFD-119501 GBFD-113201 GBFD-113201 GBFD-113201 GBFD-114402 GBFD-118630 GBFD-118604 GBFD-118610 None None None None None None

None None None None None None None None GBFD-118401 GBFD-111612 GBFD-118601 None GBFD-110601 GBFD-510501 None MRFD-210301 GBFD-510702 GBFD-111701 GBFD-115402 GBFD-115402 GBFD-115402 GBFD-115402 GBFD-115402 GBFD-115402 MRFD-210502 MRFD-210502 MRFD-210103 None GBFD-118605 GBFD-118605 GBFD-118605 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 None

None GBFD-118601 GBFD-117301 GBFD-118601 GBFD-117301 GBFD-118601 GBFD-117301 GBFD-118602 GBFD-118622 GBFD-111203 MRFD-210305 GBFD-111203 None GBFD-118605 GBFD-110801 GBFD-110802 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 MRFD-210301 MRFD-210301 GBFD-118611 GBFD-118622 MRFD-210301 GBFD-111203 GBFD-111202 MRFD-210304 MRFD-210304 GBFD-111203 None GBFD-111804 MRFD-210304 MRFD-210301 GBFD-118611 GBFD-118622 GBFD-111202 GBFD-111202 None GBFD-114701 GBFD-118602 GBFD-118622 GBFD-111804

GBFD-118602 GBFD-110601 GBFD-510501 GBFD-117401 GBFD-116201 GBFD-111202 GBFD-110601 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-110601 GBFD-510501 GBFD-111202 GBFD-116201 GBFD-116201 GBFD-116201 GBFD-114301 GBFD-114322 GBFD-116201 GBFD-111005 GBFD-110601 None GBFD-113725 None GBFD-111202 GBFD-118611 GBFD-118611 GBFD-118603 GBFD-118603 GBFD-510104 GBFD-510104 MRFD-210304

GBFD-118602 GBFD-118622 GBFD-118602 GBFD-118622 GBFD-111203 MRFD-210305 GBFD-118602 GBFD-118622 MRFD-210301 GBFD-111202 GBFD-111705 GBFD-111705 None None None GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111203 GBFD-111202 GBFD-115402 GBFD-115402 GBFD-115402 GBFD-115402 GBFD-115402 GBFD-115402 MRFD-210502 MRFD-210502 MRFD-210301 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-111203 GBFD-117002 GBFD-111203 GBFD-111203 None None GBFD-111203

None GBFD-117301 GBFD-117301 GBFD-111202 GBFD-113201 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-118605 None None GBFD-118605 None GBFD-114201 GBFD-111202 GBFD-111202 GBFD-118601 GBFD-117301 GBFD-111203 MRFD-210305 MRFD-210301 MRFD-210301 MRFD-210401 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210305 GBFD-111202 GBFD-111202 GBFD-115506 GBFD-115506 GBFD-115506 GBFD-115506 GBFD-119301 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111601 GBFD-118602

MRFD-210301 GBFD-118630 GBFD-118630 GBFD-113701 None GBFD-111609 GBFD-111609 GBFD-111609 GBFD-111609 GBFD-111609 GBFD-118630 GBFD-118601 GBFD-510104 MRFD-210206 GBFD-111202 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 GBFD-117002 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 GBFD-111202

GBFD-118630 MRFD-210301 None GBFD-118611 GBFD-118622 GBFD-118630 None None GBFD-113601 GBFD-118601 GBFD-118611 GBFD-118611 GBFD-118606 GBFD-118606 GBFD-110703 GBFD-118602 GBFD-118609 MRFD-210103 GBFD-110601 GBFD-510501 GBFD-114101 GBFD-114101 GBFD-111605 GBFD-510701 GBFD-510601 GBFD-510702 GBFD-118605 GBFD-111202 GBFD-118604 GBFD-118610 GBFD-118611 GBFD-118622 MRFD-210305 MRFD-210304 GBFD-111202 GBFD-114101 GBFD-113101 GBFD-118602 GBFD-119303 GBFD-119501 GBFD-114101 GBFD-114101 GBFD-113101 GBFD-113101 GBFD-119303 GBFD-119501 GBFD-114101 MRFD-210305

GBFD-111202 GBFD-111202 GBFD-110601 GBFD-510501 GBFD-119110 GBFD-119110 GBFD-119110 GBFD-119110 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-110703 GBFD-110703 GBFD-110703 GBFD-110901 GBFD-114001 GBFD-111004 GBFD-111004 GBFD-111004 MRFD-210502 GBFD-117301 None GBFD-110703 MRFD-210305 None GBFD-118609 GBFD-114401 GBFD-111101 GBFD-117501 GBFD-117501 GBFD-118201 GBFD-118201 MRFD-210301 GBFD-510702 None GBFD-118611 MRFD-210301 GBFD-111202

GBFD-111202 GBFD-111005 GBFD-111202 None GBFD-118630 MRFD-210301 GBFD-118630 GBFD-118630 MRFD-210301 GBFD-119102 GBFD-117501 GBFD-511103 GBFD-110801 GBFD-110802 GBFD-118630 GBFD-118630 MRFD-210301 GBFD-118630 GBFD-118630 GBFD-118611 GBFD-116201 GBFD-118611 GBFD-118622 GBFD-114301 GBFD-110601 GBFD-510501 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 GBFD-110607 GBFD-113001 GBFD-114301 GBFD-114302 None GBFD-118609

GBFD-118609 GBFD-118609 GBFD-118609 None None MRFD-210301 GBFD-510702 GBFD-111705 MRFD-210502 GBFD-118602 GBFD-118622 MRFD-210301 MRFD-210301 None None GBFD-111701 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 GBFD-111202 GBFD-111211 GBFD-111202 GBFD-111211 GBFD-111202 GBFD-510102 GBFD-118611 GBFD-118611 GBFD-118611 GBFD-118622 None GBFD-118611 GBFD-111301 GBFD-111202 GBFD-118611 GBFD-118611 GBFD-118622

MRFD-210301 MRFD-210301 GBFD-110703 GBFD-110601 GBFD-510501 GBFD-117601 GBFD-110802 GBFD-111202 GBFD-111202 GBFD-111203 GBFD-111203 GBFD-118601 GBFD-118201 GBFD-110501 GBFD-117401 GBFD-117401 GBFD-117401 GBFD-117401 GBFD-117401 GBFD-111804 GBFD-110503 GBFD-111203 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701

GBFD-117701 GBFD-117701 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117701 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-117702 GBFD-111003 GBFD-110301 GBFD-510102 GBFD-110303 GBFD-110502

GBFD-111701 GBFD-510801 GBFD-510801 GBFD-111202 GBFD-110601 GBFD-510501 GBFD-116201 GBFD-119001 GBFD-113725 GBFD-114101 None GBFD-111705 None GBFD-111804 None GBFD-118602 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-111202 GBFD-114101 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-118611 GBFD-118622 None GBFD-118604 GBFD-118610 GBFD-111202 GBFD-118604 GBFD-118610 GBFD-117801 GBFD-111002 GBFD-111002 GBFD-111002 GBFD-111002

GBFD-111002 GBFD-111002 GBFD-111002 GBFD-114101 GBFD-114101 GBFD-114101 GBFD-119205 GBFD-510002 GBFD-510002 GBFD-510002 GBFD-116301 GBFD-119502 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-118605 GBFD-118602 GBFD-118602 GBFD-118602 GBFD-118602 GBFD-118602 GBFD-114101 GBFD-115501 GBFD-111005 GBFD-115502 GBFD-115701 GBFD-119115 GBFD-113301 GBFD-113726 MRFD-210301 GBFD-117002 MRFD-210301 GBFD-117002 MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 GBFD-510704 GBFD-510601

MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 GBFD-116201 GBFD-116301 GBFD-116201 GBFD-116201 GBFD-119502 MRFD-210301 GBFD-110401 MRFD-210301 GBFD-110402 GBFD-111101 GBFD-110801 GBFD-110802 GBFD-510102 GBFD-110601 GBFD-510501 GBFD-510901 GBFD-510901 GBFD-510901 GBFD-510901 GBFD-510901 GBFD-510901 GBFD-510901 GBFD-510901 GBFD-510301 GBFD-510302 GBFD-119107 GBFD-510301 GBFD-114302 GBFD-510302 GBFD-119502 GBFD-111101 GBFD-111804 MRFD-210301 GBFD-110601 GBFD-510501 None None None GBFD-118611 GBFD-111804 MRFD-210401 GBFD-119108 GBFD-114151

GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-510501 GBFD-116902 GBFD-510501 GBFD-118605 GBFD-113726 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-111202 GBFD-117601

GBFD-119107 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 GBFD-116201 GBFD-111202 GBFD-111705 GBFD-111004 GBFD-510309 None GBFD-117501 GBFD-117501 GBFD-117401 GBFD-119701 GBFD-119701 GBFD-111101 GBFD-119001 GBFD-119001 GBFD-110601 GBFD-510501 GBFD-115402 GBFD-118201 GBFD-510002 GBFD-510002 GBFD-111202 GBFD-111202 GBFD-510301 GBFD-118611 GBFD-118611 GBFD-118622 GBFD-118622 GBFD-118611 GBFD-111202 GBFD-118622 GBFD-111202 GBFD-118605 GBFD-111202 GBFD-111202 MRFD-210103 GBFD-111202 GBFD-111202 MRFD-210103 MRFD-210602 GBFD-111207 GBFD-111203 None

MRFD-210304 MRFD-210304 MRFD-210301 GBFD-119901 GBFD-113201 GBFD-113728 GBFD-111202 GBFD-116601 GBFD-111202 GBFD-111202 GBFD-111202 None GBFD-118605 GBFD-111202 GBFD-118601 GBFD-111202 GBFD-111202 GBFD-111203 MRFD-210305 MRFD-210301 GBFD-118701 GBFD-111202 GBFD-111803 GBFD-118701 GBFD-118701 GBFD-118701 MRFD-210401 GBFD-111803 GBFD-111801 GBFD-111803 GBFD-111203 GBFD-118701 GBFD-113201 GBFD-113201 GBFD-113201 GBFD-111005

GBFD-111202 GBFD-111202 GBFD-111202 MRFD-211402 MRFD-211501 MRFD-210401 GBFD-110101 GBFD-114201 GBFD-113201 GBFD-114402 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-114402 GBFD-111005 GBFD-114402 GBFD-114402 GBFD-114402 GBFD-114402 GBFD-114402 GBFD-114402 GBFD-114701 GBFD-114701 GBFD-111203 GBFD-111203 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-510104 GBFD-510104 GBFD-510104 GBFD-114402 GBFD-111202

GBFD-114701 GBFD-111203 GBFD-114701 GBFD-511103 GBFD-114321 GBFD-114321 MRFD-211402 GBFD-114701 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 GBFD-111003 GBFD-111202 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111612 GBFD-119202 GBFD-111705 GBFD-110303 GBFD-111705 GBFD-110303 GBFD-114101 GBFD-114101 GBFD-114101 GBFD-111602 GBFD-111202 GBFD-111202

GBFD-118601 GBFD-118602 GBFD-118605 GBFD-118605 GBFD-118611 GBFD-118622 None GBFD-118601 GBFD-117602 GBFD-118602 GBFD-118605 GBFD-510501 GBFD-118611 GBFD-118622 MRFD-210401 GBFD-119115 GBFD-110601 GBFD-110601 GBFD-110601 GBFD-110601 GBFD-114101 GBFD-110703 GBFD-119115 GBFD-111203 GBFD-114101 GBFD-113101 GBFD-111203 GBFD-119303 GBFD-119501 GBFD-114101 GBFD-114101 GBFD-111202 GBFD-113101 GBFD-117301 GBFD-114101 GBFD-119303 GBFD-113101 GBFD-119501 GBFD-119303 GBFD-119501 GBFD-113101 GBFD-111606 GBFD-114101 GBFD-119303 GBFD-113101 GBFD-119501 GBFD-119303 GBFD-119501 GBFD-118602 GBFD-118622 GBFD-113725 GBFD-118601 GBFD-118601 GBFD-113725 GBFD-118601 GBFD-113725 GBFD-118601 GBFD-113725 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-118609 GBFD-118611

GBFD-118611 GBFD-118602 GBFD-118622 GBFD-118602 GBFD-118601 GBFD-118622 GBFD-118602 GBFD-118605 GBFD-118605 GBFD-118611 GBFD-118622 GBFD-118602 GBFD-118622 GBFD-111202 GBFD-110601 GBFD-510501 GBFD-116201 GBFD-116201 GBFD-110601 GBFD-510501 GBFD-118605 GBFD-510901 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-119901 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-118605 GBFD-118604 GBFD-118610 GBFD-110402 GBFD-111101 MRFD-210305 GBFD-118630 GBFD-118630 None GBFD-118604 GBFD-119801 None GBFD-118630 GBFD-119110 GBFD-114201

GBFD-119110 GBFD-119110 GBFD-114201 GBFD-119110 GBFD-114201 GBFD-118605 GBFD-118605 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111705 GBFD-111705 GBFD-110303 GBFD-110303 GBFD-110303 GBFD-111705 GBFD-111705 GBFD-111705 MRFD-210301 MRFD-210304 MRFD-210301 GBFD-111801 GBFD-111803 None GBFD-111203 MRFD-210304 None None None None None GBFD-111701 None None

None None GBFD-118609 None None GBFD-510002 GBFD-111203 GBFD-111202 MRFD-210304 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-119905 GBFD-119905 GBFD-119905 GBFD-119905 GBFD-111202 GBFD-111202 MRFD-210301 MRFD-210301 GBFD-111203 GBFD-117801 GBFD-113728 GBFD-111203 GBFD-111203 None MRFD-210301 GBFD-118630 MRFD-211501 GBFD-114323 GBFD-111202

GBFD-111202 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-111202 GBFD-510804 GBFD-510804 GBFD-111202 GBFD-111202 MRFD-210301 MRFD-210301 GBFD-118611 GBFD-118611 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 None GBFD-118611 GBFD-118611 GBFD-118622 None GBFD-115001 GBFD-115001 GBFD-110202 GBFD-110521 GBFD-110802 GBFD-118601 GBFD-111101 GBFD-114101 GBFD-111705 GBFD-110802 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705

GBFD-111705 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-117301 GBFD-111804 GBFD-114101 GBFD-118602 GBFD-111804 GBFD-118622 GBFD-118602 GBFD-118622 None GBFD-118601 GBFD-118601 GBFD-118601 MRFD-210305 GBFD-118601 GBFD-111804 GBFD-510002 GBFD-111202 GBFD-111610 GBFD-111602 None None None None None None None None GBFD-118605 GBFD-118605 GBFD-119502 None None GBFD-111705 GBFD-111101 GBFD-119102 GBFD-119102

GBFD-118605 GBFD-118605 GBFD-111705 GBFD-113201 None GBFD-111003 GBFD-510104 None GBFD-111705 GBFD-111705 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-113201 GBFD-111608 None MRFD-210304 GBFD-111203 GBFD-110402 GBFD-119001 MRFD-210304 None None None None GBFD-118401 None GBFD-111202

MRFD-210305 GBFD-111202 GBFD-111202 GBFD-510002 MRFD-210305 GBFD-111203 MRFD-210305 GBFD-111202 MRFD-210305 GBFD-111202 MRFD-210304 MRFD-210304 GBFD-117602 GBFD-117601 GBFD-110703 GBFD-111003 GBFD-111003 GBFD-510104 GBFD-111202 GBFD-111605 GBFD-111005 MRFD-210301 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-111202 None None None None None GBFD-114301 GBFD-114302 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-114301 GBFD-114302 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-119902 GBFD-114301 GBFD-114302 GBFD-114301 GBFD-114302 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-111005 GBFD-111202 GBFD-111202 GBFD-110703 GBFD-110601 GBFD-510501 GBFD-510102 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 MRFD-210301 MRFD-210301 GBFD-114101 GBFD-510701

GBFD-510701 GBFD-510702 GBFD-111003 GBFD-111003 GBFD-111003 GBFD-510104 GBFD-111101 GBFD-114101 GBFD-114101 GBFD-111003 GBFD-114101 GBFD-118601 GBFD-115506 GBFD-115507 GBFD-115506 GBFD-115701 GBFD-110801 MRFD-210301 GBFD-111203 GBFD-111202 GBFD-111202 GBFD-111202 MRFD-210301 GBFD-118605 GBFD-112501 GBFD-112501 GBFD-113201 GBFD-115501 GBFD-113201 GBFD-115502 GBFD-113201 GBFD-113201 GBFD-113201 GBFD-111705 GBFD-118605 GBFD-113201 GBFD-113201 MRFD-210301 GBFD-111705

GBFD-111705 MRFD-210502 MRFD-210502 MRFD-210502 MRFD-210502 MRFD-210502 MRFD-210502 MRFD-210502 GBFD-117702 GBFD-113725 GBFD-113725 GBFD-113725 GBFD-118201 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-118605 None GBFD-118603 GBFD-113602 GBFD-113721 GBFD-113721 GBFD-113721 MRFD-210304 GBFD-111203 GBFD-116201 GBFD-116201 GBFD-116201 GBFD-116201 GBFD-113101 GBFD-111602

GBFD-111202 GBFD-111202 MRFD-210305 GBFD-114101 GBFD-111612 GBFD-114101 GBFD-119001 GBFD-111804 GBFD-111203 MRFD-210403 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 MRFD-210304 MRFD-211402 GBFD-116001 MRFD-210301 GBFD-111004 GBFD-111101 GBFD-111203 GBFD-119301 GBFD-510401 GBFD-116301 None GBFD-111004 GBFD-116902 MRFD-210301 MRFD-211402 MRFD-211402 MRFD-211402 MRFD-210305 GBFD-118603 GBFD-118603 GBFD-116801 GBFD-119107 GBFD-119107 GBFD-114302 GBFD-118605

GBFD-116801 GBFD-117501 GBFD-117501 GBFD-118605 None GBFD-118605 GBFD-110601 GBFD-510501 GBFD-114301 GBFD-114302 GBFD-114301 GBFD-114302 None None GBFD-114101 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-118601 MRFD-210301 GBFD-510901 MRFD-210401 GBFD-111203 GBFD-111804 GBFD-118611 GBFD-110202 None None None None None None None None None

None GBFD-111602 GBFD-111701 GBFD-118602 GBFD-118622 GBFD-118602 GBFD-118602 None None GBFD-118601 GBFD-510805 GBFD-118602 GBFD-119901 GBFD-119902 GBFD-118602 GBFD-119905 GBFD-118602 GBFD-119906 GBFD-111003 GBFD-118602 GBFD-510805 GBFD-119901 GBFD-118602 GBFD-119902 GBFD-119905 GBFD-115506 GBFD-119906 GBFD-111003 GBFD-118601 GBFD-118605 GBFD-118605 GBFD-111202 GBFD-118605 GBFD-118605 GBFD-115501 GBFD-114101 GBFD-510501 GBFD-110601 GBFD-111101 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 None None GBFD-112301 MRFD-210304 GBFD-111202 GBFD-510301 GBFD-118103 GBFD-118103 GBFD-118103 MRFD-210304 GBFD-111610 GBFD-111610 GBFD-111610 GBFD-111610 GBFD-111610 GBFD-111004 MRFD-210304 GBFD-112301 MRFD-210304 GBFD-112301 MRFD-210304

GBFD-111202 GBFD-111202 GBFD-118201 GBFD-118201 GBFD-117501 GBFD-118603 GBFD-510102 MRFD-210301 GBFD-111202 GBFD-113602 GBFD-111202 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-114301 GBFD-114302 MRFD-210304 GBFD-118602 GBFD-118622 GBFD-111203 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-111701 GBFD-111202 GBFD-116101 MRFD-210301 MRFD-210301 GBFD-110502 GBFD-110502 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-113001 GBFD-111701 GBFD-113503

GBFD-111605 GBFD-110601 GBFD-510501 GBFD-117601 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-118603 GBFD-111701 GBFD-111202 GBFD-111601 MRFD-210304 MRFD-210304 GBFD-111202 GBFD-117501 GBFD-111202 GBFD-111101 GBFD-116401 GBFD-110601 GBFD-510501 GBFD-111804 GBFD-110203 GBFD-510307 GBFD-510307 GBFD-111612 GBFD-111101 GBFD-111101 GBFD-111101 GBFD-111202 GBFD-111202 GBFD-111203 GBFD-111203 MRFD-210602 GBFD-111203 GBFD-118602 GBFD-113726 GBFD-118601 GBFD-510601 GBFD-111203 MRFD-210305

GBFD-118601 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-119701 MRFD-210301 GBFD-119701 GBFD-119701 GBFD-119701 GBFD-114101 GBFD-119701 GBFD-111705 GBFD-111203 GBFD-118701 MRFD-210304 GBFD-111605 GBFD-111101 GBFD-110601 GBFD-510501 GBFD-118201 GBFD-111804 GBFD-111804 GBFD-118602 GBFD-118603 GBFD-118603 GBFD-118605 GBFD-118201 GBFD-110601 GBFD-510501 GBFD-111804 GBFD-115301 GBFD-110601 GBFD-510501 GBFD-119303 GBFD-111203 GBFD-111203

GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 None None GBFD-111203 GBFD-118201 GBFD-118606 GBFD-510104 GBFD-111207 GBFD-111804 GBFD-113725 GBFD-116101 MRFD-210301 None None MRFD-210304 GBFD-116101 MRFD-210301 WRFD-040100 MRFD-210301

MRFD-210301 None GBFD-118602 None None GBFD-111203 MRFD-210304 MRFD-210304 None None MRFD-210301 MRFD-211402 GBFD-111202 GBFD-118609 MRFD-210301 GBFD-111203 GBFD-111202 GBFD-111202 GBFD-111202 MRFD-210301 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111203 GBFD-111802 GBFD-111804 GBFD-111802 GBFD-111804 GBFD-111802 GBFD-111804 GBFD-111203 GBFD-111003 GBFD-111804 GBFD-110301 GBFD-110302 MRFD-210304 MRFD-210304

GBFD-119301 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-510309 GBFD-510309 GBFD-510309 None GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-111101 GBFD-114802 GBFD-113601 MRFD-211402 MRFD-211402 GBFD-119502 GBFD-119502 GBFD-116301 GBFD-510301 GBFD-114101 GBFD-114101 GBFD-114101 GBFD-114101 GBFD-118701 GBFD-510805 GBFD-118701 GBFD-111203 GBFD-111804 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-110601 GBFD-510501 MRFD-210301 MRFD-210301

MRFD-210301 MRFD-210301 GBFD-111203 MRFD-210502 MRFD-210502 GBFD-110601 GBFD-510501 GBFD-118609 MRFD-210301 MRFD-210301 None MRFD-210301 None MRFD-210502 None MRFD-210301 MRFD-210301 None None GBFD-118602 None None MRFD-210304 None MRFD-210301 MRFD-211402 GBFD-111202 GBFD-118609 MRFD-210301 GBFD-111203 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111203 GBFD-111203

MRFD-210301 GBFD-111202 MRFD-210502 MRFD-210304 GBFD-118603 GBFD-118603 GBFD-111202 GBFD-117804 GBFD-118605 GBFD-110601 GBFD-510501 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 MRFD-210301 MRFD-211402 MRFD-210304 GBFD-110601 GBFD-510501 GBFD-116101 MRFD-210301 GBFD-111203 GBFD-111203 GBFD-111203 MRFD-210305 MRFD-210304 MRFD-210304 GBFD-113602 MRFD-210304 GBFD-113701 GBFD-111705 GBFD-111803 GBFD-111203 GBFD-111602 GBFD-111202 GBFD-111602

GBFD-111705 GBFD-111705 GBFD-111202 GBFD-510309 GBFD-111602 GBFD-111801 GBFD-111803 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111803 GBFD-111202 GBFD-111203 MRFD-210305 GBFD-510901 GBFD-111804 GBFD-111202 GBFD-115821 GBFD-113521 GBFD-510309 GBFD-111804 GBFD-114701 GBFD-112401 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111203 MRFD-210305 GBFD-111202 GBFD-111202 GBFD-113726 GBFD-113726 GBFD-111202 GBFD-118604 GBFD-118610 GBFD-118604 GBFD-111203

None GBFD-117301 GBFD-117301 GBFD-111203 GBFD-111202 GBFD-111803 MRFD-210502 MRFD-210502 GBFD-113101 GBFD-119402 GBFD-113602 GBFD-119303 GBFD-119501 GBFD-113101 GBFD-119401 GBFD-114151 GBFD-119303 GBFD-119501 GBFD-114151 GBFD-117702 GBFD-115701 MRFD-211404 GBFD-119110 GBFD-118603 GBFD-118603 MRFD-210304 GBFD-111203 GBFD-111203 GBFD-111202 GBFD-111202 GBFD-116101 MRFD-210301 MRFD-210301 None MRFD-210403 GBFD-118609 GBFD-115501 GBFD-111202 GBFD-115502 GBFD-115701 GBFD-118602 GBFD-118602 GBFD-111203

GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111203 GBFD-111202 GBFD-111203 MRFD-210305 GBFD-116101 MRFD-210301 GBFD-118201 GBFD-114302 GBFD-117002 GBFD-118201 GBFD-118606 GBFD-118606 GBFD-118606 GBFD-118606 MRFD-210301 MRFD-210301 GBFD-110601 GBFD-510501 MRFD-210301 GBFD-510301 MRFD-210301 MRFD-210301 GBFD-119001 GBFD-118601 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-111804

GBFD-119001 GBFD-118601 GBFD-117801 GBFD-111002 GBFD-111002 GBFD-111002 GBFD-111002 GBFD-111002 GBFD-111002 GBFD-111002 GBFD-117802 GBFD-111804 GBFD-111804 GBFD-111804 GBFD-119001 GBFD-118601 GBFD-110601 GBFD-510501 GBFD-510302 GBFD-114101 GBFD-114101 GBFD-110301 GBFD-510002 GBFD-111804 GBFD-119001 GBFD-111804 GBFD-119001 GBFD-111804 GBFD-119001 GBFD-119001 GBFD-111804 GBFD-110601 GBFD-510501 GBFD-113201 GBFD-110601 GBFD-510501 GBFD-113201

GBFD-510501 GBFD-110601 GBFD-510501 GBFD-510306 GBFD-110601 GBFD-510501 GBFD-118201 GBFD-510501 GBFD-113201 GBFD-119115 GBFD-119115 GBFD-111203 GBFD-111202 GBFD-113728 GBFD-117801 GBFD-111804 GBFD-119001 GBFD-111202 GBFD-111203 GBFD-113726 GBFD-113402 GBFD-111005 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-111004 GBFD-110601 GBFD-510501 GBFD-117601 GBFD-111005 GBFD-113521 GBFD-113521 GBFD-113201 GBFD-113201 GBFD-111804 GBFD-111804

GBFD-111203 GBFD-111202 None GBFD-113726 None None MRFD-210301 GBFD-114302 MRFD-210301 GBFD-114302 GBFD-114302 GBFD-114302 GBFD-114302 GBFD-114302 GBFD-114302 GBFD-114302 GBFD-114302 GBFD-114302 MRFD-210301 GBFD-114302 GBFD-114302 GBFD-118605 GBFD-118605 GBFD-111203 GBFD-111203 GBFD-111203 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-111202

MRFD-210301 MRFD-210301 MRFD-210301 MRFD-210301 GBFD-111202 GBFD-111601 GBFD-111202 GBFD-111202 GBFD-111101 GBFD-119001 GBFD-113602 GBFD-115701 GBFD-111207 MRFD-210301 GBFD-111203 None None None None None GBFD-114101 GBFD-111202 GBFD-111202 GBFD-119902 GBFD-119902 GBFD-119902 GBFD-119902 GBFD-119902 GBFD-119902 GBFD-119902 GBFD-119902 GBFD-119902 GBFD-118605 GBFD-119701 GBFD-118001

GBFD-118001 GBFD-118001 GBFD-118001 GBFD-118001 GBFD-118001 GBFD-118001 GBFD-117002 GBFD-117401 GBFD-111203 MRFD-210305 GBFD-111203 GBFD-112401 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-113201 GBFD-118630 GBFD-118630 GBFD-118630 GBFD-118630 GBFD-118604 GBFD-110601 GBFD-510501 None GBFD-111606 GBFD-110601 GBFD-510501 GBFD-113201 GBFD-111005 GBFD-117401 GBFD-111203 MRFD-210305 GBFD-114101 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111203 GBFD-111203 GBFD-111203

GBFD-111203 GBFD-111203 GBFD-111203 GBFD-118605 None None GBFD-111207 GBFD-110501 MRFD-210304 GBFD-111203 MRFD-210304 GBFD-111804 GBFD-111804 MRFD-210301 GBFD-113903 GBFD-111203 GBFD-116101 MRFD-210301 GBFD-110402 MRFD-211501 MRFD-211501 MRFD-211501 GBFD-111203 GBFD-111202 GBFD-110601 GBFD-510501 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-111705 GBFD-119501 GBFD-119501 GBFD-118602 GBFD-113901 GBFD-111203

GBFD-118605 GBFD-118605 GBFD-118605 GBFD-111202 GBFD-118601 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-114101 GBFD-110601 GBFD-510501 MRFD-210103 MRFD-210103 MRFD-210103 GBFD-111202 GBFD-118605 None None GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-118605 None GBFD-111202 None GBFD-118609 GBFD-118630 GBFD-113801 GBFD-111207 GBFD-113701 MRFD-210301 GBFD-510104 GBFD-113703 GBFD-113703

GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113703 GBFD-113701 GBFD-111207 GBFD-113701 MRFD-210301 GBFD-111202 GBFD-111202 GBFD-510104 GBFD-111005 GBFD-111202 GBFD-111801 GBFD-111803 None

GBFD-510002 GBFD-111203 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-113701 GBFD-114101 GBFD-117301 GBFD-118201 None GBFD-111207 GBFD-114701 GBFD-111203 MRFD-210301 MRFD-211501 GBFD-111202 GBFD-111203 GBFD-111005 GBFD-111005 GBFD-119501 GBFD-119501 GBFD-114701 GBFD-111202 GBFD-111207 GBFD-111202 GBFD-111207 GBFD-111202 GBFD-111603 GBFD-111202 None None GBFD-111610 GBFD-111610 GBFD-111610 GBFD-111610

GBFD-111610 GBFD-111202 GBFD-111202 GBFD-118201 GBFD-118201 GBFD-118201 GBFD-118201 GBFD-118201 GBFD-118201 GBFD-118201 GBFD-111003 GBFD-110301 GBFD-118701 GBFD-118701 GBFD-118701 GBFD-118701 GBFD-118701 GBFD-118701 GBFD-118701 GBFD-118701 GBFD-118605 GBFD-118605 None GBFD-119110 MRFD-210301 GBFD-111203 GBFD-110101 GBFD-114101 GBFD-510701 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202

GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118602 GBFD-111005 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118601 GBFD-118602 GBFD-118604 GBFD-118610

GBFD-118604 GBFD-118610 GBFD-118603 GBFD-118603 GBFD-111203 MRFD-210305 GBFD-111202 GBFD-510301 GBFD-510302 None MRFD-210304 MRFD-210304 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-510501 GBFD-510501 GBFD-119501 GBFD-111203 GBFD-119105 GBFD-110601 GBFD-510501 GBFD-119105 GBFD-119105 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-115501 GBFD-115501 GBFD-115501 GBFD-115502 GBFD-115502 GBFD-115502 GBFD-115507

GBFD-115507 GBFD-511103 GBFD-110703 GBFD-117601 GBFD-117601 GBFD-511103 GBFD-110703 GBFD-110703 GBFD-110703 GBFD-110703 GBFD-110703 GBFD-110703 GBFD-110601 GBFD-115501 GBFD-510501 GBFD-510501 GBFD-115502 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-117601 GBFD-110703 GBFD-110703 GBFD-115501 GBFD-115507 GBFD-115501 GBFD-115507 GBFD-115501 GBFD-115507 GBFD-115502 GBFD-115502 GBFD-115502 GBFD-115507

GBFD-115507 GBFD-113201 GBFD-119105 GBFD-111203 GBFD-110601 GBFD-510501 MRFD-210301 None GBFD-510002 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-114101 GBFD-114101 GBFD-113101 GBFD-119106 GBFD-113602 GBFD-119303 GBFD-114201 GBFD-114101 GBFD-119501 GBFD-119106 GBFD-119106 GBFD-114101 GBFD-114201 GBFD-113101 GBFD-119106 GBFD-119303 GBFD-119501 GBFD-510803 GBFD-510803 GBFD-114101 GBFD-119106 GBFD-119203 GBFD-114201 GBFD-114101 GBFD-119106 GBFD-119106 GBFD-114201 GBFD-119106 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-510309 GBFD-118601 GBFD-110703 GBFD-117601

GBFD-118605 None GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110203 GBFD-119203 GBFD-118901 GBFD-119106 GBFD-119106 GBFD-118901 GBFD-118901 GBFD-119106 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-119106 GBFD-118901 GBFD-118901 GBFD-119106 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-116201 GBFD-111203 GBFD-114101 GBFD-111203 MRFD-210403 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-113201 GBFD-113201 GBFD-113201 GBFD-113201 GBFD-113201 GBFD-113201 GBFD-114301 GBFD-114302 GBFD-111202 GBFD-510301 GBFD-510302 GBFD-510301 GBFD-510302 GBFD-510301 GBFD-510302 GBFD-111705 GBFD-111705

GBFD-111705 GBFD-111705 GBFD-118605 None None None GBFD-118611 GBFD-118622 GBFD-118630 GBFD-118601 GBFD-118630 MRFD-210301 None None None GBFD-118601 GBFD-118601 MRFD-210301 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-111202 MRFD-210304 MRFD-210304 MRFD-210304 GBFD-111202 GBFD-111202 GBFD-110501 GBFD-115501 GBFD-115502 None GBFD-110202 GBFD-110521

GBFD-117002 None GBFD-111202 MRFD-210304 GBFD-111203 MRFD-210305 GBFD-115402 GBFD-118201 GBFD-111202 GBFD-118609 GBFD-118601 GBFD-111203 MRFD-210305 GBFD-118602 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 GBFD-111202 MRFD-210301 GBFD-111202 MRFD-210301 None GBFD-111202 GBFD-111203 GBFD-113728 GBFD-117801 GBFD-111701 GBFD-116101 MRFD-210301

Feature Name Assignment and Immediate Assignment Assignment and Immediate Assignment Assignment and Immediate Assignment Abis Bypass GSM Flow Control GSM Flow Control GSM Flow Control EGPRS EGPRS BTS Local Switch Flex Abis PDCH Dynamic Adjustment Configuration Management Soft-Synchronized Network Voice Quality Index (Uplink VQI) Access Access Access Control Class(ACC) Access Control Class(ACC) Concentric Cell Access Control Class(ACC) Adaptive Adjustment of Uplink and Downlink Channels Access Control Class(ACC) Access Control Class(ACC) Access Control Class(ACC) Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 BSS Paging Coordination Basic Cell Re-selection System Information Sending AMR FR TFO AMR HR TFO WB AMR TFO Call Control Handover Re-establishment

Soft-Synchronized Network O&M of BTS O&M of BTS O&M of BTS O&M of BTS HUAWEI I Handover HUAWEI II Handover O&M of BTS GSM Flow Control GSM Flow Control O&M of BTS A Interface Protocol Process Soft-Synchronized Network Dynamically Adjusting the Uplink MCS Coding O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS Soft-Synchronized Network Soft-Synchronized Network Soft-Synchronized Network Soft-Synchronized Network Faulty Management O&M of BTS O&M of BTS Acoustic Echo Cancellation(AEC) Acoustic Echo Cancellation(AEC) Acoustic Echo Cancellation(AEC) Acoustic Echo Cancellation(AEC) Acoustic Echo Cancellation(AEC) Acoustic Echo Cancellation(AEC) Acoustic Echo Cancellation(AEC) Acoustic Echo Cancellation(AEC) AMR Wireless Link Timer

AMR Wireless Link Timer BSC/RNC Clock BSC/RNC Clock AMR Wireless Link Timer AMR Wireless Link Timer Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management O&M of BTS Faulty Management TRX Cooperation Faulty Management Faulty Management End-to-End MS Signaling Tracing GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control A over IP Automatic Level Control (ALC) Automatic Level Control (ALC) Automatic Level Control (ALC) Automatic Level Control (ALC) Automatic Level Control (ALC)

Automatic Level Control (ALC) Automatic Level Control (ALC) Gb Over FR Gb Over FR IP QOS GPRS PDCH Dynamic Adjustment Enhanced Channel Assignment Algorithm EDA(Extended Dynamic Allocation) Network-Controlled Cell Reselection (NC2) Enhanced Channel Assignment Algorithm A Interface Circuit Management O&M of BSC Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Power Control

BSS-Based LCS (Cell ID + TA) BSC/RNC Clock BSS-Based LCS (Cell ID + TA) BSC/RNC Clock Faulty Management Faulty Management O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) AMR Power Control HUAWEI III Power Control Algorithm AMR Coding Rate Threshold Adaptive Adjustment AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover

HUAWEI II Handover HUAWEI II Handover AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control Enhanced Power Control Algorithm AMR HR AMR HR AMR Coding Rate Threshold Adaptive Adjustment AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control AMR Power Control A Interface Circuit Management A Interface Circuit Management Automatic Noise Compensation (ANC) Automatic Noise Compensation (ANC) Abis over IP Automatic Noise Compensation (ANC) A over IP IP QOS Electrical Tilt Remote Abis IP over E1/T1 A IP over E1/T1 None Faulty Management Automatic Noise Restraint (ANR) Automatic Noise Restraint (ANR)

Automatic Noise Restraint (ANR) Automatic Noise Restraint (ANR) BSS-Based LCS (Cell ID + TA) Soft-Synchronized Network BTS GPS Synchronization BTS/NodeB Clock BTS GPS Synchronization BTS/NodeB Clock Abis IP over E1/T1 A IP over E1/T1 O&M of BTS Remote Electrical Tilt O&M of BTS Multi-site Cell O&M of BTS A Interface Protocol Process A over IP Semi-Permanent Connection PS Active Package Management PS Active Package Management PS Active Package Management PS Active Package Management PS Active Package Management PS Active Package Management PS Active Package Management PS Active Package Management Configuration Management BSC/RNC Software Management BSC/RNC Software Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management IP Fault Detection Based on BFD Abis IP over E1/T1 A IP over E1/T1 A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process Faulty Management

Faulty Management Assignment and Immediate Assignment Direct Retry Concentric Cell O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS 2G/3G Neighboring Cell Automatic Optimization Assignment and Immediate Assignment O&M of BSC A Interface Circuit Management GSM Flow Control GSM Flow Control O&M of BSC A Interface Circuit Management O&M of BSC A Interface Circuit Management Concentric Cell Enhanced Dual-Band Network Enhanced Dual-Band Network Flex Ater Flex Ater Flex Ater O&M of BSC BSC Local Switch O&M of BSC Semi-Permanent Connection Configuration Management Configuration Management O&M of BSC Ater Compression Transmission O&M of BTS

A Interface Protocol Process IMSI Detach O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) None None Security Management Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 IP Fault Detection Based on BFD Configuration Management AMR FR AMR HR O&M of BTS Abis over IP O&M of BTS Security Management Security Management None A Interface Protocol Process Faulty Management Faulty Management None None

None None BSC/RNC Clock BSC/RNC Clock O&M of BSC Security Management Configuration Management Radio Dedicated Channel Management GPRS None IP Fault Detection Based on BFD IP Fault Detection Based on BFD Active Backup Power Control Active Backup Power Control Multi-band Sharing One BSC Multi-band Sharing One BSC Multi-band Sharing One BSC HUAWEI I Handover HUAWEI II Handover O&M of BTS Soft-Synchronized Network O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS BSC Node Redundancy Processing of Measurement Report Pre-processing of Measurement Report O&M of BTS Configuration Management Configuration Management Configuration Management Configuration Management Frequency Band Frequency Hopping (RF hopping, baseband hopping)

Gb Over FR Gb Over FR Gb over IP Gb Over FR O&M of BTS O&M of BTS O&M of BTS QoS ARP&THP QoS ARP&THP QoS ARP&THP A Interface Protocol Process STP（Signaling Transport Point) BSC Node Redundancy EGPRS GSM/TD-SCDMA Interoperability GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover IP Fault Detection Based on BFD IP Fault Detection Based on BFD Processing of Measurement Report Pre-processing of Measurement Report TRX Cooperation Soft-Synchronized Network QoS ARP&THP QoS ARP&THP QoS ARP&THP Faulty Management Faulty Management Faulty Management Faulty Management Gb Over FR Gb Over FR None None

None GSM Flow Control Abis IP over E1/T1 A IP over E1/T1 Faulty Management O&M of BTS O&M of BTS HUAWEI I Handover HUAWEI II Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI II Handover Configuration Management Configuration Management Configuration Management Configuration Management O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS Configuration Management Configuration Management None None None None O&M of BTS O&M of BTS Fast Ring Network Switch Simplified Cell Broadcast Simplified Cell Broadcast O&M of BSC Radio Common Channel Management Security Management Location Updating Paging A over IP TRX Power Amplifier Intelligent Shutdown

A Interface Circuit Management TC Pool Short Message Service Cell Broadcast (TS23) Soft-Synchronized Network Ater Compression Transmission Soft-Synchronized Network IP QOS TC Pool Configuration Management Soft-Synchronized Network Short Message Service Cell Broadcast (TS23) Abis over IP BSC Local Switch Connection Inter BSC over IP Enhanced Multi Level Precedence and Preemption(EMLPP) Enhanced Multi Level Precedence and Preemption(EMLPP) Semi-Permanent Connection Short Message Service Cell Broadcast (TS23) Enhanced Multi Level Precedence and Preemption(EMLPP) Enhanced Multi Level Precedence and Preemption(EMLPP) Enhanced Multi Level Precedence and Preemption(EMLPP) Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management

Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Semi-Permanent Connection Semi-Permanent Connection Semi-Permanent Connection Soft-Synchronized Network TC Pool TC Pool Semi-Permanent Connection GPRS Pre-processing of Measurement Report Configuration Management Paging Radio Common Channel Management Configuration Management Configuration Management BSC Local Switch BTS Local Switch BSC Local Switch BTS Local Switch BSS Paging Coordination BSS Paging Coordination BSC/RNC Clock BSC/RNC Software Management BSC/RNC Software Management None None

None None None None None Remote Electrical Tilt O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS Ater Interface 4:1 Multiplexing TC Pool Ater Interface 4:1 Multiplexing O&M of BTS O&M of BTS Abis over IP Abis over IP O&M of BTS Abis over IP IP QOS O&M of BTS O&M of BTS Abis Transmission Optimization O&M of BTS Soft-Synchronized Network Remote Electrical Tilt Security Management Abis over IP BTS Local Switch Abis over IP Pre-processing of Measurement Report O&M of BTS Abis Transmission Optimization O&M of BTS

Abis over IP Active Backup Power Control Enhanced Power Control Algorithm Network Support SAIC O&M of BTS Abis Transmission Optimization O&M of BTS Compact BTS Automatic Configuration and Planning O&M of BTS IP Fault Detection Based on BFD BTS Test Function O&M of BTS Fast Ring Network Switch A over IP Gb Interface Function Gb Interface Function Gb Interface Function IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS Processing of Measurement Report Pre-processing of Measurement Report Configuration Management GPRS

GPRS O&M of BTS O&M of BTS Configuration Management Call Reestablishment O&M of BTS Frequency Hopping (RF hopping, baseband hopping) System Information Sending Compact BTS Automatic Capacity Planning O&M of BTS IP QOS IP QOS None Basic Cell Selection Basic Cell Re-selection Short Message Service Cell Broadcast (TS23) Short Message Service Cell Broadcast (TS23) Short Message Service Cell Broadcast (TS23) Short Message Service Cell Broadcast (TS23) Short Message Service Cell Broadcast (TS23) Basic Cell Selection Location Updating IP QOS Short Message Service Cell Broadcast (TS23) Enhanced Measurement Report(EMR) Enhanced Measurement Report(EMR) Configuration Management Security Management Radio Common Channel Management Radio Common Channel Management Gb over IP Ethernet OAM Direct Retry GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability Configuration Management Configuration Management

Configuration Management Configuration Management Power Control GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability System Information Sending GPRS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS Configuration Management Configuration Management MBSC Load Balancing Configuration Management Configuration Management O&M of BTS 2G/3G Neighboring Cell Automatic Optimization Configuration Management Configuration Management Remote Electrical Tilt Enhanced Dual-Band Network HUAWEI I Handover HUAWEI II Handover Configuration Management A Interface Protocol Process SDCCH Dynamic Adjustment Configuration Management MBSC Load Balancing O&M of BTS Configuration Management RAN Sharing Processing of Measurement Report Pre-processing of Measurement Report Processing of Measurement Report Pre-processing of Measurement Report Radio Common Channel Management

O&M of BTS O&M of BTS Network-Controlled Cell Reselection (NC2) Network-Controlled Cell Reselection (NC2) Uplink EGPRS2-A Downlink EGPRS2-A Fast 3G Reselection at 2G CS Call Release Faulty Management Faulty Management O&M of BTS O&M of BTS O&M of BTS Processing of Measurement Report Pre-processing of Measurement Report Processing of Measurement Report Pre-processing of Measurement Report GSM Flow Control Security Management O&M of BTS IP QOS Compact BTS Automatic Configuration and Planning O&M of BTS O&M of BTS O&M of BTS O&M of BSC Security Management O&M of BSC Security Management O&M of BSC Security Management O&M of BSC O&M of BSC PICO Automatic Configuration and Planning O&M of BSC Security Management GPRS O&M of BSC O&M of BSC O&M of BSC Chain Cell Handover O&M of BTS

Enhanced Channel Assignment Algorithm None O&M of BSC O&M of BSC Simplified Cell Broadcast Enhanced Channel Assignment Algorithm A Interface Protocol Process None IP QOS Tree Topology O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) IP Fault Detection Based on BFD IP Fault Detection Based on BFD O&M of BTS O&M of BTS A over IP A over IP A over IP IP Fault Detection Based on BFD BTS Test Function Configuration Management O&M of BSC Configuration Management BTS Test Function Configuration Management A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process Enhanced Channel Assignment Algorithm

None GSM Flow Control GSM Flow Control GSM Flow Control Configuration Management Configuration Management Configuration Management A Interface Circuit Management O&M of BSC Voice Fault Diagnosis Voice Fault Diagnosis Voice Fault Diagnosis Voice Fault Diagnosis Voice Fault Diagnosis A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process IP QOS Enhanced Channel Assignment Algorithm O&M of BTS O&M of BTS Class11 DTM Call Control Abis IP over E1/T1 A IP over E1/T1 O&M of BTS O&M of BTS BSC/RNC Clock BTS/NodeB Clock O&M of BTS Faulty Management O&M of BTS

O&M of BSC Security Management O&M of BSC Security Management O&M of BSC Configuration Management O&M of BTS IP Fault Detection Based on BFD O&M of BTS O&M of BTS O&M of BTS BSC Node Redundancy MSC Pool SGSN Pool MSC Pool License Management BSC Node Redundancy Faulty Management O&M of BTS O&M of BTS O&M of BSC Security Management Faulty Management Faulty Management HUAWEI I Handover HUAWEI II Handover Simplified Cell Broadcast O&M of BTS Soft-Synchronized Network Radio Channel Management Active Common Power Control Location Updating IMSI Detach Security Management O&M of BTS HUAWEI I Handover HUAWEI II Handover O&M of BTS 2G/3G Co-Transmission Resources Management on MBSC None None

None None 2G/3G Co-Transmission Resources Management on MBSC 2G/3G Co-Transmission Resources Management on MBSC None None None None 2G/3G Co-Transmission Resources Management on MBSC HUAWEI I Handover HUAWEI II Handover Tree Topology Configuration Management O&M of BSC Security Management MBSC Load Balancing HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover 2G/3G Co-Transmission Resources Management on MBSC 2G/3G Co-Transmission Resources Management on MBSC BTS Test Function TRX Power Amplifier Intelligent Shutdown Configuration Management Basic Cell Re-selection O&M of BTS Location Updating Paging Security Management Security Management Public Voice Group Call Service Public Voice Broadcast Service Public Voice Group Call Service Public Voice Broadcast Service Basic Cell Re-selection O&M of BSC A over IP A IP over E1/T1 O&M of BSC O&M of BSC O&M of BSC O&M of BSC

IP QOS IP QOS IP QOS IP QOS GSM Flow Control O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC GSM Flow Control O&M of BSC IP QOS O&M of BSC IP QOS IP QOS IP QOS GSM Flow Control None A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process GSM Flow Control GSM Flow Control Soft-Synchronized Network GPRS

O&M of BTS Remote Electrical Tilt Remote Electrical Tilt Remote Electrical Tilt Remote Electrical Tilt IP QOS O&M of BTS O&M of BTS Configuration Management A Interface Protocol Process O&M of BTS None BSC/RNC Software Management HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover G3 Fax (TS61, TS62) HUAWEI II Handover 14.4kbit/s Circuit Switched Data Bearer Service O&M of BSC Security Management O&M of BSC TRX Power Amplifier Intelligent Shutdown O&M of BTS O&M of BTS Co-BCCH Cell Enhanced Dual-Band Network Enhanced Dual-Band Network Enhanced Dual-Band Network O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS Faulty Management Faulty Management O&M of BTS PDCH Dynamic Adjustment

Call Control A over IP A IP over E1/T1 O&M of BSC Security Management O&M of BTS None None None None Compact BTS Automatic Configuration and Planning O&M of BTS MBSC Load Balancing MBSC Load Balancing MBSC Load Balancing Configuration Management O&M of BSC IP Fault Detection Based on BFD O&M of BTS Remote Electrical Tilt Remote Electrical Tilt None None GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability O&M of BTS O&M of BTS MSC Pool O&M of BSC Security Management BSC/RNC Clock Abis IP over E1/T1 A IP over E1/T1 None O&M of BTS SDCCH Handover Enhanced Channel Assignment Algorithm O&M of BSC O&M of BSC O&M of BSC License Management

O&M of BTS Direct Retry Direct Retry HUAWEI I Handover HUAWEI I Handover HUAWEI II Handover GSM/WCDMA Interoperability Downlink EGPRS2-A Downlink EGPRS2-A EGPRS Transmit Diversity HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm Gb Over FR Adaptive Adjustment of Uplink and Downlink Channels Dual Carriers in Downlink HUAWEI I Handover HUAWEI II Handover HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm GPRS HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm AMR FR AMR FR AMR FR AMR HR AMR HR AMR HR WB AMR WB AMR HUAWEI I Handover HUAWEI II Handover

HUAWEI I Handover HUAWEI II Handover GSM and UMTS Load Balancing Based on Iur-g Enhanced Power Control Algorithm AMR Coding Rate Threshold Adaptive Adjustment AMR Coding Rate Threshold Adaptive Adjustment AMR Coding Rate Threshold Adaptive Adjustment AMR Coding Rate Threshold Adaptive Adjustment HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm GSM and UMTS Load Balancing Based on Iur-g Enhanced Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm HUAWEI I Handover AMR FR II Handover HUAWEI HUAWEI II Handover AMR HR I Handover HUAWEI HUAWEI II Handover HUAWEI I Handover HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm Extended Uplink TBF Public Voice Group Call Service Public Voice Broadcast Service Public Voice Group Call Service Public Voice Broadcast Service

AMR FR AMR FR AMR FR AMR HR AMR HR AMR HR WB AMR WB AMR O&M of BTS O&M of BTS Clock over IP support 1588V2 EGPRS Coding Coding Scheme Scheme EGPRS Coding Scheme Downlink EGPRS2-A GPRS Coding Scheme Downlink EGPRS2-A EGPRS GPRS Coding Coding Scheme Scheme EGPRS Coding Scheme Enhanced Power Control Algorithm HUAWEI III Power Control Algorithm Point To Point Short Message Service (TS21, TS22) GPRS CS-3/CS-4 Coding Coding Scheme Scheme CS-3/CS-4 CS-3/CS-4 Coding Coding Scheme Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Coding Scheme Scheme CS-3/CS-4 CS-3/CS-4 Coding Coding Scheme Scheme CS-3/CS-4 Coding Scheme Faulty Management Active Power Control A Interface Protocol Process STP（Signaling Transport Point) A Interface Protocol Process A Interface Circuit Management A Interface Circuit Management MSC Pool A Interface Protocol Process STP（Signaling Transport Point)

A Interface Protocol Process A over IP A IP over E1/T1 MBSC Load Balancing HUAWEI I Handover HUAWEI II Handover Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management None 2G/3G Co-Transmission Resources Management on MBSC 2G/3G Co-Transmission Resources Management on MBSC 2G/3G Co-Transmission Resources Management on MBSC 2G/3G Co-Transmission Resources Management on MBSC 2G/3G Co-Transmission Resources Management on MBSC Active Backup Power Control Active Backup Power Control Active Backup Power Control Simplified Cell Broadcast Discontinuous Reception (DRX) O&M of BTS None

Abis IP over E1/T1 A IP over E1/T1 A over IP Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 IP QOS GPRS Configuration Management Configuration Management Faulty Management Configuration Management GPRS GPRS Support of Daylight Saving Time Configuration Management O&M of BTS None IP Fault Detection Based on BFD Abis over IP None Abis over IP None None Direct Retry Public Voice Group Call Service O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS A5/1 Encryption Flow Optimization Abis over IP BTS Test Function

GPRS PDCH Dynamic Adjustment BTS Function LoadTest Sharing Adaptive Adjustment BTS Test Function of Uplink and Downlink Channels GPRS PDCH Dynamic Adjustment BTS Test Function Load Sharing Adaptive Adjustment of Uplink and Downlink Channels Soft-Synchronized Network O&M of BTS GPRS PDCH Dynamic Adjustment O&M of BSC Load Sharing Adaptive Adjustment of Uplink and Downlink Channels O&M of BTS GPRS PDCH PDCH Dynamic Dynamic Adjustment Adjustment GPRS Load Sharing PDCH Dynamic Adjustment Adaptive Adjustment of Uplink and Downlink Channels GPRS PDCH Dynamic Adjustment TRX Power Amplifier Intelligent Shutdown Dynamic Transmit Diversity O&M of BTS O&M of BTS Abis Transmission Optimization BTS Test Function None BTS/NodeB Clock IP-Based 2G/3G Co-Transmission on Base Station Side BTS/NodeB Clock IP QOS GSM/WCDMA Interoperability GSM/WCDMA Interoperability System Information Sending Faulty Management O&M of BSC Faulty Management Faulty Management O&M of BTS Support of Daylight Saving Time Configuration Management Enhanced Dual-Band Network Enhanced Dual-Band Network Enhanced Dual-Band Network

EGPRS HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover O&M of BTS 11-Bit EGPRS Access Uplink EGPRS2-A Downlink EGPRS2-A Network-Controlled Cell Reselection (NC2) Network-Controlled Cell Reselection (NC2) Support of Daylight Saving Time Configuration Management Emergency Call Service (TS12) Guaranteed Emergency Call A Interface Protocol Process None Abis IP over E1/T1 A IP over E1/T1 Enhanced Multi Level Precedence and Preemption(EMLPP) Group Call EMLPP Enhanced Multi Level Precedence and Preemption(EMLPP) Abis IP over E1/T1 A IP over E1/T1 IP QOS O&M of BTS Support of Daylight Saving Time Configuration Management O&M of BTS Group Call Reliability Enhancing O&M of BTS A5/1 and A5/2 Ciphering Algorithm A5/3 Ciphering Algorithm O&M of BSC O&M of BSC End-to-End MS Signaling Tracing Faulty Management A Interface Circuit Management O&M of BSC

TRX Power Amplifier Intelligent Shutdown O&M of BTS TRX Power Amplifier Intelligent Shutdown O&M of BTS TRX Power Amplifier Intelligent Shutdown Ater Interface 4:1 Multiplexing A Interface Circuit Management O&M of BTS O&M of BSC O&M of BSC Concentric Cell 2G/3G Co-Transmission Resources Management on MBSC Concentric Cell Concentric Cell Concentric Cell Concentric Cell IP QOS IP QOS Concentric Cell Dynamic Adjustment Between FR and HR A over IP A IP over E1/T1 A over IP Concentric Cell Enhancement Packet Loss Concealment(EPLC) O&M of BSC Security Management Emergency Call Service (TS12) Ethernet OAM Ethernet OAM None None IP QOS O&M of BTS Faulty Management Assignment and Immediate Assignment

Simple Mode LCS(Cell ID + TA) Fast Ring Network Switch Support of Daylight Saving Time Configuration Management O&M of BSC O&M of BSC O&M of BSC O&M of BSC Security Management Faulty Management Faulty Management Simplified Cell Broadcast O&M of BSC Security Management O&M of BTS O&M of BSC Security Management O&M of BSC Security Management Support of Daylight Saving Time Configuration Management Support of Daylight Saving Time Configuration Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management

Faulty Management Faulty Management GPRS O&M of BSC Active Power Control Active Power Control Configuration Management O&M of BTS Configuration Management O&M of BTS Configuration Management Configuration Management Extended Cell O&M of BTS Processing of Measurement Report Pre-processing of Measurement Report Processing of Measurement Report Pre-processing of Measurement Report Processing of Measurement Report Pre-processing of Measurement Report Extended Cell Extended Uplink TBF Public Voice Group Call Service Public Voice Broadcast Service Group Call EMLPP Group Call EMLPP O&M of BTS Enhanced Channel Assignment Algorithm HUAWEI I Handover HUAWEI II Handover Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Assignment and Immediate Assignment Fast Ring Network Switch

O&M of BSC None Abis over IP GSM Flow Control None None Abis IP over E1/T1 A IP over E1/T1 None None 2G/3G Co-Transmission Resources Management on MBSC None Compact BTS Automatic Configuration and Planning O&M of BTS GSM Flow Control Link aggregation O&M of BTS GSM Flow Control O&M of BTS GSM/WCDMA Interoperability Configuration Management GSM/WCDMA Interoperability GSM/WCDMA Interoperability GSM/WCDMA Interoperability GSM/WCDMA Interoperability GSM/WCDMA Interoperability GSM/WCDMA Interoperability GSM/WCDMA Interoperability GSM/WCDMA Interoperability GSM/WCDMA GSM/WCDMA Interoperability Interoperability Processing of Measurement Report Pre-processing of Measurement Report GSM/WCDMA Interoperability GSM/WCDMA Interoperability GSM/WCDMA Interoperability GSM Flow Control

Voice Quality Index (Uplink VQI) Voice Quality Index (Uplink VQI) Voice Quality Index (Uplink VQI) Voice Quality Index (Uplink VQI) Voice Quality Index (Uplink VQI) Voice Quality Index (Uplink VQI) Voice Quality Index (Uplink VQI) Voice Quality Index (Uplink VQI) Frequency Hopping (RF hopping, baseband hopping) O&M of BSC Security Management O&M of BSC BSC/RNC Software Management O&M of BSC Security Management Configuration Management O&M of BSC Faulty Management Network-Controlled Cell Reselection (NC2) O&M of BSC Security Management HUAWEI III Power Control Algorithm O&M of BTS Flex Abis Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Flex Abis A5/1 Encryption Flow Optimization Flex MAIO Soft-Synchronized Network Flex MAIO Adaptive Adjustment of Uplink and Downlink Channels Adaptive Adjustment of Uplink and Downlink Channels None None None Abis IP over E1/T1 A IP over E1/T1 None

IP QOS 2G/3G Co-Transmission Resources Management on MBSC HUAWEI I Handover HUAWEI I Handover HUAWEI I Handover HUAWEI I Handover HUAWEI I Handover HUAWEI I Handover HUAWEI I Handover HUAWEI I Handover HUAWEI I Handover GPRS Radio Common Channel Management System Information Sending O&M of BTS Inventory Management O&M of BSC BSC/RNC Software Management O&M of BSC Configuration Management License Management O&M of BTS PDCH Dynamic Adjustment EGPRS O&M of BTS Load Sharing Adaptive Adjustment of Uplink and Downlink Channels A Interface Protocol Process Automatic Level Control (ALC) GPRS Call Control Enhanced Full Rate HUAWEI I Handover HUAWEI II Handover O&M of BTS O&M of BTS None Compact BTS Automatic Capacity Planning PICO Automatic Configuration and Planning Compact BTS Automatic Configuration and Planning Abis MUX UDP MUX for A Transmission Soft-Synchronized Network

Configuration Management Discontinuous Transmission (DTX) Downlink AMR FR O&M of BSC Security Management O&M of BSC Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band

Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band Frequency Band

Frequency Band AFC(Automatic Frequency Correction) AFC(Automatic Frequency Correction) Configuration Management Enhanced Channel Assignment Algorithm Cell Frequency Scan Configuration Management 2G/3G Neighboring Cell Automatic Optimization Cell Frequency Scan HUAWEI I Handover HUAWEI II Handover Discontinuous Transmission (DTX) Uplink AMR FR Compact BTS Automatic Configuration and Planning O&M of BTS Compact BTS Automatic Configuration and Planning O&M of BTS O&M of BSC Security Management IP QOS IP QOS None HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS IP QOS

IP QOS GSM and UMTS Load Balancing Based on Iur-g GSM and UMTS Load Balancing Based on Iur-g A over IP Power Control Soft-Synchronized Network Soft-Synchronized Network Soft-Synchronized Network Soft-Synchronized Network Streaming QoS(GBR) Public Voice Group Call Service Public Voice Broadcast Service BSC/RNC Clock Public Voice Group Call Service Public Voice Broadcast Service Group Call EMLPP None GPRS System Information Sending GPRS GPRS GPRS EGPRS GPRS GPRS Network-Controlled Cell Reselection (NC2) GPRS BTS GPS Synchronization BTS/NodeB Clock BSC/RNC Clock Resource Reservation Group Call Reliability Enhancing Group Call Reliability Enhancing BSC Node Redundancy BSC Node Redundancy Flex Abis IP QOS IP QOS

Simplified Cell Broadcast IP QOS IP QOS Multi-band Sharing One BSC GSM/TD-SCDMA Interoperability O&M of BTS Abis over IP Abis over IP Half Rate Speech HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) A over IP O&M of BTS HUAWEI II Handover HUAWEI II Handover O&M of BTS O&M of BTS Frequency Band Enhanced Multi Level Precedence and Preemption(EMLPP) Enhanced Multi Level Precedence and Preemption(EMLPP) Enhanced Multi Level Precedence and Preemption(EMLPP) O&M of BTS Enhanced Channel Assignment Algorithm Security Management HMC DTM Concentric Cell RAN Sharing HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

O&M of BSC O&M of BSC HUAWEI I Handover Chain Cell Handover Chain Cell Handover Chain Cell Handover Fast Move Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability Fast Move Handover O&M of BSC HUAWEI I Handover HUAWEI II Handover Concentric Cell HUAWEI I Handover HUAWEI II Handover Enhanced Dual-Band Network Frequency Hopping (RF hopping, baseband hopping) IBCA (Interference Based Channel Allocation) Frequency Hopping (RF hopping, baseband hopping) BTS power lift for handover HUAWEI I Handover HUAWEI II Handover Frequency Hopping (RF hopping, baseband hopping) Antenna Frequency Hopping Antenna Frequency Hopping Frequency Hopping (RF hopping, baseband hopping) HUAWEI I Handover HUAWEI II Handover Soft-Synchronized Network GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability A Interface Protocol Process HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Fast Move Handover BSC Node Redundancy BSC Node Redundancy

HUAWEI I Handover HUAWEI II Handover Fast Move Handover Antenna Frequency Hopping Antenna Frequency Hopping O&M of BTS Resource Reservation O&M of BTS BTS Power Management O&M of BTS BTS Power Management Half Rate Speech Discontinuous Transmission System Information Sending (DTX) Downlink Half Rate Speech AMR HR Discontinuous Concentric CellTransmission (DTX) Uplink Half Rate Speech AMR HR Frequency Hopping (RF hopping, baseband hopping) O&M of BTS Flex MAIO O&M of BTS IP Fault Detection Based on BFD Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management O&M of BTS A Interface Protocol Process BTS Test Function O&M of BTS O&M of BTS A Interface Protocol Process IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) Intelligent Combiner Bypass O&M of BTS IP QOS Gb over IP Gb over IP Gb over IP O&M of BSC O&M of BSC O&M of BTS A over IP None SDCCH Dynamic Adjustment O&M of BTS None Configuration Management Configuration Management MBSC Load Balancing Configuration Management O&M of BTS O&M of BTS Semi-Permanent Connection Configuration Management O&M of BSC Short Message Service Cell Broadcast (TS23) O&M of BTS O&M of BTS

O&M of BTS O&M of BTS Fast Move Handover O&M of BSC A Interface Protocol Process Assignment and Immediate Assignment Packet Assignment Taken Over by the BTS Assignment and Immediate Assignment Assignment and Immediate Assignment Assignment and Immediate Assignment Assignment and Immediate Assignment Concentric Cell Concentric Cell Soft-Synchronized Network Assignment and Immediate Assignment O&M of BSC GPRS HUAWEI I Handover HUAWEI II Handover Soft-Synchronized Network Soft-Synchronized Network BSS-Based LCS (Cell ID + TA) O&M of BTS O&M of BTS AMR FR/HR Dynamic Adjustment AMR FR/HR Dynamic Adjustment MBSC Load Balancing Faulty Management AMR FR/HR Dynamic Adjustment AMR FR/HR Dynamic Adjustment Enhanced Channel Assignment Algorithm AMR FR AMR HR WB AMR Semi-Permanent Connection

Enhanced Dual-Band Network Enhanced Dual-Band Network Configuration Management Configuration Management Enhanced Dual-Band Network Enhanced Dual-Band Network Enhanced Dual-Band Network Enhanced Dual-Band Network Semi-Permanent Connection O&M of BTS O&M of BSC BSS-Based LCS (Cell ID + TA) SDCCH Handover Semi-Permanent Connection O&M of BTS Semi-Permanent Connection O&M of BTS Simplified Cell Broadcast HUAWEI I Handover HUAWEI II Handover Cell Frequency Scan HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm Soft-Synchronized Network Enhanced Channel Assignment Algorithm

GSM and UMTS Traffic Steering Based on Iur-g GSM and UMTS Load Balancing Based on Iur-g GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability MBSC Handover based on Load Enhancement GSM and UMTS Load Balancing Based on Iur-g GSM and UMTS Load Balancing Based on Iur-g GSM and UMTS Load Balancing Based on Iur-g GSM and UMTS Load Balancing Based on Iur-g GSM and UMTS Load Balancing Based on Iur-g GSM and UMTS Load Balancing Based on Iur-g GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability GSM and UMTS Load Balancing Based on Iur-g O&M of BSC Security Management None Processing of Measurement Report Pre-processing of Measurement Report Enhanced Dual-Band Network HUAWEI I Handover HUAWEI I Handover HUAWEI II Handover AMR FR/HR Dynamic Adjustment HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover MBSC Load Balancing GSM and UMTS Load Balancing Based on Iur-g GSM and UMTS Load Balancing Based on Iur-g GSM and UMTS Load Balancing Based on Iur-g Semi-Permanent Connection O&M of BSC O&M of BSC O&M of BSC Enhanced Measurement Report(EMR) Configuration Management O&M of BSC License Management Gb over IP Gb over IP

Abis over IP O&M of BTS Abis IP over E1/T1 IP QOS A IP over E1/T1 IP-Based 2G/3G Co-Transmission on MBSC Side IP-Based 2G/3G Co-Transmission on MBSC Side None None None Gb over IP Gb over IP Clock over IP Gb over IP Clock over IP Gb over IP Gb over IP Ethernet OAM Ethernet OAM Abis IP over E1/T1 A IP over E1/T1 Link aggregation Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 None Abis over IP Abis over IP O&M of BTS Soft-Synchronized Network Chain Cell Handover Clock over IP Clock over IP Ring Topology O&M of BTS EGPRS IP QOS GPRS

Configuration Management TC Pool Multi-site Cell Network-Controlled Cell Reselection (NC2) Gb over IP None Soft-Synchronized Network O&M of BTS Abis Transmission Backup BTS Local Switch TC Pool Configuration Management Configuration Management O&M of BTS O&M of BTS Intelligent Shutdown of TRX Due to PSU Failure Configuration Management Configuration Management Configuration Management Configuration Management IP QOS IP QOS PDCH Dynamic Adjustment Concentric Concentric Cell Cell Load Sharing Adaptive Adjustment of Uplink and Downlink Channels Concentric Cell Concentric Cell Concentric Cell Enhanced Dual-Band Network Ethernet OAM Abis MUX UDP MUX for A Transmission None None None None None None

None None None None None None None None Abis Transmission Optimization Multi-Carrier Intelligent Voltage Regulation Abis over IP None HUAWEI I Handover HUAWEI II Handover None Configuration Management Compact BTS Automatic Capacity Planning Board Switchover BSS-Based LCS (Cell ID + TA) BSS-Based LCS (Cell ID + TA) BSS-Based LCS (Cell ID + TA) BSS-Based LCS (Cell ID + TA) BSS-Based LCS (Cell ID + TA) BSS-Based LCS (Cell ID + TA) BSC/RNC Clock BSC/RNC Clock Link aggregation None IP QOS IP QOS IP QOS HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover None

None Abis over IP Flex Abis Abis over IP Flex Abis Abis over IP Flex Abis A over IP A IP over E1/T1 O&M of BSC Security Management O&M of BSC None IP QOS Processing of Measurement Report Pre-processing of Measurement Report HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Configuration Management Configuration Management Abis IP over E1/T1 A IP over E1/T1 Configuration Management O&M of BSC O&M of BTS Faulty Management Faulty Management O&M of BSC None A Interface Protocol Process Faulty Management Configuration Management Abis IP over E1/T1 A IP over E1/T1 O&M of BTS O&M of BTS None Semi-Permanent Connection A over IP A IP over E1/T1 A Interface Protocol Process

A over IP HUAWEI I Handover HUAWEI II Handover MSC Pool Network-Controlled Cell Reselection (NC2) O&M of BTS HUAWEI I Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI I Handover HUAWEI II Handover O&M of BTS Network-Controlled Cell Reselection (NC2) Network-Controlled Network-Controlled Cell Cell Reselection Reselection (NC2) (NC2) GSM/WCDMA Interoperability GSM/WCDMA Load Based Handover Network-Controlled Cell Reselection (NC2) Enhanced Channel Assignment Algorithm HUAWEI I Handover None BSC Node Redundancy None O&M of BTS Abis IP over E1/T1 Abis IP over E1/T1 Gb over IP Gb over IP Multi-site Cell Multi-site Cell Faulty Management

A over IP A IP over E1/T1 A over IP A IP over E1/T1 O&M of BSC Security Management A over IP A IP over E1/T1 Configuration Management O&M of BTS GSM Flow Control GSM Flow Control None None None GSM Flow Control GSM Flow Control GSM Flow Control O&M of BSC O&M of BTS BSS-Based LCS (Cell ID + TA) BSS-Based LCS (Cell ID + TA) BSS-Based LCS (Cell ID + TA) BSS-Based LCS (Cell ID + TA) BSS-Based LCS (Cell ID + TA) BSS-Based LCS (Cell ID + TA) BSC/RNC Clock BSC/RNC Clock Configuration Management Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 O&M of BSC IBCA (Interference Based Channel Allocation) O&M of BSC O&M of BSC None None O&M of BSC

None Flex Abis Flex Abis O&M of BTS Concentric Cell O&M of BTS O&M of BTS O&M of BTS IP QOS None None IP QOS None EGPRS O&M of BTS O&M of BTS Abis over IP Flex Abis O&M of BSC Security Management Configuration Management Configuration Management BSC/RNC Software Management O&M of BSC Security Management O&M of BSC Security Management O&M of BTS O&M of BTS AMR Coding Rate Threshold Adaptive Adjustment AMR Coding Rate Threshold Adaptive Adjustment AMR Coding Rate Threshold Adaptive Adjustment AMR Coding Rate Threshold Adaptive Adjustment Voice Fault Diagnosis O&M of BTS O&M of BTS O&M of BTS BTS Power Management A over IP

Configuration Management Ethernet OAM Ethernet OAM Frequency Hopping (RF hopping, baseband hopping) None Enhanced BCCH Power Consumption Optimization Enhanced BCCH Power Consumption Optimization Enhanced BCCH Power Consumption Optimization Enhanced BCCH Power Consumption Optimization Enhanced BCCH Power Consumption Optimization Ethernet OAM Abis over IP Multi-site Cell Tree Topology O&M of BTS IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) IBCA (Interference Based Channel Allocation) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) O&M of BTS

Ethernet OAM Configuration Management None Abis IP over E1/T1 A IP over E1/T1 Ethernet OAM None None Short Message Service Cell Broadcast (TS23) Abis over IP Abis IP over E1/T1 Abis IP over E1/T1 Clock over IP Clock over IP Enhanced Power Control Algorithm A over IP IP Fault Detection Based on BFD Link aggregation HUAWEI I Handover HUAWEI II Handover GPRS GPRS Active Backup Power Control Compact BTS Automatic Configuration and Planning PICO Automatic Configuration and Planning Compact BTS Automatic Capacity Planning IP QOS O&M of BTS Abis MUX UDP MUX for A Transmission Abis IP over E1/T1 A IP over E1/T1 Security Management Faulty Management O&M of BTS GPRS PDCH Dynamic Adjustment A overSharing IP Load Adaptive GPRS Adjustment of Uplink and Downlink Channels GPRS PDCH PDCH Dynamic Dynamic Adjustment Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels GPRS Security Management

O&M of BTS O&M of BTS HUAWEI I Handover HUAWEI II Handover Access Access Access Access Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Enhanced Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm Adjustment of Adaptive Timing Advance Extended Cell Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management BSC/RNC Clock Flex Abis None Enhanced Power Control Algorithm Security Management None IP Fault Detection Based on BFD Multi-band Sharing One BSC System Information Sending Enhanced Measurement Report(EMR) Enhanced Measurement Report(EMR) Soft-Synchronized Network Soft-Synchronized Network Configuration Management Compact BTS Automatic Capacity Planning None Abis IP over E1/T1 Configuration Management O&M of BTS

O&M of BTS Enhanced Channel Assignment Algorithm O&M of BTS None Ethernet OAM Configuration Management Ethernet OAM Ethernet OAM Configuration Management Packet System Information Enhanced Measurement Report(EMR) GSM and UMTS Load Balancing Based on Iur-g Processing of Measurement Report Pre-processing of Measurement Report Ethernet OAM Ethernet OAM Configuration Management Ethernet OAM Ethernet OAM Abis IP over E1/T1 Network-Controlled Cell Reselection (NC2) Abis IP over E1/T1 A IP over E1/T1 GSM/WCDMA Interoperability HUAWEI I Handover HUAWEI II Handover Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Direct Retry SDCCH Dynamic Adjustment GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability None IP Fault Detection Based on BFD

IP Fault Detection Based on BFD IP Fault Detection Based on BFD IP Fault Detection Based on BFD None None Configuration Management Compact BTS Automatic Capacity Planning GSM Flow Control BSC/RNC Clock A over IP A IP over E1/T1 Configuration Management Configuration Management None None Board Switchover Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) O&M of BTS Reporting the Temperature List of the BTS Equipment Room O&M of BTS Reporting the Temperature List of the BTS Equipment Room O&M of BTS Fast Move Handover Abis IP over E1/T1 Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 None Abis IP over E1/T1 LAPD Multiplexing at Abis Interface O&M of BTS Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Configuration Management Configuration Management Enhanced Power Control Algorithm HUAWEI I Handover HUAWEI II Handover HUAWEI III Power Control Algorithm Pre-processing of Measurement Report O&M of BTS O&M of BTS O&M of BSC O&M of BSC Abis over IP Soft-Synchronized Network Call Control MSC Pool MSC Pool MSC Pool MSC Pool MSC Pool A Interface Protocol Process Call Reestablishment O&M of BSC BSC Local Switch BTS Local Switch BSC Local Switch BTS Local Switch BSC Local Switch BTS Local Switch BSC Local Switch BTS Local Switch BSC Local Switch BTS Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch

BSC Local Switch BSC Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BSC Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch BTS Local Switch Radio Common Channel Management Location Updating Fast Move Handover Paging Assignment and Immediate Assignment

Board Switchover MSRD MSRD O&M of BTS HUAWEI I Handover HUAWEI II Handover Network-Controlled Cell Reselection (NC2) Gb Interface Function BSC Node Redundancy GPRS None GSM Flow Control None A Interface Protocol Process None A over IP Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 O&M of BTS GPRS O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC Abis IP over E1/T1 A IP over E1/T1 None Abis MUX UDP MUX for A Transmission O&M of BTS Abis MUX UDP MUX for A Transmission Ring Topology Radio Link Management Radio Link Management Radio Link Management Radio Link Management

Radio Link Management Radio Link Management Radio Link Management GPRS GPRS GPRS Dynamically Adjusting the RRBP Frequency Gb Over FR Gb Over FR Gb Over FR Network Assisted Cell Change (NACC) PS Handover A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process IP QOS A over IP A over IP A over IP A over IP A over IP GPRS AMR FR Channel Assignment Algorithm Enhanced AMR HR TFO Power Control Enhanced Full Rate TC Pool Configuration Management IBCA (Interference Based Channel Allocation) Configuration Management IBCA (Interference Based Channel Allocation) Configuration Management Configuration Management Configuration Management Configuration Management PICO Automatic Configuration and Planning

Configuration Management Configuration Management Configuration Management Configuration Management Network-Controlled Cell Reselection (NC2) Network Assisted Cell Change (NACC) Network-Controlled Cell Reselection (NC2) Network-Controlled Cell Reselection (NC2) PS Handover Configuration Management Basic Cell Selection Configuration Management Basic Cell Re-selection System Information Sending Processing of Measurement Report Pre-processing of Measurement Report Fast Move Handover HUAWEI I Handover HUAWEI II Handover 2G/3G Neighboring Cell Automatic Optimization 2G/3G Neighboring Cell Automatic Optimization 2G/3G Neighboring Cell Automatic Optimization 2G/3G Neighboring Cell Automatic Optimization 2G/3G Neighboring Cell Automatic Optimization 2G/3G Neighboring Cell Automatic Optimization 2G/3G Neighboring Cell Automatic Optimization 2G/3G Neighboring Cell Automatic Optimization Public Voice Group Call Service Public Voice Broadcast Service Networking Public VoiceControl Group Mode Call Service GSM/TD-SCDMA Interoperability Public Voice Broadcast Service PS Handover System Information Sending A Interface Protocol Process Configuration Management HUAWEI I Handover HUAWEI II Handover None None None Abis IP over E1/T1 A Interface Protocol Process BSC/RNC Software Management Network Operation Mode Support DTM

O&M of BTS O&M of BTS O&M of BTS O&M of BTS Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover HUAWEI II Handover Ater Compression Transmission HUAWEI II Handover IP QOS TC Pool HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover O&M of BTS HUAWEI III Power Control Algorithm

Networking Control Mode Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Network-Controlled Cell Reselection (NC2) O&M of BTS GSM Flow Control Radio Dedicated Channel Management Group Call Reliability Enhancing None Enhanced Measurement Report(EMR) Enhanced Measurement Report(EMR) MSC Pool SGSN Pool SGSN Pool System Information Sending Gb Interface Function Gb Interface Function HUAWEI I Handover HUAWEI II Handover BSS-Based LCS (Cell ID + TA) Soft-Synchronized Network Gb Over FR Gb Over FR O&M of BTS O&M of BTS Public Voice Group Call Service Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 A IP over E1/T1 Abis O&MIP of over BTS E1/T1 A IP over E1/T1 O&M of BTS IP QOS O&M of BTS O&M of BTS Link aggregation O&M of BTS O&M of BTS Link aggregation Remote Electrical Tilt BTS Test Function O&M of BSC None

Faulty Management Faulty Management Configuration Management Streaming QoS(GBR) Concentric Cell OML Backup O&M of BTS Abis Bypass O&M of BTS O&M of BTS O&M of BTS None IP QOS O&M of BTS Abis over IP O&M of BTS O&M of BTS O&M of BSC Security Management Configuration Management RAN Sharing O&M of BTS A Interface Circuit Management RAN Sharing RAN Sharing RAN Sharing BSC/RNC Software Management A Interface Circuit Management Ater Interface 4:1 Multiplexing A Interface Circuit Management O&M of BSC RAN Sharing Concentric Cell Concentric Cell Concentric Cell Enhanced Channel Assignment Algorithm

O&M of BTS O&M of BTS O&M of BTS MBSC Load Balancing IP-Based 2G/3G Co-Transmission on Base Station Side BSC/RNC Software Management Frequency Band EGPRS Concentric Cell Enhanced Dual-Band Network HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Enhanced Dual-Band Network Enhanced Channel Assignment Algorithm Enhanced Dual-Band Network Enhanced Dual-Band Network Enhanced Dual-Band Network Enhanced Dual-Band Network Enhanced Dual-Band Network Enhanced Dual-Band Network Semi-Permanent Connection Semi-Permanent Connection O&M of BSC O&M of BSC O&M of BTS O&M of BTS O&M of BTS O&M of BTS Multi-site Cell Multi-site Cell Multi-site Cell Enhanced Dual-Band Network O&M of BTS

Semi-Permanent Connection O&M of BSC Semi-Permanent Connection GSM and UMTS Load Balancing Based on Iur-g GSM/WCDMA Service Based Handover GSM/WCDMA Service Based Handover MBSC Load Balancing Semi-Permanent Connection Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Radio Common Channel Management O&M of BTS GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control Multi-Carrier Intelligent Voltage Regulation Packet Assignment Taken Over by the BTS GSM Flow Control Paging GSM Flow Control Paging GPRS GPRS GPRS TRX Power Amplifier Intelligent Shutdown O&M of BTS O&M of BTS

Abis over IP A over IP IP IP QOS QOS Abis IP over E1/T1 A IP over E1/T1 None Abis IP Control Activeover Power A over IP IP QOS II Handover HUAWEI Abis IP over E1/T1 A IP over E1/T1 BSC/RNC Software Management Power Control HUAWEI I Handover HUAWEI I Handover HUAWEI I Handover HUAWEI I Handover GPRS Enhanced Power Control Algorithm Power Control O&M of BSC GPRS PDCH Dynamic Adjustment O&M of BSC Load Sharing Adaptive GPRS Adjustment of Uplink and Downlink Channels GPRS O&M of BTS PDCH Dynamic Adjustment Flex Abis GPRS Load Sharing PDCH Dynamic Adjustment Adaptive Adjustment of Uplink and Downlink Channels Load Sharing Adaptive Adjustment of Uplink and Downlink PDCH Adjustment Power Dynamic Optimization Based on Channel Type Channels GPRS Load Sharing PDCH Dynamic Adjustment Adaptive Adjustment of Uplink and Downlink Channels Load Sharing Adaptive Adjustment of Uplink and Downlink Channels A over IP A IP over E1/T1 BSC Node Redundancy Abis over IP Abis over IP BSC Node Redundancy Abis over IP BSC Node Redundancy Abis over IP BSC Node Redundancy Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 IP Fault Detection Based on BFD Abis IP over E1/T1

Abis IP over E1/T1 A over IP A IP over E1/T1 A over IP Abis over E1/T1 IP A IP over A over IP IP IP QOS QOS Abis IP over E1/T1 A IP over E1/T1 A over IP A IP over E1/T1 O&M of BTS HUAWEI I Handover HUAWEI II Handover Network-Controlled Cell Reselection (NC2) Network-Controlled Cell Reselection (NC2) HUAWEI I Handover HUAWEI II Handover IP QOS 2G/3G Neighboring Cell Automatic Optimization Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 Streaming QoS(GBR) GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control IP QOS Abis MUX UDP MUX for A Transmission Basic Cell Re-selection System Information Sending Security Management Ethernet OAM Ethernet OAM None Abis MUX Packet SI Status None Ethernet OAM Access EGPRS

Access Access EGPRS Access EGPRS IP QOS IP QOS O&M of BSC O&M of BSC O&M of BSC GSM Flow Control GSM Flow Control Paging Paging Paging GSM Flow Control GSM Flow Control GSM Flow Control Configuration Management Faulty Management Configuration Management Ater Interface 4:1 Multiplexing A Interface Circuit Management None O&M of BSC Faulty Management None None None None None Board Switchover None None

None None IP Fault Detection Based on BFD None None Gb Over FR O&M of BSC O&M of BTS Faulty Management O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS PoC QoS PoC QoS PoC QoS PoC QoS O&M of BTS O&M of BTS Configuration Management Configuration Management O&M of BSC Ring Topology OML Backup O&M of BSC O&M of BSC None Configuration Management Ethernet OAM IP-Based 2G/3G Co-Transmission on Base Station Side 2G/3G Cell Reselection Based on MS State O&M of BTS

O&M of BTS Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management O&M of BTS Downlink EGPRS2-A Downlink EGPRS2-A O&M of BTS O&M of BTS Configuration Management Configuration Management Abis IP over E1/T1 Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 None Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 None Enhanced Multi Level Precedence and Preemption(EMLPP) Enhanced Multi Level Precedence and Preemption(EMLPP) Emergency Call Service (TS12) Guaranteed Emergency Call Pre-processing of Measurement Report Abis over IP System Information Sending GPRS GSM Flow Control Pre-processing of Measurement Report GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control

GSM Flow Control HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Flex Abis A Interface Protocol Process GPRS A over IP A Protocol Process A Interface IP over E1/T1 A over IP A IP over E1/T1 None Abis over IP Abis over IP Abis over IP Security Management Abis over IP A Interface Protocol Process Gb Over FR O&M of BTS Dynamic Cell Power Off TRX Power Amplifier Intelligent Shutdown None None None None None None None None IP QOS IP QOS PS Handover None None GSM Flow Control System Information Sending Packet System Information Packet System Information

IP QOS IP QOS GSM Flow Control Concentric Cell None Radio Common Channel Management Multi-site Cell None GSM Flow Control GSM Flow Control O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS Concentric Cell PSU Smart Control None Faulty Management O&M of BSC Basic Cell Re-selection Gb Interface Function Faulty Management None None None None Abis Transmission Optimization None O&M of BTS

Security Management O&M of BTS O&M of BTS Gb Over FR Security Management O&M of BSC Security Management O&M of BTS Security Management O&M of BTS Faulty Management Faulty Management Active Power Control HUAWEI III Power Control Algorithm Enhanced Power Control Algorithm Radio Common Channel Management Radio Common Channel Management Multi-site Cell O&M of BTS Active Backup Power Control Enhanced Channel Assignment Algorithm Configuration Management O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS None None None None None GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover QoS ARP&THP GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Enhanced Channel Assignment Algorithm O&M of BTS O&M of BTS Enhanced Power Control Algorithm HUAWEI I Handover HUAWEI II Handover Fast Move Handover O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS Configuration Management Configuration Management GPRS Compact BTS Automatic Configuration and Planning

Compact BTS Automatic Configuration and Planning Compact BTS Automatic Capacity Planning Radio Common Channel Management Radio Common Channel Management Radio Common Channel Management Multi-site Cell System Information Sending GPRS GPRS Radio Common Channel Management GPRS Abis over IP AMR Coding Rate Threshold Adaptive Adjustment WB AMR AMR Coding Rate Threshold Adaptive Adjustment TFO Processing of Measurement Report Configuration Management O&M of BSC O&M of BTS O&M of BTS O&M of BTS Configuration Management IP QOS TCH Re-assignment TCH Re-assignment Concentric Cell AMR FR Concentric Cell AMR HR Concentric Cell Concentric Cell Concentric Cell GSM Flow Control IP QOS Concentric Cell Concentric Cell Configuration Management GSM Flow Control

GSM Flow Control BSC/RNC Clock BSC/RNC Clock BSC/RNC Clock BSC/RNC Clock BSC/RNC Clock BSC/RNC Clock BSC/RNC Clock BTS Local Switch BSC Node Redundancy BSC Node Redundancy BSC Node Redundancy Soft-Synchronized Network O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS IP QOS None Gb over IP Simplified Cell Broadcast Robust Air Interface Signalling Robust Air Interface Signalling Robust Air Interface Signalling Faulty Management O&M of BSC Network-Controlled Cell Reselection (NC2) Network-Controlled Cell Reselection (NC2) Network-Controlled Cell Reselection (NC2) Network-Controlled Cell Reselection (NC2) PDCH Dynamic Adjustment TRX Power Amplifier Intelligent Shutdown

O&M of BTS O&M of BTS Security Management GPRS Multi-Carrier Intelligent Voltage Regulation GPRS Gb Interface Function A Interface Protocol Process O&M of BSC License Management Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Faulty Management MBSC Load Balancing Resource Reservation Configuration Management Radio Dedicated Channel Management System Information Sending O&M of BSC Voice Fault Diagnosis BTS GPS Synchronization Network Assisted Cell Change (NACC) None Radio Dedicated Channel Management Ater Compression Transmission Configuration Management MBSC Load Balancing MBSC Load Balancing MBSC Load Balancing Security Management Gb over IP Gb over IP Voice Quality Index (Uplink VQI) Networking Control Mode Networking Control Mode GSM/TD-SCDMA Interoperability IP QOS

Voice Quality Index (Uplink VQI) Enhanced Measurement Report(EMR) Enhanced Measurement Report(EMR) IP QOS None IP QOS HUAWEI I Handover HUAWEI II Handover GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability None None GPRS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS Abis over IP Configuration Management 2G/3G Neighboring Cell Automatic Optimization BSC/RNC Software Management O&M of BSC A Interface Protocol Process Abis IP over E1/T1 Emergency Call Service (TS12) None None None None None None None None None

None TRX Power Amplifier Intelligent Shutdown Board Switchover A over IP A IP over E1/T1 A over IP A over IP None None Abis over IP Latency A over IPReduction Streaming QoS(GBR) QoS ARP&THP A over IP PoC QoS A over IP Conversational QoS Radio Common Channel Management A over IPReduction Latency Streaming A over IP QoS(GBR) QoS ARP&THP PoC AMRQoS Coding Rate Threshold Adaptive Adjustment Conversational QoS Radio Common Channel Management Abis over IP IP QOS IP QOS O&M of BTS IP QOS IP QOS AMR GPRSFR HUAWEI II Handover HUAWEI I Handover System Information Sending HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS None None Remote EAC Maintenance Faulty Management O&M of BTS Public Voice Group Call Service Network Support SAIC Network Support SAIC Network Support SAIC Faulty Management Dynamic Cell Power Off Dynamic Cell Power Off Dynamic Cell Power Off Dynamic Cell Power Off Dynamic Cell Power Off Radio Dedicated Channel Management Faulty Management Remote EAC Maintenance Faulty Management Remote EAC Maintenance Faulty Management

O&M of BTS O&M of BTS Soft-Synchronized Network Soft-Synchronized Network Enhanced Measurement Report(EMR) Gb over IP Fast Move Handover Configuration Management O&M of BTS Simplified Cell Broadcast O&M of BTS O&M of BSC O&M of BSC O&M of BSC GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability Faulty Management A over IP A IP over E1/T1 O&M of BSC Faulty Management Faulty Management Faulty Management Board Switchover O&M of BTS Support of Daylight Saving Time Configuration Management Configuration Management Assignment and Immediate Assignment Assignment and Immediate Assignment Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management SDCCH Dynamic Adjustment Board Switchover A5/3 Ciphering Algorithm

Active Backup Power Control HUAWEI I Handover HUAWEI II Handover HUAWEI III Power Control Algorithm HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Gb over IP Board Switchover O&M of BTS BTS Power Management Faulty Management Faulty Management O&M of BTS Enhanced Measurement Report(EMR) O&M of BTS System Information Sending End-to-End MS Signaling Tracing HUAWEI I Handover HUAWEI II Handover A Interface Protocol Process Point To Point Short Message Service (TS21, TS22) Group Call EMLPP Group Call EMLPP Multi-Carrier Intelligent Voltage Regulation System Information Sending System Information Sending System Information Sending O&M of BTS O&M of BTS O&M of BSC O&M of BSC Remote Electrical Tilt O&M of BSC A over IP TC Pool Abis over IP PICO Automatic Configuration and Planning O&M of BSC Security Management

Abis over IP O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS SGSN Pool Configuration Management SGSN Pool SGSN Pool SGSN Pool GPRS SGSN Pool GSM Flow Control O&M of BSC RAN Sharing Faulty Management Active Backup Power Control System Information Sending HUAWEI I Handover HUAWEI II Handover Soft-Synchronized Network A Interface Protocol Process A Interface Protocol Process A over IP Gb over IP Gb over IP IP QOS Soft-Synchronized Network HUAWEI I Handover HUAWEI II Handover A Interface Protocol Process Local Multiple Signaling Points HUAWEI I Handover HUAWEI II Handover Load Sharing O&M of BSC O&M of BSC

O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC None None O&M of BSC Soft-Synchronized Network Clock over IP Multi-site Cell BTS Test Function A Interface Protocol Process BSC Node Redundancy Support of Daylight Saving Time Configuration Management None None Faulty Management Support of Daylight Saving Time Configuration Management Flow Control Configuration Management

Configuration Management None A over IP None None O&M of BSC Faulty Management Faulty Management None None Configuration Management MBSC Load Balancing O&M of BTS IP Fault Detection Based on BFD Configuration Management O&M of BSC O&M of BTS O&M of BTS O&M of BTS Configuration Management O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BSC 14-Digit Signaling Point Code A Interface Protocol Process 14-Digit Signaling Point Code A Interface Protocol Process 14-Digit Signaling Point Code A Interface Protocol Process O&M of BSC Radio Common Channel Management A Interface Protocol Process Location Updating IMSI Detach Faulty Management Faulty Management

Voice Fault Diagnosis A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process Group Call Reliability Enhancing Group Call Reliability Enhancing Group Call Reliability Enhancing None HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover System Information Sending Discontinuous Reception (DRX) Short Message Service Cell Broadcast (TS23) MBSC Load Balancing MBSC Load Balancing PS Handover PS Handover Network Assisted Cell Change (NACC) Public Voice Group Call Service GPRS GPRS GPRS GPRS RAN Sharing Latency Reduction RAN Sharing O&M of BSC A Interface Protocol Process O&M of BTS O&M of BTS O&M of BTS HUAWEI I Handover HUAWEI II Handover Configuration Management Configuration Management

Configuration Management Configuration Management O&M of BSC BSC/RNC Clock BSC/RNC Clock HUAWEI I Handover HUAWEI II Handover IP Fault Detection Based on BFD Configuration Management Configuration Management None Configuration Management None BSC/RNC Clock None Configuration Management Configuration Management None None A over IP None None Faulty Management None Configuration Management MBSC Load Balancing O&M of BTS IP Fault Detection Based on BFD Configuration Management O&M of BSC O&M of BTS O&M of BTS O&M of BTS O&M of BSC O&M of BSC

Configuration Management O&M of BTS BSC/RNC Clock Faulty Management Gb over IP Gb over IP O&M of BTS Intelligent Shutdown of TRX Due to PSU Failure IP QOS HUAWEI I Handover HUAWEI II Handover Faulty Management Faulty Management Faulty Management Faulty Management HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Configuration Management MBSC Load Balancing Faulty Management HUAWEI I Handover HUAWEI II Handover Support of Daylight Saving Time Configuration Management O&M of BSC O&M of BSC O&M of BSC Security Management Faulty Management Faulty Management Simplified Cell Broadcast Faulty Management Frequency Hopping (RF hopping, baseband hopping) GSM Flow Control A Interface Circuit Management O&M of BSC TRX Power Amplifier Intelligent Shutdown O&M of BTS TRX Power Amplifier Intelligent Shutdown

GSM Flow Control GSM Flow Control O&M of BTS Group Call Reliability Enhancing TRX Power Amplifier Intelligent Shutdown Ater Interface 4:1 Multiplexing A Interface Circuit Management O&M of BTS O&M of BTS O&M of BTS A Interface Circuit Management O&M of BTS O&M of BSC Security Management 2G/3G Neighboring Cell Automatic Optimization A Interface Protocol Process O&M of BTS EICC A5/1 Encryption Flow Optimization Group Call Reliability Enhancing A Interface Protocol Process Semi-Permanent Connection Cell Frequency Scan O&M of BTS O&M of BTS O&M of BTS O&M of BSC Security Management O&M of BTS O&M of BTS TC Pool TC Pool O&M of BTS Abis MUX UDP MUX for A Transmission Abis MUX O&M of BSC

None Flex Abis Flex Abis O&M of BSC O&M of BTS A Interface Circuit Management BSC/RNC Clock BSC/RNC Clock PDCH Dynamic Adjustment MS High multislot classes Simplified Cell Broadcast Load Sharing Adaptive Adjustment of Uplink and Downlink Channels PDCH Dynamic Adjustment EDA(Extended Dynamic Allocation) DTM Load Sharing Adaptive Adjustment of Uplink and Downlink Channels DTM BTS Local Switch TFO MBSC Handover based on Load Enhancement Access Gb over IP Gb over IP Faulty Management O&M of BSC O&M of BSC O&M of BTS O&M of BTS Support of Daylight Saving Time Configuration Management Configuration Management None License Management IP Fault Detection Based on BFD AMR O&M FR of BTS AMR HR TFO A over IP A over IP O&M of BSC

O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BSC O&M of BTS O&M of BSC Security Management Support of Daylight Saving Time Configuration Management Soft-Synchronized Network GSM/TD-SCDMA Interoperability IBCA (Interference Based Channel Allocation) Soft-Synchronized Network Clock over IP Clock over IP Clock over IP Clock over IP Configuration Management Configuration Management HUAWEI I Handover HUAWEI II Handover Configuration Management Public Voice Group Call Service Configuration Management Configuration Management Gb Interface Function Abis over IP A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process

Gb Interface Function Abis over IP Ring Topology Radio Link Management Radio Link Management Radio Link Management Radio Link Management Radio Link Management Radio Link Management Radio Link Management Fast Ring Network Switch A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process Gb Interface Function Abis over IP HUAWEI I Handover HUAWEI II Handover Public Voice Broadcast Service GPRS GPRS Location Updating Gb Over FR A Interface Protocol Process Gb Interface Function A Interface Protocol Process Gb Interface Function A Interface Protocol Process Gb Interface Function Gb Interface Function A Interface Protocol Process HUAWEI I Handover HUAWEI II Handover Concentric Cell HUAWEI I Handover HUAWEI II Handover Concentric Cell

HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Talker Identification HUAWEI I Handover HUAWEI II Handover Soft-Synchronized Network HUAWEI II Handover Concentric Cell Power Control Power Control O&M of BSC O&M of BTS OML Backup Ring Topology A Interface Protocol Process Gb Interface Function O&M of BTS O&M of BSC TC Pool Dynamic Adjustment Between FR and HR Enhanced Channel Assignment Algorithm Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management Radio Dedicated Channel Management HUAWEI I Handover HUAWEI II Handover HUAWEI III Power Control Algorithm Enhanced Channel Assignment Algorithm A5/1 Encryption Flow Optimization A5/1 Encryption Flow Optimization Concentric Cell Concentric Cell A Interface Protocol Process A Interface Protocol Process

O&M of BSC O&M of BTS None TC Pool None None Configuration Management GSM/TD-SCDMA Interoperability Configuration Management GSM/TD-SCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/TD-SCDMA Interoperability Configuration Management GSM/TD-SCDMA Interoperability GSM/TD-SCDMA Interoperability IP QOS IP QOS O&M of BSC O&M of BSC O&M of BSC Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management O&M of BTS

Configuration Management Configuration Management Configuration Management Configuration Management O&M of BTS BTS Power Management O&M of BTS O&M of BTS System Information Sending Gb Interface Function Simplified Cell Broadcast TFO BTS Test Function Configuration Management O&M of BSC None None None None None GPRS O&M of BTS O&M of BTS QoS ARP&THP QoS ARP&THP QoS ARP&THP QoS ARP&THP QoS ARP&THP QoS ARP&THP QoS ARP&THP QoS ARP&THP QoS ARP&THP IP QOS SGSN Pool BCCH Dense Frequency Multiplexing

BCCH Dense Frequency Multiplexing BCCH Dense Frequency Multiplexing BCCH Dense Frequency Multiplexing BCCH Dense Frequency Multiplexing BCCH Dense Frequency Multiplexing BCCH Dense Frequency Multiplexing IBCA (Interference Based Channel Allocation) MSC Pool O&M of BSC Security Management O&M of BSC Cell Frequency Scan HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Concentric Cell Ethernet OAM Ethernet OAM Ethernet OAM Ethernet OAM Abis MUX HUAWEI I Handover HUAWEI II Handover None Power Optimization Based on Channel Type HUAWEI I Handover HUAWEI II Handover Concentric Cell Enhanced Channel Assignment Algorithm MSC Pool O&M of BSC Security Management GPRS O&M of BTS O&M of BTS O&M of BTS O&M of BSC O&M of BSC O&M of BSC

O&M of BSC O&M of BSC O&M of BSC IP QOS None None BTS Test Function Call Control Faulty Management O&M of BSC Faulty Management A Interface Protocol Process A Interface Protocol Process Configuration Management Satellite Transmission over Ater Interface O&M of BSC Support of Daylight Saving Time Configuration Management Basic Cell Re-selection IP-Based 2G/3G Co-Transmission on Base Station Side IP-Based 2G/3G Co-Transmission on Base Station Side IP-Based 2G/3G Co-Transmission on Base Station Side O&M of BSC O&M of BTS HUAWEI I Handover HUAWEI II Handover GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control GSM Flow Control Adaptive Adjustment of Uplink and Downlink Channels Adaptive Adjustment of Uplink and Downlink Channels A over IP Satellite Transmission over Abis Interface O&M of BSC

IP QOS IP QOS IP QOS O&M of BTS Abis over IP O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS GPRS HUAWEI I Handover HUAWEI II Handover Link aggregation Link aggregation Link aggregation O&M of BTS IP QOS None None Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 IP QOS None O&M of BTS None IP Fault Detection Based on BFD Ethernet OAM TRX Cooperation BTS Test Function Frequency Hopping (RF hopping, baseband hopping) Configuration Management Multi-site Cell Antenna Frequency Hopping Antenna Frequency Hopping

Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Antenna Frequency Hopping Frequency Hopping (RF hopping, baseband hopping) BTS Test Function Frequency Hopping (RF hopping, baseband hopping) Configuration Management O&M of BTS O&M of BTS Multi-site Cell Enhanced Channel Assignment Algorithm O&M of BTS Ater Interface 4:1 Multiplexing A Interface Circuit Management None

Gb Over FR O&M of BSC Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 Frequency Hopping (RF hopping, baseband hopping) GPRS Flex Abis Soft-Synchronized Network None BTS Test Function Semi-Permanent Connection O&M of BSC Configuration Management IP-Based 2G/3G Co-Transmission on Base Station Side O&M of BTS O&M of BSC Enhanced Channel Assignment Algorithm Enhanced Channel Assignment Algorithm Adaptive Adjustment of Uplink and Downlink Channels Adaptive Adjustment of Uplink and Downlink Channels Semi-Permanent Connection O&M of BTS BTS Test Function O&M of BTS BTS Test Function O&M of BTS TRX Power Amplifier Intelligent Shutdown on Timeslot Level O&M of BTS None None Dynamic Cell Power Off Dynamic Cell Power Off Dynamic Cell Power Off Dynamic Cell Power Off

Dynamic Cell Power Off O&M of BTS O&M of BTS Soft-Synchronized Network Soft-Synchronized Network Soft-Synchronized Network Soft-Synchronized Network Soft-Synchronized Network Soft-Synchronized Network Soft-Synchronized Network Radio Common Channel Management Location Updating RAN Sharing RAN Sharing RAN Sharing RAN Sharing RAN Sharing RAN Sharing RAN Sharing RAN Sharing IP QOS IP QOS None Access Configuration Management O&M of BSC Frequency Band GPRS Compact BTS Automatic Configuration and Planning O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS

O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP A over IP Enhanced Channel Assignment Algorithm Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP Abis over IP A over IP Abis MUX UDP MUX for A Transmission

Abis MUX UDP MUX for A Transmission Gb over IP Gb over IP O&M of BSC Security Management O&M of BTS Public Voice Group Call Service Public Voice Broadcast Service None Faulty Management Faulty Management HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI II Handover HUAWEI II Handover Adaptive Adjustment of Uplink and Downlink Channels O&M of BSC RLC Mode HUAWEI I Handover HUAWEI II Handover RLC Mode RLC Mode HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm AMR FR AMR FR AMR FR AMR HR AMR HR AMR HR WB AMR

WB AMR GSM and UMTS Load Balancing Based on Iur-g Enhanced Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm GSM and UMTS Load Balancing Based on Iur-g Enhanced Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm HUAWEI I Handover AMR FR II Handover HUAWEI HUAWEI II Handover AMR HR I Handover HUAWEI HUAWEI II Handover HUAWEI I Handover HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm HUAWEI III Power Control Algorithm Enhanced Power Control Algorithm Enhanced Power Control Algorithm AMR FR WB AMR AMR FR WB AMR AMR FR WB AMR AMR HR AMR HR AMR HR WB AMR

WB AMR Concentric Cell RLC Mode O&M of BSC HUAWEI I Handover HUAWEI II Handover Configuration Management None Gb Over FR Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS GPRS GPRS PDCH Dynamic Adjustment Coding Scheme Simplified Cell Broadcast Load Sharing EGPRS GPRS Adaptive Adjustment of Uplink and Downlink Channels Coding Coding Scheme Scheme GPRS EGPRS PDCH CodingDynamic Scheme Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels Uplink EGPRS2-A Uplink EGPRS2-A GPRS Coding Scheme Extended Uplink TBF EGPRS GPRS Coding Coding Scheme Scheme EGPRS Coding Scheme HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Group Call Reliability Enhancing Abis over IP Enhanced Power Control Algorithm HUAWEI III Power Control Algorithm

IP QOS None HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover Point To Point Short Message Service (TS21, TS22) Extended Uplink TBF CS-3/CS-4 Coding Coding Scheme Scheme CS-3/CS-4 CS-3/CS-4 Coding Coding Scheme Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Coding Scheme Scheme CS-3/CS-4 CS-3/CS-4 Coding Coding Scheme Scheme CS-3/CS-4 Coding Scheme Network-Controlled Cell Reselection (NC2) O&M of BSC GPRS O&M of BSC License Management O&M of BTS O&M of BTS O&M of BTS O&M of BTS Concentric Cell Concentric Cell Concentric Cell Concentric Cell Concentric Cell Concentric Cell GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability O&M of BTS Public Voice Group Call Service Public Voice Broadcast Service Public Voice Group Call Service Public Voice Broadcast Service Public Voice Group Call Service Public Voice Broadcast Service GSM Flow Control GSM Flow Control

GSM Flow Control GSM Flow Control IP QOS None None None Abis IP over E1/T1 A IP over E1/T1 Ethernet OAM Abis over IP Ethernet OAM Configuration Management None None None Abis over IP Abis over IP Configuration Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management Faulty Management O&M of BTS Faulty Management Faulty Management Faulty Management O&M of BTS O&M of BTS Call Control AMR FR AMR HR None Emergency Call Service (TS12) Guaranteed Emergency Call

IBCA (Interference Based Channel Allocation) None O&M of BTS Faulty Management O&M of BSC Security Management BSS-Based LCS (Cell ID + TA) Soft-Synchronized Network O&M of BTS IP Fault Detection Based on BFD Abis over IP O&M of BSC Security Management A over IP O&M of BTS O&M of BTS O&M of BTS O&M of BTS O&M of BTS Configuration Management O&M of BTS Configuration Management None O&M of BTS O&M of BSC OML Backup Ring Topology Board Switchover Support of Daylight Saving Time Configuration Management

Value Type

GUI Value Range

Interval Type

0~70

Interval Type

0~70

Interval Type

10~80

Enumeration Type

TRUE(Support), FALSE(Not Support)

Enumeration Type

NO(No), YES(Yes)

Interval Type

Enumeration Type

10~255 IDLETSALLOC_0(Any idle timeslots under the same site), IDLETSALLOC_1(Idle timeslots on same E1 primary link preferred), 10~255 IDLETSALLOC_2(Idle timeslots on same E1 primary link only), IDLETSALLOC_3(Idle timeslots on same 64K primary link only)

Enumeration Type

CLOSE(CLOSE), OPEN(OPEN)

Interval Type

0~100

Enumeration Type

NO(NO), YES(YES)

Interval Type

10~3600

Enumeration Type

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

Interval Type

1~255

Interval Type

0~250

Enumeration Type

8BIT(8BIT), 11BIT(11BIT)

Interval Type

0~65535

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~31 OSubcell(Overlaid subcell), USubcell(Underlaid subcell), NoPrefer(No preference)

Interval Type

Enumeration Type Interval Type Enumeration Type

0~31 ULPRIORITY(Uplink Priority), NEUTRAL(Neutral Priority), DLPRIORITY(Downlink Priority)

Interval Type

0~9

Interval Type

1~10

Interval Type

15~7200

Enumeration Type

Disable(Disable), Enable(Enable)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

Bit Field Type

COMPUL0(Compulsory 0), COMPUL1(Compulsory 1), FLEX(Flexible) 4_75KBIT/S~0 5_15KBIT/S~1 5_90KBIT/S~2 6_70KBIT/S~3 7_40KBIT/S~4 7_95KBIT/S~5 10_2KBIT/S~6 12_2KBIT/S 4_75KBIT/S~0 5_15KBIT/S~1 5_90KBIT/S~2 6_70KBIT/S~3 7_40KBIT/S~4 7_95KBIT/S

Bit Field Type

6_60KBIT/S, 8_85KBIT/S, 12_65KBIT/S

Enumeration Type

NO(No), YES(Yes)

Bit Field Type

Interval Type

1~255

Interval Type

60~300

Interval Type

610~3000

Interval Type

600~2990

Interval Type

60~300

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~254

Interval Type

0~50

Interval Type

0~768

Bit Field Type

PORT0_CDEF, PORT1_CDEF

Interval Type

1~16777215

Enumeration Type

0(Not support dynamic adjustment), 1(According to downlink quality BYMANUAL(By Manual), BYAUTO(By Auto) measurements reported by MS), 2(According to uplink quality measurements reported by BTS)

Enumeration Type Enumeration Type Enumeration Type

OFF(OFF), ON(ON) COMMON_DLD(Common Download), QUICK_DLD1(Quick Download No Traffic), QUICK_DLD2(Quick Download Reserve BCCH)

Enumeration Type

LOCK(Lock), UNLOCK(Unlock), SHUTDOWN(Shutdown)

Enumeration Type

Lock(Lock), Unlock(Unlock), Shutdown(Shutdown)

Enumeration Type

Lock(Lock), Unlock(Unlock), Shutdown(Shutdown)

Compound Type

hour, min

Interval Type

0~100

Enumeration Type

OFF(OFF), ON(ON)

Compound Type

hour, min

Enumeration Type

RATIORULE(Ratio Rule)

String Type

None

String Type

None

Interval Type

0~600

Interval Type

0~60

Interval Type

-60~-35,0

Interval Type

0~1000

Interval Type

0~15

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

10~100

Interval Type

4_Times, 8_Times, 12_Times, 16_Times, 20_Times, 24_Times, 28_Times, 1~10 32_Times, 36_Times, 40_Times, 44_Times, 48_Times, 52_Times, 56_Times, 60_Times, 64_Times

Enumeration Type

Interval Type

0~63

Interval Type

0~65534

Enumeration Type Enumeration Type

4_Times, BSC(BSC)8_Times, 12_Times, 16_Times, 20_Times, 24_Times, 28_Times, 32_Times, 36_Times, 40_Times, 44_Times, 48_Times, 52_Times, 56_Times, 60_Times, 64_Times

Interval Type

0~63

Interval Type

65334~65383

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Interval Type

65033~65533

String Type

None

Interval Type

1~60

Enumeration Type

ALL(All), ONEBYONE(One by One)

Enumeration Type

ALL(all), ONEBYONE(one by one)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

ABIS(Abis), A(A)

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type Enumeration Type

0~100 NO(Not Supported), R3(Only R3 Supported), R2(Only R2 Supported), R2ANDR3(R2 And R3 Supported)

Interval Type

-12~12

Interval Type

-23~-4

Interval Type

3~12

Interval Type

-23~-4

Interval Type

-23~-4

Enumeration Type

FIXEDLEVEL(Fixed level mode), ADAPTIVE(Adaptive mode), FIXEDGAIN(Fixed gain mode)

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

5~15

Interval Type

1~255

Interval Type

0~4000000

Enumeration Type

NOTALLOW(Not Allow), ALLOW(Allow)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~100

Enumeration Type

NOTALLOW(Not Allow), ALLOW(Allow)

Interval Type

0~16

Interval Type

0~100

Enumeration Type

ALLCIC(Set all Timeslots CIC), ALLNULL(Set all Timeslots Null)

Enumeration Type

ALLCIC(Set all Timeslots CIC), ALLNULL(Set all Timeslots Null)

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~65535

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~65534

Interval Type

0~65535

Interval Type

0~15

Interval Type

45~155

Interval Type

125~175

Interval Type

0~65535

Interval Type

0~100

Interval Type

0~100

Interval Type

0~250

Interval Type

0~250

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

flt(Fault), evt(Event), all(All) 0(0.0), 1(0.1), 2(0.2), 3(0.3), 4(0.4), 5(0.5), 6(0.6), 7(0.7), 8(0.8), 9(0.9), 10(1.0)

Enumeration Type

Interval Type

0~9

Interval Type

-1000~10000

Interval Type

0~6553

Interval Type

-3281~32810

Bit Field Type

Critical, Major, Minor, Warning

Enumeration Type

Critical(Critical), Major(Major), Minor(Minor), Warning(Warning)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Interval Type

1~16

Enumeration Type

OFF(Not Allowed), ON(Allowed)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~20

Interval Type

0~3

Interval Type

0~7

Interval Type

0~7

Interval Type

1~20

Interval Type

0~7

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~7

Interval Type

0~100

Interval Type

0~255

Interval Type

0~255

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Interval Type

0~100

Interval Type

0~32

Interval Type

0~30

Interval Type

0~30

Interval Type

0~30

Interval Type

0~32

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~15

Interval Type

0~4

Interval Type

0~15

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~99

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~20

Interval Type

0~3

Interval Type

0~7

Interval Type

0~7

Interval Type

1~20

Interval Type

0~7

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~65535

Interval Type

0~65535

Interval Type

3~30

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

10~30

String Type

None

Interval Type

0~4599

Interval Type

0~4599

String Type

None

Enumeration Type

MODE0(Mode 0), MODE1(Mode 1), MODE2(Mode 2)

Interval Type

-32~0

Interval Type

-64~0

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~360

Interval Type

0~1000

Enumeration Type

SENDPOWER(Send Power), NOPOWER(No Power)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~35

Enumeration Type

A(A), B(B)

Enumeration Type

A(A), B(B)

Enumeration Type

A(A), B(B), NULL(NULL)

Interval Type

0~335

Enumeration Type

M3UA(M3UA), BBAP(BBAP)

Enumeration Type

MTP2(MTP2), OTHER(OTHER), TCSTM1(TCSTM1)

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

1~65535

Interval Type Enumeration Type

0~65535 PRIMARY(Primary Area), STANDBY(Standby Area), ALL(Primary and Standby Area)

Enumeration Type

PRIMARY(Primary), STANDBY(Standby)

Interval Type

0~80

Interval Type

5~126

Interval Type

5~100

Interval Type

3~10

Interval Type

3~10

Interval Type

0~27

Interval Type

0~27

Interval Type

0~11

Bit Field Type

power, env, sig, trunk, hardware, software, run, comm, service, handle

Enumeration Type

power(Power System), env(Environment System), sig(Signaling System), trunk(Trunk System), hardware(Hardware System), software(Software System), run(Running System), comm(Communication System), service(QoS), handle(Processing Error)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

0~61

Interval Type

0~62,255

Interval Type

0~62

Interval Type

0~23,255

Interval Type

0~23

Interval Type

0~255

Interval Type

0~254

Interval Type

0~63

Interval Type

500~60000

Interval Type

1~300

Interval Type

1~300

Interval Type

1~300

Interval Type

1~300

Interval Type

1~300

Interval Type

1~300

Interval Type

1~300

Enumeration Type

NO(Close), YES(Open)

Interval Type

0~63

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Close(Close), Open(Open)

Interval Type

80~100

Interval Type

0~254

Interval Type Bit Field Type

TS1, 0~100TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Enumeration Type

NO, YES

Interval Type

0~1

Interval Type

0~254

Interval Type

0~2047

Enumeration Type

TDM(TDM), IP(IP)

Enumeration Type

A(Tributary A), B(Tributary B), ALL(All Tributary)

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~15

Interval Type

0~15

Interval Type

1~65535

Interval Type

1~60

Enumeration Type

NONE(Verify None), PEER(Verify Peer Certificate)

Enumeration Type

SERVER(SERVER), CLIENT(CLIENT)

Enumeration Type

SERVER(SERVER), CLIENT(CLIENT)

Enumeration Type

SERVER(Server), CLIENT(Client)

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

NO_V(NO_V), PAP_V(PAP_V), CHAP_V(CHAP_V)

Enumeration Type

NO_V(NO_V), PAP_V(PAP_V), CHAP_V(CHAP_V)

Enumeration Type

NO_V(No Validate), PAP_V(PAP Validate), CHAP_V(CHAP Validate)

Enumeration Type

ENABLE, DISABLE

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type Enumeration Type

DISABLED(Disabled), ENABLED(Enabled) BTSAUTODLDACT(BTS Software Auto DL and ACT), TMUAUTOACT(TMU Software Auto ACT)

Enumeration Type

OFF(Off), ON(On)

Interval Type

1~65535

Enumeration Type

AU4(AU4), AU3(AU3) O1E3_R1E4(OCCUR:1E-3, RECOVERY:1E-4), O1E4_R1E5(OCCUR:1E-4, GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus RECOVERY:1E-5), O1E5_R1E6(OCCUR:1E-5, RECOVERY:1E-6), O1E3_R1E4(OCCUR:1E-3, RECOVERY:1E-4), O1E4_R1E5(OCCUR:1E-4, O1E6_R1E7(OCCUR:1E-6, RECOVERY:1E-7), O1E7_R1E8(OCCUR:1E-7, LOW(LOW), HIGH(HIGH) RECOVERY:1E-5), RECOVERY:1E-8), O1E5_R1E6(OCCUR:1E-5, O1E8_R1E9(OCCUR:1E-8, RECOVERY:1E-6), RECOVERY:1E-9), O1E6_R1E7(OCCUR:1E-6, RECOVERY:1E-7), O1E7_R1E8(OCCUR:1E-7, O1E9_R1E10(OCCUR:1E-9, RECOVERY:1E-10), LOW(LOW), HIGH(HIGH) RECOVERY:1E-8), O1E8_R1E9(OCCUR:1E-8, RECOVERY:1E-9), O1E10_R1E11(OCCUR:1E-10, RECOVERY:1E-11), O1E9_R1E10(OCCUR:1E-9, RECOVERY:1E-10), O1E11_R1E12(OCCUR:1E-11, RECOVERY:1E-12) O1E10_R1E11(OCCUR:1E-10, RECOVERY:1E-11), O1E11_R1E12(OCCUR:1E-11, RECOVERY:1E-12)

Enumeration Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type

Enumeration Type

O1E4_R1E5(OCCUR:1E-4, RECOVERY:1E-5), O1E5_R1E6(OCCUR:1E-5, RECOVERY:1E-6), O1E6_R1E7(OCCUR:1E-6, RECOVERY:1E-7), O1E4_R1E5(OCCUR:1E-4, O1E7_R1E8(OCCUR:1E-7, RECOVERY:1E-5), RECOVERY:1E-8), O1E5_R1E6(OCCUR:1E-5, O1E8_R1E9(OCCUR:1E-8, RECOVERY:1E-6), O1E6_R1E7(OCCUR:1E-6, RECOVERY:1E-9), O1E9_R1E10(OCCUR:1E-9,RECOVERY:1E-7), RECOVERY:1E-10), O1E7_R1E8(OCCUR:1E-7, RECOVERY:1E-8), O1E8_R1E9(OCCUR:1E-8, O1E10_R1E11(OCCUR:1E-10, RECOVERY:1E-11) RECOVERY:1E-9), O1E9_R1E10(OCCUR:1E-9, RECOVERY:1E-10), O1E10_R1E11(OCCUR:1E-10, RECOVERY:1E-11)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

String Type

None

String Type

None

Interval Type

0~70

Enumeration Type

CLOSE(Close), LOCALTLLI(Local TLLI Opt), ALLTLLI(All TLLI Opt)

String Type

None

IP Address Type

None

IP Address Type

None

Enumeration Type Enumeration Type

BYTRX(Turn off TRX), BYPWR(Reduce Backup Power) BYCOVER(Cover Priority), BYCAP(Capability Priority), BYSAVING(Saving Priority)

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

1~200

String Type

None

Interval Type

Enumeration Type

0~2047 Battery1Temp(Battery 1 Temperature), Battery2Temp(Battery 2 Temperature) Battery1Temp(Battery 1 Temperature), Battery2Temp(Battery 2 Temperature)

Interval Type

30~1000

Enumeration Type

NO(NO), YES(YES)

Interval Type Enumeration Type

0~90 NO_BAT(No Storage Battery), INSIDE_BAT(Inside Storage Battery), OUTSIDE_BAT(Outside Storage Battery)

Interval Type

1024~65535

Interval Type

0~254

Interval Type

0~5000

Interval Type

0~7

Interval Type

0~7

Interval Type

0~7

Interval Type

0~1023

Interval Type

0~1023

Enumeration Type

NO_Hop(No hop), Hop(Hop)

Enumeration Type

Enumeration Type

Interval Type

0~100

Interval Type

0~100

Interval Type

0~63

Interval Type

0~511

Interval Type

5~25

Interval Type

433~576

Enumeration Type

NO(NO), YES(YES)

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Enumeration Type

MTP3(MTP3), M3UA(M3UA), MTP3_M3UA(MTP3 and M3UA)

Interval Type

1~60

Interval Type

0~10

Interval Type

0~3

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~32

Interval Type

1~32

Interval Type

3~10

Interval Type

1~2

Interval Type

10~254

Enumeration Type

ALL(All), PART(Part)

Interval Type

-10000~10000

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

0~65534

Interval Type

60~65534

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

1~6

Interval Type

1~120

Interval Type

0~335

Interval Type

0~5,8~27

Interval Type

0~11

Interval Type

0~5000

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

nonrpt(Not Report), rpt(Report)

Enumeration Type

0(0), 1(1), 2(2), 3(3), 4(4), 5(5), 6(6), NULL(NULL)

Enumeration Type

0(0), 1(1), 2(2), 3(3), 4(4), 5(5), 6(6), NULL(NULL)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~16

Interval Type

0~127

Interval Type

1~16

Enumeration Type

SCU, GCU, XPU, INT, TNU

Enumeration Type

Enumeration Type

SCU, GCU, XPU, DPU, INT, TNU DATM_MAIN, DATU_MAIN, DDPM_MAIN, DDPU_MAIN, DDRM_MAIN, DEMU_MAIN, DFCU_MAIN, DHEU_MAIN, DOMU_MAIN, SCU, GCU, MPU, GCP, DPU,DGPS_MAIN, INT, TNU DPMU_MAIN, DPTU_MAIN, DRFU_MAIN, DRFUBOOT_MAIN, INT, DPU, XPU, TNU, OMU, SAU DRU_MAIN, DTCU_MAIN, DTMU_MAIN, DRRU_MAIN, DRRUBOOT_MAIN, DTRU_MAIN, ETR_MAIN, FMU_MAIN, FMUA_MAIN, GATM_MAIN, 0~72 GTMU_MAIN, IASU_MAIN, IOMU_MAIN, MFU_3001C, MMU_3001C, MRRU_MAIN, MTR_MAIN, NFCB_MAIN, PBU_MAIN, QTRU_MAIN, 0~47 TMU_MAIN, TRX_MAIN, GRRU_MAIN, BTS3900B_MAIN, BTS3900BBOOT_MAIN, MRFU_MAIN, GRFU_MAIN, MRRUBOOT_MAIN, 0~1000 MRFUBOOT_MAIN, USCU_MAIN, BTS3900E_MAIN, BTS3900EBOOT_MAIN, BOOTROM_PCK, UBRI_MAIN, UTRP_MAIN

Interval Type

0~1000

Enumeration Type Enumeration Type

DPUa, DPUc PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa, OMUa, OMUb, SAUa

Enumeration Type

FG2a, GOUa, FG2c, GOUc

Enumeration Type

PEUa, POUc

Enumeration Type

PEUa, POUc

Enumeration Type

Enumeration Type

PEUa, POUc TMU(TMU/DTMU), DTRU(DTRU), DPTU(DPTU), QTRU(QTRU), MRRU(MRRU), GRRU(GRRU), BTS3900B(BTS3900B), MRFU(MRFU), MRRU, GRRU, MRFU, GRFU, BTS3900E GRFU(GRFU), BTS3900E(BTS3900E), DRFU(DRFU), DRRU(DRRU), UBRI(UBRI), UTRP(UTRP)

Interval Type

0~255

Any Type

None

Interval Type

2~3600

Enumeration Type

ENTIRE(Entire Backup), INCREMENTAL(Incremental Backup)

Interval Type

0~7

Interval Type

1~16777215

Enumeration Type

NO(No), YES(Yes)

Enumeration Type Enumeration Type Interval Type Interval Type Interval Type

Enumeration Type

Enumeration Type

MAINBSC(MAIN BSC), SUBBSC(SUB BSC)

IP Address Type

None

Compound Type

hour, min

Compound Type

hour, min

Interval Type

0~15

Interval Type

0~15

Interval Type

5~60

IP Address Type

None

IP Address Type Enumeration Type

None UNCONDITIONALSTART(Unconditional Start), ATERCONGESTS(Start When Ater Congests), PREFIXNUMBER(Start by Prefix Number)

String Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~335

Interval Type

0~65535

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~4294967295

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~65535

Interval Type

0~27

Interval Type

0~11

Interval Type

0~7

Interval Type

0~2500

Interval Type

0~15

Interval Type

1~15

Interval Type

1~31

Interval Type

0~15

Enumeration Type

Enumeration Type

NO(No), YES(Yes) 2_M_PERIOD(2 Multiframe Period), 3_M_PERIOD(3 Multiframe Period), 4_M_PERIOD(4 Multiframe Period), 5_M_PERIOD(5 Multiframe Period), 0~12 6_M_PERIOD(6 Multiframe Period), 7_M_PERIOD(7 Multiframe Period), 8_M_PERIOD(8 Multiframe Period), 9_M_PERIOD(9 Multiframe Period)

Interval Type

1~4

Interval Type

Enumeration Type

0~12 NEITHERSTART(Neither Start), BTSPRIORITY(BTS Priority), BSCPRIORITY(BSC Priority), BTSONLY(BTS Only), BSCONLY(BSC Only) NONSUPPORT(Not Support), BASIC(Basic Fun), ENHANCED(Enhanced Fun)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

Enumeration Type

PEUa, EIUa, OIUa, POUc SCUa, GCUa, GCGa, PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa SCUa, GCUa, GCGa, PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa, ALL

Enumeration Type

PEUa, POUc, EIUa, OIUa

Enumeration Type

PEUa, POUc, EIUa

Interval Type

Enumeration Type

Enumeration Type

Enumeration Type

PEUa, POUc, EIUa, OIUa

Enumeration Type

Enumeration Type

POUc, OIUa PWC(PWC), EAC_EMUA(EAC_EMUA), DTMU(DTMU), DATM_DATU(DATM_DATU), NFCB(NFCB), EMU_DEMU(EMU_DEMU), POUc, OIUa DPMU(DPMU), DCBM_DCOM(DCBM_DCOM), DHEU(DHEU), FG2a, GOUa, FG2c, GOUc, MPW(MPW), POUc ECOM(ECOM), MFU(MFU), MCD(MCD), IASU(IASU), PTU(PTU), TMU(TMU), PSU_APSU(PSU_APSU), EIUa PMU_APMU(PMU_APMU), 3001C_MFU(3001C_MFU), TEU(TEU), CDU(CDU), PCDU(PCDU), DCDU(DCDU), CDUC(CDUC), CDUP(CDUP), DATU(DATU), GATM(GATM), DRRU(DRRU), MRRU(MRRU), TES(TES), PBU(PBU), DPBU(DPBU), RPBU(RPBU), PPBU(PPBU), RCDU(RCDU), CDUR(CDUR), CDUE(CDUE), EDU(EDU), PEDU(PEDU), MRFU(MRFU), GRFU(GRFU), GRRU(GRRU), BTS3900E(BTS3900E) SCU(SCU), MDU(MDU), UPEU(UPEU), UEIU(UEIU), FMU(FMU), REDU(REDU), DEDU(DEDU), EDUC(EDUC), EDUP(EDUP), EDUR(EDUR), FMUA(FMUA), DTCU(DTCU), GATM(GATM), DGPS(DGPS), USCU(USCU), EDUE(EDUE), DDPM_DDPU(DDPM_DDPU), DFCU(DFCU), DFCB(DFCB) UBRI(UBRI), FAN(FAN), EMU(EMU), PMU(PMU), TCU(TCU), PSU(PSU), DRRU(DRRU), UTRP(UTRP) DRFU(DRFU), MRRU(MRRU), XRRU(XRRU), TRX(TRX_DEFAULT), TRX_GPRS(TRX_GPRS), DRU(TRX_30), MRFU(MRFU), GRFU(GRFU), GRRU(GRRU), XRFU(XRFU), PTRX(PTRX), ETRX(ETRX), RTRX(RTRX), DTRX(DTRX), RETR(RETR), BTS3900E(BTS3900E) CDU(CDU), CDUC(CDUC), CDUE(CDUE), DETR(DETR), EETR(EETR),CDUP(CDUP), PETR(PETR),CDUR(CDUR), MTR(MTR), TRU(TRU/DTRU), PCDU(PCDU), QTRU(QTRU) RCDU(RCDU), DCDU(DCDU), EDU(EDU), EDUC(EDUC), EDUP(EDUP), EDUR(EDUR), EDUE(EDUE), PEDU(PEDU), REDU(REDU), DEDU(DEDU), DDPM_DDPU(DDPM_DDPU), DFCU(DFCU), DFCB(DFCB)

Enumeration Type

CFGBM(BM), CFGTC(TC)

Enumeration Type

CFGBM(BM), CFGTC(TC)

Enumeration Type

NO(No), YES(Yes)

String Type

None

Enumeration Type

LOGICIP(Logic IP), PORTIP(Port IP), PPP/MP(PPP/MP)

Enumeration Type

LOGICIP(Logic IP), PORTIP(Port IP), PPP/MP(PPP/MP)

String Type

None

Enumeration Type

CLOSE(CLOSE), OPEN(OPEN)

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~2047

Enumeration Type

BYIDX(By BTS Index), BYNAME(By BTS Name)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Interval Type

0~2047,65535

IP Address Type

None UNCONDITIONALSTART(Unconditional Start), ABISCONGESTS(Start When Abis Congests), PREFIXNUMBER(Start by Prefix Number)

Enumeration Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type

Enumeration Type IP Address Type Enumeration Type

None BSC_Preprocessing(BSC preprocessing), BTS_Preprocessing(BTS preprocessing)

String Type

None

String Type

None

String Type

None

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~16

Enumeration Type

OFF(Off), ON(On)

String Type

Enumeration Type

None BTS30, BTS312, BTS3001C, BTS3001CP, BTS3002C, BTS3012A, BTS3012(BTS3012), BTS3006A, BTS3012,BTS3006C(BTS3006C), BTS3006C, BTS3002E,BTS3002E(BTS3002E), BTS3012AE, BTS3012_II, 1~250 BTS3012AE(BTS3012AE), BTS3012_II(BTS3012_II), DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, DBS3900_GSM(DBS3900 GSM), BTS3900_GSM(BTS3900 GSM), BTS3036A, BTS3900B_GSM, BTS3900E_GSM, BTS3900L_GSM BTS3900A_GSM(BTS3900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900L_GSM(BTS3900L BTS3900B_GSM(BTS3900B GSM), BTS3900E_GSM(BTS3900E GSM) GSM), BTS3900B_GSM(BTS3900B GSM), BTS3900E_GSM(BTS3900E GSM)

Interval Type

0~1000000

Enumeration Type Enumeration Type

BIULOOP(BIU Loopback Test), TRXSELFTEST(TRX Self Loopback Test) NO_BAT(No Storage Battery), INSIDE_BAT(Inside Storage Battery), OUTSIDE_BAT(Outside Storage Battery)

Interval Type

10~255

Enumeration Type

NO(NO), YES(YES)

Interval Type

2~65534

Interval Type

2~65534

Interval Type

1000~3000

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~200000

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~100

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~100

Interval Type

0~200000

Interval Type

100~1000

Enumeration Type

FULL_DUPLEX(Full Duplex), HALF_DUPLEX(Half Duplex)

Interval Type

0~100

Interval Type

20~100

Enumeration Type

BYIDX(By Cell Index), BYNAME(By Cell Name)

Enumeration Type

C31NOTUSE(Not Use c31 standard), C31STANDARD(Use c31 standard)

Interval Type Enumeration Type Enumeration Type

Interval Type

0~1

String Type

None

Interval Type

0~8

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~4095

Enumeration Type

NO(No), YES(Yes)

Enumeration Type Enumeration Type

OFF(OFF), ON(ON) GSM900(GSM900), DCS1800(DCS1800), GSM850(GSM850), PCS1900(PCS1900)

Enumeration Type

NULL(NULL), IPLGCPORT(IP Logic Port), RSCGRP(Resource Group)

Enumeration Type

ETHER, IPLOGICPORT, TRUNK, PPP, MP

Enumeration Type

ETHPORT, TRUNK

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~3

IP Address Type

None

Interval Type

0~63

Interval Type

0~65535

Interval Type

5~180

Enumeration Type

NO(No), YES(Yes)

Interval Type

4500~32767

Interval Type

1~5

Interval Type

0~31

Interval Type

0~31

Interval Type

0~65535

Enumeration Type

DISABLE(Disabled), ENABLE(Enabled)

Interval Type

0~255

Interval Type

20~100

Interval Type

0~63

Enumeration Type

10, 100, 1000

Interval Type

0~100

Interval Type

0~7

Interval Type

0~7

Interval Type

0~1023

Enumeration Type

AUTO(Auto), MANU(Manu)

Interval Type

0~1023

Enumeration Type

AUTO(Auto), MANU(Manu)

Interval Type

0~50

Interval Type

0~7

Interval Type

0~7

Enumeration Type

Permit(Permit Cell Access), NoPermit(Prohibit Cell Access)

Enumeration Type

OUTDOOR_CELL(Outdoor Cell), INDOOR_CELL(Indoor Cell)

Interval Type

240~289

Interval Type

433~576

Interval Type

240~289

Interval Type

432~575

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~2047,65535

Interval Type

0~2047

Interval Type

0~2047

String Type

None

Enumeration Type

BYNAME(By name), BYID(By index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

Inner(Inner), Extra(Extra)

Enumeration Type

1, 2, 3, 4

String Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

String Type

None

String Type

None

String Type

None

String Type Enumeration Type

None OP1(Operator 1), OP2(Operator 2), OP3(Operator 3), OP4(Operator 4), NONE(Not Shared)

Interval Type

0~63

Interval Type

0~63

Interval Type

1~20

Enumeration Type

NO(NO), YES(YES)

Interval Type

350~553

Enumeration Type

2G(Preference for 2G Cell), 3G(Preference for 3G Cell)

Interval Type Enumeration Type

0~100 COMMON(COMMON), MULTIPATH(MULTIPATH), INDOOR(INDOOR), HIGHWAY(HIGHWAY)

Enumeration Type

NO(No), YES(Yes)

Interval Type

400~790

Interval Type

-190~50

Interval Type

0~1000

Interval Type

-500~0

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~63

Interval Type

0~63

Interval Type

20~90

String Type

None

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NULL(NULL), IPLGCPORT(IP Logic Port), RSCGRP(Resource Group)

Enumeration Type

AUTO(AUTOPLAN), NORMAL(NORMAL)

Enumeration Type

ENABLE(Enable), DISABLE(Disable)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Password Type

Bit Field Type

None G_0~0 G_1~1G_17, G_2~2 G_3~3 G_4~4 G_5~5 G_6~6 G_7~7 G_15, G_16, G_18, G_19, G_20, G_21, G_22, G_23,G_8~8 G_24,G_9~9 G_25, G_10~10 G_11~11 G_12~12 G_13~13 G_14~14 G_15~15 G_16~16 G_26, G_27, G_28, G_29, G_30, G_31 G_17~17 G_18~18 G_19~19 G_20~20 G_21~21 G_22~22 G_23~23 G_24~24 G_25~25 G_26~26 G_27~27 G_28~28 G_29~29 G_30~30 G_31

Interval Type

20~90

Interval Type

20~90

Enumeration Type

OFF(OFF), ON(ON)

String Type

None

Interval Type

0~2

Interval Type

30~100

Interval Type

30~100

Interval Type Enumeration Type

30~100 QUICK_HO_NCELL_TYPE_A(QUICK_HO_NCELL_TYPE_A), QUICK_HO_NCELL_TYPE_B(QUICK_HO_NCELL_TYPE_B)

Enumeration Type

CHAINTORING(ChainToRing), COMBINECHAINS(CombineChains)

Enumeration Type

Enumeration Type

CAPABILITY(Capability preferred), QUALITY(Quality preferred), PSRELATIVELY(PS relatively preferred), PSABSOLUTELY(PS absolutely preferred)

Interval Type

0~100

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~100

Interval Type

0~65535

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~64

Interval Type

1~5

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

MODE1(Mode 1), MODE2(Mode 2), MODE3(Mode 3)

Enumeration Type

MODE1(Mode 1), MODE2(Mode 2), MODE3(Mode 3)

Interval Type

0~511

Interval Type

0~511

Interval Type

5~20

Interval Type

5~20

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

ALDER32(ALDER32), CRC32(CRC32)

Enumeration Type

SBFD, ARP, MBFD

Interval Type

0~12

Interval Type

1~7

Interval Type

0~169

Interval Type Enumeration Type

TRXRFSELFLOOP(TRX RF Self Loopback Test), BIULOOP(BIU Loopback 0~7 Test), BTSSPEECHLOOP(BTS Speech Loopback Test), TRXSPEECHLOOP(TRX Speech Loopback Test)

Enumeration Type

FULLTCH(FULLTCH), HALFTCH(HALFTCH)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type Enumeration Type

NO(No), YES(Yes) NOSENDING(Force NO Sending), SYSTEMOPT(System Optimization), SENDING(Force Sending)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

10~800

Interval Type

Enumeration Type

TCHFR(TCH Full Rate), TCHHR(TCH Half Rate), SDCCH8(SDCCH8), 10~800 MBCCH(Main BCCH), CBCCH(Combined BCCH), BCH(BCH), BCCH_CBCH(BCCH+CBCH), SDCCH_CBCH(SDCCH+CBCH), 100~600000 PBCCH_PDTCH(PBCCH+PDTCH), PCCCH_PDTCH(PCCCH+PDTCH), PDTCH(PDTCH), DPDCH(Dynamic PDCH)

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~160

Interval Type

1~12

Enumeration Type

OFF(Off), ON(On)

Interval Type

1~100

Interval Type

1~60

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Enumeration Type

NO(No), YES(Yes) NOTSENDING(Not sending), SENDINGPRO(sending according to protocol), SENDING(unconditionally sending) NOTSENDING(Not sending), SENDINGPRO(sending according to protocol), SENDING(unconditionally sending)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~1562

Interval Type

0~22

Interval Type

0~27

Interval Type

0~11

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support) ERR_PFM_1E6(RECOVERY:1E-6), ERR_PFM_5E6(RECOVERY:5E-6), ERR_PFM_1E5(RECOVERY:1E-5), ERR_PFM_5E5(RECOVERY:5E-5), NO(No), YES(Yes) ERR_PFM_1E4(RECOVERY:1E-4), ERR_PFM_5E4(RECOVERY:5E-4), INCLK(Internal Clock), BSCCLK(Trace BSC Clock), EXCLK(External ERR_PFM_1E3(RECOVERY:1E-3) Synchro Clock), IPCLK(IP Clock), TRANSCLK(Trace Trans Clock), GPSCLK(Trace GPS Clock), UMCLK(Um Clock), PEERCLK(PEER Clock)

Interval Type

Enumeration Type

Enumeration Type Enumeration Type Enumeration Type Enumeration Type

Enumeration Type

HW_DEFINED(Huawei User-defined), PTP(PTP Protocol) INT_CLK(Internal Clock), TRCBSC_CLK(Trace BSC Clock), EXTSYN_CLK(External Sync clock), IP_TIME(IP Clock), GCUa, GCGa IP_TRANSFER(Trace Transport Clock), TRCGPS_CLK(Trace GPS Clock), UM_CLK(Um Clock), PEER_CLK(Peer Clock)

Interval Type

0~255

Bit Field Type

cleared, uncleared

Interval Type

0~255

Enumeration Type

String Type

None

String Type

None

Interval Type

0~19

Interval Type

1~3

Interval Type

0~62

Interval Type

0~62

Interval Type

0~62

Interval Type

0~62

Interval Type

0

Interval Type

1~60

Interval Type

0~4095

Interval Type

0~4095

Interval Type

0~31

Interval Type

Enumeration Type

0~3 BTS3012(BTS3012), BTS3012AE(BTS3012AE), BTS3006C(BTS3006C), NONE(None), AINTFBLOCK(AInterf Block) BTS3012_II(BTS3012 II), BTS3002E(BTS3002E), DBS3900_GSM(DBS3900 GSM), BTS3900_GSM(BTS3900 GSM), BTS3900A_GSM(BTS3900A GSM), 1~150000 DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900_GSM_6RFC(BTS3900 GSM 6RFC), BTS3002C, BTS3012A, BTS3006A BTS3900A_GSM_6RFC(BTS3900A GSM 6RFC), BTS3036_6RFC(BTS3036 6RFC), BTS3036A_6RFC(BTS3036A 6RFC)

Interval Type

10000~50000

Interval Type

0~250

Interval Type

0~250

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~1023

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

Enumeration Type

BYSITE(By Site), BYCELL(By Cell)

Interval Type Bit Field Type

0~100 L0_FORBID, L1_FORBID, L2_FORBID, L3_FORBID, L4_FORBID, L5_FORBID, L6_FORBID, L7_FORBID, L8_FORBID, L9_FORBID

Bit Field Type

LOWERCASE, UPPERCASE, DIGIT, SPECIALCHARACTER

Interval Type

1~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Enumeration Type Interval Type Enumeration Type

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~335

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

ALL(ALL Type), ONLY_SSL(Only SSL Connection)

Enumeration Type

INNER(Internal RNC), EXTERNAL(External RNC)

Interval Type

0~60

Interval Type

1~200

Enumeration Type

NO(NO), YES(YES)

Interval Type

1~28

Interval Type

1~60

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Enumeration Type

OFF(Off), ON(On), NOTSUPPORT(Not Support)

Enumeration Type

0dB, 2dB, 4dB, 6dB, 8dB, 10dB, 12dB, 14dB

String Type

None

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

1~255

Interval Type

1~255

Interval Type

0~63

Interval Type

1~255

Enumeration Type

UNAVAILABLE(UNAVAILABLE), AVAILABLE(AVAILABLE)

Bit Field Type

VOICEINF, MR, CALLAPPENDINF, CALLINNERINF

Interval Type

0~100

Enumeration Type

OFF(Not Output), ON(Output) RESINSUFF, UMABNORM, TRAFFREJECT, MSCREL, MSCDISCON, BADQUALITY

Bit Field Type

Interval Type Enumeration Type

0~100 BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

Interval Type

0~7

Interval Type

0~100

Interval Type

0~7

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), ON(Output) OFF(Not Output), MRHOFAIL(Preferentially Output MR of HO Failure), MRHOLATEST(Preferentially Output MR of Latest HO)

Enumeration Type Enumeration Type Enumeration Type Enumeration Type

COMMONUSRM(Common User Mode), SPECUSRM(Specified User Mode) ABNORMREC(Output Abnormal Records in BSC), ALLBSCREC(Output All Records in BSC), ALLCELLREC(Output All Records in Cells)

Enumeration Type

OFF(OFF), ON(ON) OFF(Not Output), ALL(Output All), AINTF(Output A Interface Signaling), ABISINTF(Output Abis Interface Signaling)

Interval Type

30~100

Bit Field Type

LU, SMS, CALL

Interval Type

0~100

Enumeration Type Enumeration Type

OFF(Not Output), ON(Output) BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

Interval Type

0~7

Interval Type

0~100

Interval Type

0~7

Enumeration Type

ON(ON), OFF(OFF)

Interval Type

40000~50000

Interval Type

5000~150000

Interval Type

1000~2000

Interval Type

400~600

Interval Type

7500~9500

Interval Type

80~120

Interval Type

3000~6000

Interval Type

500~2000

Interval Type

1~100

Interval Type

30~100

Interval Type

30~100

Interval Type

1~16777215

Enumeration Type

4BURST(4Burst), RLC/MAC(RLC/MAC)

Enumeration Type

NO(Cancel Control Flag), YES(Set Control Flag)

Interval Type

0~62

Interval Type

0~5

Interval Type

0~23

Interval Type

0~254

Interval Type

0,2,4,8,10,12,14,16,18,20,22,24,26

Interval Type

0~27,255

Interval Type

0~11,255

Enumeration Type

ON(ON), OFF(OFF)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~99

Interval Type

10~255

String Type

None

Interval Type

1~31

Interval Type Bit Field Type

1~31 NT14_5K~0 NT12K~1 NT6K~2 T14_4K~3 T9_6K~4 T4_8K~5 T2_4K~6 T1_2K~7 T600_BITS~8 T1200_75

Enumeration Type

NOLIMIT(No Limit), LIMIT(Limit)

Compound Type

YEAR, MONTH, DAY

Interval Type

1~12

Interval Type

0~31

Interval Type

0~30

Enumeration Type

Inner(Inner), Extra(Extra)

Interval Type

0~2047

String Type

None

Enumeration Type

BYNAME(By Name), BYID(By Index)

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

350~556

Interval Type

580~600

Interval Type

433~555

Interval Type

580~600

Interval Type

0~32

Interval Type

500~60000

Interval Type

0~186

String Type

None

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

1~1000

Enumeration Type

BSC, BTS

Enumeration Type

BTS, BSC, DXX, OTHER

Interval Type

0~27

Interval Type

0~11

Interval Type

0~7

Interval Type

0~3071

Interval Type

0~255

Interval Type

3~10

Enumeration Type

OFF(OFF), ON(ON)

String Type

None

Interval Type

0~35

IP Address Type

None

Enumeration Type

LOGIC_IP(Logical IP Address)

Interval Type

0~16383

Interval Type

0~23

Interval Type

0~254

Enumeration Type

NO(Not Default DPC), YES(Default DPC)

Enumeration Type

DEFAULTPORT(Default 21 Port), CUSTOMPORT(Custom Port)

Interval Type

1~60

IP Address Type

Enumeration Type

None MON_1(No.1), MON_2(No.2), MON_3(No.3), MON_4(No.4), MON_5(No.5), MON_6(No.6), MON_7(No.7), MON_8(No.8), MON_9(No.9), 0~63 MON_10(No.10), MON_11(No.11), MON_12(No.12), MON_13(No.13), MON_14(No.14), MON_15(No.15), MON_16(No.16), MON_17(No.17), DISABLE(DISABLE), ENABLE(ENABLE) MON_18(No.18), MON_19(No.19), MON_20(No.20), MON_21(No.21), MON_22(No.22), NO(No), YES(Yes)MON_23(No.23), MON_24(No.24), MON_25(No.25), MON_26(No.26), MON_27(No.27), MON_28(No.28), MON_29(No.29), MON_30(No.30), MON_31(No.31) SUN(Sunday), MON(Monday), TUE(Tuesday), WED(Wednesday), THU(Thursday), FRI(Friday), SAT(Saturday)

String Type

None

Interval Type Enumeration Type Enumeration Type Enumeration Type

String Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~15

Enumeration Type

NO(No), YES(Yes)

Interval Type

4~32

Interval Type

4~32

Interval Type

4~32

Enumeration Type

N0(No), YES(Yes)

Interval Type

0~255

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

16~1007

Interval Type

1~255

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Interval Type

0~63

Interval Type

1~10

Interval Type

1~30

Interval Type

1~30

Interval Type

0~127

Interval Type

1~30

Interval Type

1~30

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~63

Interval Type

0~70

Interval Type

1~100

Interval Type

1~20

Interval Type

2~255

Interval Type

2~255

Interval Type

2~255

Interval Type

2~255

Interval Type

1~30

Interval Type

1~30

Interval Type

1~100

Interval Type

0~3

Interval Type

0~7

Interval Type

0~7

Interval Type

1~20

Interval Type

0~7

Interval Type

0~63

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~10

Interval Type

0~19

Interval Type

0~63

Interval Type

0~63

Interval Type

1~20

Interval Type

0~10

Interval Type

0~19

Interval Type

1~20

Interval Type

0~100

Interval Type

0~100

Interval Type

0~63

Interval Type

0~63

Interval Type

0~300

Interval Type

0~255

Interval Type

1~255

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Enumeration Type

CS1(CS1), CS2(CS2), CS3(CS3), CS4(CS4) MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS1(MCS1), MCS6(MCS6), MCS2(MCS2), MCS7(MCS7), MCS3(MCS3), MCS8(MCS8), MCS4(MCS4), MCS9(MCS9) MCS7(MCS7), MCS1(MCS1), MCS3(MCS3),DAS7(DAS7), MCS4(MCS4), MCS7(MCS7), MCS8(MCS8), MCS2(MCS2), DAS5(DAS5), DAS6(DAS6), DAS8(DAS8), MCS8(MCS8), DAS5(DAS5), DAS6(DAS6), DAS7(DAS7), DAS8(DAS8), DAS9(DAS9), DAS10(DAS10), DAS11(DAS11), DAS12(DAS12) DAS9(DAS9), DAS10(DAS10), DAS11(DAS11), DAS12(DAS12), UNFIXED(UNFIXED)

Enumeration Type Enumeration Type Enumeration Type

Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS5(MCS5), CS1(CS1), CS2(CS2), CS3(CS3), CS4(CS4), MCS4(MCS4), UNFIXED(UNFIXED) MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), MCS9(MCS9), UNFIXED(UNFIXED)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~5000

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~255

Interval Type

1~16777215

String Type

None

Interval Type

0~31

Interval Type

0~31

Interval Type

0~31

Enumeration Type

STP(STP), A(A), IUR_G(IUR_G), LB(LB)

Enumeration Type

Interval Type

0~186

Interval Type

0~182

Interval Type

0~128

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

1~60

Interval Type

0~12

Interval Type

2~10

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

0(0), 1(1), 2(2), 4(4), 8(8), 16(16), 32(32), 64(64)

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

Interval Type

0~335

Interval Type

0~335

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

1~3600

Interval Type

0~27

Interval Type

0~21

Interval Type

0~27

Interval Type

0~21

Interval Type

0~21

Interval Type

0~30

Enumeration Type

NO(NO), YES(YES)

String Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type Bit Field Type

TS1, 0~335TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

0~100

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~12

Enumeration Type

1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), 8(8), 9(9), 10(10), 11(11), 12(12)

Interval Type

0~1

Interval Type

0~1,255

Interval Type

0~23

Interval Type

0~23,255

Interval Type

0~53

Interval Type

0~53,255

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

FULL(FULL), HALF(HALF)

Interval Type

0~12

Interval Type

1~24

Interval Type

0~59

Interval Type

0~59

Interval Type

10~80

Interval Type

0~63

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~15

Interval Type Enumeration Type

10~3600 LEVEL0(Preempt all dynamic TCHFs), LEVEL1(No preempt of CCHs), LEVEL2(No preempt of service TCHF)

Interval Type

0~8

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NOTSUPPORT(Not Support), DDIVERSITY(DDIVERSITY), DPBT(DPBT)

Interval Type

1~60

Interval Type

0~7

Interval Type Enumeration Type

ACTIVE(ACTIVE TMU/MMU/IOMU/DOMU), 0~31 ACTIVESTANDBY(ACTIVE/STANDBY TMU), SLAVE1(SLAVE TMU1/DOMU1), SLAVE2(SLAVE TMU2/DOMU2), UTRP(UTRP)

Interval Type

0~83

Interval Type

0~7

Interval Type

16~19

Enumeration Type

E1(E1), T1(T1)

IP Address Type

None

Interval Type

0~49

Interval Type

0~49

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~2147483646

Compound Type

year, month, date

Compound Type

year, month, day

Compound Type

year, month, day

Compound Type

year, month, day

Interval Type

1~31

Interval Type

1~255

Interval Type

1~255

Interval Type

0~11

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~32

Interval Type

1~32

Interval Type

1~32

Interval Type

1~32

Interval Type

1~32

Interval Type

1~32

Enumeration Type

NO(Effect Later), YES(Effect Immediately)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~31

Interval Type

0~31 DATE(Input with date), WEEK(Input with week), DATEWEEK(Input with date and week)

Enumeration Type Interval Type

Enumeration Type

1~15 ERR_PFM_5E6(OCCUR:5E-6), ERR_PFM_1E5(OCCUR:1E-5), ERR_PFM_5E5(OCCUR:5E-5), ERR_PFM_1E4(OCCUR:1E-4), OFF(OFF), ON(ON) ERR_PFM_5E4(OCCUR:5E-4), ERR_PFM_1E3(OCCUR:1E-3), ERR_PFM_5E3(OCCUR:5E-3)

Interval Type

0~63

Enumeration Type Enumeration Type

NoPriority(No Priority), Priority4(Priority 4), Priority3(Priority3), NO(No), YES(Yes) Priority2(Priority 2), Priority1(Priority 1), Priority0(Priority 0), PriorityB(Priority B), PriorityA(Priority A)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Interval Type

0~7

Interval Type Enumeration Type

JAN(January), FEB(February), MAR(March), APR(April), MAY(May), 2~4094 JUN(June), JUL(July), AUG(August), SEP(September), OCT(October), NOV(November), DEC(December)

IP Address Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

ENABLED(Enabled), DISABLED(Disabled)

Bit Field Type

A5/0~0 A5/1~1 A5/2~2 A5/3~3 A5/4~4 A5/5~5 A5/6~6 A5/7

Enumeration Type

AUTO(Automatic), PLAINTEXT(Plain Text), ENCRYPTED(SSL Encrypted)

Enumeration Type

AUTO(Auto), PLAINTEXT(Plain Text), ENCRYPTED(SSL Encrypte)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~65535

Interval Type

0~65535

Interval Type

0~65535

Enumeration Type

Interval Type

1~31

Interval Type Enumeration Type

-990~400 JAN(Jan.), FEB(Feb.), MAR(Mar.), APR(Apr.), MAY(May), JUN(Jun.), JUL(Jul.), AUG(Aug.), SEP(Sep), OCT(Oct.), NOV(Nov.), DEC(Dec)

Enumeration Type

0(0), 2(2), 4(4), 6(6)

Compound Type

hour, min

Interval Type

8~255

Interval Type

1~31

Interval Type

1~31

Enumeration Type

DISABLED(Prohibit to Use), ENABLED(Available)

Enumeration Type

DISABLED(Prohibit to Use), ENABLED(Available)

Interval Type

0~100

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(Off), ON(On)

Interval Type

1~255

Interval Type

0~63

Interval Type

0~100

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~100

Enumeration Type

Enumeration Type

NO(No), YES(Yes) M3UA_ASP~0||(M3UA_ASP)$$(M3UA_ASP)** M3UA_IPSP(M3UA_ASP)** M3UA_IPSP~2||(M3UA_IPSP)$$(M3UA_IPSP) M3UA_SGP(M3UA SGP), M3UA_IPSP(M3UA IPSP), M3UA_SS7SP(M3UA SS7SP), M3UA_SP(M3UA SP)

Interval Type

0~63

Enumeration Type

OFF(Off), ON(On)

Interval Type

Enumeration Type

1~4294967295 O1E3_R5E4(OCCUR:1E-3, RECOVERY:5E-4), O5E4_R1E4(OCCUR:5E-4, RECOVERY:1E-4), NO(No), YES(Yes) O1E4_R5E5(OCCUR:1E-4, RECOVERY:5E-5), O5E5_R1E5(OCCUR:5E-5, RECOVERY:1E-5), O1E5_R5E6(OCCUR:1E-5, RECOVERY:5E-6), O5E6_R1E6(OCCUR:5E-6, RECOVERY:1E-6)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~63

Interval Type

0~7

Interval Type

0~7

Interval Type

2~4094

Interval Type

1~2147483646

Interval Type

500~60000

Enumeration Type

Enumeration Type

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~255

Compound Type

HOUR, MIN, SEC

Compound Type

year, month, date, hour, min, sec

Compound Type

hour, min

Enumeration Type

ONE_BY_ONE(Execute One by One), PARALLEL(Parallel Execute)

Compound Type

year, month, date, hour, min, sec

Compound Type

hour, min, sec

Compound Type

hour, min, sec

Compound Type

year, month, day, hour, min, sec

Compound Type

year, month, day

Compound Type

hour, min, sec LOGINEVENT(Login Event), MANAGEEVENT(Management Event), AUTHEVENT(Authentication Event), OTHEREVENT(Other Event)

Enumeration Type Compound Type

Enumeration Type

hour, min, sec SUN(Sunday), MON(Monday), TUE(Tuesday), WED(Wednesday), THU(Thursday), FRI(Friday), SAT(Saturday) FIRST(First), SECOND(Second), THIRD(Third), FOURTH(Fourth), LAST(Last)

String Type

None

String Type

None

Enumeration Type

VOLTAGE(Voltage), CURRENT(Current)

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

VOLTAGE(Voltage), CURRENT(Current)

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

VOLTAGE(Voltage), CURRENT(Current)

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

VOLTAGE(Voltage), CURRENT(Current)

Enumeration Type

String Type

None

String Type

None

Enumeration Type

NoExclusive(NoExclusive), Exclusive(Exclusive)

Interval Type

0~100

Interval Type

0~63

Interval Type

0~63

Interval Type

2048~5047

String Type

None

Interval Type

5048~8047

String Type

None

Interval Type

2048~5047

String Type

None

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type Enumeration Type

EM0(EM0), EM1(EM1) 60sec(60sec), 120sec(120sec), 240sec(240sec), 480sec(480sec), 960sec(960sec), 1920sec(1920sec), 3840sec(3840sec), 7680sec(7680sec)

Enumeration Type

TYPE1(TYPE1), TYPE2(TYPE2), TYPE3(TYPE3)

Enumeration Type

Normal_cell(Normal cell), DualTS_ExtCell(Double Timeslot Extension Cell)

Enumeration Type

SEND(SEND), NOTSEND(NOTSEND)

Interval Type

0~255

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~63

Enumeration Type

PLUS_1(Current FanSpeed Plus 1), MINUS_1(Current FanSpeed Minus 1)

Enumeration Type

HIGH_SPEED, LOW_SPEED

Interval Type

55~100 CONTINUOUS(Continuous), DISCRETE(Discrete), DUTY_RATIO(Duty Ratio)

Enumeration Type

Enumeration Type

NO_SPEED_ADJUSTMENT(No Speed Adjustment), Fan) NORMAL_FAN(Normal Fan), IND_FAN(Independent HW_AUTO_TEMPERATURE_CONTROL(Auto Temperature Control), SPECIFY_RATE(Specify Rate), SOFTWARE_CONTROL(Software Control)

Enumeration Type

IND_FAN(Independent Fan), NORMAL_FAN(Normal Fan)

Interval Type

0~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~100

Interval Type

0~1999

Interval Type

0~1999

Interval Type

0~1999

Interval Type

0~1999

Interval Type

10~1999

Interval Type

0~1999

Interval Type

2~1999

Interval Type

0~62

Interval Type

0~62

Interval Type

0~100

Enumeration Type

None(None), 16bit(16bit), 32bit(32bit)

Enumeration Type

None(None), 16bit(16bit), 32bit(32bit)

Enumeration Type

ON, OFF

Interval Type

432~575

Enumeration Type

AUTO(Auto), MANU(Manu)

Enumeration Type

AUTO(Auto), MANU(Manu)

Interval Type

0~7

Interval Type

0~7

Interval Type

0~1

Interval Type

0~16383

Interval Type

0~49

Interval Type

0~3

Interval Type

0~7

Interval Type

0~7

Interval Type

0~15

Enumeration Type

RSCP(RSCP), EcN0(Ec/N0)

Interval Type

0~15

Interval Type

0~63

Interval Type

0~511

Interval Type

1~1000

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type Enumeration Type

NO_FH(No frequency hopping), BaseBand_FH(Baseband frequency 0~1000 hopping), RF_FH(RF frequency hopping), Hybrid_FH(Hybrid frequency hopping)

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

txt(.txt File), csv(.csv File)

Interval Type

0~32

Enumeration Type

FALSE(Failed), TRUE(Succeeded)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

Interval Type

0~100

Interval Type

0~65534

Interval Type

0~65534

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

60~65534

Interval Type Enumeration Type

60~65534 FIX_16K_ABIS(Fix Abis), FLEX_ABIS(Flex Abis), SEMI_ABIS(Semisolid Abis)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~65535

Interval Type

0~65535

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~200

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~19

Enumeration Type

INDOOR(Indoor), OUTDOOR(Outdoor)

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

OPEN(Open), CLOSE(Close)

Interval Type

1~300

Interval Type

0~30

Enumeration Type

Close(Close), Open(Open)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~31

Interval Type

0~23

Interval Type

1~30

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

128~1024

Interval Type

-2715647~2715647

Interval Type

0~255

Enumeration Type

Enumeration Type

NO(No), YES(Yes) ONTIME(Fixed Time), DAILY_T(Day Based Scheduling), DAILY_C(Day Based Duration), WEEKLY_T(Week Based Scheduling), WEEKLY_C(Week ONTIME(Fixed Time), RELATIVE_T(Relative Time) Based Duration), MONTHLY_T(Month Based Scheduling), MONTHLY_C(Month Based Duration)

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Enumeration Type

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Enumeration Type

Enumeration Type

PGSM900(PGSM900), EGSML25(EGSM), EGSM35M(EGSM<35M>), NO(No), YES(Yes) RGSML25(RGSM), GSM900_RGSM39M(GSM900_RGSM<39M>), DCS1800(DCS1800), PCS1900(PCS1900), GSM850(GSM850), 0~65535 EGSM24M(EGSM<24M>), DCS1800_L(DCS1800), DCS1800_H(DCS1800)

Interval Type

0~100

Interval Type

0~1023

Enumeration Type

LOOSE(Loose), TIGHT(Tight)

String Type

None

Enumeration Type

MainDiversity(MainDiversity), MaximumMeanValue(MaximumMeanValue)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

May_Use(May Use), Shall_Use(Shall Use), Shall_NOT_Use(Shall not Use)

Interval Type

0~23

Interval Type

0~23

Interval Type

0~255

Interval Type

0~254

Enumeration Type

TXT(Plain Text Type), CSV(CSV Type)

Interval Type

0~33

Interval Type

1~33

Interval Type

0~33

Interval Type

0~255

Interval Type

0~600

Interval Type

1~32

Interval Type

0~255

Interval Type

0~600

Interval Type

1~32

Interval Type

0~200000

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~100

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~100

Interval Type

Interval Type

0~200000

Interval Type

0~200

Interval Type

0~100

Enumeration Type

A0, U1

Interval Type

0~31

Compound Type

hour, min

Interval Type

0~100

Enumeration Type

OFF(OFF), ON(ON)

Compound Type

hour, min

Enumeration Type

NO(Not Support), YES(Support)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

DEG(DEG), SEC(SEC)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes) OFF(Disable the golbal route management), ON(Enable the golbal route management)

Enumeration Type Interval Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Interval Type

4~32 NO(Not support), SupportAsInnPcu(Support as built-in PCU), SupportAsExtPcu(Support as external Pcu) NO(Not Support),DB108(-108dB), SupportAsInnPcu(Support As Inner Pcu), DB110(-110dB), DB106(-106dB), DB104(-104dB), DB102(SupportAsExtPcu(Support As Outer Pcu) 10sec(10sec), 20sec(20sec), 30sec(30sec), 40sec(40sec), 50sec(50sec), 102dB), DB100(-100dB), DB98(-98dB), DB96(-96dB), DB94(-94dB), DB92(0dB(0dB), 2dB(2dB), 4dB(4dB), 6dB(6dB), 8dB(8dB), 10dB(10dB), 60sec(60sec), 70sec(70sec), 80sec(80sec), 90sec(90sec), 100sec(100sec), 92dB), DB90(-90dB), DB88(-88dB), DB86(-86dB), DB84(-84dB), DB82(GPRS(GPRS Channel), EGPRSNORCH(EGPRS Normal Channel), 12dB(12dB), 14dB(14dB) 110sec(110sec), 120sec(120sec), 130sec(130sec), 140sec(140sec), 82dB), DB80(-80dB), DB78(-78dB), DB76(-76dB), DB74(-74dB), DB72(EGPRSPRICH(EGPRS Priority Channel), EGPRSSPECH(EGPRS Special 150sec(150sec), 160sec(160sec), 170sec(170sec), 180sec(180sec), 72dB), DB70(-70dB), DB68(-68dB), DB66(-66dB), DB64(-64dB), DB62(Channel), NONGPRS(Non-GPRS Channel) 190sec(190sec), 200sec(200sec), 220sec(220sec), 62dB), DB60(-60dB), DB58(-58dB),210sec(210sec), DB56(-56dB), DB54(-54dB), DB52(230sec(230sec), 240sec(240sec), 250sec(250sec), 52dB), DB50(-50dB), DB48(-48dB), nouse(no use) 260sec(260sec), 270sec(270sec), 280sec(280sec), 290sec(290sec), 300sec(300sec), 310sec(310sec), 320sec(320sec), nouse(no use)

Enumeration Type

0~7 0db(0db), 10db(10db), 20db(20db), 30db(30db), 40db(40db), 50db(50db), 60db(60db), infinity(infinity), nouse(no use)

Enumeration Type

GPS(GPS), GLONASS(Glonass), GPSGlonass(GPSGlonass)

Interval Type

1~60

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~100000000

Interval Type

0~100000000

Interval Type

0~65534

String Type

None

Interval Type

0~512

Interval Type

0~2047

Enumeration Type

IP(IP)

Enumeration Type

LAC_CI(CELL IMME), PLMN(ALL), LAC(LAC), CI(CELL)

Interval Type

0~100

Interval Type

1~15

Interval Type

0~3

Enumeration Type Bit Field Type

ECHOREPLY, UNREACH, UNSUPPORT(Not Support),SOURCEQUENCH, SUPPORT(Support)REDIRECT, ECHO, ROUTERADVERT, ROUTERSOLICIT, TIMXCEED, PARAMPROB, TSTAMP, TSTAMPREPLY, IREQ, IREQREPLY, MASKREQ, MASKREPLY

IP Address Type

None

IP Address Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Interval Type

0~600

Interval Type

1~32

Interval Type

0~255

Interval Type

1~32

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Interval Type

1000~600000

Interval Type

0~62

Interval Type

1~16

Interval Type

1~16

Interval Type

0~65535

Interval Type

0~65535

Enumeration Type

DCS1800, PCS1900

Interval Type

1~14

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~10

Enumeration Type Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support) SysOpt(System optimization), OSubcell(Overlaid subcell), USubcell(Underlaid subcell), NoPrefer(No preference)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~63

Interval Type

0~63

Enumeration Type

BYCELLNAME(By cell name), BYCGI(By CGI)

String Type Enumeration Type

None HOALGORITHM1(Handover algorithm I), HOALGORITHM2(Handover algorithm II)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~16

Interval Type

0~16

Interval Type

0~63

Interval Type

1~32

Interval Type

1~32

Interval Type

0~49

Interval Type Enumeration Type

FREE(Free), INCELL(Intra-cell), OUTCELL(Outgoing cell), OUTST(Outgoing 1~32 site), OUTBSC(Outgoing BSC), OUTSYS(Outgoing system), SPCELL(Specified cell)

Interval Type

0~127

Interval Type Enumeration Type

0~61 Pre_2G_Cell(Preference for 2G cell), Pre_3G_Cell(Preference for 3G cell), Pre_2G_CellThres(Preference 2G cell by thresh)

Interval Type

0~255

Interval Type

0~63

Interval Type

0~63

Enumeration Type

BaseBand_FH(BaseBand FH), RF_FH(RF FH)

Enumeration Type

NO(Not StartUp), YES(StartUp), NONE(None)

Interval Type

0~63

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~63

Interval Type Enumeration Type

0~23 NO_FH(No Frequency Hopping), BaseBand_FH(Baseband Frequency Hopping), RF_FH(RF Frequency Hopping)

Interval Type

0~63

Interval Type

1~60

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~32

Interval Type

1~32

Interval Type

1~32 SINGLEHOST(SINGLEHOST), PRIMHOST(PRIMHOST), SLAVEHOST(SLAVEHOST) SINGLEHOST(Single Host), PRIMHOST(Primary Host), SLAVEHOST(Slave Host)

Enumeration Type Enumeration Type

Interval Type

0~63

Interval Type

0~63

Enumeration Type

NO_HPANT(No), YES_HPANT(Yes), NONE(None)

Enumeration Type

NO_HPANT(No), YES_HPANT(Yes)

Interval Type

0~5

Interval Type

1~14

Enumeration Type

NO(NO), YES(YES)

Interval Type

350~556

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

May_Use(May Use), Shall_Use(Shall Use), Shall_NOT_Use(Shall not Use)

Interval Type

0~63

Interval Type

0~23

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~254

Enumeration Type

SBFD(SINGLE_HOP), MBFD(MULTI_HOP)

Interval Type

-99~70

Interval Type

0~30

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Enumeration Type

CLOSE(Close), OPEN(Open)

String Type

None

String Type

None

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

1~30

Interval Type

180~1260

Interval Type

Enumeration Type

E1PORT0(E1 PORT0), E1PORT1(E1 PORT1), E1PORT2(E1 PORT2), 1~60 E1PORT3(E1 PORT3), OPTICALPORT0(OPTICAL PORT0), OPTICALPORT1(OPTICAL PORT1) MAINDOMU(MAIN DOMU), SLAVEDOMU1(SLAVE DOMU1), SLAVEDOMU2(SLAVE DOMU2)

Interval Type

60~600

Interval Type

0~23

Enumeration Type

Interval Type

0~23

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~20

Interval Type

1~4

Interval Type

0~14

Interval Type

0~14

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~20

Enumeration Type

OFF(Not Allowed), ON(Allowed)

Enumeration Type

OFF(Not Allowed), ON(Allowed)

Interval Type

0~23

Interval Type

0~20

Interval Type

0~23

Interval Type

0~31

Enumeration Type

NO(No), YES(Yes)

Interval Type

2~600

Interval Type

0~63

Interval Type

0~63

Interval Type

0~22

Interval Type

0~22

Interval Type

0~63

Enumeration Type

0(Max. optimized MAIO), 1(Randomization MAIO)

Interval Type

5~40

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~63

Interval Type

0~30

Interval Type

0~20

Interval Type

0~16

Interval Type

0~63

Interval Type

2~600

Interval Type

0~50

Interval Type

0~10

Interval Type

0~63

Interval Type

0~160

Interval Type

0~23

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(Not Allowed), ON(Allowed)

Interval Type Enumeration Type

0~63 NO(Disabled in OL and UL subcell), UNDER(Enabled in UL subcell), INNER( Enabled in OL subcell), YES(Enabled in OL and UL subcell)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~23

Enumeration Type

NO(NO), YES(YES), NULL(NULL)

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

44~1024

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

1~30

Interval Type

1~30,100~32767

Interval Type

0~65535

Interval Type

0~255

Interval Type

0~255

Interval Type

0~63

Enumeration Type

BYIDX(By Index), BYNAME(By Name)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By name), BYID(By index), BYCGI(By CGI)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Interval Type

0~255

Enumeration Type

BYTLLI(By TLLI), BYIMSI(By IMSI)

Enumeration Type

BYCELL(By Cell), BYBSC(By BSC)

Enumeration Type

YES(Yes), NO(No)

Interval Type

0~15

Enumeration Type

Positive(Positive), Minus(Minus)

Interval Type

0~125

Enumeration Type

NO(Not Report), YES(Need Report)

Interval Type

0~32

String Type

None

Interval Type

1000~30000

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(Not Support), YES(Support)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~254

Interval Type

1~5

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~255

String Type

None

String Type

None

Interval Type

500~60000

Interval Type

0~8

Interval Type

1~30

Interval Type

0~360

Interval Type

0~62

Enumeration Type

NO(NO), YES(YES)

Interval Type

1~32

Interval Type

1~32

Bit Field Type

CELLCAPCLASS, NACCRELATED

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~39

Interval Type

0~39

Interval Type

0~50

Interval Type

0~3

Interval Type

0~3

Interval Type

TS0, 0~2 TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Bit Field Type

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~2047

String Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Interval Type

0~63

Interval Type

0~100

Interval Type

0~335

Interval Type

0~23

Interval Type

0~15

Enumeration Type

Degree(Degree), D_min_sec(Degree Minute Second)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~27

Interval Type

0~23

Interval Type

0~11

Interval Type

0~254

Interval Type

2~3600

Interval Type

0~127

Enumeration Type

INTBANI(INTBANI), INTBANII(INTBANII)

Interval Type

0~127

Interval Type

0~255

Interval Type

1~16

Interval Type

1~16

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

48~115

Interval Type

48~115

Interval Type

48~115

Interval Type

48~115

Interval Type

48~115

Interval Type

48~115

Interval Type

0~60

Interval Type

1~31

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~49

Interval Type

0~49

Interval Type

1~49

Interval Type

1~91

Interval Type

0~91

Interval Type

1~91

Enumeration Type Enumeration Type

Service-based(Service-based), Load-based(Load-based), DynamicNO(No), YES(Yes) based(Dynamic Service/Load-based), CnService-based(CN Service-based), OFF(OFF)

Interval Type

1~240

Interval Type

1~10

Interval Type

0~31

Interval Type

0~63

Interval Type

500~60000

Interval Type

500~60000

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

500~60000

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~49

Interval Type

1~255

Interval Type

0~91

Interval Type

0~255

Interval Type

0~31

Interval Type

1~1440

Interval Type

30~1024

Enumeration Type

NO(No), YES(Yes)

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

0~100

Interval Type

Enumeration Type

0~100 No_HC(No_HC), UDP/IP_HC(UDP/IP_HC), RTP/UDP/IP_HC(RTP/UDP/IP_HC) No_HC(No_HC), UDP/IP_HC(UDP/IP_HC), RTP/UDP/IP_HC(RTP/UDP/IP_HC)

Interval Type

0~5

Interval Type

0~5

Interval Type

0~12999

Enumeration Type

IP_OVER_FE/GE, IP_OVER_E1

Enumeration Type

IP_OVER_FE/GE(IP_OVER_FE/GE), IP_OVER_E1(IP_OVER_E1)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

UNSUPPORT(Not Support Reducy), SUPPORT(Support Reducy)

Enumeration Type

UNSUPPORT(Not Support Reducy), SUPPORT(Support Reducy)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(Not support), YES(Support)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(Not support), YES(Support)

Enumeration Type

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(Not support), YES(Support)

Enumeration Type

STATIC(Static), DYNAMIC(Dynamic)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

YES(Configure), NO(Not Configure)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

YES(YES), NO(NO)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NOT_CONFIG(NOT CONFIGURED), CONFIG(CONFIGURED)

Interval Type

1~64

Interval Type

1~30

Enumeration Type

TRUE(Support), FALSE(Not Support)

Interval Type

0~65535 ABIS(Abis Interface), A(A Interface), ATER(ATER Interface), IUR_G(IUR_G Interface)

Enumeration Type Enumeration Type

Enumeration Type

PPP(PPP), MP(MP) OVERLAID(Overlaid Subcell), UNDERLAID(Underlaid Subcell), CONVERT0(Only convert at UL), CONVERT1(Only convert at OL), NONE(None) CONVERT2(UL first and convert allowed), CONVERT3(OL first and convert allowed)

Interval Type

1~32

Interval Type Enumeration Type

1~32 Normal_cell(Normal Cell), Concentric_cell(Concentric Cell), EDB_cell(Enhanced Double Frequency Cell)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

Hexadecimal(Hex decimal), Character_String(Character String)

String Type

None

String Type

None

Enumeration Type

NULL, 1byte, 16byte, 64byte

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

Hexadecimal(Hex decimal), Character_String(Character String)

String Type

None

Enumeration Type

String Type

None

Enumeration Type

NULL, 1byte, 16byte, 64byte

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

Hexadecimal(Hex decimal), Character_String(Character String)

Enumeration Type

NULL, 1BYTE, 16BYTE, 64BYTE

String Type

None

String Type

None

Enumeration Type

ZERO(zero), SPACE(space)

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

1~255

Enumeration Type Enumeration Type

DENY(Deny), ALLOW(Allow) NOT-INDICATE-END(NOT-INDICATE-END), INDICATE-END(INDICATEEND)

Interval Type

0~63

Interval Type

1~30

Interval Type

1~65533,65535

Interval Type

1~65533,65535

Enumeration Type

STATIC_LACP, MANUAL_AGGREGATION

String Type

None

Interval Type

0~90

Interval Type

0~90

Interval Type

0~59

Interval Type

0~9

Interval Type

0~59

Interval Type

-90000000~90000000

String Type

None

Interval Type

1~100

Interval Type

0~100

Interval Type

0~10000

Interval Type

0~15

Interval Type

0~15

Enumeration Type

1, 2, 3, 4

Enumeration Type

1, 2, 3, 4

Interval Type

0~100

Interval Type

0~300

Interval Type

Enumeration Type

0~300 CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference TCHH), CSFHHO(CS TCHF-TCHH HO) CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference TCHH), CSFHHO(CS TCHF-TCHH HO) CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference TCHH), CSFHHO(CS TCHF-TCHH HO)

Interval Type

0~186

Enumeration Type Enumeration Type

CRITICAL(Critical), MAJOR(Major), MINOR(Minor) INFO(Information Level), WARN(Warn Level), ERR(Error Level), AST(Assert Level)

Enumeration Type

ON(ON), OFF(OFF)

Interval Type

0~7

Enumeration Type

NO(Not Support), YES(Support), NONE(Invalid)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~63

Interval Type

1~32

Interval Type

Enumeration Type

1~32 OAM, TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, FR, HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Pb_TDM, A_TDM, Abis_IP, SAU TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, FR, HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Pb_TDM, A_TDM, Abis_IP

Enumeration Type

IP, Abis_IP

Enumeration Type

A/Gb, Abis/Ater/Pb/Gb

Interval Type

5120~5375

Interval Type

0~99

Interval Type

90~99

Interval Type

70~95

Interval Type

Enumeration Type

TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), 0~17407 TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), DIFFERENCE, ALLTS10(Time_slot_10), TS11(Time_slot_11), TS9(Time_slot_9), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), 64K(64Kbit/s), 2M(2Mbit/s) TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), None TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), None TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)

Interval Type

0~40

Interval Type

40~80

Enumeration Type

LUCENT_MODE, HUAWEI_MODE, ALCATEL_MODE

Enumeration Type

8K(8Kbit/s), 16K(16Kbit/s), 32K(32Kbit/s), 64K(64Kbit/s), 2M(2Mbit/s) B0000(B0000), B0001(B0001), B0010(B0010), B0011(B0011), M3UA_MASTER_MOD(M3UA_MASTER_MOD), B0100(B0100), B0101(B0101), B0110(B0110), B0111(B0111), M3UA_SLAVE_MOD(M3UA_SLAVE_MOD) B1000(B1000), B1001(B1001), B1010(B1010), B1011(B1011), B1100(B1100), B1101(B1101), B1110(B1110), B1111(B1111)

Enumeration Type Enumeration Type

Enumeration Type

Enumeration Type Enumeration Type String Type String Type

Enumeration Type Enumeration Type

Enumeration Type

B0000(B0000), B0001(B0001), B0010(B0010), B0011(B0011), B0100(B0100), B0101(B0101), B0110(B0110), B0111(B0111), B1000(B1000), B1001(B1001), B1010(B1010), B1011(B1011), B1100(B1100), B1101(B1101), B1110(B1110), B1111(B1111)

Interval Type

0~100

Enumeration Type

RANDOMALG(Random Algorithm), OTHERALG(MS ID Algorithm)

Interval Type

1~10

Interval Type

0~1000

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~127

Interval Type

0~255

Interval Type

0~63

Interval Type

1~255

Interval Type

1~63

Interval Type

1~16

Interval Type

0~63

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

FORBID(Forbid), PERMIT(Permit)

Interval Type

0~63

Interval Type

0~100

Interval Type

0~100

Enumeration Type Enumeration Type

NOTSTADYNPDCH(Not count dynamic PDCH), NO(No), YES(Yes) DYNPDCHASOCCUPY(Count dynamic PDCH(Occupy)), DYNPDCHASIDLE(Count dynamic PDCH(Idle))

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~65534

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

0~1023

Interval Type

0~1

Interval Type

0~35

Interval Type

0~35

String Type

None

IP Address Type

None

IP Address Type

None

Enumeration Type

OFF(Unlock), ON(Lock)

Interval Type

1024~65535

Enumeration Type Enumeration Type

LFB(Load from OMU and write flash), CL(Consult Load) NORMMODE(Normal Mode), RAPMODENOSERV(Rapid Mode), RAPMODERESSERV(Rapid Mode)

Interval Type

30~100

Interval Type

30~100

Enumeration Type

NO(NO), YES(YES)

Interval Type

Bit Field Type

0~988 PFM_RESULT, HOST_PFM_RESULT, ACTIVE_DEF_MEAS_FILE, 0~5,8~27 STANDBY_DEF_MEAS_FILE, PFM_SWITCHS, HISTORY_ALARM, HISTORY_FAULT, ALM_SYSTEM_CFG, SECURITY_LOG, OPT_LOG, 30~100 OMU_LOG, BSC_CFG_MML, CELL_BASIC_INFO, BSC_SERIES_NO, DB_BAK, 30~100 MEM_DB_BAK, BTS_BASIC_INFO, BTS_CHECK_LOG, BTS_DEBUG_LOG, BTS_CHR_LOG, TRX_LOG, BTS_NET_TABLE, DEBUG_LOG, LAST_WORD, DSP_DEBUG_LOG, HOST_LOG, ON, OFF 2G_CHR_LOG, 2G_UNILATERAL_CONNECT, BSC_INFO, GCSR_LOG, GPSR_LOG, AIDG_LOG, BIOS_LOG

Enumeration Type

COMLOG(Common Log), CMPLOG(Compress Log)

String Type

None

Interval Type

0~180

Interval Type

0~180

Interval Type

0~59

Interval Type

0~9

Interval Type

0~59

Interval Type

-180000000~180000000

String Type

None

Interval Type

1~3

Enumeration Type

BYLOCAL(By Local Loop), BYREMOTE(By Remote Loop)

Enumeration Type

Enumeration Type

OFF(OFF), ON(ON) NSSAINTF(NSS Interface Unit), NSSTCTOABIS(NSS TC(Near Abis LOOPTYPE_TDM(Line Loop),TC(Near LOOP_TYPE_LVDS(LVDS Loop), Interface)), NSSTCTOA(NSS A Interface)), NSSTNUTOABIS(NSS LOOPTYPE_MCC(MCC Loop) TNU(Near Abis Interface)), NSSTNUTOA(NSS TNU(Near A Interface)), NSSATERINTF(NSS Ater Interface Unit), BSSATERINTF(BSS Ater Interface 0~100 Unit), BSSTCTOABIS(BSS TC(Near Abis Interface)), BSSTCTOA(BSS TC(Near A Direction), Interface)),MS(MS BSSTNUTOABIS(BSS TNU(Near Abis Interface)), MSC(MSC Direction) NO_LOOP(No loop), REMOTE_LOOP(Remote loop), BSSTNUTOA(BSS TNU(Near A Interface)), BSSABISINTF(BSS Interface LINE_REM_LOOP(Line remote loop), LOCAL_LOOP(Local loop), Unit), BTSTMU(TMU/PTU), BTSTRUDSP(TRU DSP) PAYLOAD_LOOP(payload loop), SIN_CHN_LOC(single channel local loop), SIN_CHN_REM(single channel remote loop) NO_LOOP(NO_LOOP), LOCAL_LOOP(LOCAL_LOOP), REMOTE_LOOP(REMOTE_LOOP)

Interval Type

60~600

Interval Type Interval Type Interval Type Enumeration Type

Enumeration Type Interval Type Enumeration Type Enumeration Type Enumeration Type

Interval Type

1~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

E1(E1 Loopback), TIMESLOT(Timeslot Loopback)

Interval Type

0~988

Interval Type

0~988,1024~1535

Interval Type

0~988,1024~1535

Interval Type

0~5,8~27

Enumeration Type

Hub(Hub), Leaf(Leaf)

Enumeration Type

IR(IR), LA(LA)

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type Enumeration Type

350~556 CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference TCHH), CSFHHO(CS TCHF-TCHH HO)

Enumeration Type

EXCLUDE(Exclude List Command), INCLUDE(Include List Command)

Enumeration Type

HORIZONTAL(HORIZONTAL), VERTICAL(VERTICAL)

Enumeration Type Enumeration Type

APPLICATION(Application Program), SCNDCPU_PROG(Secondary Thread HORIZONTAL(HORIZONTAL), VERTICAL(VERTICAL) Program), BOOTROM(BOOTROM Program), DATA(Data file), DSP(DSP Program), FAN(Fan Program)

Enumeration Type

OPTLOG(Operation Log), SECLOG(Security Log)

Enumeration Type

OPTLOG(Operation Log), SECLOG(Security Log)

Interval Type

-99~70

Interval Type

-99~99

Interval Type

2~255

Interval Type

2~255

Interval Type

2~255

Interval Type

2~255

Interval Type

Enumeration Type

0~12 14(1.4), 15(1.5), 16(1.6), 18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 33(3.3), 36(3.6), 88(8.8) 18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 32(3.2), 35(3.5), 38(3.8), 41(4.1), 45(4.5), 88(8.8)

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

1024~65535

Enumeration Type

Interval Type

0~8191

Interval Type

0~100

Interval Type Enumeration Type

0~100 CA_MA(CA+MA), Frequency_List(Frequency List), OPTIMIZED_CA_MA(Optimized CA+MA)

Interval Type

0~499

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Compound Type

hour, min

Interval Type

0~15

Compound Type

hour, min

String Type

None

String Type

None

Interval Type

0~35

Interval Type

0~1

Interval Type

0~9999

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

String Type

None

String Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

0~32

Interval Type

0~254

Interval Type

1~1562

Interval Type

1~20

Interval Type

0~5

Interval Type

0~5

Interval Type

0~20

Interval Type

1~2

Interval Type

1~2

Interval Type

24~1031

Interval Type

50~200

Interval Type

1~1500

Interval Type

1~1500

Interval Type

1~255

Interval Type

10000~150000

Interval Type

1~1000

Interval Type

0~254

Interval Type

0~100

Interval Type

0~8

Interval Type

0~100

Interval Type

0~5

Interval Type

1~255

Enumeration Type Enumeration Type Interval Type

55C(0.55C), 56C(0.56C), 57C(0.57C), 58C(0.58C), 59C(0.59C), 60C(0.60C), 61C(0.61C), 62C(0.62C), 63C(0.63C), 64C(0.64C), 65C(0.65C), 66C(0.66C), 67C(0.67C), 68C(0.68C), 69C(0.69C), 70C(0.70C), 71C(0.71C), 72C(0.72C), 73C(0.73C), 74C(0.74C), 75C(0.75C), 76C(0.76C), 77C(0.77C), 78C(0.78C), 79C(0.79C), 80C(0.80C), 81C(0.81C), 82C(0.82C), 83C(0.83C), 84C(0.84C), 85C(0.85C), 86C(0.86C), 87C(0.87C), 88C(0.88C), 89C(0.89C), 90C(0.90C), 91C(0.91C), 92C(0.92C), 93C(0.93C), 94C(0.94C), 95C(0.95C), 96C(0.96C), 97C(0.97C), 98C(0.98C), 99C(0.99C) 5C(0.05C), 7C(0.07C), 10C(0.10C), 12C(0.12C), 15C(0.15C), 18C(0.18C), 20C(0.2C), 22C(0.22C), 25C(0.25C)

Enumeration Type

1~255 1_Times(1_Times), 2_Times(2_Times), 4_Times(4_Times), 7_Times(7_Times) 1_Times(1_Times), 2_Times(2_Times), 4_Times(4_Times), 7_Times(7_Times) 1_Times(1_Times), 2_Times(2_Times), 4_Times(4_Times), 7_Times(7_Times) 1_Times(1_Times), 2_Times(2_Times), 4_Times(4_Times), 7_Times(7_Times)

Interval Type

1~746

Interval Type

1~746

Interval Type

0~30

Interval Type

0~30

Interval Type

0~30

Interval Type

0~255

Interval Type

0~31

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~255

Interval Type

1~24

Interval Type

0~32

Interval Type

2~255

Interval Type

0~32

Interval Type

1~999

Interval Type

0~511

IP Address Type

None

Interval Type

0~3

Interval Type

0~31

Interval Type

0~31

Interval Type

0~2047

String Type

None

String Type

None

String Type

None

Interval Type

4,8

Interval Type

4,8

Interval Type

0~2047

String Type

None

Enumeration Type Enumeration Type Enumeration Type

Interval Type

0~62

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

CLASS0(Class0), CLASS1(Class1), CLASS2(Class2)

Interval Type

0~7

Interval Type

0~7

String Type

None

String Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type Enumeration Type

1~5 EnhMeasReport(Enhanced Measurement Report), ComMeasReport(Common Measurement Report)

Interval Type

1~1000

Interval Type

1~8191

Enumeration Type

LocalMep(LocalMep), RemoteMep(RemoteMep)

Enumeration Type

LONG(LONG), SHORT(SHORT)

Enumeration Type

LONG(Long List Head), SHORT(Short List Head)

Interval Type

0~63

Interval Type

1~1562

Interval Type

0~49

Interval Type

0~63

Interval Type

10~3500

Interval Type

10~3500

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

10~3500

Interval Type

10~3500

Interval Type

0~63

Interval Type

60~3600

Interval Type

0~63

Interval Type

10~1000

Interval Type

10~1000

Interval Type

10~1000

Interval Type

10~1000

Interval Type

0~11

Interval Type

0~11

Enumeration Type

UP(upstream mirror), DOWN(downstream mirror)

String Type

None

String Type

None

Interval Type

50~95

Enumeration Type

MANUAL(Manual Handover), AUTO(Auto Handover), FREE(Free-run)

Enumeration Type

SERVER(SERVER MOD), CLIENT(CLIENT MOD)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

GO(GSM), UO(UMTS), GU(GSM and UMTS)

Enumeration Type

Enumeration Type

FIXED(File of a Fixed Size), CYCLE(Periodical Generation of New File) MODE1(1:1 Protection Switching), MODE2(1+1 Unidirectional Protection Switching), MODE3(1+1 Bidirectional Protection Switching), MODE4(Y Line) CHECK_ON_INDEPENDENT_PORT, CHECK_ON_PRIMARY_PORT, CHECK_ON_STANDBY_PORT

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3) 30MINS(30 Minutes), 60MINS(60 Minutes), 120MINS(120 Minutes), 240MINS(240 Minutes)

Interval Type

1~1440

Interval Type

0~12

Interval Type

0~600

Interval Type

0~100

Interval Type

0~100

Interval Type

0~167

Interval Type

0~167

Interval Type Enumeration Type

0~3 MODE1_1, MODE2_1, MODE3_1, MODE4_1, MODE5_1, MODE6_1, MODE16K

Interval Type

0~1

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Enumeration Type

MLPPP, MCPPP

Enumeration Type

Interval Type

0~27

Interval Type

0~11

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~31

Interval Type Enumeration Type

NOreport(Do not report), Twice_ps(Twice every second), Once_ps(Once 1~255 every second), Once_2s(Once every two second), Once_4s(Once every four second)

Interval Type

4~30

Interval Type

4~30

Enumeration Type Enumeration Type

OFF(Off), ON(On) OFF(Off), ON_WITH_SDCCH(On with SDCCH), ON_WITHOUT_SDCCH(On without SDCCH)

Interval Type

128~1500

Interval Type

1~16

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~65535

Interval Type

1~10

Interval Type

0~1023

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFFLOAD(Offload), NORMAL(Normal), UNAVAIL(Unavailable)

Enumeration Type

R98_or_below(R98 or below), R99_or_above(R99 or above)

Interval Type

5000~40000

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

NO(No), YES(Yes) 1_Times(1_Times), 2_Times(2_Times), 4_Times(4_Times), 7_Times(7_Times)

Enumeration Type

Enumeration Type

CLEAR(Cleared), LOP(Lockout of Protection), FS(Forcibly switchover working link to protection link), MS(Manual switchover from working link to protection link), EXERS(Exercisely switch working link to protection link) MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), MCS9(MCS9)

Interval Type

10~80

Interval Type

0~254

Interval Type

0~63

Interval Type

0~255

Interval Type

1000~3000

Interval Type

1~600

Interval Type

0~31

Enumeration Type

ON(ON), OFF(OFF)

Interval Type

50~95

Enumeration Type

ALARM_METHOD(Alarm method), LOOP_METHOD(Loop method)

Interval Type

0~63

Enumeration Type

MET(Metric), IMP(Imperial)

Interval Type

500~1500

Interval Type

256~1650

Interval Type

0~1500

Interval Type Enumeration Type

190~240 REPORT6(Report six), REPORT1(Report one), REPORT2(Report two), REPORT3(Report three)

Interval Type

0~255

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

0~10

Interval Type

0~15

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~1500

Interval Type

1~1500

Enumeration Type

UDPMUX, ABISMUX, ATERMUX

Interval Type

0~12

Interval Type

1~512

Interval Type

1~3

Interval Type

5~254

Interval Type

34~254

Interval Type

29~254

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

Interval Type

5~254

Interval Type

5~254

Interval Type

23~254

Interval Type

8~30

Interval Type

2~5

Interval Type

3~10

Interval Type

1~255

Interval Type

1~10

Interval Type

1~10

Enumeration Type

NO(No), YES(Yes)

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~15

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

0~5047

String Type

None

Interval Type

0~5047

String Type

None

Interval Type

0~5047

String Type

None

Interval Type

5048~8047

String Type

None

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~65535

Interval Type

1~65533,65535

String Type

None

String Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NotSupport(Not Support), Support(Support)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Interval Type Bit Field Type

SELECTION0_PERM, SELECTION1_PERM, SELECTION2_PERM, 0~7 SELECTION3_PERM, SELECTION4_PERM, SELECTION5_PERM, SELECTION6_PERM, SELECTION7_PERM

Interval Type

0~255

Interval Type

1~20

Interval Type

1~31

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~7

Interval Type

0~7

Enumeration Type

NC0(NC0), NC1(NC1), NC2(NC2)

Enumeration Type

NO(NO_DIRECT_CONNECT), YES(DIRECT_CONNECT)

IP Address Type

None

Interval Type

0~60

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Enumeration Type

INT(INT), INTB(INTB), NAT(NAT), NATB(NATB)

String Type

None NMOI(Network Operation Mode I), NMOII(Network Operation Mode II), NMOIII(Network Operation Mode III)

Enumeration Type

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

40~45

Interval Type

55~59

Interval Type

40~45

Interval Type

55~59

Interval Type

40~45

Interval Type

55~59

Interval Type

40~45

Interval Type

55~59

Interval Type

40~45

Interval Type

55~59

Interval Type

40~45

Interval Type

55~59

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~7

Interval Type

0~100

Interval Type

0~255

Interval Type

0~255

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Interval Type Enumeration Type

0~100 ABIS(Abis Interface), A(A Interface), BSC(Ater Interface on BSC), TC(Ater Interface on TC), IUR_G(IUR_G Interface)

Interval Type

0~64

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~70

Interval Type

1~1000

Enumeration Type

OFF(Not Allowed), ON(Allowed)

Enumeration Type

NODRX(NODRX), 0.24sec(0.24sec), 0.48sec(0.48sec), 0.72sec(0.72sec), 0.96sec(0.96sec), 1.20sec(1.20sec), 1.44sec(1.44sec), 1.92sec(1.92sec)

Interval Type

100~10000

Interval Type

100~10000

Enumeration Type

FORBID(Forbid), PERMIT(Permit)

Interval Type

400~700

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

1~255

Interval Type

10~255

Interval Type

1~10

Interval Type

0~31

Interval Type

0~31

Interval Type

0~1023

Interval Type

0~1023

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~65534

Interval Type

0~65534

Interval Type

1~31

Enumeration Type

North_latitude(North latitude), South_latitude(South latitude)

Interval Type

0~65534

Interval Type

0~1023

Interval Type

0~30

Interval Type

0~30

Interval Type

1~255

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~63

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

SITE(SITE), CELL(CELL), BOARD(BOARD)

Enumeration Type

BYCELL(By CELL), BYTRX(By TRX)

Interval Type

0~499

Interval Type

0~499

Enumeration Type

ALL(Shield by Alarm ID), BOARD(Shield by Board), PORT(Shield by Port), DSP(Shield by DSP)

Enumeration Type

BTS(BTS), CELL(CELL), LOC(LOC), BOARD(BOARD), PORT(PORT)

Enumeration Type

CELL(Cell), TRX(TRX), CHN(Channel)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

4~255

Interval Type

0~63

Interval Type

0~256

Interval Type

0~256

Interval Type

0~7

Interval Type

0~7

Interval Type

2~4094

Interval Type

0~96

IP Address Type

None

IP Address Type

None

String Type

None

Interval Type

1~16777215

Interval Type

1~16777215

Interval Type

0~4

Enumeration Type

PRIM(Primary Operator), SEC(Secondary Operator)

Interval Type

0~3

Bit Field Type

OPINDEX0, OPINDEX1, OPINDEX2, OPINDEX3

Enumeration Type

NORMAL(Normal), FORCE(Force)

Enumeration Type

BYCICRANGE(BY CIC RANGE), BYCICVALUE(BY CIC VALUE)

Enumeration Type

BYTSRANGE(BY TS RANGE), BYTSVALUE(BY TS VALUE)

Enumeration Type

BYTSRANGE(BY TS RANGE), BYTSVALUE(BY TS VALUE)

Enumeration Type

BYCICRANGE(BY CIC RANGE), BYCICVALUE(BY CIC VALUE)

String Type Enumeration Type

None SysOpt(System optimization), OSubcell(Overlaid subcell), USubcell(Underlaid subcell), NoPrefer(No preference)

Interval Type

0~63

Interval Type

0~255 L0(Level0), L1(Level1), L2(Level2), L3(Level3), L4(Level4), L5(Level5), L6(Level6), L7(Level7)

Enumeration Type

Enumeration Type Enumeration Type

SDH, SONET MANUAL(MANUAL), FORCED(FORCED), CLEARALARMA(CLEARALARMA)

Enumeration Type

FORBID(Forbid), RESTORE(Restore)

Interval Type

0~4

Interval Type

0~7

Enumeration Type

One_touch(execute on all boards in all subracks), Step_by_Step

String Type

None

Interval Type

0~36

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

500~60000

Interval Type

500~60000

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~100

Interval Type

0~50

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Interval Type

1~255

Interval Type

0~63

Interval Type Bit Field Type

TS0, 0~100TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

0~335

Interval Type

0~15

Interval Type

0~31

Enumeration Type

HIGH(High), LOW(Low)

Enumeration Type

HIGH(High), LOW(Low)

Enumeration Type

HIGH(High), LOW(Low)

Enumeration Type

HIGH(High), LOW(Low)

Interval Type

10~2000

Interval Type

300~530

Enumeration Type

0_1dB(0.1dB), 0_1W(0.1W)

Interval Type

0~100

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~27

Interval Type

0~27

Interval Type

0~11

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

1~60

Interval Type

0~255

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

100~10000

Interval Type

100~10000

Interval Type

1~255

Interval Type

400~700

Interval Type

50~95

Interval Type

50~95

Interval Type

50~95

Interval Type

50~95

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(Not Support), YES(Support)

Interval Type

10~65535

Interval Type

0~255

Interval Type

10~65535

Interval Type

Enumeration Type

1~8 Pan_0(0), Pan_1(1), Pan_2(2), Pan_3(3), Pan_4(4), Pan_5(5), Pan_6(6), Pan_7(7), 255(not use) Pan_0(0), Pan_1(1), Pan_2(2), Pan_3(3), Pan_4(4), Pan_5(5), Pan_6(6), Pan_7(7), 255(not use) Pan_4(4), Pan_8(8), Pan_12(12), Pan_16(16), Pan_20(20), Pan_24(24), Pan_28(28), Pan_32(32), 255(not use) L0(Level0), L1(Level1), L2(Level2), L3(Level3), L4(Level4), L5(Level5), L6(Level6), L7(Level7)

Interval Type

0~9999

Interval Type

0~99

Enumeration Type Enumeration Type Enumeration Type

Enumeration Type

ENABLED(Enabled), DISABLED(Disabled)

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~255

Enumeration Type

Enumeration Type

QoS(QoS), BE(BE), AF11(AF11), AF12(AF12), AF13(AF13), AF21(AF21), NO(No), YES(Yes) AF22(AF22), AF23(AF23), AF31(AF31), AF32(AF32), AF33(AF33), AF41(AF41), AF42(AF42), AF43(AF43), EF(EF) MAINCPU_PATCH(Main programme patch), DSP_PATCH(DSP programme DB0(0dB), DB2(-2dB), DB4(-4dB), DB6(-6dB), patch), UCODE_PATCH(Marcrocode patch) DB8(-8dB), DB10(-10dB), DB12(-12dB), DB14(-14dB), DB16(-16dB), DB18(-18dB), DB20(-20dB), DB22(-22dB), DB24(-24dB), DB26(-26dB), DB28(-28dB), DB30(-30dB)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~32

Interval Type

0~127

Interval Type

1~32

Interval Type

0~65535

Interval Type

1~15

Enumeration Type

BCCH(BCCH), PDCH(PDCH)

Interval Type

0~31

Interval Type

0~31

Interval Type

0~31

Interval Type

0~31

Enumeration Type

NO(NO), YES(YES)

Interval Type

10~160

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Interval Type

10~70

Interval Type

1~10

Interval Type

0~65534

Interval Type

0~65534

IP Address Type

None

IP Address Type

None

Interval Type

0~2047

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Enumeration Type Enumeration Type

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

1024~65535

String Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Interval Type

0~63

Interval Type

0~255

Interval Type

1~60

Interval Type

1~48

Enumeration Type

Disable(Disable), Enable(Enable)

Enumeration Type

Disable(Disable), Enable(Enable)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No Support), YES(Support)

Interval Type

0~2

Interval Type

10~1000

Interval Type

10~2000

Interval Type

Bit Field Type

BE(BE), AF11(AF11), AF12(AF12), AF13(AF13), AF21(AF21), AF22(AF22), 100~600000 AF23(AF23), AF31(AF31), AF32(AF32), AF33(AF33), AF41(AF41), AF42(AF42), AF43(AF43), EF(EF) BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

DISABLE(Disabled), ENABLE(Enabled)

Interval Type

5~64

Interval Type

64~1024

Interval Type

2~1500

Interval Type

24~1031

Enumeration Type

NO(No), YES(Yes)

Interval Type

Enumeration Type

0_level(0_level), 1_level(1_level), 2_level(2_level), 3_level(3_level), 20~1500 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 8_level(8_level), 9_level(9_level), 10_level(10_level), 11_level(11_level), 95~512 12_level(12_level), 13_level(13_level), 14_level(14_level), 16_level(16_level), nouse(no use)

Interval Type

0~50

Enumeration Type

Interval Type

Enumeration Type

0_level(0_level), 1_level(1_level), 2_level(2_level), 3_level(3_level), 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 0_level(0_level), 3_level(3_level), 8_level(8_level), 1_level(1_level), 9_level(9_level), 2_level(2_level), 10_level(10_level), 11_level(11_level), 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 12_level(12_level), 13_level(13_level), 14_level(14_level), 8_level(8_level), 9_level(9_level), 16_level(16_level), nouse(no use) 10_level(10_level), 11_level(11_level), 12_level(12_level), 13_level(13_level), 14_level(14_level), 0_level(0_level), 1_level(1_level), 16_level(16_level), nouse(no use) 2_level(2_level), 3_level(3_level), 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 8_level(8_level), 9_level(9_level), 10_level(10_level), 11_level(11_level), 0~50 12_level(12_level), 13_level(13_level), 14_level(14_level), 16_level(16_level), nouse(no use)

Interval Type

0~50

Interval Type

1~100

Interval Type

0~1000

Enumeration Type

A(A Interface), ABIS(Abis Interface)

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~600

Interval Type

30~100

Interval Type

30~100

Interval Type

1~8

Interval Type

2~15

Enumeration Type

CLOSE(Forced turn-off), OPEN(Forced turn-on), AUTO(Self-adaptive)

Interval Type

30~100

Interval Type

30~100

Enumeration Type

ON, OFF

Interval Type

0~11

Interval Type

1~32

Interval Type

0~3

Interval Type

0~335

Interval Type

0~335

Interval Type

0~335

Interval Type

0~335

Interval Type

0~335

Interval Type

0~7

Interval Type

0~335

Interval Type

0~335

Interval Type

0~335

Interval Type

0~7

Interval Type

0~11

Interval Type

0~7

Interval Type

0~7

Enumeration Type Enumeration Type Interval Type

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~335

Interval Type

0~31

Interval Type

0~335

Interval Type

0~335

Interval Type

0~355

Interval Type

0~255

Interval Type

0~23

Interval Type

0~23

Interval Type

0~335

Interval Type

0~1

Interval Type

0~1

Interval Type

0~255

Interval Type

250~650

Interval Type

6~120

Interval Type

6~120

Enumeration Type

NotSupport(Not Support), Support(Support)

Interval Type

0~9

Interval Type

0~9

String Type

None

String Type

None

Interval Type

21~65535

Interval Type

0~1

Interval Type

0~1

Interval Type

0~15

Interval Type

1~16

Enumeration Type

IP, HDLC

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type Enumeration Type

ETHER, TRUNK TOPEXTOUTPORT(TOP Extended Out Port), TOPEXTINPORT(TOP Extended In Port)

Enumeration Type

BCCHNorm(BCCHNorm), BCCHExt(BCCHExt)

Enumeration Type

BYBTSTYPE(By BTS Type), BYBTS(By BTS)

Interval Type

1~1000

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~1000

Interval Type

Enumeration Type

0~50 80W(80W), 63W(63W), 60W(60W), 55W(55W), 50W(50W), 45W(45W), 0~50 40W(40W), 31W(31W), 30W(30W), 27W(27W), 26W(26W), 25W(25W), POWER_48_24(48/24 Module), POWER_240_24(240/24 Power 24W(24W), 21W(21W),Power 20W(20W), 19W(19W), 18W(18W), 17W(17W), Module) 16W(16W), 15W(15W), 14W(14W), 13_3W(13.3W), 13W(13W), 12_5W(12.5W), 12W(12W), 11_5W(11.5W), 11W(11W),DC) 10W(10W), 220VAC(220V AC), N48VDC(-48V DC), P24VDC(+24V 9_5W(9.5W), 9W(9W), 8_5W(8.5W), 8W(8W), 7_5W(7.5W), 7W(7W), 6_5W(6.5W), 6W(6W), 5_5W(5.5W), 5W(5W), 4_5W(4.5W), 4W(4W), 0~13 3_7W(3.7W), 3_1W(3.1W), 3W(3W), 2_5W(2.5W), 2W(2W), 200mW(200mW), DEFAULT(Default)

Interval Type

0~100

Interval Type

0~100

Interval Type

0~499

Interval Type

0~499

Interval Type

0~499

Interval Type

0~15

Enumeration Type

Disable(Disable), Enable(Enable)

Interval Type

0~5

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NOT_ALLOWED(Not Allowed), ALLOWED(Allowed)

Enumeration Type

OFF(Off), ON(On)

Interval Type

1~255

Interval Type Enumeration Type

0~255 0(No packet access), 3(Packet access of level 1), 4(Packet access of levels 1-2), 5(Packet access of levels 1-3), 6(Packet access of level 1-4)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

30~100

Interval Type

30~100

Interval Type

30~100

Interval Type

30~100

Interval Type Enumeration Type Enumeration Type Interval Type

Enumeration Type

PRIOR-1(Priority-1), PRIOR-2(Priority-2), PRIOR-3(Priority-3), PRIOR4(Priority-4), PRIOR-5(Priority-5), PRIOR-6(Priority-6), PRIOR-7(Priority-7), PRIOR-8(Priority-8), PRIOR-9(Priority-9), PRIOR-10(Priority-10), PRIORON, OFF 11(Priority-11), PRIOR-12(Priority-12), PRIOR-13(Priority-13), PRIOR14(Priority-14), PRIOR-15(Priority-15), PRIOR-16(Priority-16) Prior-1, Prior-2, Prior-3, Prior-4, Prior-5, Prior-6, Prior-7, Prior-8, Prior-9, Prior-10, Prior-11, Prior-12, Prior-13, Prior-14, Prior-15, Prior-16

Interval Type

0~100

Enumeration Type

0(0), 1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), nouse(no use)

Interval Type

0~99

Interval Type

0~99

Enumeration Type

HIGH, LOW TDME1_O(TDM E1 0 Port), TDME1_1(TDM E1 1 Port), FE_E(FE Electric Port), FE_O(FE Optical Port), IPOE(IP over E1)

Enumeration Type Enumeration Type

Enumeration Type Enumeration Type Enumeration Type String Type

1(1), 2(2) TDME1_O(TDM E1 0 Port), TDME1_1(TDM E1 1 Port), FE_E(FE Electric Port), FE_O(FE Optical Port), IPOE(IP over E1)

Enumeration Type

None DEFAULT(Default Sequence), CUSTOMIZDE(Customized Sequence), DISABLE(DISABLE)

Enumeration Type

ITUT(ITUT), ANSI(ANSI), TTC(TTC)

Enumeration Type

Q933(Q933), ANSI(Ansi)

Interval Type

5~300

Interval Type

0~255

Interval Type

60~3600

Enumeration Type

ALL(Select all ports), SINGLE(Select one port)

Enumeration Type Enumeration Type

ALL(Select all ports), SINGLE(Select one port) ALL(Select all E1/T1 ports), PORT(Select all E1/T1 ports of one channelized optical port), SINGLE(Select one E1/T1 port)

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), ON(Output)

Interval Type

0~100

Interval Type

0~100

Enumeration Type Enumeration Type

NO(No Support), YES(Support) BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

Interval Type

0~7

Interval Type

0~7

Interval Type

1~16

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

Interval Type

0~7

Interval Type

0~7

Interval Type

0~63

Enumeration Type

COMMONUSRM(Common User Mode), SPECUSRM(Specified User Mode)

Interval Type

-121~-104

Interval Type

-121~-104

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

10~10000

Interval Type

100~600000

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~63

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

ON(ON), OFF(OFF)

Enumeration Type

BOOL(BOOL), VALUE(VALUE)

Interval Type

123~65534

Interval Type

0~31

Enumeration Type

GB_OVER_FR(Gb over FR), GB_OVER_IP(Gb over IP)

Enumeration Type

BOOL(BOOL), VALUE(VALUE) E1_DOUBLE_FRAME(E1_DOUBLE_FRAME), E1_CRC4_MULTI_FRAME(E1_CRC4_MULTI_FRAME), B8ZS(B8ZS), HDB3(HDB3), AMI(AMI), AMI_ZCS(AMI_ZCS) E1_DOUBLE_FRAME(E1_DOUBLE_FRAME), T1_SUPER_FRAME(T1_SUPER_FRAME), E1_CRC4_MULTI_FRAME(E1_CRC4_MULTI_FRAME), T1_EXTENDED_SUPER_FRAME(T1_EXTENDED_SUPER_FRAME) E1_DOUBLE_FRAME(E1_DOUBLE_FRAME), T1_SUPER_FRAME(T1_SUPER_FRAME), E1_CRC4_MULTI_FRAME(E1_CRC4_MULTI_FRAME), T1_EXTENDED_SUPER_FRAME(T1_EXTENDED_SUPER_FRAME) T1_SUPER_FRAME(T1_SUPER_FRAME), T1_EXTENDED_SUPER_FRAME(T1_EXTENDED_SUPER_FRAME)

Enumeration Type Enumeration Type Enumeration Type Enumeration Type Interval Type Enumeration Type Enumeration Type

0~15 APM100(APM100), APM200(APM200), APM30(APM30), EPS4890(EPS4890), EPS4815(EPS4815), SC48200~5||(SC48200)$$ FE, GE (SC48200)** CUSTOM(SC48200)** CUSTOM~100||(自定义电源)$$ (CUSTOM)

String Type

None

String Type

None

String Type

None

Interval Type

1~65535

Password Type

None

Password Type

None

Password Type

None

Interval Type

6~32

Interval Type

Bit Field Type

0~31 BIT0, BIT1, BIT6, BIT7, BIT8, BIT9, BIT14, BIT15, BIT16, BIT17, BIT22, BIT23, BIT24, BIT25, BIT29, BIT30, BIT31 BIT0, BIT1, BIT2, BIT3, BIT4, BIT5, BIT6, BIT7, BIT8, BIT9, BIT10, BIT11, BIT12

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

PWR2(Power control II), PWR3(Power controlIII)

Interval Type

0~3

Enumeration Type Enumeration Type

NO(No), YES(Yes) OnlyCurPwrLoc(Only Current Working Location TRXes be Turned On), ALLPwrLoc(All Location TRXes be Turned On)

Enumeration Type

CLASS0(Class0), CLASS1(Class1), CLASS2(Class2)

Interval Type

0~720

Enumeration Type Enumeration Type

DB0(0.0dB), DB2(-0.2dB), DB4(-0.4dB), DB6(-0.6dB), DB8(-0.8dB), DB10(NO(No), YES(Yes) 1.0dB), DB12(-1.2dB), DB14(-1.4dB), DB16(-1.6dB), DB18(-1.8dB), Default(Default)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Enumeration Type

Use_Qsearch_I(Use Qsearch_I), Always(Always)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~10

Interval Type

0~255

Interval Type

1~10

Bit Field Type

Interval Type

0~15

Interval Type

1~32

Interval Type

1~32

Enumeration Type

NO(Not Support), YES(Support)

Interval Type

0~15

Interval Type

0~15

Enumeration Type

NO(Close), YES(Open)

Interval Type

1~16

Interval Type

1~16

Enumeration Type

NONE(None), DYNAMIC(Dynamic power sharing)

Interval Type

3~20

Interval Type

3~20

Interval Type

0~4

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes) INSIDE_100AH(100AH Inside Storage Battery), INSIDE_50AH(50AH Inside Storage Battery), OUTSIDE_300AH(300AH AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7 Outside Storage Battery), OUTSIDE_400AH(400AH Outside Storage Battery), OUTSIDE_500AH(500AH Outside Storage Battery), NO(No), YES(Yes) OUTSIDE_650AH(650AH Outside Storage Battery), OUTSIDE_200AH(200AH Outside Storage Battery)

Bit Field Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Bit Field Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Bit Field Type Enumeration Type Enumeration Type Enumeration Type

007C(0.07C), 010C(0.10C), 015C(0.15C) INSIDE_BATTERY(Inside Storage Battery), OUTSIDE_BATTERY(Outside Storage Battery) INSIDE_100AH(100AH Inside Storage Battery), INSIDE_50AH(50AH Inside Storage Battery), OUTSIDE_300AH(300AH AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7 Outside Storage Battery), OUTSIDE_400AH(400AH Outside Storage Battery), OUTSIDE_500AH(500AH Outside Storage Battery), NO(No), YES(Yes) OUTSIDE_650AH(650AH Outside Storage Battery), OUTSIDE_200AH(200AH Outside Storage Battery) 007C(0.07C), 010C(0.10C), 015C(0.15C) INSIDE_BATTERY(Inside Storage Battery), OUTSIDE_BATTERY(Outside Storage Battery) INSIDE_100AH(100AH Inside Storage Battery), INSIDE_50AH(50AH Inside Storage Battery), OUTSIDE_300AH(300AH AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7 Outside Storage Battery), OUTSIDE_400AH(400AH Outside Storage Battery), OUTSIDE_500AH(500AH Outside Storage Battery), NO(No), YES(Yes) OUTSIDE_650AH(650AH Outside Storage Battery), OUTSIDE_200AH(200AH Outside Storage Battery)

Enumeration Type

007C(0.07C), 010C(0.10C), 015C(0.15C) INSIDE_BATTERY(Inside Storage Battery), OUTSIDE_BATTERY(Outside Storage Battery)

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

-121~-104

Interval Type

0~63

Interval Type

0~65535

Interval Type

-121~-104

Interval Type

0~7

Enumeration Type

NO(No), YES(Yes)

Interval Type Enumeration Type

0~255 0dB(0dB), 2dB(2dB), 4dB(4dB), 6dB(6dB), 8dB(8dB), 10dB(10dB), 12dB(12dB), 14dB(14dB), nouse(no use)

Enumeration Type

10M(10M), 100M(100M), AUTO(Auto)

Enumeration Type

ALG1(Algorithm I), ALG2(Algorithm II), NONE(None)

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

1~255

Enumeration Type

LASTRBP(last rollbackpoint), APPOINTRBP(appointed rollbackpoint)

Enumeration Type

REC_ALL(Record All), REC_ERR(Record Errors), REC_NON(Record None)

Interval Type

0~249

Interval Type

0~249

Interval Type Enumeration Type

INDEPENDENT(Independent Receiver), DIVIDING(Dividing Receiver), 0~249 FOURDIVERSITY(Four Diversity Receiver), MAINDIVERSITY(Main Diversity), NONE(None)

Interval Type

0~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Same_Band(Same Band), Diff_Band(Different Band)

Interval Type

0~70

Interval Type

0~70

Interval Type

0~63

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

20~99

Interval Type

0~70

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

YES(YES), NO(NO)

Interval Type

0~50

Interval Type

0~768

Interval Type

0~31

Interval Type

0~31

Interval Type

0~31

Interval Type

0~31

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~95

Compound Type

hour, min, sec

Interval Type Enumeration Type

1~3600 REHOSTRIGHTNOW(ReHostRightNow), REHOSTDELAY(ReHostDelay), REHOSTWHEN(ReHostWhen)

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~62

Enumeration Type Enumeration Type

NO(NO), YES(YES) OFF(OFF), POWERSHARING(Power Sharing Between Boards), RF_FH(RF Frequency Hopping Between Boards)

Interval Type

0~23

Interval Type

0~255

Enumeration Type

A(A), B(B), NONE(NONE)

String Type

None

String Type

None

Interval Type

0~1023

Interval Type

0~65535

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~63

Interval Type

1~10

Interval Type

1~32

Interval Type

1~32

Interval Type

0~8

Interval Type

0~16

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~65535

Interval Type

1~60

Interval Type

1~255

Interval Type

1~15

Interval Type Enumeration Type

MSLOST(RADIO_STS_MS_LOST), 1~120 QUALITYBAD(RADIO_STS_QUALITY_BAD), CELLRESELECT(RADIO_STS_CELL_RESELECT)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

2~5

Interval Type

2~5

Bit Field Type

Noneed, Manually, Reset, Normally, Correlative, Configuration, Expired

Interval Type

0~86400

Interval Type

0~190

Interval Type

0~21

Interval Type

0~255

Interval Type

1~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

RGPS(RGPS), GPS(GPS)

Enumeration Type

Enumeration Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, NO(No Support), YES(Support) TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, 4_Times, 8_Times, 16_Times, 20_Times, 24_Times, 28_Times, TS25, TS26, TS27, 12_Times, TS28, TS29, TS30, TS31 32_Times, 36_Times, 40_Times, 44_Times, 48_Times, 52_Times, 56_Times, 60_Times, 64_Times STANDALONETC(Stand Alone TC ), MASTERINPOOLTC(Master in Pool TC), SLAVEINPOOLTC(Slave in Pool TC)

Interval Type

0~4095

Interval Type

0~16,255

Interval Type

0~16

String Type

None

String Type

None

Interval Type

1~100

Interval Type

1~100

Enumeration Type

Enumeration Type

0.48sec(0.48sec), 3.84sec(3.84sec), DISABLE(Disable),0.96sec(0.96sec), ENABLE(Enable),1.92sec(1.92sec), UNSUPPORT(Unsupport) 7.68sec(7.68sec), 15.36sec(15.36sec), 30.72sec(30.72sec), 0.48sec(0.48sec), 0.96sec(0.96sec), 1.92sec(1.92sec), 3.84sec(3.84sec), 61.44sec(61.44sec) 7.68sec(7.68sec), 15.36sec(15.36sec), 30.72sec(30.72sec), 61.44sec(61.44sec)

Interval Type

20~99

Bit Field Type Enumeration Type

Enumeration Type

Enumeration Type

NO(Not report), YES(Report), NONE(None)

Interval Type

0~31

Interval Type

0~31

Interval Type

0~2047

Enumeration Type

SHARE(SHARE)

Enumeration Type

SHARE, EXCLUSIVE

Interval Type

0~255

Interval Type

Enumeration Type

0~63 MINUS_52db(-52db), MINUS_48db(-48db), MINUS_44db(-44db), MINUS_40db(-40db), MINUS_36db(-36db), MINUS_32db(-32db), 0~63 MINUS_28db(-28db), MINUS_24db(-24db), MINUS_20db(-20db), MINUS_16db(-16db), MINUS_12db(-12db), MINUS_10db(-10db), BASIS_OF_B1, BASIS_OF_B2 MINUS_8db(-8db), MINUS_6db(-6db), MINUS_4db(-4db), MINUS_2db(2db), Zerodb(0db), 2db(2db), 4db(4db), 6db(6db), 8db(8db), 10db(10db), BASIS_OF_B1, BASIS_OF_B2 12db(12db), 16db(16db), 20db(20db), 24db(24db), 28db(28db), 32db(32db), 36db(36db), 40db(40db), 44db(44db), 48db(48db), nouse(no use)

Interval Type

0~64

Interval Type

0~63

Interval Type

0~7

Interval Type

0~64

Interval Type

2~4094

Interval Type Enumeration Type

0~96 COMMISSIONING(Commissioning), UPGRADE(Upgrade), RESTORE(Restore)

Interval Type

0~127

String Type

None

String Type

None

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

1~65535

Interval Type

0~190

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~4294967295

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type Enumeration Type Enumeration Type

Interval Type

0~4294967295

Interval Type

0~3

Enumeration Type

NON-REVERTIVE(NON-REVERTIVE), REVERTIVE(REVERTIVE)

Interval Type

0~4294967295

Interval Type

1~5

Enumeration Type

OFF(Close), ON(Open)

IP Address Type

None

IP Address Type

None

Interval Type

0~15

Interval Type

0~100

Interval Type

0~100

Interval Type

500~60000

Interval Type

500~60000

Interval Type

500~60000

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

10~80

Enumeration Type

NEXTHOP(Next Hop), OUTIF(Out Interface)

Interval Type

0~1000

Interval Type

1~100

Interval Type

0~999

Interval Type

1~3000000

Interval Type

0~4000000

Interval Type

0~63

Interval Type

0~70

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~249

Interval Type

0~249

Interval Type Enumeration Type

0~249 RXUNAME(By RXU Name), RXUPOS(By RXU Position No), SRNSN(By Subrack No)

Enumeration Type

RXUNAME(RXUName), RXUPOS(RXUPOS), SRNSN(SRNSN)

String Type

None

String Type

None

String Type

None

Interval Type

1~6

Interval Type

1~6

Interval Type Enumeration Type

1~6 DRRU(DRRU), DRFU(DRFU), MRRU(MRRU), MRFU(MRFU), GRFU(GRFU), GRRU(GRRU), BTS3900E(BTS3900E)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

Bit Field Type

0~15 48VDISABLE, RES0, RES1, RES2, TSDISABLED, HSDISABLED, RES3, RES4 BT1_DISABLE, AH_DISABLE, AT1_DISABLE, AT2_DISABLE, BT2_DISABLE

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~2

Interval Type

0~4

Bit Field Type

T1_DISABLE, ET_DISABLE, ET1_DISABLE, ET2_DISABLE, T2_DISABLE

Interval Type

0~2047

Enumeration Type

BYNAME(By name), BYID(By index)

Interval Type

1~16

Interval Type

0~100

String Type

None

Interval Type

0~63

Bit Field Type

WATER_IMMERSED, SMOG, GM_DISABLE

Bit Field Type

WIDISABLE, SMDISABLE, IMDISABLE, GMDISABLE

Bit Field Type

WILOW, SMLOW, IMLOW, GMLOW

Bit Field Type

Enumeration Type

NO(NO), YES(YES)

Bit Field Type

Enumeration Type

WS_DISABLE, SS_DISABLE, GS_DISABLE ITALIAN(ITALIAN), GERMAN(GERMAN), ENGLISH(ENGLISH), FRENCH(FRENCH), SPANISH(SPANISH), DUTCH(DUTCH), 0~2047 SWEDISH(SWEDISH), DANISH(DANISH), PORTUGUESE(PORTUGUESE), FINNISH(FINNISH), NORWEGIAN(NORWEGIAN), GREEK(GREEK), None TURKISH(TURKISH), HUNGARIAN(HUNGARIAN), POLISH(POLISH), GB2312(GB2312), KOI8-R(Cyrillic KOI8-R), KOI8-U(Cyrillic KOI8-U), ADD0dB(+0dB), ADD10dB(+10dB), Automatic(Automatic) KOI8(Cyrillic KOI8), WINDOWS-1251(Cyrillic Windows), ASMO_449(Arabic 0~63 ASMO), WINDOWS-1256(Arabic Windows), WINDOWS-874(Thai Windows), WINDOWS-1253(Greek Windows), WINDOWS-1254(Turkish Windows), 1~20 WINDOWS-1255(Hebrew Windows), WINDOWS-1257(Baltic Windows), WINDOWS-1250(Eastern European Windows), WINDOWS-1252(Western 0~2047 European Windows), BINARY(BINARY), UCS2(UCS2), RCS-1(Reserved Code None Scheme 1), RCS-2(Reserved Code Scheme 2), RCS-3(Reserved Code Scheme 3), RCS-4(Reserved Code Scheme 4), RCS-5(Reserved Code Scheme 5)

Interval Type

0~1

Any Type

None

Enumeration Type

BYBTSID(By BTS ID), BYCELLID(By Cell ID)

Interval Type

0~23

Interval Type

0~511

Interval Type

1~2147483646

Interval Type

0~1199

Compound Type

year, month, date

Compound Type

year, month, day

Compound Type

year, month, day

Interval Type

7~90

Enumeration Type

1E-3, 1E-4, 1E-5, 1E-6, 1E-7, 1E-8, 1E-9

Compound Type

year, month, day

Interval Type

1~31

Interval Type

1~191

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~100

Interval Type

0~63

Interval Type

0~70

Interval Type

0~63

Interval Type

0~70

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

DISABLE, ENABLE

Enumeration Type

OFF(Off), ON(On)

Interval Type String Type Enumeration Type Interval Type Interval Type Interval Type String Type

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

0~60

Interval Type

0~5

Interval Type

0~255

Interval Type

0~63

Interval Type

0~63

Enumeration Type

HIGH(HIGH), LOW(LOW)

Interval Type

40~70

Interval Type

0~65535

Interval Type

0~65535

Interval Type

350~556

Enumeration Type

NO(No), YES(Yes)

String Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Enumeration Type

NoPriority(No Priority), Priority4(Priority 4), Priority3(Priority3), NO(No), YES(Yes) Priority2(Priority 2), Priority1(Priority 1), Priority0(Priority 0), PriorityB(Priority NoPriority(No Priority), B), PriorityA(Priority A) Priority4(Priority 4), Priority3(Priority3), Priority2(Priority 2), Priority1(Priority 1), Priority0(Priority 0), PriorityB(Priority B), PriorityA(Priority A)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~6

Enumeration Type

SUPPORT(Support), UNSUPPORT(Not Support)

Interval Type

1024~65535

Interval Type

1024~65535

String Type

None

IP Address Type

None

Enumeration Type

SEPARATE(Separate), TOGETHER(Together), AIP(AIP)

Enumeration Type

TDM, HDLC, HDLC_HubBTS, IP

Enumeration Type

SYSTEM(System TDM, HDLC, IP Command), CONFIG(Configuration Management), MAINTAIN(Maintenance Management), STAT(Statistic Measurement), ALARM(Alarm Management)

Enumeration Type

Enumeration Type

Enumeration Type

OML(OML), RSL(RSL), EML(EML), ESL(ESL), CSVOICE(CS Voice), CSDATA(CS Data), PSHIGHPRI(PS High PRI), PSLOWPRI(PS Low PRI), OTHERDATA(Other Data)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~5

Interval Type

0~65535

String Type

None

Interval Type

1~10

Interval Type

0~1023

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

0( Release 98 or older), 1(Release 99 onwards)

Enumeration Type

UNISTALL(Uninstall), ALLOW(Allow), DENY(Deny)

Interval Type

50~95

Interval Type

0~27

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

unshielded(Unshielded), shielded(Shielded)

Interval Type

0~12

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~10

Interval Type

0~186

Interval Type

0~186

Interval Type

0~15

Interval Type

0~255

Interval Type

0~255

Interval Type

0~7

Interval Type

1~10

Interval Type

1~31

Interval Type

0~15

Interval Type

1~31

Interval Type

0~65535

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

IP Address Type

None

IP Address Type

None

Interval Type

0~65535

Interval Type

0~255

IP Address Type

None

Interval Type

0~35 B0000(B0000), B0001(B0001), B0010(B0010), B0011(B0011), B0100(B0100), B0101(B0101), B0110(B0110), B0111(B0111), E1SELFLOOP(E1 Self Loopback), IASUSELFLOOP(IASU Self Loopback) B1000(B1000), B1001(B1001), B1010(B1010), B1011(B1011), B1100(B1100), B1101(B1101), B1110(B1110), B1111(B1111)

Enumeration Type Enumeration Type Interval Type Enumeration Type

1~600 DATE(Input with date), WEEK(Input with week), DATEWEEK(Input with date and week)

Interval Type

0~3

Enumeration Type

NOTSUPPORT(Not Support), INNER(Inner), OUTER(Outer)

Enumeration Type Enumeration Type

JAN(January), CLOSE(Close),FEB(February), OPEN(Open) MAR(March), APR(April), MAY(May), JUN(June), JUL(July), AUG(August), SEP(September), OCT(October), NOV(November), DEC(December)

Interval Type

2~2000

Interval Type

0~27

Interval Type

0~3,8~27

Interval Type

0,2,4,8,10,12,14,16,18,20,22,24,26

Interval Type

0,2,4,8,10,12,14,16,18,20,22,24,26

Interval Type

0~5,8~27

Interval Type

0~5,8~27

Interval Type

0~27

Interval Type

0~27

Interval Type

0~27

Interval Type

0~5,8~27

Interval Type

0,2,4,8,10,12,14,16,18,20,22,24,26

Interval Type

0~27

Interval Type

0~27

Interval Type

0~23

Interval Type

0~23

Interval Type

0,2,4,8,10,12,14,16,18,20,22,24,26

Interval Type

0~27

Interval Type

0~23

Interval Type

Enumeration Type

0~27 SGL_ANTENNA(Single Feeder[1TX + 1RX]), NOCOMB(No Combination), PBT(PBT), WBANDCOMB(Wideband SGLDOUBLE_ANTENNA(Single Feeder[1TX +DDIVERSITY(Dynamic 2RX]), Combination), DIVERSITY(Transmit Diversity), 0~7 SGL_ANTENNA(Single Feeder[1TX + 1RX]), DOUBLE_ANTENNA(Double Feeder[2TX + 2RX]), Transmit Diversity), DPBT(DPBT), DTIC(Transmit Independency or SGLDOUBLE_ANTENNA(Single Feeder[1TX + 2RX]), DOUBLEFOUR_ANTENNA(Double Feeder[2TX + 4RX]), Combination), NONE(none) SGL_ANTENNA(Single Feeder[1TX + 1RX]), DOUBLE_ANTENNA(Double Feeder[2TX + 2RX]), DOUBLESINGLE_ANTENNA(Double Feeder[1TX + 1RX]), SGLDOUBLE_ANTENNA(Single Feeder[1TX + 2RX]), DOUBLEFOUR_ANTENNA(Double Feeder[2TX + 4RX]), DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX]) SGL_ANTENNA(Single Feeder[1TX + 1RX]), DOUBLE_ANTENNA(Double Feeder[2TX + 2RX]), DOUBLESINGLE_ANTENNA(Double Feeder[1TX + 1RX]), SGLDOUBLE_ANTENNA(Single Feeder[1TX + 2RX]), DOUBLEFOUR_ANTENNA(Double Feeder[2TX + 4RX]), DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX]) DOUBLE_ANTENNA(Double Feeder[2TX + 2RX]),+ 1RX]), DOUBLESINGLE_ANTENNA(Double Feeder[1TX DOUBLEFOUR_ANTENNA(Double Feeder[2TX + 4RX]), DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX]) DOUBLESINGLE_ANTENNA(Double Feeder[1TX + 1RX]), SGL_ANTENNA(Single Feeder[1TX + 1RX]), DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX]) DOUBLESINGLE_ANTENNA(Double Feeder[1TX + 1RX]), DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX])

Interval Type

1~60

Interval Type

1~16777215

Enumeration Type

BIT14(BIT14), BIT16(BIT16), BIT24(BIT24)

String Type

None

Interval Type

0~65535

Enumeration Type

WNF(Whole Number Format), DNF(Divided Number Format)

Bit Field Type Bit Field Type

L11_FORBID, L12_FORBID, L13_FORBID, L14_FORBID, L15_FORBID ET_DISABLE0, ET_DISABLE1, SMDISABLE, WIDISABLE, GMDISABLE, ARRESTER1, ARRESTER2

Bit Field Type

SMDISABLE, WIDISABLE, GMDISABLE, ARRESTER1, ARRESTER2

Interval Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type

Interval Type

1~12

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

PSMODE(Protocol Standard Mode), VGCSMODE(VGCS Mode)

Enumeration Type

PSMODE(Protocol Standard Mode), VGCSMODE(VGCS Mode)

Enumeration Type

FR(FR), EFR(EFR)

Enumeration Type

1000M(1000M), AUTO(AUTO)

Interval Type

0~63

Interval Type

0~255

Enumeration Type Enumeration Type

NO(NO), YES(YES) NOTSPPRTBC(NotSupport CB), SPPRTSTANDARD(SupportStandard CB), SPPRTSIMPLE(SupportSimple CB)

Enumeration Type

NO(No Support), YES(Support)

Enumeration Type

NO(No Support), YES(Support)

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

YES(Support), NO(Not Support)

Interval Type

0~4

Enumeration Type

SUPPORT(Support), NOT_SUPPORT(Not Support)

Enumeration Type Enumeration Type

SUPPORT(Support), NOT_SUPPORT(Not Support) SUPPORT~1||(支持SRAN)$$(Support SRAN)** NOT_SUPPORT(Support SRAN)** NOT_SUPPORT~0||(不支持)$$(Not Support)

Interval Type

0~2047

String Type

None

Interval Type

0~2047

String Type

None

Interval Type

0~65535

String Type

None

Interval Type

1~4

Interval Type Enumeration Type

1~4 HOALGORITHM1(Handover algorithm I), HOALGORITHM2(Handover algorithm II)

IP Address Type

None

Interval Type

1~65533,65535

String Type

Bit Field Type

None BITS1-2MHZ(2MHZ Building Integrated Timing Supply system 1), BITS22MHZ(2MHZ Building Integrated Timing Supply system 2), BITS11~1000 2MBPS(2MBPS Building Integrated Timing Supply system 1), BITS22MBPS(2MBPS Building Integrated Timing Supply system 2), 8KHZ(8KHZ), None GPS(Globe Positioning System), LINE1_8KHZ(8KHZ line1), LINE2_8KHZ(8KHZ line2), BITS1-T1BPS(T1BPS Building Integrated Timing 0~335 Supply system 1), BITS2-T1BPS(T1BPS Building Integrated Timing Supply TS1, TS2, system 2) TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

0~11

Interval Type

1~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~254

Interval Type

0~254

Interval Type

0~11

Interval Type

0~11

Interval Type

0~254

Interval Type

0~11

Interval Type String Type Interval Type Enumeration Type

Interval Type

0

Interval Type

0~11

Interval Type

0~11

String Type

None

Interval Type

0~5

Enumeration Type

MPS, EPS, TCS

Enumeration Type

DES(Descent), ASC(Ascent)

Interval Type

0~255

Interval Type

0~255

Enumeration Type Enumeration Type

GSM_PRIOR(GSM Traffic Prior), UMTS_PRIOR(UMTS Traffic Prior) CSVOICE(CS Voice), CSDATA(CS Data), PSHIGHPRI(PS High PRI), PSLOWPRI(PS Low PRI)

Interval Type

0~63

Interval Type

20~99

Interval Type

30~100

Interval Type

20~99

Interval Type

30~100

Interval Type

1~32

Interval Type

1~32

Interval Type

0~7

Interval Type

0~7

Interval Type

1~2147483646

Interval Type

0~63

Compound Type

HOUR, MIN, SEC

Compound Type

year, month, date, hour, min, sec

Compound Type

hour, min

Compound Type

year, month, date, hour, min, sec

Compound Type

hour, min, sec

Compound Type

hour, min, sec

Compound Type

year, month, day, hour, min, sec

Interval Type

1~65535

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~65535

Interval Type

0~65535

Interval Type

1~31

Interval Type

-990~400 JAN(Jan.), FEB(Feb.), MAR(Mar.), APR(Apr.), MAY(May), JUN(Jun.), JUL(Jul.), AUG(Aug.), SEP(Sep), OCT(Oct.), NOV(Nov.), DEC(Dec)

Enumeration Type

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

0(0), 2(2), 4(4), 6(6)

Interval Type

60~600

Compound Type

hour, min

Interval Type

8~255

Interval Type

1~31

Interval Type

1~31

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Interval Type

0~65535

Interval Type

0~62

Compound Type

year, month, day

Interval Type

1~32

Enumeration Type

NO(NO), YES(YES)

Compound Type

hour, min, sec

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(Off), ON(On)

Interval Type

60~300

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~23

Compound Type

hour, min, sec

Interval Type

Enumeration Type

0~23 BTS30(BTS30), BTS312(BTS312), BTS3001C(BTS3001C), 0~254 BTS3001CP(BTS3001CP), BTS3002C(BTS3002C), BTS3012A(BTS3012A), BTS3006A(BTS3006A), BTS3012(BTS3012), BTS3006C(BTS3006C), 0~7 BTS3002E(BTS3002E), BTS3012AE(BTS3012AE), BTS3012_II(BTS3012 II), DBS3900_GSM(DBS3900 GSM), BTS3900_GSM(BTS3900 GSM), hour, min, sec BTS3900A_GSM(BTS3900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900L_GSM(BTS3900L 1~31 GSM), BTS3900B_GSM(BTS3900B GSM), BTS3900E_GSM(BTS3900E GSM)

Interval Type

1~15

Interval Type

1~15

String Type

None

Interval Type

16~1023

Interval Type

16~1023

Interval Type

1~50

Interval Type Interval Type Compound Type Interval Type

Interval Type

1~124,128~189

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

0(0), 2(2), 4(4), 6(6)

Interval Type

0~65535

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NOTSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

NOTSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(Not Support), YES(Support)

Enumeration Type Enumeration Type

NO(No Support), YES(Support) T_12(12), T_15(15), T_20(20), T_30(30), T_41(41), T_55(55), T_76(76), T_109(109), T_163(163), T_217(217)

IP Address Type

None

Interval Type

0~65535

Enumeration Type

CLOSE(CLOSE), OPEN(OPEN)

Enumeration Type

ON, OFF

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type Enumeration Type

ON(ON), OFF(OFF) SUN(Sunday), MON(Monday), TUE(Tuesday), WED(Wednesday), THU(Thursday), FRI(Friday), SAT(Saturday)

Enumeration Type

CLOSE, OPEN

Enumeration Type

ON(ON), OFF(OFF)

Enumeration Type

ON(ON), OFF(OFF)

Enumeration Type

BFD_OFF(OFF), BFD_ON(ON)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

NO(NO), YES(YES)

Interval Type

1~254

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~4294967295

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

3~5

Enumeration Type Enumeration Type

OFF(Off), ON(On) FIRST(First), SECOND(Second), THIRD(Third), FOURTH(Fourth), LAST(Last)

Interval Type

0~2500

Enumeration Type

SyncCase1(Sync case 1), SyncCase2(Sync case 2)

Enumeration Type Enumeration Type

AISS(Air Interface Software Sync), GPS(GPS Synchronization) CONSYN(Consecutive Synchronizing), INTERSYN(Intermittent Synchronizing)

Interval Type

1~7

Interval Type

0~23

Interval Type

0~59

String Type

None

String Type

None

Interval Type

0,8~11

String Type

None

Enumeration Type

NO(No), YES(Yes)

String Type

None

String Type

None

Interval Type

1000~30000

Interval Type

1~60

Interval Type

30000~60000

Interval Type

800~1500

Interval Type

800~1500

Interval Type

2000~3000

Interval Type

800~1500

Interval Type

800~1200

Interval Type

1000~120000

Interval Type

1~60

Interval Type

6~240

Interval Type

1~255

Interval Type

1~255

Interval Type

1~255

Interval Type

1~255

Interval Type

1~255

Interval Type

1~255

Interval Type

1~255

Interval Type

1~10

Interval Type

180000~360000

Interval Type

180000~360000

Interval Type

1400~2000

Interval Type

1000~10000

Interval Type

1~60

Interval Type

0~255

Interval Type

Enumeration Type

1~255 500ms(500ms), 1000ms(1000ms), 1500ms(1500ms), 2000ms(2000ms), 2500ms(2500ms), 3000ms(3000ms), 3500ms(3500ms), 4000ms(4000ms) 0ms(0ms), 80ms(80ms), 120ms(120ms), 160ms(160ms), 200ms(200ms), 500ms(500ms), 1000ms(1000ms), 1500ms(1500ms)

Interval Type

0~255

Interval Type

5~30

Interval Type

800~1200

Interval Type

1000~10000

Interval Type

800~1200

Interval Type

1000~30000

Interval Type

800~1200

Interval Type

1000~10000

Interval Type

1000~10000

Interval Type

800~1200

Interval Type

1~31

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Enumeration Type

Interval Type

1~16

Interval Type

0~255

Interval Type

0~255

Interval Type

1~31

Interval Type

0~7

Interval Type

1~16

Interval Type

0~255

Interval Type

0~25

Interval Type

0~25

Interval Type

1~12

Interval Type

1~12

Interval Type

30~300

Interval Type

60~300

Interval Type

1~254

Interval Type

1000~10000

Interval Type

0~500

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~100

Interval Type

0~1000

Interval Type

0~63

Interval Type

0~70

Interval Type

0~1000

Interval Type

0~63

Interval Type

0~70

Interval Type

0~60

Interval Type

0~10

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~600

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~100

Interval Type

0~100

Interval Type

SEPERATE_PRINCIPAL(Principal BSC), 1~15 SEPERATE_SUBORDINATE(Subordinate BSC), TOGETHER(BSC/TC Together), SEPERATE_BSC_INTERFACE(BSC Interface)

Enumeration Type

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

0~62

Interval Type

0~335

Interval Type

0~4095

Interval Type

0~5,8~27

Interval Type

0~11

Enumeration Type

GTC(GTC), UTC(UTC), ITC(ITC)

Enumeration Type

AUTO(Auto), Manual(Manual)

Enumeration Type

AUTO(Auto), Manual(Manual)

Interval Type

0~7

Interval Type

0~15

Interval Type

0~7

Interval Type

0~1

Interval Type

0~16383

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~63

Interval Type

0~127

Interval Type

0~127

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~1

Interval Type

0~100

Interval Type

0~100

Interval Type

0~5

Interval Type

0~5

Interval Type

0~127

Enumeration Type

CLOSE(Close), OPEN(Open)

String Type

None

String Type

None

Interval Type

-500~1000

Interval Type

-490~1000

Interval Type

-500~1000

Interval Type

-500~990

Interval Type

0~5000

String Type

None

Interval Type

1~65535

Interval Type

32768~65535

String Type

None

Interval Type

50~70

Interval Type

-400~0

Interval Type

-400~0

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Any Type

None

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~1023

Interval Type

0~65535

Enumeration Type

ACTIVE(Active OMU), STANDBY(Standby OMU)

Interval Type

0~255

IP Address Type

None

IP Address Type

None

Interval Type

0~5,8~27

Interval Type

0~11

Interval Type

5000~60000

Interval Type

220~280

Interval Type

220~280

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Enumeration Type

PERCENTAGE(Percentage), BANDWIDTH(Band Width)

Interval Type

1~15

Interval Type

0~63

Interval Type

0~7

Interval Type

1~32

Interval Type

0~100

Interval Type

1~32

Interval Type

0~7

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~63

Interval Type

3~15

Enumeration Type

NOLIMIT(No Limit), LIMIT(Limit)

Compound Type

HOUR, MIN, SEC

Interval Type

0,5~1440

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

200~10000

Interval Type

1~65535

Interval Type

1~3

Interval Type

1~10

Interval Type

1~20

Interval Type

0~255

Interval Type

1~1024

Enumeration Type

NO(No), YES(Yes), NULL(Null)

Interval Type

0~255

Interval Type

10~255

Interval Type

1~30

Interval Type

1~15

Interval Type

7~365

Interval Type

0~4294967295

Interval Type

-99~70

Interval Type

-19~5

Interval Type

-99~99

Compound Type

hour, min

Compound Type

hour, min

Compound Type

hour, min

Enumeration Type

TMTP3BTIMERTBL, TNODEBIDTBL, TNODEBIPTBL, TOPTTBL, TOSPTBL, TPATHRSCGRPTBL, TPIUOPTICALPORTMSPINFOSTBL, TPORTCTRLERTBL, TPORTFLOWCTRLPARATBL, TPORTFLOWCTRLSWTBL, TPOWERMONITORBUZZERTBL, TPOWERMONITORFLTENABLETBL, TPOWERMONITORPARATBL, TPOWERMONITORRACKLEDTBL, TPPPLINKTBL, TPROGSDPTBL, TQAAL2TIMERTBL, TRCLKCLOCKMODETBL, TRCLKCLOCKSRCTBL, TSAALLINKTBL, TSCCPTIMERTBL, TSCTPLINKTBL, hour, min TSCTPSVRPORTTBL, TSD539TSTBL, TSLOTSTATUSTBL, TSPUSHARETHRESHOLDTBL, TSUBRACKTBL, TTRMMAPTBL, TUNITBL, hour, min TVLANMAPTBL, TVPTBL, TYPRABAMRLCCNGCTRLINFO, TYPRABAMRLCPOLLINFO, TYPRABAMRLCRECEIVEPARAS, hour, min TYPRABAMRLCSENDERPARAS, TYPRABAQMPARAS, TYPRABDCCCPARAS, TYPRABDYNTF, TYPRABHSDPA, 14~163 TYPRABHSUPA, TYPRABOLPCPARAS, TYPRABPARAS, 0~163 TYPRABQUALITYMEASPARAS, TYPRABRLCMAXDATRETRPARAS, TYPRABRLCNODISCARDPARAS, TYPRABRLCPARAS, 1~120 TYPRABRLCTIMERBASEDEXPPARAS, TYPRABRLCTIMERBASEDNOEXPPARAS, TYPRABSEMISTATICTF, NON_FDR(NON_FDR), FDR(FDR) TYPRABSUBFLOWPARAS, TYPRABSUBFLOWRLCPARAS, TYPRABTMRLCPARAS, TYPRABTOAWPARAS, 2~4 TYPSRBAMRLCPOLLINFO, TYPSRBAMRLCRECEIVEPARAS, TYPSRBAMRLCSENDERPARAS, TYPSRBDYNTF, TYPSRBHSDPA, 0~100 TYPSRBHSUPA, TYPSRBLOCHPARAS, TYPSRBOLPCPARAS, 0~4294967294 TYPSRBRLCMAXDATRETRPARAS, TYPSRBPARAS, TYPSRBRLCNODISCARDPARAS, TYPSRBRLCPARAS, 0~100 TYPSRBRLCTIMERBASEDEXPPARAS, TYPSRBRLCTIMERBASEDNOEXPPARAS, TYPSRBSEMISTATICTF, 8000~12000 TYPSRBTMRLCPARAS, TYPSRBTOAWPARAS, UECONNECTEDMODETIMERCONST, UEIDLEMODETIMERCONST, 30000~90000 USERGBRMAPINFO, USERPRIORITYMAP, UTRANREGISTERINFO, WPSALGO

Enumeration Type

TRRS(Terrestrial Transmission), SATEL(Satellite Transmission)

Enumeration Type

TRRS(Terrestrial Transmission), SATEL(Satellite Transmission)

Interval Type

-120~-1,1~120

Interval Type

0~7

Interval Type

0~62

Interval Type

0~23

Interval Type

0~254

Enumeration Type

NORMAL(TXT FORMAT), FORMAT(BIN FORMAT)

Interval Type

0~5

Interval Type

1~30

Interval Type

30~100

Interval Type

30~100

Interval Type

30~100

Interval Type

30~100

Enumeration Type

ON, OFF

Interval Type

1~255

Interval Type

Enumeration Type

1~255 M3UA_OVERRIDE_MOD(Active/Standby Mode), M3UA_LOADSHARE_MOD(Load Sharing Mode) TER_TRANS(Terrestrial Transmission), SAT_TRANS(Satellite Transmission), TER_AND_SAT_TRANS(Terrestrial and Satellite)

Interval Type

0~27

Compound Type Compound Type Compound Type Interval Type Interval Type Interval Type Enumeration Type Interval Type Interval Type Interval Type Interval Type Interval Type Interval Type

Enumeration Type

Enumeration Type

IP(IP)

Enumeration Type

IP(IP), HDLC(HDLC)

Enumeration Type

IP(IP), HDLC(HDLC), TDM(TDM)

Enumeration Type

IP, HDLC, TDM

Enumeration Type

HDLC, IP

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type Enumeration Type

ENABLE(Enable Trace Range Limit), DISABLE(Disable Trace Range Limit) 5sec(5sec), 10sec(10sec), 15sec(15sec), 20sec(20sec), 30sec(30sec), 60sec(60sec), 120sec(120sec), 300sec(300sec), nouse(no use)

Interval Type

0~100

Interval Type

0~11

Interval Type

0~5,8~27

Interval Type

0~11

Interval Type

0~163

Interval Type

0~199

Interval Type

0~199

Interval Type

10~199

Interval Type

0~199

Interval Type

0~199

Interval Type

0~199

Interval Type

0~199

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~11

Interval Type

0~11

Interval Type Enumeration Type

TRXAid_NotAllow(TRX Aiding Not Allowed), AllowReForbid(Allowed & 0~11 Recover Forbidden), AllowReImmed(Allowed & Recover Immediately), AllowReCheckRes(Allowed & Recover When Chk Res)

Interval Type

5~10

Interval Type

0~63,255

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

String Type

None

Interval Type

0~3071

Interval Type

0~63

Interval Type

0~71

Interval Type

0~8

Interval Type

0~7

Interval Type

TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), 0~7 TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TRX(TRX), TRU(TRU/DTRU), QTRU(QTRU), DRRU(DRRU), DRFU(DRFU), NO(No), YES(Yes) TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), MRRU(MRRU), MRFU(MRFU), GRFU(GRFU), GRRU(GRRU), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), BTS3900B(BTS3900B), BTS3900E(BTS3900E) TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), 8~255 TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), 1~31 TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)

Enumeration Type Enumeration Type Interval Type Interval Type Enumeration Type

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Bit Field Type

TS1, 1~31 TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS1, TS3, TS4,TS28, TS5, TS29, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS25,TS2, TS26, TS27, TS30, TS31 TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS1, TS3, TS4,TS28, TS5, TS29, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS25,TS2, TS26, TS27, TS30, TS31 TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

0~7

Interval Type

0~512

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~65535

Interval Type

1~144

Interval Type

0~127

String Type

Bit Field Type

TS1, NoneTS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS1, TS3, TS4,TS28, TS5, TS29, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS25,TS2, TS26, TS27, TS30, TS31 TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

0~23

Interval Type

1~31

Interval Type

0~7

Interval Type

0~50

Interval Type

0~65535

Enumeration Type

Close(Close), Open(Open)

Enumeration Type

8K(8K), 16K(16K), 32K(32K), 64K(64K)

Interval Type Enumeration Type

TRXLOOPBACK(TRX Loopback Test), CHLLOOPBACK(Channel Loopback 0~254 Test), CHLCODEC(Speech codec Test), CPRILOOPBACK(CPRI Loopback Test)

Interval Type

0~31

Enumeration Type

SIMPLETEST(Simple Test), MANUALTEST(Manual Test)

Enumeration Type

PIM(Passive Intermodulation Test)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

CHAIN(Chain), RING(Ring)

Interval Type

1~255

Interval Type

1~128

Interval Type

0~8

Compound Type

HOUR, MINUTE

Compound Type

HOUR, MINUTE

Enumeration Type

DISABLE(Disable), ENABLE(Enable), SLEEPING(Sleeping)

Interval Type Bit Field Type Bit Field Type

Bit Field Type

Interval Type

0~100

Interval Type

40~79

Interval Type

-99~99

Interval Type

1~60

Interval Type

1~60

Interval Type

1~60

Interval Type

1~60

Interval Type

1~60

Interval Type

1~60

Interval Type Enumeration Type

TX_3(3), TX_4(4), TX_5(5), TX_6(6), TX_7(7), TX_8(8), TX_9(9), TX_10(10), 1~60 TX_11(11), TX_12(12), TX_14(14), TX_16(16), TX_20(20), TX_25(25), TX_32(32), TX_50(50)

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

1~3000000

Interval Type

Enumeration Type

0~4000000 BTS30(BTS30), BTS312(BTS312), BTS3001C(BTS3001C), BTS3001CP(BTS3001CP), BTS3002C(BTS3002C), BTS3012A(BTS3012A), 200~10000 BTS3006A(BTS3006A), BTS3012(BTS3012), T_2(2), T_3(3), T_4(4), T_5(5), T_6(6), T_7(7),BTS3006C(BTS3006C), T_8(8), T_9(9), T_10(10), BTS3002E(BTS3002E), BTS3012AE(BTS3012AE), BTS3012_II(BTS3012 T_12(12), T_14(14), T_16(16), T_20(20), T_25(25), T_32(32), T_50(50) II), DBS3900_GSM(DBS3900 GSM), BTS3900_GSM(BTS3900 GSM), BTS3900A_GSM(BTS3900A GSM), DBS3036(DBS3036), EPS, TCS BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900B_GSM(BTS3900B ANY_ERR_RETURN(Stop at Error), GSM), ALL_END_RETURN(Stop at End) GSM), BTS3900E_GSM(BTS3900E BTS3900_GSM_6RFC(BTS3900 GSM900, DCS1800, GSM900_DCS1800, GSM850, PCS1900, GSM 6RFC), BTS3900A_GSM_6RFC(BTS3900A GSM 6RFC), GSM850_1800, GSM850_1900 BTS3036_6RFC(BTS3036 6RFC), BTS3036A_6RFC(BTS3036A 6RFC), APM30(APM30), TMC(TMC), BBC(BBC), APM100(APM100), OUTER(External PCU), INNER(Built-in PCU) APM200(APM200), PS4890(PS4890), OMB(OMB), RFC-6(RFC-6), BTS3900(BTS3900), BTS3900L(BTS3900L), BTS3900AL(BTS3900AL), GSM900, DCS1800, GSM850, PCS1900 BTS3900AS(BTS3900AS), BTS3900B(BTS3900B), BTS3900E(BTS3900E), VIRTUAL(VIRTUAL)

Enumeration Type

GSM900(GSM900), DCS1800(DCS1800)

Interval Type

0~15

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), 8(8), 9(9), 10(10), 11(11), 12(12)

Interval Type

0~1,255

Interval Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type Enumeration Type

Interval Type

0~23,255

Interval Type

0~53,255

Interval Type

0~15

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), 8(8), 9(9), 10(10), 11(11), 12(12)

Interval Type

0~1,255

Interval Type

0~23,255

Interval Type

0~53,255

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

NORTPCOMP, RTPCOMP

Enumeration Type

NORTPCOMP, RTPCOMP

Interval Type

1214~2001,2005~3783,3786~4783,4785~65000

Interval Type Enumeration Type

0~65535 Administrators(Administrator), Operators(Operator), Users(User), Guests(Guest), Customs(Custom)

Interval Type

0~99

Interval Type

0~64

Interval Type

300~1000

String Type

None

String Type

None

Interval Type

0~255

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

1~8

Interval Type

1~8

Interval Type

1~255

Interval Type

0~240

Interval Type

1~64

Interval Type

0~63

Interval Type

1~64

Interval Type

1~64

Interval Type

1~10

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

1~100

Interval Type

1~20

Interval Type

1~30

Interval Type

1~30

Interval Type

1~100

Interval Type

0~3

Interval Type

0~7

Interval Type

0~7

Interval Type

1~20

Interval Type

0~7

Interval Type

0~63

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~10

Interval Type

0~19

Interval Type

0~63

Interval Type

0~63

Interval Type

1~20

Interval Type

0~10

Interval Type

0~19

Interval Type

1~20

Interval Type

0~100

Interval Type

0~100

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~64

Enumeration Type

NO(Not Allowed), YES(Allowed)

Interval Type

0~255

Enumeration Type

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

Enumeration Type

NO(NO), YES(YES)

Interval Type

1~6

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

0~2047

Interval Type

0~2047

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

String Type

None

String Type

None

Interval Type

0~15

Enumeration Type

CS1(CS1), CS2(CS2), CS3(CS3), CS4(CS4) MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), MCS9(MCS9)

Enumeration Type

Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), 10~70 MCS6(MCS6), UAS7(UAS7), UAS8(UAS8), UAS9(UAS9), UAS10(UAS10), MCS1(MCS1), UAS11(UAS11)MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), UAS7(UAS7), UAS8(UAS8), UAS9(UAS9), UAS10(UAS10), UAS11(UAS11), UNFIXED(UNFIXED)

Interval Type

0~5000

Enumeration Type Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS5(MCS5), CS1(CS1), CS2(CS2), CS3(CS3), CS4(CS4), MCS4(MCS4), UNFIXED(UNFIXED) MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), MCS9(MCS9), UNFIXED(UNFIXED)

Interval Type

0~70

Interval Type

0~63

Interval Type

10~255

Interval Type

0~96

Enumeration Type

NO(No), YES(Yes)

Interval Type Enumeration Type

Interval Type

0~2047

Interval Type

512~1535

Interval Type

1~16

Interval Type

1~10

Interval Type

1~16

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~300

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Enumeration Type Enumeration Type

FORBID(Forbid), PERMIT(Permit) BYTMSI(By TMSI), BYIMSI(By IMSI), BYMSISDN(By MSISDN), BYIMEI(By IMEI)

Enumeration Type

NOTSUPPORT(Not Support), SUPPORT(Support)

String Type

None

String Type

None

Compound Type

HOUR, MINUTE

Compound Type

HOUR, MINUTE

Interval Type

-99~99

Interval Type

0~8

Interval Type

0~255

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Interval Type

1~63

Enumeration Type

FDD(FDD), TDD(TDD)

String Type

Enumeration Type

None No_Priority~0||(无优先策略)$$(No Priority)** Public_Network_First~1||(公网优 先)$$(Public 0~190,255 Network First)** VGCS_First(No Priority)** Public_Network_First~1||(公网优先)$$(Public Network First)** VGCS_First~2||(集群优先)$$(VGCS First)

Interval Type

0~190

Interval Type

50~95

Enumeration Type

NO(No), YES(Yes)

Interval Type

Enumeration Type

NONE(None), LEVEL4(User Level 4), LEVEL3(User Level 3), LEVEL2(User Level 2), LEVEL1(User Level 1), LEVEL0(User Level 0), LEVELB(User Level B), LEVELA(User Level A)

Interval Type

50~95

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Enumeration Type

DISABLE, ENABLE

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

2~4094

Interval Type

2~4094

Interval Type

2~4094

Interval Type

2~4094

Interval Type

2~4094

Interval Type

2~4094

Interval Type

0~7

Interval Type

0~7

Enumeration Type Bit Field Type

FULL_RATE_VER1, NO(N0), YES(Yes) FULL_RATE_VER2, FULL_RATE_VER3, HALF_RATE_VER1, HALF_RATE_VER2, HALF_RATE_VER3, FULL_RATE_VER5

Enumeration Type

CLOSE(Close), OPEN(Open)

String Type

None

String Type

None

Enumeration Type

CLOSE(Close), OPEN(Open)

String Type

None

String Type

None

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~12

Interval Type

Enumeration Type

1~30 14(1.4), 15(1.5), 16(1.6), 18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 33(3.3), 36(3.6), 88(8.8) 18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 32(3.2), 35(3.5), 38(3.8), 41(4.1), 45(4.5), 88(8.8)

Interval Type

0~12

Interval Type

0~999

Interval Type

4000~33000

Interval Type

3000~34000

Interval Type

3000~34000

Interval Type

0~1000

Interval Type

1~30

Enumeration Type

Interval Type

0~60

Interval Type

0~1000

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

NOLIMIT(No Limit), LIMIT(Limit)

Enumeration Type

East_Longitude(East Longitude), West_Longitude(West Longitude)

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type Enumeration Type

DENY(Deny), ALLOW(Allow) SUN(Sunday), MON(Monday), TUE(Tuesday), WED(Wednesday), THU(Thursday), FRI(Friday), SAT(Saturday)

Enumeration Type

M3UA_ASP(M3UA_ASP), M3UA_IPSP(M3UA_IPSP)

Interval Type

0~24

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Interval Type

0~24

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Active(Format active area), Standby(Format standby area) GMT-1200(GMT-12:00), GMT-1100(GMT-11:00), GMT-1000(GMT-10:00), GMT-0930(GMT-09:30), GMT-0900(GMT-09:00), GMT-0800(GMT-08:00), GSM_AND_UMTS(GSM GMT-0600(GMT-06:00), AND UMTS), UMTS(UMTS), GSM(GSM) GMT-0700(GMT-07:00), GMT-0500(GMT-05:00), GMT-0430(GMT-04:30), GMT-0400(GMT-04:00), GMT-0330(GMT-03:30), GO(GSM Only) GMT-0300(GMT-03:00), GMT-0200(GMT-02:00), GMT-0100(GMT-01:00), GMT(GMT), GMT+0200(GMT+02:00), E1_UNBA(E1GMT+0100(GMT+01:00), Unbalance), E1_BA(E1 Balance), T1(T1), E1(E1) GMT+0300(GMT+03:00), GMT+0330(GMT+03:30), GMT+0400(GMT+04:00), GMT+0430(GMT+04:30), E1(E1), T1(T1) GMT+0500(GMT+05:00), GMT+0530(GMT+05:30), 1~127 GMT+0545(GMT+05:45), GMT+0600(GMT+06:00), GMT+0630(GMT+06:30), GMT+0700(GMT+07:00), 30~300 GMT+0800(GMT+08:00), GMT+0845(GMT+08:45), GMT+0900(GMT+09:00), GMT+0930(GMT+09:30), 60~300 GMT+1000(GMT+10:00), GMT+1030(GMT+10:30), GMT+1100(GMT+11:00), GMT+1130(GMT+11:30), 30~60000 GMT+1200(GMT+12:00), GMT+1245(GMT+12:45), GMT+1300(GMT+13:00), GMT+1400(GMT+14:00)

Enumeration Type Enumeration Type Enumeration Type Enumeration Type Interval Type Interval Type Interval Type Interval Type Enumeration Type

Actual Value Range

Unit

Default Value

0~70

None

50

0~70

None

50

1~8, step:0.1

s

40

TRUE, FALSE

None

NO, YES

None

10~255

s

30

10~255 IDLETSALLOC_0, IDLETSALLOC_1, IDLETSALLOC_2, IDLETSALLOC_3

s

60

None

IDLETSALLOC_0

CLOSE, OPEN

None

CLOSE

0~100

per cent

NO, YES

None

10~3600

s

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

None

1~255

None

40

0~250

None

100

8BIT, 11BIT

None

0~65535

None

NO, YES

None

NO

0~31

None

None

OSubcell, USubcell, NoPrefer

None

Usubcell

0~31

None

None

ULPRIORITY, NEUTRAL, DLPRIORITY

None

NEUTRAL

0~9

None

0

1~10

None

2

15~7200

s

Disable, Enable

None

NO, YES

None

CLOSE, OPEN

None

COMPUL0, COMPUL1, FLEX 4_75KBIT/S, 5_15KBIT/S, 5_90KBIT/S, 6_70KBIT/S, 7_40KBIT/S, 7_95KBIT/S, 10_2KBIT/S, 12_2KBIT/S 4_75KBIT/S, 5_15KBIT/S, 5_90KBIT/S, 6_70KBIT/S, 7_40KBIT/S, 7_95KBIT/S

None

0~7

None

Enable 4_75KBIT/S1&5_15KBIT/SYES 0&5_90KBIT/S1&6_70KBIT/SCLOSE 4_75KBIT/S0&7_40KBIT/S1&5_15KBIT/S1&7_95KBIT/SFLEX 0&5_90KBIT/S0&10_2KBIT/S1&6_70KBIT/S0&12_2KBIT/S-1 0&7_40KBIT/S6_60KBIT/S1&7_95KBIT/S-0 1&8_85KBIT/S1&12_65KBIT/S-1

NO, YES

None

NO

None None

FALSE YES

90 NO 15 GSM_PHASE_2

8BIT 0

120

1~255

min

10

60~300

V

180

61.0~300.0 (step: 0.1)

V

2800

60.0~299.0 (step: 0.1)

V

1800

60~300

V

280

NO, YES

None

NO

0~254

None

None

0~50

ms

0

0~768

None

2

PORT0_CDEF, PORT1_CDEF

None

None

1~16777215

None

None

BYMANUAL, BYAUTO

None

BYAUTO

0, 1, 2

None

OFF, ON

None

OFF

COMMON_DLD, QUICK_DLD1, QUICK_DLD2

None

None

Lock, Unlock, Shutdown

None

UNLOCK

Lock, Unlock, Shutdown

None

Unlock

Lock, Unlock, Shutdown hour{0~23} min{0~59}

None

Unlock

None

None

0~100

None

OFF, ON hour{0~23} min{0~59}

None

OFF

None

None

RATIORULE

None

None

1~51 characters

None

None

1~51 characters

None

None

0~600

ms

400

0~60

dB

20

-60~-35, 0

dBm

0~1000

ms

0

0~15

dB

6

CLOSE, OPEN

None

10~100

None

1~10

s

1920~30720, step:480

ms

2

10

-50

CLOSE 20 4 64_Times

0~30240, step:480

ms

48

0~65534

None

None

BSC

None

None

1920~30720, step:480

ms

52_Times

0~30240, step:480

ms

65334~65383

None

None

1~65535

None

None

1~65535

None

None

1~65535

None

None

1~65535

None

None

65033~65533

None

None

1~1024 characters

None

None

1~60

min

ALL, ONEBYONE

None

None

ALL, ONEBYONE

None

None

NO, YES

None

NO

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

NO

ABIS, A

None

ABIS

0~100

per cent

5

0~100

per cent

5

0~100

per cent

5

0~100

per cent

10

0~100

per cent

10

0~100

per cent

10

NO, R3, R2, R2ANDR3

None

-12~12

dB

-23~-4

dBm

3~12

dB

-23~-4

dBm

-4

-23~-4

dBm

-23

32

15

NO 0 -18 6

FIXEDLEVEL, ADAPTIVE, FIXEDGAIN

None

FIXEDGAIN

CLOSE, OPEN

None

CLOSE

5~15

None

5

1~255

s

3

0~4000000

kbit/s

None

NOTALLOW, ALLOW

None

ALLOW

OFF, ON

None

OFF

0~100

per cent

NOTALLOW, ALLOW

None

0~16

None

0~100

per cent

ALLCIC, ALLNULL ALLCIC, ALLNULL

None

None

None

ALLCIC

0~2000

mA

30

0~2000

mA

30

0~2000

mA

30

0~2000

mA

30

0~2000

mA

30

0~2000

mA

30

0~65535

s

None

NO, YES

None

YES

0~65534

None

None

0~65535

None

None

0~15

mA

10

45~155

mA

100

125~175

mA

150

0~65535

s

0~100

per cent

0

0~100

per cent

0

0~250

None

0

0~250

None

0

NO, YES

None

NO

flt, evt, all

None

all

0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10

None

100 NOTALLOW 4 100

None

6

0~0.9, step:0.1

m

0

-1000~10000

m

0~6553

m

-3281~32810

feet

None

Critical, Major, Minor, Warning

None

None

Critical, Major, Minor, Warning DISABLED, ENABLED DISABLED, ENABLED DISABLED, ENABLED DISABLED, ENABLED DISABLED, ENABLED DISABLED, ENABLED

None

None

None

DISABLED

None

DISABLED

None

DISABLED

None

DISABLED

None

DISABLED

None

DISABLED

2~32, step:2

dB

OFF, ON

None

ON

NO, YES

None

NO

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~3

None

0

0~7

None

0

0~7

None

3

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~7

None

2

0~63

dB

8

0~63

dB

33

0~63

dB

25

NO, YES

None

0~255

dB

2

0~255

dB

20

0~255

dB

1

0~255

dB

100

0~7

None

0~100

per cent

0~255

dB

4

0~255

dB

108

NO, YES

None

None 40

16

NO

0 75

NO

0~7

None

3

0~100

per cent

0~32

dB

8

0~30

dB

2

0~30

dB

0

0~30

dB

0

0~32

dB

8

NO, YES

None

480~7200, step:480

ms

3

0~4

dB

4

0~15

None

0

OFF, ON

None

0~99

per cent

NO, YES

None

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~3

None

0

0~7

None

0

0~7

None

3

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~7

None

3

0~63

dB

6

0~63

dB

30

0~63

dB

18

0~65535

None

2

0~65535

None

2

3~30

dB

6

CLOSE, OPEN

None

10~30

dB

1~5 characters

None

None

0~4599

None

None

0~4599

None

None

1~100 characters

None

None

MODE0, MODE1, MODE2

None

MODE0

-32~0

dB

15

YES

ON 55 NO

CLOSE 12

-13

-64~0

dB

-48

CLOSE, OPEN

None

0~360

degree

0~1000

m

SENDPOWER, NOPOWER

None

NOPOWER

OFF, ON

None

OFF

NO, YES

None

NO

0~35

None

None

A, B

None

None

A, B

None

None

A, B, NULL

None

NULL

0~335

None

None

M3UA, BBAP

None

None

MTP2, OTHER, TCSTM1

None

None

1~65535

packet

1~65535

bit

1024

1~65535

bit

256

1~65535

packet

20

1~65535

packet

10

1~65535

packet

20

CLOSE, OPEN

None

1~65535

bit

0~65535

None

PRIMARY, STANDBY, ALL

None

PRIMARY

PRIMARY, STANDBY

None

PRIMARY

0~80

per cent

5~126

None

100

5~100

per cent

100

3~10

None

3

3~10

ms

3

0~27

None

None

0~27

None

None

0~11 power, env, sig, trunk, hardware, software, run, comm, service, handle

None

None

None

None

CLOSE 360 0

20

CLOSE 384 0

50

power, env, sig, trunk, hardware, software, run, comm, service, handle

None

None

OFF, ON

None

OFF

DISABLE, ENABLE

None

DISABLE

0~61

dB

0~62, 255

None

None

0~62

None

None

0~23, 255

None

None

0~23

None

None

0~255

None

None

0~254

None

None

0~63

dB

30

500~60000

ms

10000

1~300

s

30

1~300

s

60

1~300

s

30

1~300

s

60

1~300

s

30

1~300

s

30

1~300

s

20

NO, YES

None

0~63

dB

2

0~63

dB

10

NO, YES

None

YES

Close, Open

None

Open

80~100

per cent

35

NO

85

0~254 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, 0~100 TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, per cent TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

NO, YES

None

None

0~1

None

None

0~254

None

None

0~2047

None

None

TDM, IP

None

TDM

A, B, ALL

None

None

90 None

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

NO, YES

None

YES

0~15

dB

0

0~15

dB

0

1~65535

min

1~60

min

NONE, PEER

None

None

SERVER, CLIENT

None

None

SERVER, CLIENT

None

None

SERVER, CLIENT

None

None

1~63 characters

None

None

1~63 characters

None

None

1~64 characters

None

None

1~15 characters

None

None

1~15 characters

None

None

1~16 characters

None

None

NO_V, PAP_V, CHAP_V

None

NO_V

NO_V, PAP_V, CHAP_V

None

NO_V

NO_V, PAP_V, CHAP_V

None

NO_V

ENABLE, DISABLE

None

None

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

NO

DISABLED, ENABLED

None

ENABLED

BTSAUTODLDACT, TMUAUTOACT

None

None

OFF, ON

None

ON

1~65535

min

None

AU4, AU3

None

None

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

None

GSM_PHASE_2

LOW, HIGH

None

HIGH

O1E3_R1E4, LOW, HIGH O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11, O1E3_R1E4, O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E11_R1E12 O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11, O1E11_R1E12

None

LOW

None

None

None

None

None 1

O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11 O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11

None

None

None

None

OFF, ON

None

OFF

OFF, ON

None

OFF

0~200 characters

None

None

0~128 characters

None

None

0~70

None

CLOSE, LOCALTLLI, ALLTLLI

None

ALLTLLI

1~64 characters

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

BYTRX, BYPWR

None

BYTRX

BYCOVER, BYCAP, BYSAVING

None

BYCOVER

0~1

None

1

0~1

None

1

0~1

None

1

1~200

s

1~80 characters

None

None

0~2047

None

None

Battery1Temp, Battery2Temp

None

Battery1Temp

Battery1Temp, Battery2Temp

None

Battery1Temp

30~1000

Ah

NO, YES

None

0~90

per cent

NO_BAT, INSIDE_BAT, OUTSIDE_BAT

None

1024~65535

None

58000

0~254

None

8

0~5000

Ah

0~7

None

None

0~7

None

None

0~7

None

None

0~1023

None

None

0~1023

None

None

NO_Hop, Hop

None

None

55

20

50 NO 50 NO_BAT

36

0~100

per cent

80

0~100

per cent

60

0~63

None

14

0~511

None

5~25

per cent

43.3~57.6 (step: 0.1)

V

NO, YES

None

1~10

None

8

1~10

None

4

1~10

None

2

MTP3, M3UA, MTP3_M3UA

None

1~60

s

1

0~10

None

5

0~3

None

1

NO, YES

None

NO

NO, YES

None

YES

0.5~16, step:0.5

s

4

0.5~16, step:0.5

s

6

3~10

None

3

1~2

None

10~254

None

ALL, PART

None

ALL

-10000~10000

None

None

1~10

None

4

1~10

None

2

1~10

None

1

DISABLE, ENABLE

None

0~65534

s

0

60~65534

s

900

DISABLE, ENABLE

None

1~6

None

1~120

s

0~335

None

None

0~5, 8~27

None

None

None 15 565 NO

None

None 30

ENABLE

ENABLE 4 10

0~11

None

None

0~5000

s

NO, YES

None

None

nonrpt, rpt

None

None

0, 1, 2, 3, 4, 5, 6, NULL

None

NULL

0, 1, 2, 3, 4, 5, 6, NULL

None

NULL

NO, YES

None

YES

0.5~8, step:0.5

s

0~127

dB

0.5~8, step:0.5 DATM_MAIN, DATU_MAIN, DDPM_MAIN, DDPU_MAIN, SCU, GCU, XPU, INT, TNU DDRM_MAIN, DEMU_MAIN, DFCU_MAIN, DGPS_MAIN, DHEU_MAIN, DOMU_MAIN, DPMU_MAIN, DPTU_MAIN, SCU, GCU, XPU, DPU, INT, TNU DRFU_MAIN, DRFUBOOT_MAIN, DRRU_MAIN, DRRUBOOT_MAIN, DRU_MAIN, SCU, GCU, MPU, GCP, DPU, INT,DTCU_MAIN, TNU DTMU_MAIN, DTRU_MAIN, ETR_MAIN, FMU_MAIN, INT, DPU, XPU, TNU, OMU, GTMU_MAIN, SAU FMUA_MAIN, GATM_MAIN, IASU_MAIN, IOMU_MAIN, MFU_3001C, MMU_3001C, MRRU_MAIN, 0~72 MTR_MAIN, NFCB_MAIN, PBU_MAIN, QTRU_MAIN, TMU_MAIN, TRX_MAIN, GRRU_MAIN, BTS3900B_MAIN, 0~47 BTS3900BBOOT_MAIN, MRFU_MAIN, GRFU_MAIN, MRRUBOOT_MAIN, 0~100000 (step: 100)MRFUBOOT_MAIN, USCU_MAIN, BTS3900E_MAIN, BTS3900EBOOT_MAIN, BOOTROM_PCK, UBRI_MAIN, UTRP_MAIN

s

1000

1 69 1

None

None

None

None

None

None

None

None

None

None

None

None

kbit/s

None

None

None

0~100000 (step: 100)

kbit/s

None

PEUa, DPUa, FG2a, DPUc GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa, OMUa, OMUb, SAUa

None

None

None

None

FG2a, GOUa, FG2c, GOUc

None

None

PEUa, POUc

None

None

PEUa, POUc

None

None

PEUa, POUc

None

None

MRRU, GRRU, MRFU, GRFU, BTS3900E TMU, DTRU, DPTU, QTRU, MRRU, GRRU, BTS3900B, MRFU, GRFU, BTS3900E, DRFU, DRRU, UBRI, UTRP

None

None

None

None

0~255

s

1~80 characters

None

2~3600

s

ENTIRE, INCREMENTAL

None

0~7

None

1~16777215

None

None

NO, YES

None

NO

0 Cell name 60 INCREMENTAL 1

MAINBSC, SUBBSC

None

None

0.0.0.0~255.255.255.255 hour{0~23} min{0~59} hour{0~23} min{0~59}

None

None

None

None

None

None

0~15

None

None

0~15

None

None

5~60

d

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255 UNCONDITIONALSTART, ATERCONGESTS, PREFIXNUMBER

None

None

None

UNCONDITIONALSTART

1~64 characters

None

None

NO, YES

None

YES

NO, YES

None

NO

0~335

None

None

0~65535

None

None

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

NO

0~65535

None

65535

0~65535

None

65535

0~65535

None

65535

0~4294967295

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

65535

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

5

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~65535

None

65535

0~65535

None

65535

0~65535

None

65535

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~65535

None

65535

0~27

None

None

0~11

None

None

0~7

None

None

0~2500

None

None

0~15

None

None

1~15

None

None

1~31

None

None

0~15

None

NO, YES

None

0~12

None

940~4230, step: 470

ms

1~4

None

1

0~12 NEITHERSTART, BTSPRIORITY, BSCPRIORITY, BTSONLY, BSCONLY

None

1

None

NEITHERSTART

NONSUPPORT, BASIC, ENHANCED

None

NONSUPPORT

NO, YES

None

YES

SCUa, GCUa,OIUa, GCGa, PEUa, FG2a, GOUa, EIUa, OIUa, PEUa, EIUa, POUc POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, SCUa, DPUd, GCUa, TNUa GCGa, PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa, ALL

None

None

None

None

None

None

PEUa, POUc, EIUa, OIUa

None

None

PEUa, POUc, EIUa

None

None

10 YES 4 2_M_PERIOD

PEUa, POUc, EIUa, OIUa

None

None

POUc, OIUa

None

None

POUc, OIUa

None

None

FG2a, GOUa, FG2c, GOUc, POUc

None

None

EIUa BIE, PWC, EAC, EMUA, MCK, MRFU, DTMU, GRFU, DATM_DATU, DATU, GATM, DRRU, MRRU, GRRU, NFCB, EMU_DEMU, DPMU, DCBM_DCOM, DHEU, ECOM, MFU, CDU, PCDU, DCDU, CDUC, CDUP, RCDU, CDUR, CDUE, BTS3900E MPW, MCD, IASU, PTU, TMU, PSU, PMU, APMU, EDU, PEDU, REDU, DEDU, EDUC, EDUP, EDUR, EDUE, 3001C_MFU, TES, PBU, DPBU, RPBU, PPBU, SCU, DDPM_DDPU,TEU, DFCU, DFCB MDU, UPEU, UEIU, FMU, FMUA, DTCU, GATM, DGPS, USCU, UBRI, FAN, EMU, PMU, TCU, PSU, UTRP DRRU, DRFU, MRRU, XRRU, MRFU, GRFU, GRRU, XRFU, BTS3900E TRX_30_OR_DRU, TRX_GPRS, PTRX, ETRX, RTRX, CDU, PCDU,TRU, RCDU, DCDU, DTRX,CDUC, RETR,CDUP, DETR,CDUR, EETR, CDUE, PETR, MTR, QTRU EDU, EDUC, EDUP, EDUR, EDUE, PEDU, REDU, DEDU, DDPM_DDPU, DFCU, DFCB

None

None

None

None

None

None

None

None

None

None

None

None

None

None

CFGBM, CFGTC

None

None

CFGBM, CFGTC

None

None

NO, YES

None

YES

1~64 characters

None

None

LOGICIP, PORTIP, PPP/MP

None

LOGICIP

LOGICIP, PORTIP, PPP/MP

None

None

0~64 characters

None

None

CLOSE, OPEN

None

CLOSE

0~2047

None

None

0~2047

None

None

0~2047

None

None

0~2047

None

None

0~2047

None

None

BYIDX, BYNAME

None

None

BYNAME, BYID

None

None

0~2047, 65535

None

None

0.0.0.0~255.255.255.255 UNCONDITIONALSTART, ABISCONGESTS, PREFIXNUMBER

None

None

None

UNCONDITIONALSTART

0.0.0.0~255.255.255.255

None

None

BSC_Preprocessing, BTS_Preprocessing

None

BTS_Preprocessing

1~64 characters

None

None

1~64 characters

None

None

1~2048 characters

None

None

OFF, ON

None

ON

NO, YES

None

NO

2~32, step:2

dB

OFF, ON

None

BTS30, BTS312, BTS3001C, BTS3001CP, BTS3002C, 1~256 characters None BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, None 1~250 BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900B_GSM, BTS3900E_GSM, BTS3900L_GSM None BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900A_GSM, BTS3900B_GSM,BTS3900_GSM, BTS3900E_GSM None DBS3036, BTS3036, BTS3036A, BTS3900L_GSM, BTS3900B_GSM, BTS3900E_GSM None

16 OFF None None None None None

0~1000000

s

3

BIULOOP, TRXSELFTEST

None

None

NO_BAT, INSIDE_BAT, OUTSIDE_BAT

None

NO_BAT

10~255

s

YES, NO

None

NO

2~65534

None

None

2~65534

None

None

1000~3000

ms

OFF, ON

None

0~200000

kbit/s

0

0~200000

kbit/s

0

0~100

per cent

20

0~100

per cent

15

0~200000

kbit/s

0

0~100

per cent

1

0~200000

kbit/s

0

0~100

per cent

0

0~100

per cent

5

0~200000

kbit/s

0

100~1000

per cent

FULL_DUPLEX, HALF_DUPLEX

None

0~100

per cent

25

20~100

per cent

80

BYIDX, BYNAME

None

None

C31NOTUSE, C31STANDARD

None

C31STANDARD

60

1000 None

120 None

0~1

None

0

1~200 characters

None

None

0~8

None

None

NO, YES

None

None

NO, YES

None

YES

0~4095

None

None

NO, YES

None

YES

OFF, ON

None

None

GSM900, DCS1800, GSM850, PCS1900

None

GSM900

NULL, IPLGCPORT, RSCGRP

None

NULL

ETHER, IPLOGICPORT, TRUNK, PPP, MP

None

None

ETHPORT, TRUNK

None

None

NO, YES

None

NO

0~3

None

None

0.0.0.0~255.255.255.255

None

None

0~63

None

0~65535

None

5~180

s

NO, YES

None

4500~32767

byte

1~5

s

3

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

2

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

6

0~65535

None

DISABLE, ENABLE

None

0~255

s

15

20~100

per cent

80

0~63

None

46

10, 100, 1000

ms

0~100

per cent

0~42, step: 6

dB

0

0~36, Positive infinity, step: 6

dB

0

0~1023

None

None

AUTO, MANU

None

None

30 None 15 NO 4500

86 None

1000 90

0~1023

None

None

AUTO, MANU

None

None

0~50

None

0

0~42, step: 6

dB

0

0~36, Positive infinity, step: 6

dB

0

Permit, NoPermit

None

Permit

OUTDOOR_CELL, INDOOR_CELL

None

OUTDOOR_CELL

24.0~28.9 (step: 0.1)

V

283

43.3~57.6 (step: 0.1)

V

565

24.0~28.9 (step: 0.1)

V

268

43.2~57.5 (step: 0.1)

V

535

0~2047

None

None

0~2047

None

None

0~2047

None

None

0~2047, 65535

None

None

0~2047

None

None

0~2047

None

None

1~400 characters

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

Inner, Extra

None

None

1, 2, 3, 4

None

0~5000 characters

None

None

NO, YES

None

NO

0~255

None

1~64 characters

None

None

1~64 characters

None

None

1~64 characters

None

None

0~5000 characters

None

None

OP1, OP2, OP3, OP4, NONE

None

0~63

dB

0~63

None

1

1~20

None

4

3

80

255 30

NO, YES

None

35.0~55.3 (step: 0.1)

V

2G, 3G

None

0~100

per cent

COMMON, MULTIPATH, INDOOR, HIGHWAY

None

COMMON

NO, YES

NO

-50.0~0.0 (step: 0.1)

None degree Celsius degree Celsius degree Celsius degree Celsius

NO, YES

None

NO

0~63

dB

0~63

None

20~90

per cent

0~200 characters

None

None

NO, YES

None

None

NULL, IPLGCPORT, RSCGRP

None

NULL

AUTO, NORMAL

None

None

DISABLE, ENABLE

None

None

NO, YES

None

None

NO, YES

None

None

1~32 characters None G_0, G_2, G_3,G_18, G_4, G_19, G_5, G_6, G_7, G_8, G_9,G_23, G_15,G_1, G_16, G_17, G_20, G_21, G_22, G_10, G_24, G_11, G_25, G_12, G_26, G_13, G_27, G_14, G_28, G_15, G_29, G_16, G_30, G_17, G_31 G_18, None G_19, G_20, G_21, G_22, G_23, G_24, G_25, G_26, G_27, G_28, G_29, G_30, G_31 None

None

40.0~79.0 (step: 0.1) -19.0~5.0 (step: 0.1) 0.0~100.0 (step: 0.1)

YES 430 2G 30

500 -100 800 -200

20 1 80

None None

20~90

None

80

20~90

None

80

OFF, ON

None

None

1~32 characters

None

None

0~2

None

None

30~100

None

90

30~100

None

90

30~100 QUICK_HO_NCELL_TYPE_A, QUICK_HO_NCELL_TYPE_B

None None

90 QUICK_HO_NCELL_TYP E_A

CHAINTORING, COMBINECHAINS

None

None

CAPABILITY, QUALITY, PSRELATIVELY, PSABSOLUTELY None

CAPABILITY

0~100

per cent

0

OFF, ON

None

0~100

per cent

0~65535

None

None

NO, YES

None

YES

NO, YES

None

NO

1~64

s

1~5

None

NO, YES

None

YES

MODE1, MODE2, MODE3

None

MODE2

MODE1, MODE2, MODE3

None

MODE2

0~511

None

None

0~511

None

None

5~20

None

10

5~20

None

10

NO, YES

None

NO

NO, YES

None

NO

ALDER32, CRC32

None

CRC32

SBFD, ARP, MBFD

None

None

0~12

h

None

1~7

None

None

0~169

None

None

0~7 TRXRFSELFLOOP, BIULOOP, BTSSPEECHLOOP, TRXSPEECHLOOP

None

None

None

None

FULLTCH, HALFTCH

None

None

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NOSENDING, SYSTEMOPT, SENDING

None

SYSTEMOPT

NO, YES

None

NO

OFF 100

10 5

OFF, ON

None

OFF

10~800

None

100

10~800

None

200

TCHFR, TCHHR, SDCCH8, MBCCH, CBCCH, BCH, 100~600000 BCCH_CBCH, SDCCH_CBCH, PBCCH_PDTCH, PCCCH_PDTCH, PDTCH, DPDCH

ms None

TCHFR

0~65535

None

None

0~65535

None

None

0~65535

None

None

0~65535

None

None

0~160

frame

0

1~12, step: 5

min

3

OFF, ON

None

1~100

per cent

1~60

s

NO, YES

None

YES

NO, YES

None

YES

NOTSENDING, SENDINGPRO, SENDING

None

NOTSENDING

NOTSENDING, SENDINGPRO, SENDING

None

NOTSENDING

NO, YES

None

YES

NO, YES

None

YES

64~100000, step:64

kbit/s

None

0~22

dB

0~27

None

None

0~11

None

None

UNSUPPORT, SUPPORT

None

UNSUPPORT

ERR_PFM_1E6, ERR_PFM_5E6, ERR_PFM_1E5, NO, YES ERR_PFM_5E5, ERR_PFM_1E4, ERR_PFM_5E4, ERR_PFM_1E3 INCLK, BSCCLK, EXCLK, IPCLK, TRANSCLK, GPSCLK, UMCLK, PEERCLK

None

NO

None

None

None

None

HW_DEFINED, PTP

None

PTP

GCUa, GCGa INT_CLK, TRCBSC_CLK, EXTSYN_CLK, IP_TIME, IP_TRANSFER, TRCGPS_CLK, UM_CLK, PEER_CLK

None

GCUa

None

None

0~255

s

cleared, uncleared

None

0~255

s

1000

OFF 80 5

22

255 None 255

1~200 characters

None

None

0~128 characters

None

None

0~19

None

None

1~3

None

None

0~62

None

None

0~62

None

0~62

None

None

0~62

None

None

0 None

None

0

1~60

s

30

0~4095

None

None

0~4095

None

None

0~31

None

None

0~3

None

None

NONE, AINTFBLOCK

None

NONE

BTS3012, 1~150000 BTS3012AE, BTS3006C, BTS3012_II, BTS3002E, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3002C, BTS3012A, BTS3006A BTS3900_GSM_6RFC, BTS3900A_GSM_6RFC, BTS3036_6RFC, BTS3036A_6RFC

None

None

None

None

None

None

10000~50000

None

None

0~250

None

0

0~250

None

0

NO, YES

None

1~1023

None

INACTIVE, ACTIVE

None

BYSITE, BYCELL

None

L0_FORBID, 0~10, step:0.1L1_FORBID, L2_FORBID, L3_FORBID, L4_FORBID, L5_FORBID, L6_FORBID, L7_FORBID, L8_FORBID, L9_FORBID LOWERCASE, UPPERCASE, DIGIT, SPECIALCHARACTER

dB

1~100

None

NO, YES

None

NO

BYNAME, BYID

None

None

10~150

ms

15

10~150

ms

15

10~150

ms

15

None

L0_FORBIDYES 0&L1_FORBIDNone 0&L2_FORBID0&L3_FORBIDINACTIVE 0&L4_FORBID0&L5_FORBIDNone 0&L6_FORBID0&L7_FORBID0&L8_FORBID0&L9_FORBID-0

None

None

45

100

10~150

ms

15

10~150

ms

25

10~150

ms

25

10~150

ms

25

10~150

ms

25

10~150

ms

25

10~150

ms

25

10~150

ms

50

10~150

ms

50

NO, YES

None

NO

0~335

None

None

NO, YES

None

NO

ALL, ONLY_SSL

None

None

INNER, EXTERNAL

None

None

0~60

s

4

1~200

s

6

NO, YES

None

1~28

None

1~60

s

None

NO, YES

None

NO

0~7

None

None

OFF, ON, NOTSUPPORT

None

NOTSUPPORT

0dB, 2dB, 4dB, 6dB, 8dB, 10dB, 12dB, 14dB

dB

6dB

0~200 characters

None

None

DISABLE, ENABLE

None

None

10~2550, step: 10

ms

1~255

None

3

0~126, step: 2

dB

0

1~255

None

UNAVAILABLE, AVAILABLE

None

UNAVAILABLE

VOICEINF, MR, CALLAPPENDINF, CALLINNERINF

None

None

0~100

None

5

OFF, ON RESINSUFF, UMABNORM, TRAFFREJECT, MSCREL, MSCDISCON, BADQUALITY

None

RESINSUFF,UMABNOR OFF M,TRAFFREJECT,MSCR EL

None

NO 5

10

255

0~100 BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

per cent

100

None

None

0~7

None

None

0~100

per cent

0~7

None

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, MRHOFAIL, MRHOLATEST

None

OFF

COMMONUSRM, SPECUSRM

None

None

ABNORMREC, ALLBSCREC, ALLCELLREC

None

ABNORMREC

OFF, ON

None

None

OFF, ALL, AINTF, ABISINTF

None

OFF

30~100

per cent

LU, SMS, CALL

None

0~100

per cent

OFF, ON BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

None

OFF

None

None

0~7

None

None

0~100

per cent

0~7

None

ON, OFF

None

40000~50000

ms

45000

5000~150000

ms

30000

1000~2000

ms

1300

400~600

ms

500

7500~9500

ms

8200

80~120

ms

100

3000~6000

ms

5000

500~2000

ms

1500

1~100

ms

100

30~100

per cent

95

30~100

per cent

95

1~16777215

None

None

4BURST, RLC/MAC

None

4BURST

100 5

90 CALL 50

50 3 None

YES, NO

None

None

0~62

None

None

0~5

None

None

0~23

None

None

0~254

None

None

0, 2, 4, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26

None

None

0~27, 255

None

None

0~11, 255

None

None

ON, OFF

None

None

NO, YES

None

NO

0~99

None

None

10~255

min

1~63 character

None

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

TCH:480~14880, step:480; SDCCH:470~14570, step:470 NT14_5K, NT12K, NT6K, T14_4K, T9_6K, T4_8K, T2_4K, T1_2K, T600_BITS, T1200_75

ms None

None NT14_5K-0&NT12K1&NT6K-1&T14_4K0&T9_6K-1&T4_8K1&T2_4K-1&T1_2K0&T600_BITS0&T1200_75-0

NOLIMIT, LIMIT

None

NOLIMIT

2000-1-1~2099-12-31

None

None

1~12

None

None

0~31

None

0~30

None degree Celsius

Inner, Extra

None

None

0~2047

None

None

1~64 characters

None

None

BYNAME, BYID

None

None

0~255

None

None

0~255

None

None

0~255

None

None

0~255

None

None

35.0~55.6 (step: 0.1)

V

None

58.0~60.0 (step: 0.1)

V

580

43.3~55.5 (step: 0.1)

V

450

58.0~60.0 (step: 0.1)

V

580

0~32

None

30

4 4

2

0

500~60000

ms

1000

0~186

None

None

1~110 characters

None

None

INACTIVE, ACTIVE

None

INACTIVE

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

1~1000

None

None

BSC, BTS

None

None

BTS, BSC, DXX, OTHER

None

None

0~27

None

None

{0~11}

None

None

0~7

None

None

0~3071

None

None

0~255

s

None

3~10

None

OFF, ON

None

None

0~50 characters

None

None

0~35

None

None

0.0.0.0~255.255.255.255

None

None

LOGIC_IP

None

None

0~16383

None

None

0~23

None

None

0~254

None

None

NO, YES

None

YES

DEFAULTPORT, CUSTOMPORT

None

None

1~60

min

0.0.0.0~255.255.255.255

None

None

0~63

None

None

DISABLE, ENABLE

None

DISABLE

NO, YES

None

NO

MON_1~MON_31

None

None

SUN, MON, TUE, WED, THU, FRI, SAT

None

None

1~128 characters

None

None

3

1

1~256 characters

None

None

NO, YES

None

NO

NO, YES

None

YES

NO, YES

None

NO

0~15

s

NO, YES

None

0.5~4, step: 1/8

bit

4

0.5~4, step: 1/8

bit

4

0.5~4, step: 1/8

bit

4

N0, YES

None

3 None

N0

TCH:480~122400, step:480; SDCCH:470~119850, step:470 ms

3

1~30

dB

14

1~30

dB

14

1~30

dB

16

1~30

dB

16

16~1007

None

1~255

None

UNSUPPORT, SUPPORT

None

0~63

dB

1~10

None

1~30

dB

16

1~30

dB

16

0~127

None

1~30

dB

18

1~30

dB

18

0~15

None

2

0~15

None

3

0~15

None

3

0~15

None

3

0~15

None

4

0~15

None

15

0~15

None

2

0~15

None

2

0~63

dB

None 5 UNSUPPORT 20 3

0

35

0~70

None

40

1~100

None

90

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

2~255

None

2

2~255

None

8

2~255

None

60

2~255

None

2

1~30

dB

4

1~30

dB

8

1~100

None

100

0~3

None

0

0~7

None

0

0~7

None

2

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~7

None

2

0~63

dB

10

0~70

None

55

0~70

None

60

0~70

None

55

0~10

None

3

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

3

0~63

dB

20

0~63

dB

20

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

1

0~10

None

6

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

3

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

1

0~100

None

5

0~100

None

55

0~63

dB

45

0~63

dB

28

0~300

ms

140

0~255

s

0

1~255

None

5

0~63

dB

12

0~63

dB

17

0~63

dB

25

0~63

dB

23

0~63

dB

31

0~63

dB

63

0~63

dB

12

0~63

dB

18

0~255

None

None

0~255

None

None

0~255

None

None

CS1, CS2, CS3, CS4 MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9 MCS1, MCS2, MCS3, MCS4, MCS7, MCS8, DAS5, , DAS6, DAS7, DAS8, DAS9, DAS10, DAS11, DAS12 MCS1, MCS2, MCS3, MCS4, MCS7, MCS8, DAS5, , DAS6, DAS7, DAS8, DAS9, DAS10, DAS11, DAS12, UNFIXED

None

CS2

None

MCS6

None

DAS6

None

UNFIXED

CS1, CS2, CS3, CS4, UNFIXED MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9, UNFIXED

None

UNFIXED

None

UNFIXED

NO, YES

None

YES

NO, YES

None

NO

0~5000

ms

0~64

per cent

10

0~64

per cent

5

0~64

per cent

5

0~64

per cent

5

0~64

per cent

2

0~64

per cent

2

CLOSE, OPEN

None

0~25.5, step:0.1

dB

1~16383(BIT14), 1~65535(BIT16), 1~16777215(BIT24)

None

None

1~11 characters

None

None

0~31

None

None

0~31

None

0~31

None

None

STP, A, IUR_G, LB

None

None

2400

OPEN 30

0

0~186

None

None

0~182

None

None

0~128

dB

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

10~150

ms

60

10~150

ms

60

10~150

ms

60

10~150

ms

60

10~150

ms

80

10~150

ms

80

1~60

min

10

0~12

h

3

2~10

dB

2

NO, YES

None

0, 1, 2, 4, 8, 16, 32, 64

s

INACTIVE, ACTIVE

None

INACTIVE

0~335

None

None

72

YES 4

0~31(PEUa), 0~251(E1 of POUc), 0~335(T1 of POUc)

None

None

0~63

None

48

0~63

None

0

0~63

None

0~63

None

1~3600

s

0~27

None

None

0 to 21

None

None

0~27

None

None

0~21

None

None

0~21

None

None

0~30

s

YES, NO

None

NO

1~128 characters

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, 0~335 TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, None TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

None 0 180

15

None None

0~100

per cent

85

NO, YES

None

YES

1~12

None

None

1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12

None

None

0, 1

None

None

0~1, 255

None

None

0~23

None

None

0~23, 255

None

None

0~53

None

None

0~53, 255

None

None

OFF, ON

None

OFF

FULL, HALF

None

FULL

0~12

h

None

1~24

h

None

0~59

min

None

0~59

s

None

10~80

None

20

0~63

None

20

0~2047

None

None

0~2047

None

None

0~15

None

None

10~3600

s

LEVEL0, LEVEL1, LEVEL2

None

0~8

None

NO, YES

None

YES

NOTSUPPORT, DDIVERSITY, DPBT

None

NOTSUPPORT

1~60

min

None

0~7

None

None

0~31

None

None

ACTIVE, ACTIVESTANDBY, SLAVE1, SLAVE2, UTRP

None

None

0~83

None

None

0~7

None

None

16~19

None

None

E1, T1

None

None

0.0.0.0~255.255.255.255

None

None

0~49

dB

3

0~49

dB

30

NO, YES

None

1~2147483646

None

2000-1-1~2037-12-31

None

None

2000-1-1~2037-12-31

None

None

2000-1-1~2037-12-31

None

None

2000-01-01~2050-12-31

None

None

1~31

d

None

1~255

s

4

1~255

s

5

0~11

None

20 LEVEL0 2

YES 2147483646

10

NO, YES

None

NO

0.5~16, step:0.5

s

4

0.5~16, step:0.5

s

6

0.5~16, step:0.5

s

1

0.5~16, step:0.5

s

4

0.5~16, step:0.5

s

1

0.5~16, step:0.5

s

6

YES, NO

None

None

NO, YES

None

YES

NO, YES

None

NO

0~31

None

16

0~31

None

7

DATE, WEEK, DATEWEEK

None

1~15

None

ERR_PFM_5E6, ERR_PFM_1E5, ERR_PFM_5E5, OFF, ON ERR_PFM_1E4, ERR_PFM_5E4, ERR_PFM_1E3, ERR_PFM_5E3

None

OFF

None

None

0~63

None

None

NO, YES NoPriority, Priority4, Priority3, Priority2, Priority1, Priority0, PriorityB, PriorityA

None

NO

None

Priority4

NO, YES

None

NO

0~7

None

None

0~7

None

2~4094 JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC

None

None

None

None

0.0.0.0~255.255.255.255

None

None

NO, YES

None

NO

ENABLED, DISABLED

None

A5/0, A5/1, A5/2, A5/3, A5/4, A5/5, A5/6, A5/7

None

A5/0-1&A5/1-0&A5/2None 0&A5/3-0&A5/4-0&A5/50&A5/6-0&A5/7-0

AUTO, PLAINTEXT, ENCRYPTED

None

AUTO

AUTO, PLAINTEXT, ENCRYPTED

None

None

NO, YES

None

NO

1~65535

None

None

0~65535

None

None

0~65535

None

None

None 15

7

1~31

None degree Celsius

None

None

None

0, 2, 4, 6

None

None

00:00~23:59

None

None

8~255

None

None

1~31, step:8

None

None

1~31

None

None

DISABLED, ENABLED

None

None

DISABLED, ENABLED

None

ENABLED

0~100

per cent

OFF, ON

None

OFF

OFF, ON

None

ON

1~255

s

5

0~63

dB

5

0~100

per cent

OFF, ON

None

ON

OFF, ON

None

ON

0~100

per cent

NO, YES

None

YES

M3UA_ASP, M3UA_IPSP

None

None

M3UA_SGP, M3UA_IPSP, M3UA_SS7SP, M3UA_SP

None

None

0~63

dB

OFF, ON

None

OFF

1~4294967295

None

None

NO, YES O1E3_R5E4, O5E4_R1E4, O1E4_R5E5, O5E5_R1E5, O1E5_R5E6, O5E6_R1E6

None

NO

None

O5E4_R1E4

OFF, ON

None

OFF

0~63

None

None

0~7

None

None

0~7

None

2~4094

None

1~2147483646

None

500~60000

ms

-99.0~40.0 (step: 0.1) JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC

0

70

20

80

63

0 None 2147483646 3000

CLOSE, OPEN

None

CLOSE

0~255

s

HOUR, MIN, SEC

None

None

2000-1-1 00:00:00~2037-12-31 23:59:59

None

None

00:00~23:59

None

None

ONE_BY_ONE, PARALLEL

None

None

2000-1-1 00:00:00~2037-12-31 23:59:59

None

None

00:00:00~23:59:59

None

None

00:00:00~23:59:59

None

None

1970-1-1 00:00:00~2538-12-31 23:59:59

None

None

2000-1-1~2037-12-31

None

None

00:00:00~23:59:59 LOGINEVENT, MANAGEEVENT, AUTHEVENT, OTHEREVENT

None

None

None

None

00:00:00~23:59:59

None

None

SUN, MON, TUE, WED, THU, FRI, SAT

None

None

FIRST, SECOND, THIRD, FOURTH, LAST

None

None

1~9 characters

V or A

0.02

1~9 characters

V or A

0

VOLTAGE, CURRENT

None

1~9 characters

V or A

100

1~9 characters

V or A

0

1~9 characters

V or A

0.02

1~9 characters

V or A

0

VOLTAGE, CURRENT

None

1~9 characters

V or A

100

1~9 characters

V or A

0

1~9 characters

V or A

0.02

1~9 characters

V or A

0

VOLTAGE, CURRENT

None

1~9 characters

V or A

100

1~9 characters

V or A

0

1~9 characters

V or A

0.02

1~9 characters

V or A

0

VOLTAGE, CURRENT

None

0

CURRENT

CURRENT

CURRENT

CURRENT

1~9 characters

V or A

100

1~9 characters

V or A

0

NoExclusive, Exclusive

None

NoExclusive

0~100

per cent

None

0~63

dB

30

0~63

dB

30

2048~5047

None

None

1~64 characters

None

None

5048~8047

None

None

1~64 characters

None

None

2048~5047

None

None

1~64 characters

None

None

CLOSE, OPEN

None

CLOSE

NO, YES

None

YES

EM0, EM1 None 60sec, 120sec, 240sec, 480sec, 960sec, 1920sec, 3840sec, 7680sec s

EM0

TYPE1, TYPE2, TYPE3

None

TYPE1

Normal_cell, DualTst_ExtCell

None

Normal_cell

SEND, NOTSEND

None

SEND

0~12750, step: 50

ms

NO, YES

None

NO

NO, YES

None

NO

OFF, ON

None

None

OFF, ON

None

OFF

0~63

dB

PLUS_1, MINUS_1

None

None

HIGH_SPEED, LOW_SPEED

None

None

55~100

None

None

CONTINUOUS, DISCRETE, DUTY_RATIO

None

None

NO_SPEED_ADJUSTMENT, NORMAL_FAN, IND_FAN None HW_AUTO_TEMPERATURE_CONTROL, SPECIFY_RATE, SOFTWARE_CONTROL None

None

IND_FAN, NORMAL_FAN

None

None

0~100

per cent

NO, YES

None

60sec

8

30

SOFTWARE_CONTROL

0 NO

OFF, ON

None

OFF

OFF, ON

None

None

CLOSE, OPEN

None

CLOSE

0~100

per cent

0~1999

None

0~1999

None

0

0~1999

None

0

0~1999

None

0

10~1999

None

0~1999

None

2~1999

None

None

0~62

None

None

0~62

None

None

0~100

per cent

None, 16bit, 32bit

None

16bit

None, 16bit, 32bit

None

16bit

ON, OFF

None

ON

43.2~57.5 (step: 0.1)

V

AUTO, MANU

None

None

AUTO, MANU

None

None

0~42, step: 6

dB

0

0~36, Positive infinity, step: 6

dB

0

0~1

None

None

0~16383

None

None

0~49

dB

0~3

None

2

-20, -6, -18, -8, -16, -10, -14, -12

dB

0

0~7

dB

0

Negative infinity, -28~28, step: 4

dB

8

RSCP, EcN0

None

-114~-84, step: 2

dBm

6

0~63

None

10

0~511

None

1~1000

None

55 None

None 0

85

535

10

RSCP

None 4

NO, YES

None

NO

0~1000

per mill

2

0~1000

per mill

4

0~1000

per mill

8

0~1000

per mill

16

0~1000

per mill

32

0~1000

per mill

64

0~1000

per mill

128

NO_FH, BaseBand_FH, RF_FH, Hybrid_FH

None

NO_FH

1~128 characters

None

None

1~200 characters

None

None

0~200 characters

None

None

0~128 characters

None

None

txt, csv

None

csv

0~32

None

FALSE, TRUE

None

None

NO, YES

None

NO

INACTIVE, ACTIVE

None

INACTIVE

0~100

per cent

0~65534

s

0

0~65534

s

0

DISABLE, ENABLE

None

60~65534

s

900

60~65534

s

900

FIX_16K_ABIS, FLEX_ABIS, SEMI_ABIS

None

FIX_16K_ABIS

OFF, ON

None

OFF

OFF, ON

None

OFF

0~65535

ms

4500

0~65535

ms

1000

OFF, ON

None

None

OFF, ON

None

ON

OFF, ON

None

ON

OFF, ON

None

ON

OFF, ON

None

ON

6

80

ENABLE

OFF, ON

None

None

0~20

None

10

0~20

None

10

0~20

None

10

0~20

None

10

0~20

None

10

0~20

None

10

0~20

None

10

0~20

None

10

0~200

None

0

CLOSE, OPEN

None

0~19

None

INDOOR, OUTDOOR

None

None

0~128 characters

None

None

1~100 characters

None

None

1~128 characters

None

None

0~128 characters

None

None

0~100 characters

None

None

1~256 characters

None

None

1~256 characters

None

None

OPEN, CLOSE

None

OPEN

1~300

s

15

0~30

s

0

Close, Open

None

Close

NO, YES

None

NO

NO, YES

None

YES

0~31

None

None

0~23

None

None

1~30

ms

OFF, ON

None

None

OFF, ON

None

None

OFF, ON

None

None

128~1024

byte

-2715647~2715647

None

OPEN 5

2

256 None

0~255

None

0

NO, YES

None

YES

ONTIME, RELATIVE ONTIME, DAILY_T, DAILY_C, WEEKLY_T, WEEKLY_C, MONTHLY_T, MONTHLY_C

None

None

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

NO, YES

None

NO

PGSM900, 0~65535 EGSML25, EGSM35M, RGSML25, GSM900_RGSM39M, DCS1800, PCS1900, GSM850, EGSM24M, DCS1800_L, DCS1800_H

None

0~100

per cent

0~1023

None

None

LOOSE, TIGHT

None

LOOSE

1~800 characters

None

None

MainDiversity, MaximumMeanValue

None

MaximumMeanValue

NO, YES

None

YES

May_Use, Shall_Use, Shall_NOT_Use

None

Shall_Use

0~23

None

None

0~23

None

None

0~255

None

None

0~254

None

None

TXT, CSV

None

TXT

0~33

None

None

1~33

None

None

0~33

None

None

0~255

dB

0~600

s

5

0.5~16, step:0.5

s

4

0~255

dB

0~600

s

1

0.5~16, step:0.5

s

6

0~200000

kbit/s

0

0~200000

kbit/s

0

0~100

per cent

20

0~100

per cent

15

0~200000

kbit/s

0

0~100

per cent

1

0~200000

kbit/s

0

0~100

per cent

0

0~100

per cent

5

None

36671 None 25

20

10

0~200000

kbit/s

-100~100

per cent

0~100

None

A0, U1

None

0~31 hour{0~23} min{0~59}

None

0~100

None

OFF, ON hour{0~23} min{0~59}

None

None

None

None

NO, YES

None

NO

OFF, ON

None

OFF

DEG, SEC

None

DEG

NO, YES

None

YES

NO, YES

None

YES

OFF, ON

None

None

0.5~4, step: 1/8

bit

NO, SupportAsInnPcu, SupportAsExtPcu

None

NO

NO, SupportAsInnPcu, SupportAsExtPcu

None

NO

DB110, DB108, DB106, DB104, DB100, DB98, 0dB, 2dB, 4dB, 6dB, 8dB, 10dB, DB102, 12dB, 14dB DB96, DB94, DB92, DB90, DB88, DB86, DB84, DB82, GPRS, EGPRSNORCH, EGPRSPRICH, EGPRSSPECH, 10sec, 20sec, 30sec, 40sec, 50sec, 60sec, 70sec, 80sec, DB80, DB78, DB76, DB74, DB72, DB70, DB68, DB66, NONGPRS 90sec, 100sec, 110sec, 120sec, 130sec, 140sec, 150sec, DB64, DB62, DB60, DB58, DB56, DB54, DB52, DB50, 160sec, 180sec, 190sec, 200sec, 210sec, 220sec, DB48, no170sec, use 230sec, 240sec, 250sec, 260sec, 270sec, 280sec, 290sec, 300sec, 310sec, 320sec, no use

dB

2dB

None

NONGPRS

dB

DB110

s

10sec

0~7

None

0db, 10db, 20db, 30db, 40db, 50db, 60db, infinity, no use

dB

10db

GPS, GLONASS, GPSGlonass

None

GPS

1~60

min

NO, YES

None

NO

0~100000000

None

None

0~100000000

None

None

0~65534

None

None

1~20 characters

None

None

0~512

None

0~2047

None

None

IP

None

None

None

0 110 10 A0 12 None 40

20

5

10

0

LAC_CI, PLMN, LAC, CI

None

None

0~100

per cent

80

1~15

None

10

0~3 None ECHOREPLY, UNREACH, SOURCEQUENCH, REDIRECT, ECHO, ROUTERADVERT, UNSUPPORT, SUPPORT ROUTERSOLICIT, TIMXCEED, None PARAMPROB, TSTAMP, TSTAMPREPLY, IREQ, IREQREPLY, MASKREQ, MASKREPLY None

3 SUPPORT

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

255.255.255.255

NO, YES

None

NO

0~255

dB

0~600

s

5

0.5~16, step:0.5

s

4

0~255

dB

0.5~16, step:0.5

s

NO, YES

None

NO

NO, YES

dB

NO

1000~600000

None

None

0~62

None

None

0.5~8, step:0.5

s

2

0.5~8, step:0.5

s

3

0~65535

None

65535

0~65535

None

65535

DCS1800, PCS1900

None

1~14

None

YES, NO

None

NO

NO, YES

None

NO

NO, YES

None

YES

NO, YES

None

YES

1~10

d

None

UNSUPPORT, SUPPORT

None

UNSUPPORT

SysOpt, OSubcell, USubcell, NoPrefer

None

SysOpt

NO, YES

None

NO

0~63

dB

10

0~63

dB

0

None

20

10 6

DCS1800 1

BYCELLNAME, BYCGI

None

None

1~64 characters

None

None

HOALGORITHM1, HOALGORITHM2

None

HOALGORITHM1

NO, YES

None

NO

0~16

None

3

0~16

None

3

0~63

dB

0.5~16, step:0.5

s

8

0.5~16, step:0.5

s

8

0~49

dB

0.5~16, step:0.5 FREE, INCELL, OUTCELL, OUTST, OUTBSC, OUTSYS, SPCELL

s

0~127

dB

68

0~61

dB

32

Pre_2G_Cell, Pre_3G_Cell, Pre_2G_CellThres

None

0~255

s

0~63

None

None

0~63

None

None

BaseBand_FH, RF_FH

None

None

NO, YES, NONE

None

YES

0~63

dB

OFF, ON

None

0~63

None

0~23

None

None

NO_FH, BaseBand_FH, RF_FH

None

NO_FH

0~63

dB

63

1~60

min

15

0~63

dB

50

NO, YES

None

0.5~16, step:0.5

s

10

0.5~16, step:0.5

s

10

0.5~16, step:0.5

s

4

SINGLEHOST, PRIMHOST, SLAVEHOST

None

SINGLEHOST

SINGLEHOST, PRIMHOST, SLAVEHOST

None

SINGLEHOST

None

50

35 3 None

Pre_2G_CellThres 5

25 OFF 0

YES

0~63

dB

25

0~63

dB

50

NO_HPANT, YES_HPANT, NONE

None

NONE

NO_HPANT, YES_HPANT

None

None

0~5

None

None

1~14

None

NO, YES

None

35.0~55.6 (step: 0.1)

V

NO, YES

None

NO

NO, YES

None

YES

NO, YES

None

YES

May_Use, Shall_Use, Shall_NOT_Use

None

Shall_Use

0~63

None

0~23

None

None

OFF, ON

None

OFF

0~254

None

None

SBFD, MBFD

None

0~30

None degree Celsius degree Celsius

DISABLE, ENABLE

None

ENABLE

CLOSE, OPEN

None

OPEN

1~9 characters

per cent

80

1~9 characters

per cent

10

0.0~100.0 (step: 0.1)

None

1000

0.0~100.0 (step: 0.1)

None

800

0.0~100.0 (step: 0.1)

None

0

0.0~100.0 (step: 0.1)

None

100

1~30

min

180~1260

s

1~60 E1PORT0, E1PORT1, E1PORT2, E1PORT3, OPTICALPORT0, OPTICALPORT1

min

None

None

None

MAINDOMU, SLAVEDOMU1, SLAVEDOMU2

None

None

60~600

s

0~23

dB

-99~70

1 NO 440

0

40 None

15 720

90 4

0~23

dB

10

NO, YES

None

0~10, Step: 0.5

s

4

TCH:480~1920, step:480; SDCCH:470~1880, step:470

ms

4

0~14

dB

0

0~14

dB

4

0~63

dB

7

NO, YES

None

0~10, Step: 0.5

s

OFF, ON

None

OFF

OFF, ON

None

OFF

0~23

dB

0~10, Step: 0.5

s

0~23

dB

13

0~31

dB

10

NO, YES

None

2~600

s

4

0~63

dB

0

0~63

dB

0

0~22

dB

0

0~22

dB

0

0~63

dB

4

0, 1

None

0

5~40

None

20

NO, YES

None

0~63

dB

0

0~30

dB

7

0~10, Step: 0.5

s

5

0~16

None

4

0~63

None

0

2~600

s

8

0~50

dB

0~10

None

6

0~63

dB

4

NO

NO 0

10 2

YES

NO

15

0~160

dB

110

0~23

dB

1

NO, YES

None

NO

OFF, ON

None

OFF

0~63

None

NO, UNDER, INNER, YES

None

UNDER

NO, YES

None

NO

0~23

dB

NO, YES, NULL

None

NO

DISABLE, ENABLE

None

ENABLE

44~1024

byte

64

0~63

None

22

0~63

None

20

0~63

None

18

1~30

None

None

1~30, 100~32767

None

None

0~65535

None

None

0~255

None

0~255

None

0~63

None

BYIDX, BYNAME

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

BYNAME, BYID, BYCGI

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

0~255

None

None

BYTLLI, BYIMSI

None

None

BYCELL, BYBSC

None

None

YES, NO

None

YES

0~3071

None

None

Positive, Minus

None

Positive

20

5

84 None 2

0~125

None

0

NO, YES

None

0~32

None

1~15 characters

None

1000~30000

ms

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

0~254

ms

4

1~5

None

2

NO, YES

None

NO

NO, YES

None

NO

0~255

bit

NO, YES

None

0~255

s

1~15 characters

None

None

1~15 characters

None

None

500~60000

ms

10000

0~8

bit

4

1~30

d

3

0~360

degree

0~62

None

None

NO, YES

None

NO

0.5~16, step:0.5

s

8

0.5~16, step:0.5

s

10

CELLCAPCLASS, NACCRELATED

None

CELLCAPCLASS

CLOSE, OPEN

None

OPEN

0~39

None

25

0~39

None

12

0~50

W

8

0~3

None

1

0~3 None TS0, TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, 0~2 TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, None TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

0

YES 1 None 5000

0 NO 10

360

2 None

NO, YES

None

NO

NO, YES

None

YES

0~2047

None

None

1~64 characters

None

None

NO, YES

None

NO

1~255

s

0~63

dB

0~100

per cent

0~335

None

None

0~23

None

None

0~15

None

None

Degree, D_min_sec

None

Degree

NO, YES

None

NO

0~27

None

None

0~23

None

None

0~11

None

None

0~254

None

None

2~3600

s

None

0~127

dB

INTBANI, INTBANII

None

0~127

dB

68

0~255

s

15

0.5~8, step:0.5

s

2

0.5~8, step:0.5

s

3

NO, YES

None

YES

NO, YES

None

YES

48~115

None

110

48~115

None

105

48~115

None

98

48~115

None

92

48~115

None

87

48~115

None

85

0~60

d

480~14880, step: 480

ms

10 5 90

67 INTBANII

3 20

NO, YES

None

NO

1~100

None

NO, YES

None

NO

NO, YES

None

NO

1~49

dB

20

0~49

dB

49

1~49

dB

5

1~91

dB

60

0~91

dB

91

1~91

dB

10

NO, YES

None

NO

{0~4}

None

OFF

1~240

h

72

1~10

s

1

0~31

None

1

0~63

dB

500~60000

ms

500~60000

ms

NO, YES

None

YES

NO, YES

None

NO

500~60000

ms

NO, YES

None

0~49

dB

25

1~255

s

10

0~91

dB

30

0~255

None

None

0~31

None

None

1~1440

min

30~1024

d

None

NO, YES

None

NO

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

80

30 None 10000

10000 None

30

0.0.0.0~255.255.255.255

None

255.255.255.255

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~100

per cent

10

0~100

per cent

5

No_HC, UDP/IP_HC, RTP/UDP/IP_HC

None

UDP/IP_HC

No_HC, UDP/IP_HC, RTP/UDP/IP_HC

None

UDP/IP_HC

0~5

None

None

0~5

None

None

0~12999

None

None

IP_OVER_FE/GE, IP_OVER_E1

None

IP_OVER_FE/GE

IP_OVER_FE/GE, IP_OVER_E1

None

None

NO, YES

None

NO

NO, YES

None

None

NO, YES

None

NO

UNSUPPORT, SUPPORT

None

None

UNSUPPORT, SUPPORT

None

None

NO, YES

None

NO

YES, NO

None

NO

NO, YES

None

YES

NO, YES

None

None

NO, YES

None

YES

NO, YES

None

NO

NO, YES

None

None

NO, YES

None

None

NO, YES

None

NO

STATIC, DYNAMIC

None

None

NO, YES

None

None

NO, YES

None

NO

YES, NO

None

None

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

YES, NO

None

None

NO, YES

None

NO

NO, YES

None

NO

NOT_CONFIG, CONFIG

None

NOT_CONFIG

1~64

None

None

1~30

None

None

TRUE, FALSE

None

None

0~65535

None

ABIS, A, ATER, IUR_G

None

None

PPP, MP

None

None

OVERLAID, UNDERLAID, NONE

None

NONE

CONVERT0, CONVERT1, CONVERT2, CONVERT3

None

CONVERT0

0.5~16, step:0.5

s

8

0.5~16, step:0.5

s

10

Normal_cell, Concentric_cell, EDB_cell

None

Normal_cell

OFF, ON

None

None

Hexadecimal, Character_String

None

Character_String

0~124 characters

None

None

0~124 characters

None

None

NULL, 1byte, 16byte, 64byte

None

None

OFF, ON

None

None

Hexadecimal, Character_String

none

Character_String

0~124 characters

None

None

65535

0~124 characters

None

None

NULL, 1byte, 16byte, 64byte

None

None

OFF, ON

None

None

Hexadecimal, Character_String

None

None

NULL, 1BYTE, 16BYTE, 64BYTE

None

None

0~64 characters

None

None

0~64 characters

None

None

ZERO, SPACE

None

None

DISABLE, ENABLE

None

None

1~255, (step: 20)

ms

None

DENY, ALLOW

None

DENY

NOT-INDICATE-END, INDICATE-END

None

None

0~63

dB

0

1~30

s

2

1~65533, 65535

None

None

1~65533, 65535

None

None

STATIC_LACP, MANUAL_AGGREGATION

None

None

1~5 characters

degree

None

0~90

degree

None

0~90

degree

None

0~59

minute

None

0~9

second

None

0~59

second

None

-90~90, step: 0.000001

degree

None

-90:00:00.000~90:00:00.000

SEC

None

100~10000, step:100

ms

2

0~100

None

4

0~10000

ms

0~15

None

3

0~15

None

8

1, 2, 3, 4

None

3

1, 2, 3, 4

None

3

0~100

None

0

0~300

s

25

20

0~300

s

30

CLOSE, PSDOWN, AMRC, CSPH, CSFHHO

None

CSFHHO

CLOSE, PSDOWN, AMRC, CSPH, CSFHHO

None

PSDOWN

CLOSE, PSDOWN, AMRC, CSPH, CSFHHO

None

AMRC

0~186

None

None

CRITICAL, MAJOR, MINOR

None

None

INFO, WARN, ERR, AST

None

None

ON, OFF

None

None

0~7

None

NO, YES, NONE

None

YES

NO, YES

None

YES

0~63

dB

2

0.5~16, step:0.5

s

4

0

OAM, TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, s 0.5~16, step:0.5 FR, HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Pb_TDM, TDM_Switching, A_TDM, Abis_IP,GCP, SAU RGCP, MCP, GTC, GPCU, IP, FR, None HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Pb_TDM, A_TDM, Abis_IP None

None

IP, Abis_IP

None

None

A/Gb, Abis/Ater/Pb/Gb

None

None

5120~5375

None

None

0~99

None

10

90~99

per cent

90

70~95

per cent

70

0~17407

None

None

DIFFERENCE, ALL

None

DIFFERENCE

64K, 2M

bit/s

64K

0~9 characters None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, None 1~8 characters TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

6

None

10 None None

0~40

V

35

40~80

V

45

LUCENT_MODE, HUAWEI_MODE, ALCATEL_MODE

None

None

8K, 16K, 32K, 64K, 2M

None

None

B0000, B0001, B0010, B0011, B0100, B0101, B0110, M3UA_MASTER_MOD, M3UA_SLAVE_MOD B0111, B1000, B1001, B1010, B1011, B1100, B1101, B1110, B1111

None

M3UA_MASTER_MOD

None

B1111

B0000, B0001, B0010, B0011, B0100, B0101, B0110, B0111, B1000, B1001, B1010, B1011, B1100, B1101, B1110, B1111

None

0~100

per cent

RANDOMALG, OTHERALG

None

1~10

s

0~1000

None

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

-64dB ~ 63dB

None

0~255

s

10

0~63

dB

63

1~255

s

10

1~63

dB

5

1~16

None

3

0~63

dB

NO, YES

None

NO

FORBID, PERMIT

None

PERMIT

0~63

None

40

0~100

per cent

60

0~100

per cent

85

NO, YES NOTSTADYNPDCH, DYNPDCHASOCCUPY, DYNPDCHASIDLE

None

YES

None

DYNPDCHASIDLE

OFF, ON

None

None

0~65534

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~1023

None

None

0~1

None

None

0~35

None

None

0~35

None

None

1~200 characters

None

None

B1111 80 RANDOMALG 4 100

0

25

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

OFF, ON

None

ON

1024~65535

None

None

LFB, CL

None

None

NORMMODE, RAPMODENOSERV, RAPMODERESSERV

None

NORMMODE

30~100

per cent

90

30~100

per cent

90

PFM_RESULT, HOST_PFM_RESULT, NO, YES None ACTIVE_DEF_MEAS_FILE, STANDBY_DEF_MEAS_FILE, PFM_SWITCHS, HISTORY_ALARM, HISTORY_FAULT, 0~988 None ALM_SYSTEM_CFG, SECURITY_LOG, OPT_LOG, 0~5, 8~27 BSC_CFG_MML, CELL_BASIC_INFO, None OMU_LOG, BSC_SERIES_NO, DB_BAK, MEM_DB_BAK, 30~100 BTS_BASIC_INFO, BTS_CHECK_LOG, BTS_DEBUG_LOG, per cent BTS_CHR_LOG, TRX_LOG, BTS_NET_TABLE, 30~100 per cent DEBUG_LOG, LAST_WORD, DSP_DEBUG_LOG, HOST_LOG, 2G_CHR_LOG, 2G_UNILATERAL_CONNECT, None ON, OFF BSC_INFO, GCSR_LOG, GPSR_LOG, AIDG_LOG, BIOS_LOG None

None

COMLOG, CMPLOG

None

None

1~5 characters

degree

None

0~180

degree

None

0~180

degree

None

0~59

minute

None

0~9

second

None

0~59

second

None

-180~180, step: 0.000001

degree

None

-180:00:00.000~180:00:00.000

SEC

None

1~3

None

None

BYLOCAL, BYREMOTE

None

None

OFF, ON

None

None

LOOPTYPE_TDM, LOOP_TYPE_LVDS, LOOPTYPE_MCC None

None

0~100 NSSAINTF, NSSTCTOABIS, NSSTCTOA, NSSTNUTOABIS, NSSTNUTOA, NSSATERINTF, BSSATERINTF, MSC, MS BSSTCTOABIS, BSSTCTOA, BSSTNUTOABIS, NO_LOOP, REMOTE_LOOP, BSSTNUTOA, BSSABISINTF, LINE_REMOTE_LOOP, BTSTMU, BTSTRUDSP LOCAL_LOOP, PAYLOAD_LOOP, SIN_CHN_LOC, CIN_CHN_REM

per cent

None None 80 80 ON None

80

None

None

None

None

None

None

NO_LOOP, REMOTE_LOOP, LOCAL_LOOP

None

None

60~600

s

180

1~100

None

NO, YES

None

NO

NO, YES

None

NO

OFF, ON

None

ON

OFF, ON

None

OFF

NO, YES

None

NO

NO, YES

None

NO

E1, TIMESLOT

None

None

FG2a/GOUa board:0~119;FG2c board:0~489, 0~988 512~767;GOUc board:0~499, FG2a/GOUa/UOIa(IP) board:0~119;FG2c board:0~489, 512~767;POUc(IP)board:0~988, 1024~1535 512~767;GOUc board:0~499, 512~767;POUc(IP) board:0~988, 1024~1535

None

None

None

None

None

None

0~5, 8~27

None

None

Hub, Leaf

None

None

IR, LA

None

IR

DISABLE, ENABLE

None

DISABLE

35.0~55.6 (step: 0.1)

V

None

CLOSE, PSDOWN, AMRC, CSPH, CSFHHO

None

CSPH

EXCLUDE, INCLUDE

None

None

HORIZONTAL, VERTICAL

None

HORIZONTAL

HORIZONTAL, VERTICAL APPLICATION, SCNDCPU_PROG, BOOTROM, DATA, DSP, FAN

None

HORIZONTAL

None

APPLICATION

OPTLOG, SECLOG

None

OPTLOG

OPTLOG, SECLOG

None

-99~99

None degree Celsius degree Celsius

2~255

None

2

2~255

None

8

2~255

None

60

2~255

None

2

0~12

None

0

14, 15, 16, 18, 20, 22, 24, 26, 28, 30, 33, 36, 88

None

20

18, 20, 22, 24, 26, 28, 30, 32, 35, 38, 41, 45, 88

None

30

DISABLE, ENABLE

None

1024~65535

None

-99~70

1

0 -1

ENABLE 2905

0~8191

None

None

0~100

per cent

None

0~100

per cent

None

CA_MA, Frequency_List, OPTIMIZED_CA_MA

None

CA_MA

0~499

None

None

NO, YES

None

YES

NO, YES

None

NO

00:00~23:59

None

None

0~3, Step:0.2

dB

00:00~23:59

None

1~64 characters

None

None

1~64 characters

None

None

0~35

None

None

0~1

None

0~9999

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

1~20 characters

None

0 0:00

0

None

1~20 characters

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

255.255.255.255

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~32

dB

0~254

None

None

64~100000, step:64

kbit/s

None

1~20

None

3

0~5

None

2

0~5

None

1

0~20

dB

1~2

None

1

1~2

None

1

24~1031

byte

1031

50~200

None

100

1~1500

byte

256

1~1500

None

None

1~255

None

None

10000~150000

None

None

100~100000 (step: 100)

W

0~254

None

0~100

None

3

0~8

None

8

0~100

per cent

0~5

None

1~255

d

8

10

125 None

30 5 None

14C, 15C, 16C, 17C, 18C, 19C, 20C, 21C, 22C, 23C, 24C, 25C, 26C, 27C, 28C, 29C, 30C, 31C, 32C, 33C, 34C, 35C, 36C, 37C, 38C, 39C, 40C, 41C, 42C, 43C, 44C, 45C, 46C, 47C, 48C, 49C, 50C, 51C, 52C, 53C, 54C, 55C, 56C, 57C, 58C, 59C, 60C, 61C, 62C, 63C, 64C, 65C, 66C, 67C, 68C, 69C, 70C, 71C, 72C, 73C, 74C, 75C, 76C, 77C, 78C, 79C, 80C, 81C, 82C, 83C, 84C, 85C, 86C, 87C, 88C, 89C, 90C, 91C, 92C, 93C, 94C, 95C, 96C, 97C, 98C, 99C

None

15C

5C, 7C, 10C, 12C, 15C, 18C, 20C, 22C, 25C

None

15C

1~255

None

1_Times, 2_Times, 4_Times, 7_Times

None

7_Times

1_Times, 2_Times, 4_Times, 7_Times

None

7_Times

1_Times, 2_Times, 4_Times, 7_Times

None

7_Times

1_Times, 2_Times, 4_Times, 7_Times

None

7_Times

1~746

byte

1~746

None

0~30

dB

2

0~30

dB

0

0~30

dB

0

0~255

None

62

0~31

None

20

OFF, ON

None

0~255

None

1~24

h

12

0~32

None

32

2~255

None

16

0~32

dB

1~999

d

None

0~511

None

None

0.0.0.0~255.255.255.255

None

None

0~3

None

0

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

2

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

6

0~2047

None

None

1~64 characters

None

None

3 digit

None

None

1~3 characters

None

None

4, 8 4(Use two bytes to present MC priority number, 4 classes), 8(Use four bytes to present MC priority number, 8 classes)

None

None

0~2047

None

None

1~64 characters

None

None

30

64 None

OFF 255

8

None

8

0~62

None

None

ON, OFF

None

OFF

CLASS0, CLASS1, CLASS2

None

CLASS0

0~7

None

None

0~7

None

1~20 characters

None

None

1~20 characters

None

None

NO, YES

None

NO

1~5

s

EnhMeasReport, ComMeasReport

None

ComMeasReport

1~1000

None

None

1~8191 LocalMep, RemoteMep

None

None

None

None

LONG, SHORT

None

LONG

LONG, SHORT

None

LONG

0~63

None

64~100000, step:64

kbit/s

0~49

dB

10

0~63

dB

0

10~3500

mA

170

10~3500

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

10~3500

mA

140

10~3500

mA

140

0~63

dB

16

60~3600

s

60

0~63

dB

10

10~1000

ms

100

10~1000

ms

100

0

3

15 None

10~1000

ms

100

10~1000

ms

100

0~11

None

None

0~11

None

None

UP, DOWN

None

None

2~3 digit

None

None

1~64 characters

None

None

50~95

per cent

MANUAL, AUTO, FREE

None

AUTO

SERVER, CLIENT

None

None

OFF, ON

None

None

GO, UO, GU

None

None

FIXED, CYCLE

None

None

CHECK_ON_INDEPENDENT_PORT, MODE1, MODE2, MODE3, MODE4 CHECK_ON_PRIMARY_PORT, MODE1, CHECK_ON_STANDBY_PORT MODE2, MODE1, MODE3 MODE2, MODE1, MODE3 MODE2, MODE1, MODE3 MODE2, MODE1, MODE3 MODE2, MODE1, MODE3 MODE2, MODE3

None

None

None

None

None

MODE1

None

MODE1

None

MODE1

None

MODE1

None

MODE1

None

MODE1

30MINS, 60MINS, 120MINS, 240MINS

None

None

1~1440

h

None

0~12

None

None

0~600

m/s

35

0~100

per cent

10

0~100

per cent

5

0~31(PEUa), 0~167(POUc)

None

None

0~167

None

None

0~3 MODE1_1, MODE2_1, MODE3_1, MODE4_1, MODE5_1, MODE6_1, MODE16K

None

None

None

MODE4_1

0~1

None

None

DISABLE, ENABLE

None

ENABLE

MLPPP, MCPPP

None

MCPPP

80

0~27

None

None

0~11

None

None

NO, YES

None

YES

0~31

None

4

1~255

None

5

NOreport, Twice_ps, Once_ps, Once_2s, Once_4s

None

4~30

dB

4

4~30

dB

4

OFF, ON

None

OFF

OFF, ON_WITH_SDCCH, ON_WITHOUT_SDCCH

None

None

128~1500

None

1500

1~16

None

3

OFF, ON

None

0~65535

None

1800

1~10

None

1

0~1023

None

0

NO, YES

None

NO

OFFLOAD, NORMAL, UNAVAIL

None

NORMAL

R98_or_below, R99_or_above

None

R98_or_below

5000~40000

ms

1~32 characters

None

None

1~10 characters

None

None

1~10 characters

None

None

1~10 characters

None

None

1~10 characters

None

None

1~10 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

Once_ps

OFF

15000

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

NO, YES

None

NO

1_Times, 2_Times, 4_Times, 7_Times

None

4_Times

CLEAR, LOP, FS, MS, EXERS, MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9

None

None

None

MCS5

10~80

None

0~254

None

0~63

dB

0~255

None

1000~3000

ms

1~600

s

0~31

None

ON, OFF

None

50~95

per cent

ALARM_METHOD, LOOP_METHOD

None

None

0~31(EIUa/OIUa), 0~63(POUc)

None

None

MET, IMP

None

MET

500~1500

None

256~1650

byte

0~1500

None

19.0~24.0, step:0.1

V

REPORT6, REPORT1, REPORT2, REPORT3

None

REPORT6

0~255

s

None

DISABLE, ENABLE

None

None

0~10

s

None

0~15

min

NO, YES

None

1~1500

ls

1~1500

ls

None

UDPMUX, ABISMUX, ATERMUX

None

None

0~12

None

1~16(FG2a/GOUa), 1~512(FG2c/GOUc)

None

1~3

None

3

5~254

None

5

34~254

None

34

29~254

None

29

OFF, ON

None

40 None 10 200 1000 45 2 None 85

800 None 1500 225

0 NO 1000

6 None

OFF

5~254

None

5

5~254

None

5

23~254

None

23

8~30

None

20

2~5

None

3

3~10

None

10

1~255

None

6

1~10

None

3

1~10

None

4

NO, YES

None

NO

1~49 characters

None

None

1~49 characters

None

None

1~31 characters

None

None

1~31 characters

None

None

1~31 characters

None

None

1~31 characters

None

None

1~49 characters

None

None

1~49 characters

None

None

1~31 characters

None

None

1~49 characters

None

None

1~31 characters

None

None

1~50 characters

None

None

NO, YES

None

NO

0~15

None

DISABLE, ENABLE

None

DISABLE

0~5047

None

None

1~64 characters

None

None

0~5047

None

None

1~64 characters

None

None

0~5047

None

None

1~64 characters

None

None

5048~8047

None

None

1~64 characters

None

None

OFF, ON

None

None

2

0~65535

None

None

1~65533, 65535

None

None

1~3 characters

None

None

1~3 characters

None

None

NO, YES

None

NOTSUPPORT, SUPPORT

None

NO, YES

None

0~7 SELECTION0_PERM, SELECTION1_PERM, SELECTION2_PERM, SELECTION3_PERM, 0~7 SELECTION4_PERM, SELECTION5_PERM, SELECTION6_PERM, SELECTION7_PERM

None

NO SELECTION0_PERMNOTSUPPORT 1&SELECTION1_PERM1&SELECTION2_PERMNO 1&SELECTION3_PERM1&SELECTION4_PERMNone 1&SELECTION5_PERM1&SELECTION6_PERMNone 1&SELECTION7_PERM1

0~255

None

1

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

4

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

4

0~127

dB

0

0~127

dB

60

0~127

dB

64

0~127

dB

68

0~127

dB

72

0~127

dB

74

0~127

dB

76

0~127

dB

80

0~7

None

0

0~7

None

0

NC0, NC1, NC2

None

NC0

NO, YES

None

YES

0.0.0.0~255.255.255.255

None

None

0~60

s

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

INT, INTB, NAT, NATB

None

None

1~62 characters

None

None

NMOI, NMOII, NMOIII

None

NMOII

None None

4

0~255

None

None

0~255

None

None

0~255

None

None

0~255

None

None

40~45

V

43

55~59

V

57

40~45

V

43

55~59

V

57

40~45

V

43

55~59

V

57

40~45

V

43

55~59

V

57

40~45

V

43

55~59

V

57

40~45

V

43

55~59

V

57

NO, YES

None

0~255

dB

2

0~255

dB

30

0~255

dB

1

0~255

dB

95

0~7

None

0~100

per cent

85

0~255

dB

14

0~255

dB

103

NO, YES

None

0~7

None

0~100

per cent

ABIS, A, BSC, TC, IUR_G

None

0~64

None

NO, YES

None

0~70

None

1~1000

Ah

OFF, ON

None

NO

0

NO 2 25 None 8 NO 50 100 ON

NODRX, 0.24sec, 0.48sec, 0.72sec, 0.96sec, 1.20sec, 1.44sec, 1.92sec

s

100~10000

ms

2500

100~10000

ms

2500

FORBID, PERMIT

PERMIT

40.0~70.0 (step: 0.1)

None degree Celsius

CLOSE, OPEN

None

CLOSE

5~1275, step:5

min

48

10~255

s

30

1~10

None

3

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

2

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

6

0~1023

None

None

0~1023

None

None

NO, YES

None

YES

0~65534

None

None

0~65534

None

None

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

North_latitude, South_latitude

None

None

0~65534

None

None

0~1023

None

0~30

None degree Celsius degree Celsius

1~255

None

0~100

per cent

0~100

per cent

0

0~100

per cent

0

0~100

per cent

0

0~100

per cent

0

0~63

None

None

OFF, ON

None

None

SITE, CELL, BOARD

None

None

BYCELL, BYTRX

None

None

0~499

None

None

0~499

None

None

0~30

0.24sec

500

2

9 16 10 None

ALL, BOARD, PORT, DSP

None

None

BTS, CELL, LOC, BOARD, PORT

None

None

CELL, TRX, CHN

None

None

OFF, ON

None

OFF

NO, YES

None

YES

NO, YES

None

NO

OFF, ON

None

None

4~255

s

0~63

None

0~256

kbit/s

64

0~256

kbit/s

64

0~7

None

0~7

None

2~4094

None

0~96

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

1~32 characters

None

None

1~16777215

None

None

1~16777215

None

None

0~4

None

None

PRIM, SEC

None

None

0~3

None

None

OPINDEX0, OPINDEX1, OPINDEX2, OPINDEX3

None

None

NORMAL, FORCE

None

None

BYCICRANGE, BYCICVALUE

None

None

BYTSRANGE, BYTSVALUE

None

None

BYTSRANGE, BYTSVALUE

None

None

BYCICRANGE, BYCICVALUE

None

None

0~255 characters

None

None

SysOpt, OSubcell, USubcell, NoPrefer

None

SysOpt

0~63

dB

35

0~255

bit

63

L0, L1, L2, L3, L4, L5, L6, L7

None

10 None

None 1 None 1

L0

SDH, SONET

None

None

MANUAL, FORCED, CLEARALARMA

None

None

FORBID, RESTORE

None

None

0~4

None

None

0~7

None

None

One_touch, Step_by_Step

None

Step_by_Step

1~200 characters

None

None

0~36

None

0~63

dB

NO, YES

None

500~60000

ms

10000

500~60000

ms

10000

NO, YES

None

0~100

per cent

80

0~50

W

15

0~63

dB

25

NO, YES

None

1~255

s

1

1~255

s

5

0 20 YES

NO

YES

0~63 dB TS0, TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, 0~100 TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, per cent TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

5

None

0~335

None

None

0~15

None

None

0~31

None

None

HIGH, LOW

None

HIGH

HIGH, LOW

None

HIGH

HIGH, LOW

None

HIGH

HIGH, LOW

None

HIGH

1.0~200.0 (step: 0.1)

W

None

30.0~53.0 (step: 0.1)

dB

None

0.1dB, 0.1W

None

None

0~100

per cent

NO, YES

None

50

90 YES

0~27

None

None

0~27

None

None

0~11

None

None

NO, YES

None

NO

NO, YES

None

NO

CLOSE, OPEN

None

CLOSE

1~60

s

0~255

None

10~3500

mA

320

10~3500

mA

320

10~3500

mA

185

10~3500

mA

280

10~3500

mA

280

10~3500

mA

155

100~10000

ms

1500

100~10000

ms

1500

1~255 40.0~70.0 (step: 0.1)

s degree Celsius

580

50~95

per cent

90

50~95

per cent

85

50~95

per cent

80

50~95

per cent

75

NO, YES

None

NO

NO, YES

None

NO

10~65535

None

180

0~255

ms

255

10~65535

None

220

1~8 Pan_0, Pan_1, Pan_2, Pan_3, Pan_4, Pan_5, Pan_6, Pan_7, 255 Pan_0, Pan_1, Pan_2, Pan_3, Pan_4, Pan_5, Pan_6, Pan_7, 255 Pan_4, Pan_8, Pan_12, Pan_16, Pan_20, Pan_24, Pan_28, Pan_32, 255

None

4

15 None

15

None

Pan_1

None

Pan_2

None

Pan_20

L0, L1, L2, L3, L4, L5, L6, L7

None

L0

0~9999

None

None

0~99

None

None

ENABLED, DISABLED

None

DISABLED

0~65535

None

None

0~65535

None

None

0~25.5, step:0.01

dB

NO, YES QoS, BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

None

NO

None

None

MAINCPU_PATCH, DSP_PATCH, UCODE_PATCH DB0, DB2, DB4, DB6, DB8, DB10, DB12, DB14, DB16, DB18, DB20, DB22, DB24, DB26, DB28, DB30

None

None

dB

DB2

NO, YES

None

YES

0.5~16, step:0.5

s

0~127

dB

0.5~16, step:0.5

s

6

0~65535

None

2

TCH:480~7200, step:480; SDCCH:470~7050, step:470

ms

3

BCCH, PDCH

None

PDCH

0~31

None

None

0~31

None

None

0~31

None

None

0~31

None

None

NO, YES

None

NO

10~160

None

NO, YES

None

NO

NO, YES

None

NO

10~70

None

1~10

s

0~65534

None

None

0~65534

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~2047

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

79

4 68

80

70 5

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

255.255.255.255

1024~65535

None

None

1~63 characters

None

None

NO, YES

None

YES

0~255

s

10

0~63

None

30

0~255

s

255

1~60

s

5

15~720, step:15

min

None

Disable, Enable

None

Enable

Disable, Enable

None

Enable

NO, YES

None

YES

NO, YES

None

NO

0~2

None

2

10~1000

None

660

10~2000

None

660

100~600000 BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, , AF43, EF

ms

1000

None

None

None

None

NO, YES

None

YES

DISABLE, ENABLE

None

None

5~64

None

10

64~1024

byte

128

2~1500

byte

24~1031

byte

NO, YES

None

20~1500

byte

56

0_level, 95~512 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use

byte

128

0~10, step:0.2

dB

None

None 1031 NO

12_level 0

0_level, 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 0_level, 2_level, 3_level, 4_level, 5_level, 6_level, 13_level,1_level, 14_level, 16_level, no use 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use

None

13_level

None

14_level

0_level, 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 0~10, step:0.2 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use

dB

0~10, step:0.2

dB

0

100~10000, step:100

ms

10

0~1, step:0.001

None

30

A, ABIS

None

None

OFF, ON

None

None

0~600

s

None

30~100

per cent

60

30~100

per cent

60

50~400, step: 50

ms

2

2~15

None

5

CLOSE, OPEN, AUTO

None

30~100

per cent

50

30~100

per cent

50

ON, OFF

None

ON

0~11

None

None

1~32

None

None

0~3

None

None

0~335

None

None

0~335

None

None

0~335

None

None

0~335

None

None

0~335

None

None

0~7 0~31(PEUa/EIUa), 0~62(E1 of OIUa), 0~83(T1 of OIUa), 0~251(E1 of POUc), 0~335(T1 of POUc) 0~31(PEUa/EIUa), 0~62(E1 of OIUa), 0~83(T1 of OIUa), 0~251(E1 of POUc), 0~335(T1 of POUc) 0~31(PEUa/EIUa), 0~62(E1 of OIUa), 0~83(T1 of OIUa), 0~251(E1 of POUc), 0~335(T1 of POUc)

None

None

None

None

None

None

None

None

0~7

None

None

0~11

None

None

0(OIUa), 0~3(POUc)

None

None

0~7

None

None

None

0 16_level

OPEN

0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)

None

None

0~11

None

None

0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)

None

None

0~335

None

None

0~31

None

None

0~335

None

None

0~335

None

None

0~355

None

None

0~255

None

None

0~23

None

None

0~23

None

None

0~335

None

None

0~1

None

None

0~1

None

None

0~255

None

None

250~650

None

650

6~120

None

16

6~120

None

6

NotSupport, Support

None

0~9

None

2

0~9

None

2

0~250 characters

None

None

1~250 characters

None

None

21~65535

None

None

0~1

None

None

0~1

None

None

0~15

None

None

1~16

None

IP, HDLC

None

None

CLOSE, OPEN

None

CLOSE

ETHER, TRUNK

None

None

TOPEXTOUTPORT, TOPEXTINPORT

None

None

BCCHNorm, BCCHExt

None

BCCHNorm

BYBTSTYPE, BYBTS

None

None

Support

16

0.1~100.0 (step: 0.1)

kVA

CLOSE, OPEN

None

CLOSE

CLOSE, OPEN

None

CLOSE

CLOSE, OPEN

None

CLOSE

CLOSE, OPEN

None

CLOSE

CLOSE, OPEN

None

CLOSE

CLOSE, OPEN

None

CLOSE

0~1000

None

0~10, step: 0.2

dB

0

0~10, step: 0.2

dB

0

POWER_48_24, POWER_240_24

None

80W, 63W, 60W, 55W, 50W, 45W, 40W, 31W, 30W, 27W, 220VAC, N48VDC, P24VDC None 26W, 25W, 24W, 21W, 20W, 19W, 18W, 17W, 16W, 15W, 14W, 0~13 13_3W, 13W, 12_5W, 12W, 11_5W, 11W, 10W, 9_5W, None 9W, 8_5W, 8W, 7_5W, 7W, 6_5W, 6W, 5_5W, 5W, 4_5W, 4W, 3_7W, 3_1W, 3W, 2_5W, 2W, 200mW, DEFAULT None

125

100

POWER_48_24 220VAC 0 DEFAULT

0~100

per cent

10

0~100

per cent

5

0~499

None

None

0~499

None

None

0~499

None

None

0~15

None

None

Disable, Enable

None

Disable

0~5

None

YES, NO

None

NO

ALLOWED, NOT_ALLOWED

None

NOT_ALLOWED

OFF, ON

None

OFF

1~255

None

1

0~255

None

60

0, 3, 4, 5, 6

None

6

NO, YES

None

NO

NO, YES

None

NO

30~100

per cent

60

30~100

per cent

60

30~100

per cent

50

30~100

per cent

50

2

PRIOR-1, ON, OFF PRIOR-2, PRIOR-3, PRIOR-4, PRIOR-5, PRIOR- None 6, PRIOR-7, PRIOR-8, PRIOR-9, PRIOR-10, PRIOR-11, Prior-1, Prior-2, Prior-3,PRIOR-14, Prior-4, Prior-5, Prior-6,PRIOR-16 Prior-7, PRIOR-12, PRIOR-13, PRIOR-15, None Prior-8, Prior-9, Prior-10, Prior-11, Prior-12, Prior-13, Prior14, Prior-15, Prior-16 None

ON None Prior-1

0~100

per cent

80

0, 1, 2, 3, 4, 5, 6, 7, no use

None

2

0~99

None

0

0~99

None

0

HIGH, LOW

None

None

TDME1_O, TDME1_1, FE_E, FE_O, IPOE

None

None

1, 2

None

None

TDME1_O, TDME1_1, FE_E, FE_O, IPOE

None

None

0~200 characters

None

None

DEFAULT, CUSTOMIZDE, DISABLE

None

None

ITUT, ANSI, TTC

None

ITUT

Q933, ANSI

None

Q933

5~300

s

0~255

min

60~3600

s

ALL, SINGLE

None

None

ALL, SINGLE

None

None

ALL, PORT, SINGLE

None

None

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, ON

None

ON

OFF, ON

None

OFF

OFF, ON

None

ON

0~100

per cent

100

0~100

per cent

100

NO, YES BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

None

NO

None

None

0~7

None

None

0~7

None

4

1~16

None

6

NO, YES

None

15 5 300

NO

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

None

None

0~7

None

None

0~7

None

6

0~63

None

25

COMMONUSRM, SPECUSRM

None

-121~-104

dBm

-109

-121~-104

dBm

-109

OFF, ON

None

10~10000

None

100~600000

ms

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

0~63

None

NO, YES

None

None

ON, OFF

None

None

BOOL, VALUE

None

None

123~65534

None

None

0~31

s

GB_OVER_FR, GB_OVER_IP

None

None

BOOL, VALUE

None

BOOL

B8ZS, HDB3, AMI, AMI_ZCS E1_DOUBLE_FRAME, E1_CRC4_MULTI_FRAME, T1_SUPER_FRAME, T1_EXTENDED_SUPER_FRAME E1_DOUBLE_FRAME, E1_CRC4_MULTI_FRAME, T1_SUPER_FRAME, T1_EXTENDED_SUPER_FRAME E1_DOUBLE_FRAME, E1_CRC4_MULTI_FRAME, T1_SUPER_FRAME, T1_EXTENDED_SUPER_FRAME

None

None

None

None

None

None

None

None

0~15

None

None

FE, GE None APM100, APM200, APM30, EPS4890, EPS4815, SC48200, CUSTOM None

None

None

ON 500 1000

35

0

None

0~200 characters

None

None

1~50 characters

None

None

1~50 characters

None

None

1~65535

ms

0~64 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

6~32 characters

None

None

0~31 BIT0, BIT1, BIT6, BIT7, BIT8, BIT9, BIT14, BIT15, BIT16, BIT17, BIT22, BIT23, BIT24, BIT25, BIT29, BIT30, BIT31 BIT0, BIT1, BIT2, BIT3, BIT4, BIT5, BI16, BIT7, BIT8, BIT9, BIT10, BIT11, BIT12

None

None

None

None

None

None

NO, YES

None

NO

NO, YES

None

NO

PWR2, PWR3

None

PWR3

0~3

None

NO, YES

None

YES

OnlyCurPwrLoc, ALLPwrLoc

None

ALLPwrLoc

CLASS0, CLASS1, CLASS2

None

None

0~720

min

NO, YES DB0, DB2, DB4, DB6, DB8, DB10, DB12, DB14, DB16, DB18, Default

None

YES

None

Default

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, ON

None

OFF

0~63

None

None

0~63

None

None

0~63

None

None

0~63

None

None

0~63

None

None

Use_Qsearch_I, Always

None

Use_Qsearch_I

NO, YES

None

NO

1~10

None

0~255

s

1~10

None

500

1

5

3 15 2

-98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, -58, -54, Positive infinity(never)

None

TCH:480~15360, step:480; SDCCH:470~15040, step:470

ms

6

TCH:480~15360, step:480; SDCCH:470~15040, step:470

ms

2

NO, YES -98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, -58, -54, Positive infinity(never) -98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, -58, -54, Positive infinity(never)

None

NO, YES

None

1~16

s

3

1~16

s

5

NONE, DYNAMIC

None

3~20

None

6

3~20

None

6

0~4

dB

2

NO, YES

None

NO

NO, YES

None

AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7

None

AU0-0&AU1-0&AU2NO 0&AU3-0&AU4-0&AU50&AU6-0&AU7-0

INSIDE_100AH, INSIDE_50AH, OUTSIDE_300AH, NO, YES OUTSIDE_400AH, OUTSIDE_500AH, OUTSIDE_650AH, OUTSIDE_200AH

None

NO

None

INSIDE_50AH

007C, 010C, 015C

None

015C

INSIDE_BATTERY, OUTSIDE_BATTERY

None

AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7

None

AU0-0&AU1-0&AU2INSIDE_BATTERY 0&AU3-0&AU4-0&AU50&AU6-0&AU7-0

INSIDE_100AH, INSIDE_50AH, OUTSIDE_300AH, NO, YES OUTSIDE_400AH, OUTSIDE_500AH, OUTSIDE_650AH, OUTSIDE_200AH

None

NO

None

INSIDE_50AH

007C, 010C, 015C

None

015C

INSIDE_BATTERY, OUTSIDE_BATTERY

None

AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7

None

AU0-0&AU1-0&AU2INSIDE_BATTERY 0&AU3-0&AU4-0&AU50&AU6-0&AU7-0

INSIDE_100AH, INSIDE_50AH, OUTSIDE_300AH, NO, YES OUTSIDE_400AH, OUTSIDE_500AH, OUTSIDE_650AH, OUTSIDE_200AH

None

NO

None

INSIDE_50AH

007C, 010C, 015C

None

015C

INSIDE_BATTERY, OUTSIDE_BATTERY

None

INSIDE_BATTERY

0~255

None

0

0~255

None

0

0~255

None

0

0~255

None

15

NO

None

15

None

15 NO

NONE

None

0~255

None

None

0~255

None

None

-121~-104

dBm

0~63

dB

0~65535

None

5000

-121~-104

dBm

-109

0~7

None

NO, YES

None

0~255

None

0dB, 2dB, 4dB, 6dB, 8dB, 10dB, 12dB, 14dB, no use

dB

2dB

10M, 100M, AUTO

None

100M

ALG1, ALG2, NONE

None

ALG1

DISABLE, ENABLE

None

DISABLE

1~255

None

LASTRBP, APPOINTRBP

None

None

REC_ALL, REC_ERR, REC_NON

None

None

0~249

None

None

0~249

None

None

0~249 INDEPENDENT, DIVIDING, FOURDIVERSITY, MAINDIVERSITY, NONE

None

None

None

NONE

0~100

None

NO, YES

None

YES

Same_Band, Diff_Band

None

Diff_Band

0~70

None

50

0~70

None

40

0~63

dB

5

0~63

dB

30

NO, YES

None

YES

NO, YES

None

NO

20~99

None

30

0~70

None

60

NO, YES

None

NO

YES, NO

None

None

0~50

ms

-109 16

1 YES 225

4

96

10

0~768

None

3

0~31

None

0

0~31

None

0~31

None

0

0~31

None

0

OFF, ON

None

OFF

OFF, ON

None

OFF

NO, YES

None

NO

0~95

None

None

00:00:00~23:59:59

None

None

1~3600

s

REHOSTRIGHTNOW, REHOSTDELAY, REHOSTWHEN

None

REHOSTDELAY

NO, YES

None

None

0~62

None

None

NO, YES

None

NO

OFF, POWERSHARING, RF_FH

None

OFF

0~23

None

None

0~255

None

None

A, B, NONE

None

NONE

1~31 characters

None

None

1~250 characters

None

None

0~1023

None

None

0~65535

None

None

NO, YES

None

NO

0~7

None

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

YES

0~63

None

6

1~10

s

2

1~32

None

10

1~32

None

1

0~8

None

0

0~16

None

2

None

600

5

NO, YES

None

0~65535

min

1~60

min

1~255

None

1~15

min

1~120

s

MSLOST, QUALITYBAD, CELLRESELECT

None

None

NO, YES

None

YES

NO, YES

None

NO

2~5

s

3

2~5 Noneed, Manually, Reset, Normally, Correlative, Configuration, Expired

s

3

0~86400

s

0~190

None

0

0~21

None

5

0~255

s

1~100

None

NO, YES

None

None

NO 5 None 3 None 10

None 30

10 1 NO

RGPS, GPS None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, None NO, YES TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

GPS

1920~30720, step: 480

52_Times

ms

NO None

STANDALONETC, MASTERINPOOLTC, SLAVEINPOOLTC None

STANDALONETC

0~4095

None

None

0~16, 255

None

0~16

None

None

1~64 characters

None

None

0~200 characters

None

None

1~100

None

None

1~100

None

None

DISABLE, ENABLE, UNSUPPORT 0.48sec, 0.96sec, 1.92sec, 3.84sec, 7.68sec, 15.36sec, 30.72sec, 61.44sec 0.48sec, 0.96sec, 1.92sec, 3.84sec, 7.68sec, 15.36sec, 30.72sec, 61.44sec

None

DISABLE

s

15.36sec

s

0.96sec

20~99

None

255

20

NO, YES, NONE

None

NO

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

2

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

6

0~2047

None

None

SHARE

None

None

SHARE, EXCLUSIVE

None

None

0~255

s

5

0~63

dB

3

0~63 MINUS_52db, MINUS_48db, MINUS_44db, MINUS_40db, MINUS_36db, MINUS_28db, MINUS_24db, BASIS_OF_B1,MINUS_32db, BASIS_OF_B2 MINUS_20db, MINUS_16db, MINUS_12db, MINUS_10db, MINUS_8db, MINUS_6db, MINUS_4db, MINUS_2db, BASIS_OF_B1, BASIS_OF_B2 Zerodb, 2db, 4db, 6db, 8db, 10db, 12db, 16db, 20db, 24db, 28db, 32db, 36db, 40db, 44db, 48db, no use

dB

30

None

None

None

None

dB

MINUS_2db

0~64

kbit/s

None

0~63

None

None

0~7

None

None

0~64

kbit/s

None

2~4094

None

None

0~96

None

COMMISSIONING, UPGRADE, RESTORE

None

0~127

dB

1~63 character

None

None

1~50 characters

None

None

OFF, ON

None

OFF

1~65535

ms

0~190

None

OFF, ON

None

None

0~4294967295

None

None

OFF, ON

None

None

OFF, ON

None

None

OFF, ON

None

None

OFF, ON

None

None

OFF, ON

None

None

0~4294967295

None

None

0~4294967295

None

None

4 None 68

3000 0

0~4294967295

None

None

0~3

None

NON-REVERTIVE, REVERTIVE

None

0~4294967295

None

1~5

per cent

OFF, ON

None

ON

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~15

None

None

0~100

per cent

12

0~100

per cent

25

500~60000

ms

1000

500~60000

ms

3000

500~60000

ms

1000

DISABLE, ENABLE

None

10~80

None

NEXTHOP, OUTIF

None

0~1000

None

5

1~100

None

5

0~999

None

None

1~3000000

kbit/s

None

0~4000000

kbit/s

None

0~63

None

2

0~70

None

5

0~63

dB

8

NO, YES

None

0~70

None

60

0~70

None

42

0~70

None

41

0~70

None

40

0~70

None

50

0~70

None

49

0~70

None

48

0~70

None

47

2 None 4294967295 1

DISABLE 30 None

NO

0~70

None

46

0~70

None

45

0~70

None

44

0~70

None

43

0~249

None

None

0~249

None

None

0~249

None

None

RXUNAME, RXUPOS, SRNSN

None

None

RXUNAME, RXUPOS, SRNSN

None

None

1~64 characters

None

None

1~64 characters

None

None

1~64 characters

None

None

1~6

None

None

1~6

None

None

1~6 48VDISABLE, RES0, DRRU, RES1, DRFU, MRRU, MRFU, GRRU, GRFU, BTS3900E RES2, OFF, ON TSDISABLED, HSDISABLED, 0~15 RES3, RES4 BT1_DISABLE(0), AH_DISABLE(1), AT1_DISABLE(2), AT2_DISABLE(3), BT2_DISABLE(4)

None

None

None

None

None

OFF

None

None

None

None

None

None

NO, YES

None

NO

NO, YES

None

NO

0~2

None

1

0~4 None T1_DISABLE, ET_DISABLE, ET1_DISABLE, ET2_DISABLE, T2_DISABLE None

3 None

0~2047

None

None

BYNAME, BYID

None

BYNAME

1~16

None

0~100

per cent

1~64 characters

None

0~30240, step: 480 WIDISABLE, SMDISABLE, WATER_IMMERSED, SMOG, GM_DISABLE WILOW, IMDISABLE, SMLOW, GMDISABLE IMLOW, GMLOW,

ms

5 50 None 32

None

None

None

None

None

None

NO, YES

None

None

WS_DISABLE(0), SS_DISABLE(1), GS_DISABLE(2)

None

None

0~2047

None

None

1~64 characters

None

None

ADD0dB, ADD10dB, Automatic

None

ADD0dB

0~63 GERMAN, ENGLISH, ITALIAN, FRENCH, SPANISH, DUTCH, SWEDISH, DANISH, PORTUGUESE, FINNISH, TCH:480~9600, step:480; SDCCH:470~9400, step:470 NORWEGIAN, GREEK, TURKISH, HUNGARIAN, POLISH, GB2312, KOI8-R, KOI8-U, KOI8, WINDOWS-1251, 0~2047 ASMO_449, WINDOWS-1256, WINDOWS-874, WINDOWS1253, WINDOWS-1254, WINDOWS-1255, WINDOWS-1257, 1~64 characters WINDOWS-1250, WINDOWS-1252, BINARY, UCS2, RCS-1, RCS-2, RCS-3, RCS-4, RCS-5

None

38

ms

4

None

None

None

None

None

None

0~1

None

None

Valid command string, without the ';'at the end of the string.

None

None

BYBTSID, BYCELLID

None

None

0~23

None

None

0~511

None

None

1~2147483646

None

0~1199

None

None

2000-1-1~2037-12-31

None

None

2000-1-1~2037-12-31

None

None

2000-1-1~2037-12-31

None

None

7~90

d

None

1E-3, 1E-4, 1E-5, 1E-6, 1E-7, 1E-8, 1E-9

None

2000-01-01~2050-12-31

None

None

1~31

d

None

1~191

None

OFF, ON

None

0~10, step:0.1

s

0~63

dB

0~70

None

0~63

dB

0~70

None

NO, YES

None

YES

DISABLE, ENABLE

None

None

OFF, ON

None

OFF

1

1.00E-06

1 OFF 10 6 55 6 55

DISABLE, ENABLE

None

ENABLE

0~60

s

2

0~5

None

1

0~255

s

40

0~63

dB

30

0~63

None

48

HIGH, LOW

None

40~70

None degree Celsius

0~65535

s

None

0~65535

s

None

35.0~55.6 (step: 0.1)

V

None

NO, YES

None

YES

1~63 characters

None

None

NO, YES

None

YES

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES NoPriority, Priority4, Priority3, Priority2, Priority1, Priority0, PriorityB, PriorityA NoPriority, Priority4, Priority3, Priority2, Priority1, Priority0, PriorityB, PriorityA

None

YES

None

NoPriority

None

NoPriority

NO, YES

None

None

NO, YES

None

NO

NO, YES

None

YES

NO, YES

None

YES

0~6

None

None

SUPPORT, UNSUPPORT

None

UNSUPPORT

1000~65535

None

None

1000~65535

None

None

1~17 characters

None

None

0.0.0.0~255.255.255.255

None

None

SEPARATE, TOGETHER, AIP

None

SEPARATE

TDM, HDLC, HubBTS, IP

None

TDM

TDM, HDLC, IP

None

None

SYSTEM, CONFIG, MAINTAIN, STAT, ALARM

None

None

53

OML, RSL, EML, ESL, CSVOICE, CSDATA, PSHIGHPRI, PSLOWPRI, OTHERDATA

None

None

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

0~5

None

None

0~65535

None

1~20 characters

None

1~10

None

1

0~1023

None

0

NO, YES

None

NO

Release 98 or older, Release 99 onwards

None

Release 99 onwards

UNISTALL, ALLOW, DENY

None

ALLOW

50~95

per cent

0~27

None

None

NO, YES

None

NO

unshielded, shielded

None

None

0~12

h

NO, YES

None

YES

NO, YES

None

NO

1~10

None

0~186

None

None

0~186

None

None

0~15

None

None

0~255

None

100

0~255

None

100

0~7

None

2

1~10

None

5

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

2

0~15

None

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

2

0~65535

ms

3000

1~32 characters

None

None

1~32 characters

None

None

1800 None

75

3

4

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~65535

None

None

0~255

None

0.0.0.0~255.255.255.255

None

None

0~35

None

None

B0000, B0001, B0010, B0011, B0100, B0101, B0110, E1SELFLOOP, IASUSELFLOOP B0111, B1000, B1001, B1010, B1011, B1100, B1101, B1110, B1111

None

None

None

B0000

1~600

s

DATE, WEEK, DATEWEEK

None

None

0~3

None

None

NOTSUPPORT, INNER, OUTER

None

None

CLOSE, OPEN JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC

None

OPEN

None

None

2~2000

None

0~27

None

255

300

10 None

0~3, 8~27

None

None

0, 2, 4, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26

None

None

0, 2, 4, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26

None

None

0~5, 8~27

None

None

0~5, 8~27

None

None

0~27

None

None

0~27

None

None

0~27

None

None

0~5, 8~27

None

None

0, 2, 4, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26

None

None

0~27

None

None

{0~27}

None

None

0~23

None

None

0~23

None

0, 2, 4, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26

None

None

0~27

None

None

0~23

None

None

0~27

None

None

0~7 None NOCOMB, PBT, WBANDCOMB, DIVERSITY, DDIVERSITY, SGL_ANTENNA, SGLDOUBLE_ANTENNA, DPBT, DTIC, NONE None DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA None DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA None DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA None DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA None SGL_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA None

None

1~60

min

None

1~16383(BIT14), 1~65535(BIT16), 1~16777215(BIT24)

None

None

BIT14, BIT16, BIT24

None

None

1~11 characters

None

None

0~65535

None

WNF, DNF L11_FORBID, L12_FORBID, L13_FORBID, L14_FORBID, L15_FORBID ET_DISABLE0, ET_DISABLE1, SMDISABLE, WIDISABLE, GMDISABLE, ARRESTER1, ARRESTER2 SMDISABLE, WIDISABLE, GMDISABLE, ARRESTER1, ARRESTER2

None None

L11_FORBIDNone 0&L12_FORBID0&L13_FORBIDWNF 0&L14_FORBID0&L15_FORBID-0

None

None

None

None

6

NONE DOUBLE_ANTENNA DOUBLE_ANTENNA DOUBLE_ANTENNA DOUBLE_ANTENNA SGL_ANTENNA

1~12, step: 5

min

12

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

NO

PSMODE, VGCSMODE

None

PSMODE

PSMODE, VGCSMODE

None

PSMODE

FR, EFR

None

FR

1000M, AUTO

None

None

0~63

dB

30

0~255

s

40

NO, YES

None

NO

NOTSPPRTBC, SPPRTSTANDARD, SPPRTSIMPLE

None

NOTSPPRTBC

NO, YES

None

NO

NO, YES

None

NO

UNSUPPORT, SUPPORT

None

UNSUPPORT

UNSUPPORT, SUPPORT

None

UNSUPPORT

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

UNSUPPORT, SUPPORT

None

UNSUPPORT

NO, YES

None

NO

YES, NO

None

None

0~4

None

None

SUPPORT, NOT_SUPPORT

None

NOT_SUPPORT

SUPPORT, NOT_SUPPORT

None

None

SUPPORT, NOT_SUPPORT

None

NOT_SUPPORT

0~2047

None

None

1~64 characters

None

None

0~2047

None

None

1~64 characters

None

None

0~65535

None

None

1~100 characters

None

None

1~4

None

None

1~4

None

None

HOALGORITHM1, HOALGORITHM2

None

HOALGORITHM1

0.0.0.0~255.255.255.255

None

None

1~65533, 65535

None

None

1~3 characters

None

None

1~1000

None

None

1~3 characters

None

None

BITS1-2MHZ, BITS2-2MHZ, BITS1-2MBPS, BITS2-2MBPS, None 0~335 TS1, TS3, TS4, TS5, TS6, TS7, TS8,BITS1-T1BPS, TS9, TS10, TS11, GPS,TS2, 8KHZ, LINE1_8KHZ, LINE2_8KHZ, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, None BITS2-T1BPS TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

0~11

None

None

1~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~254

None

None

0~254

None

0~11

None

None

0~11

None

None

0~254

None

None

0~11

None

None

0 None

None

0~11

None

None

0~11

None

None

None None

0

1~249 characters

None

None

0~5

None

None

MPS, EPS, TCS

None

None

DES, ASC

None

DES

0~255

None

100

0~255

None

100

GSM_PRIOR, UMTS_PRIOR

None

GSM_PRIOR

CSVOICE, CSDATA, PSHIGHPRI, PSLOWPRI

None

None

0~63

dB

63

20~99

per cent

75

30~100

per cent

85

20~99

per cent

80

30~100

per cent

85

TCH:480~15360, step:480; SDCCH:470~15040, step:470

ms

6

TCH:480~15360, step:480; SDCCH:470~15040, step:470

ms

2

0~7

None

None

0~7

None

None

1~2147483646

None

None

0~63

dB

HOUR, MIN, SEC

None

None

2000-1-1 00:00:00~2037-12-31 23:59:59

None

None

00:00~23:59

None

None

2000-1-1 00:00:00~2037-12-31 23:59:59

None

None

00:00:00~23:59:59

None

None

00:00:00~23:59:59

None

None

1970-1-1 00:00:00~2538-12-31 23:59:59

None

None

1~65535

None

None

NO, YES

None

YES

NO, YES

None

YES

0~65535

None

None

0~65535

None

None

1~31

None degree Celsius

None

None

None

-99.0~40.0 (step: 0.1) JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC

63

-100

NO, YES

None

YES

NO, YES

None

YES

0, 2, 4, 6

None

None

60~600

s

00:00~23:59

None

None

8~255

None

None

1~31, step:8

None

None

1~31

None

None

DISABLED, ENABLED

None

ENABLED

DISABLED, ENABLED

None

DISABLED

0~65535

None

None

0~62

None

None

2000-1-1~2037-12-31

None

None

1~32

None

None

NO, YES

None

NO

00:00:00~23:59:59

None

None

NO, YES

None

NO

OFF, ON

None

OFF

60~300

s

OFF, ON

None

OFF

0~23

None

None

HOUR{0~23}, MIN{0~59}, SEC{0~59}

None

None

0~23

None

None

0~254

None

None

0~7

None

None

BTS30, BTS312, BTS3001C, BTS3001CP, BTS3002C, 00:00:00~23:59:59 BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, BTS3900_GSM, 1~31 BTS3900A_GSM, BTS3036, BTS3036A, BTS3900L_GSM, BTS3900B_GSM, BTS3900E_GSM

None

None

None

None

None

None

1~15

None

None

1~15

None

None

1~64 characters

None

None

16~1023

byte

352

16~1023

byte

352

1~50

None

240

120

None

1~124, 128~189

None

None

NO, YES

None

NO

NO, YES

None

NO

0, 2, 4, 6

None

None

0~65535

None

None

NO, YES

None

YES

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NOTSUPPORT, SUPPORT

None

NOTSUPPORT

UNSUPPORT, SUPPORT

None

UNSUPPORT

NOTSUPPORT, SUPPORT

None

NOTSUPPORT

UNSUPPORT, SUPPORT

None

UNSUPPORT

NO, YES

None

NO

NO, YES

None

NO

NO, YES T_12, T_15, T_20, T_30, T_41, T_55, T_76, T_109, T_163, T_217

None

NO

None

T_20

0.0.0.0~255.255.255.255

None

None

0~65535

None

None

CLOSE, OPEN

None

CLOSE

ON, OFF

None

None

OFF, ON

None

ON

CLOSE, OPEN

None

None

ON, OFF

None

None

SUN, MON, TUE, WED, THU, FRI, SAT

None

None

CLOSE, OPEN

None

None

ON, OFF

None

None

ON, OFF

None

None

BFD_OFF, BFD_ON

None

None

NO, YES

None

None

CLOSE, OPEN

None

None

NO, YES

None

YES

1~254

None

OFF, ON

None

10 OFF

0~4294967295

None

0

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, ON

None

OFF

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

3~5

None

None

OFF, ON

None

ON

FIRST, SECOND, THIRD, FOURTH, LAST

None

None

0~2500

None

SyncCase1, SyncCase2

None

None

AISS, GPS

None

AISS

CONSYN, INTERSYN

None

None

1~7

d

1

0~23

h

2

0~59

min

0

1~250 characters

None

None

1~250 characters

None

MBSC

0, 8~11

None

1~250 characters

None

None

NO, YES

None

YES

1~250 characters

None

BSC

1~250 characters

None

None

1000~30000

ms

1~60

s

30000~60000

ms

60000

800~1500

ms

1500

800~1500

ms

1500

2000~3000

ms

3000

800~1500

ms

1500

800~1200

ms

1200

0

10

3000 5

1000~120000

ms

3000

1~60

s

60~2400 (step: 10)

ms

12

5~1275, step: 5

ms

50

5~1275, step: 5

ms

50

10~2550, step: 10

ms

200

10~2550, step: 10

ms

60

10~2550, step: 10

ms

150

5~1275, step: 5

ms

60

5~1275, step: 5

ms

60

1~10

s

180000~360000

ms

360000

180000~360000

ms

360000

1400~2000

ms

2000

1000~10000

ms

10000

1~60

s

5

0~2550, step:10

ms

7

1~255 500ms, 1000ms, 1500ms, 2000ms, 2500ms, 3000ms, 3500ms, 4000ms 0ms, 80ms, 120ms, 160ms, 200ms, 500ms, 1000ms, 1500ms

s

0~1530, step: 6

min

20

5~30

s

10

800~1200

ms

1200

1000~10000

ms

5000

800~1200

ms

1200

1000~30000

ms

1000

800~1200

ms

1200

1000~10000

ms

3000

1000~10000

ms

3000

800~1200

ms

1200

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

4

NO, YES

None

NO

NO, YES

None

YES

0~255

bit

5

1

10

ms

500ms

ms

500ms

0

0.5~8, step:0.5

s

0~255

bit

0~255

s

0

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

2

0~7

None

0.5~0.8, step:0.5

s

1

0~255

bit

63

0~25

None

10

0~25

None

10

1~12

None

None

1~12

None

None

30~300

s

90

60~300

s

90

1~254

None

1000~10000

ms

4000

0~500

mV

80

OFF, ON

None

ON

NO, YES

None

NO

0~100

per cent

60

0~1000

per mill

40

0~63

dB

0~70

None

55

0~1000

per mill

40

0~63

dB

0~70

None

0~60

s

2

0~10

None

3

NO, YES

None

1~600

s

OFF, ON

None

0~100

per cent

60

0~100

per cent

70

1~15 SEPERATE_PRINCIPAL, SEPERATE_SUBORDINATE, TOGETHER, SEPERATE_BSC_INTERFACE

None

10

None

1 255

None

170

6

6 55

YES 60 OFF

None

DISABLE, ENABLE

None

None

0~62

None

None

0~335

None

None

0~4095

None

None

0~5, 8~27

None

None

0~11

None

None

GTC, UTC, ITC

None

None

AUTO, Manual

None

None

AUTO, Manual

None

None

0~42, step: 6

dB

0

Negative infinity, -28~28, step: 4

dB

8

0~36, Positive infinity, step: 6

dB

0

0~1

None

0

0~16383

None

0

NO, YES

None

NO

NO, YES

None

NO

0~63

None

0~127

None

None

0~127

None

None

NO, YES

None

NO

0~1

None

None

0~100

per cent

20

0~100

per cent

15

0~5

None

None

0~5

None

None

0~127

None

CLOSE, OPEN

-50.0~99.0 (step: 0.1)

None degree Celsius degree Celsius degree Celsius degree Celsius degree Celsius degree Celsius

0.0~500.0 (step: 0.1)

mV

1~9 characters 1~9 characters -50.0~100.0 (step: 0.1) -49.0~100.0 (step: 0.1) -50.0~100.0 (step: 0.1)

10

63 OPEN 45 0 500 500 0 0 800

1~64 characters

None

None

1~65535

None

None

32768~65535

None

None

1~64 characters

None degree Celsius degree Celsius degree Celsius

None

None

YES

50~70 -40.0~0.0 (step: 0.1) -40.0~0.0 (step: 0.1) 1~615 characters(GB2312, KOI8-R, KOI8-U, KOI8, WINDOWS-1251, ASMO_449, WINDOWS-1256, NO, YES WINDOWS-874, WINDOWS-1253, WINDOWS-1254, WINDOWS-1255, WINDOWS-1257, WINDOWS-1250, 1~255 WINDOWS-1252, UCS2), 1~2462 characters(BINARY), 1~1395 characters(others)

65 -100 -100

s

30

None

None

OFF, ON

None

OFF

0~1023

h

None

0~65535

None

ACTIVE, STANDBY

None

None

0~255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~5, 8~27

None

None

0~11

None

None

5000~60000

ms

220~280

V

264

220~280

V

264

1~10

None

10

1~10

None

6

1~10

None

4

1~10

None

8

1~10

None

4

1~10

None

3

1~10

None

6

1~10

None

3

1~10

None

2

PERCENTAGE, BANDWIDTH

None

1~15

min

5

0~63

dB

30

65535

5000

None

0~7

None

1

0.5~16, step:0.5

s

4

0~100

per cent

0.5~16, step:0.5

s

6

0~7

None

3

OFF, ON

None

0~63

dB

3~15

s

NOLIMIT, LIMIT

None

NOLIMIT

00:00:00~23:59:59

None

None

0, 5~1440

min

None

0~255

s

10

0~255

s

10

0~255

s

10

200~10000

ms

2000

1~65535

ms

3000

1~3

s

2

1~10

s

2

1~20 (step: 1)

ms

2

0~255

s

1~1024

None

NO, YES, NULL

None

0~255

s

30

10~255

s

40

1~30

s

8

1~15

min

5

7~365

d

None

0~4294967295

None

-99~99

None degree Celsius degree Celsius degree Celsius

00:00~23:59

None

None

00:00~23:59

None

None

00:00~23:59

None

None

-99~70 -19~5

80

OFF 40 5

10 4 NO

45 -19 -20

00:00~23:59

None

None

00:00~23:59

None

None

00:00~23:59

None

None

14~163

None

None

0~163

None

None

1~120

min

None

NON_FDR, FDR

None

None

2~4

s

3

0~100

per cent

0

0~4294967294

None

0~100

per cent

8000~12000

ms

12000

30000~90000

ms

60000

0~276

None

None

TRRS, SATEL TRRS, SATEL

None

TRRS

None

None

-120~-1, 1~120

min

None

0~7

None

0~62

None

None

0~23

None

None

0~254

None

None

NORMAL, FORMAT

None

None

0~5

None

None

1~30

s

30~100

per cent

60

30~100

per cent

60

30~100

per cent

50

30~100

per cent

50

ON, OFF

None

1~255

None

5

1~255

None

M3UA_OVERRIDE_MOD, M3UA_LOADSHARE_MOD

None

5 M3UA_LOADSHARE_MO D

TER_TRANS, SAT_TRANS, TER_AND_SAT_TRANS

None

None

0~27

None

None

None 0

0

8

ON

IP

None

None

IP, HDLC

None

None

IP, HDLC, TDM

None

None

IP, HDLC, TDM

None

None

HDLC IP

None

None

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

ENABLE, DISABLE 5sec, 10sec, 15sec, 20sec, 30sec, 60sec, 120sec, 300sec, no use

h

None

s

10sec

0~100

None

0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)

None

None

0~5, 8~27

None

None

0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)

None

None

0~163

None

None

0~199

None

2

0~199

None

2

10~199

None

0~199

None

2

0~199

None

2

0~199

None

2

0~199

None

None

OFF, ON

None

None

0~11

None

None

0~11

None

None

0~11 TRXAid_NotAllow, AllowReForbid, AllowReImmed, AllowReCheckRes

None

None

None

AllowReCheckRes

5~10

s

None

0~63, 255

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

90

None

255

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

1~120 characters

None

None

0~3071

None

None

0~63

None

None

0~71

None

None

0~8

None

None

0~7

None

None

0~7

None

None

NO, YES TRX, TRU, QTRU, DRRU, DRFU, MRRU, MRFU, GRFU, GRRU, BTS3900B, BTS3900E

None

YES

None

None

8~255 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, None 1~31, step:8 TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None None None

2~4294967294 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, 1~31 TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, None TS1, TS3, TS4,TS24, TS5, TS25, TS6, TS7, TS8, TS9, TS10, TS11, TS21,TS2, TS22, TS23, TS26, TS27, TS28, TS29, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS30, TS31 None TS1, TS3, TS4,TS24, TS5, TS25, TS6, TS7, TS8, TS9, TS10, TS11, TS21,TS2, TS22, TS23, TS26, TS27, TS28, TS29, TS12, TS30, TS13, TS31 TS14, TS15, TS16, TS17, TS18, TS19, TS20, None TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

0~7

None

None

0~512

None

None

NO, YES

None

NO

0~65535

None

None

10~1440 (step: 10)

min

None

None None None None

0~127 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, None 1~50 characters TS1, TS3, TS4,TS24, TS5, TS25, TS6, TS7, TS8, TS9, TS10, TS11, TS21,TS2, TS22, TS23, TS26, TS27, TS28, TS29, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS30, TS31 None TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

0~23

None

None

1~31

None

None

0~7

None

0~50

W

0~65535

ms

Close, Open

None

Open

8K, 16K, 32K, 64K

kbit/s

None

0~254 TRXLOOPBACK, CHLLOOPBACK, CHLCODEC, CPRILOOPBACK

None

None

None

None

0~31

None

None

SIMPLETEST, MANUALTEST

None

None

PIM

None

None

NO, YES

None

NO

CHAIN, RING

None

None

1~255

None

64

1~128

s

64

0~8

None

6

00:00~23:59

None

0:00

00:00~23:59

None

0:00

DISABLE, ENABLE, SLEEPING

None

None None None

0 20 5000

None

0~100

-99~99

per cent degree Celsius degree Celsius

1~60

s

5

1~60

s

10

1~60

s

5

1~60

min

10

1~60

min

5

1~60

s

5

TX_3, 1~60 TX_4, TX_5, TX_6, TX_7, TX_8, TX_9, TX_10, TX_11, TX_12, TX_14, TX_16, TX_20, TX_25, TX_32, TX_50

s

5

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

1~3000000

kbit/s

None

0~4000000

kbit/s

None

40~79

None

200~10000 ms T_2, T_3, T_4, T_5, T_6, T_7, T_8, T_9, T_10, T_12, T_14, T_16, T_20, T_25, T_32, T_50 None

80 50 68

TX_32

500 T_20

EPS, TCS BTS30, BTS312, BTS3001C, BTS3001CP, BTS3002C, ANY_ERR_RETURN, ALL_END_RETURN BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, GSM900, DCS1800, GSM900_DCS1800, GSM850, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, PCS1900, GSM850_1800, GSM850_1900 BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900B_GSM, OUTER, INNER BTS3900E_GSM, BTS3900_GSM_6RFC, BTS3900A_GSM_6RFC, BTS3036_6RFC, BTS3036A_6RFC, APM30, TMC, BBC, APM100, APM200, GSM900, DCS1800, GSM850, PCS1900 PS4890, OMB, RFC-6, BTS3900, BTS3900L, BTS3900AL, BTS3900AS, BTS3900B, BTS3900E, VIRTUAL

None

None

None

None

None

None

None

INNER

None

None

None

None

GSM900, DCS1800

None

None

0~15

None

NO, YES

None

None

1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12

None

None

0~1, 255

None

None

0

0~23, 255

None

None

0~53, 255

None

None

0~15

None

NO, YES

None

None

1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12

None

None

0~1, 255

None

None

0~23, 255

None

None

0~53, 255

None

None

0~15

None

6

0~15

None

0

0~15

None

1

0~15

None

1

0~15

None

10

0~15

None

3

0~15

None

15

0~15

None

5

0~15

None

15

0~15

None

13

0~15

None

13

OFF, ON

None

OFF

NO, YES

None

NO

0~15

None

6

0~15

None

0

0~15

None

1

0~15

None

1

0~15

None

10

0~15

None

3

0~15

None

15

0~15

None

1

0~15

None

15

0~15

None

13

0~15

None

13

OFF, ON

None

OFF

NORTPCOMP, RTPCOMP

None

None

0

NORTPCOMP, RTPCOMP

None

None

1214~2001, 2005~3783, 3786~4783, 4785~65000

None

None

0~65535

None

None

Administrators, Operators, Users, Guests, Customs

None

Guests

0~99

None

80

0~64

None

64

300~1000

ms

0~9 Characters

None

1~8 characters

None

TCH:480~122400, step:480; SDCCH:470~119850, step:470 ms

1000 90 None 3

1~30

dB

14

1~30

dB

14

1~30

dB

16

1~30

dB

16

0.5~4, step:0.5

s

1

0.5~4, step:0.5

s

1

1~255

None

5

0~240

ms

1~64

None

15

0~63

dB

10

1~64

None

20

1~64

None

32

1~10

None

3

1~30

dB

16

1~30

dB

16

1~30

dB

18

1~30

dB

18

0~15

None

2

0~15

None

3

0~15

None

3

0~15

None

3

0~15

None

4

0~15

None

15

0~15

None

2

180

0~15

None

2

1~100

None

90

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

1~30

dB

6

1~30

dB

8

1~100

None

100

0~3

None

0

0~7

None

0

0~7

None

3

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~7

None

3

0~63

dB

5

0~70

None

55

0~70

None

60

0~70

None

55

0~10

None

3

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

3

0~63

dB

18

0~63

dB

18

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

1

0~10

None

6

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

3

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

1

0~100

None

6

0~100

None

75

0~63

dB

30

0~63

dB

18

0~63

dB

15

0~63

dB

19

0~63

dB

28

0~63

dB

23

0~63

dB

31

0~63

dB

63

0~63

dB

21

0~63

dB

25

NO, YES

None

1~64

None

NO, YES

None

0~255

s

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

None

GSM_PHASE_2

NO, YES

None

None

1~6

None

10~3500

mA

40

10~3500

mA

40

10~3500

mA

40

10~3500

mA

60

10~3500

mA

60

10~3500

mA

60

0~2047

None

None

0~2047

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

1~64 characters

None

None

1~64 characters

None

None

0~15

None

None

CS1, CS2, CS3, CS4 MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9

None

CS1

None

MCS2

10~70 MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, UAS7, UAS8, UAS9, UAS10, UAS11 MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, UAS7, UAS8, UAS9, UAS10, UAS11, UNFIXED

None

0~5000

ms

CS1, CS2, CS3, CS4, UNFIXED MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9, UNFIXED

None

UNFIXED

None

UNFIXED

0~70

None

40

0~63

dB

30

10~255

s

30

0~96

None

None

NO, YES

None

YES

YES 32 NO 10

3

20

None

MCS6

None

UNFIXED 2000

0~2047

None

None

512~1535

None

None

1~16

s

4

0.1~1, step:0.1

None

6

1~16

s

5

NO, YES

None

0~300

ms

0~64

per cent

10

0~64

per cent

5

0~64

per cent

5

0~64

per cent

5

0~64

per cent

2

0~64

per cent

2

FORBID, PERMIT

None

PERMIT

BYTMSI, BYIMSI, BYMSISDN, BYIMEI

None

None

NOTSUPPORT, SUPPORT

None

NOTSUPPORT

1~32 characters

None

None

1~32 characters HOUR 0~23 MINUTE 0~59 HOUR 0~23 MINUTE 0~59

None

None

None

None None

-99~99

None degree Celsius

0~8

None

0~255

s

10

0~63

dB

35

NO, YES

None

1~255

s

5

1~63

dB

5

FDD, TDD

None

None

2 characters

None

None

0~190, 255

None

No_Priority, Public_Network_First, VGCS_First

None

0~190

None

50~95

per cent

NO, YES

None

NO 120

50 3

NO

255 No_Priority 0 95 NO

NONE, LEVEL4, LEVEL3, LEVEL2, LEVEL1, LEVEL0, LEVELB, LEVELA

None

50~95

per cent

DISABLE, ENABLE

None

DISABLE

DISABLE, ENABLE

None

None

DISABLE, ENABLE

None

DISABLE

DISABLE, ENABLE

None

DISABLE

2~4094

None

None

2~4094

None

None

2~4094

None

2~4094

None

None

2~4094

None

None

2~4094

None

0~7

None

0~7

None

Full_rate_Ver1, Full_rate_Ver2, Full_rate_Ver3, NO, YES Half_rate_Ver1, Half_rate_Ver2, Half_rate_Ver3, Full_rate_Ver5

None None

None FULL_RATE_VER1None 1&FULL_RATE_VER21&FULL_RATE_VER3- 0 0&HALF_RATE_VER11&HALF_RATE_VER2NO 0&HALF_RATE_VER30&FULL_RATE_VER5-0

CLOSE, OPEN

None

OPEN

1~9 characters

V

28

1~9 characters 14, 15, CLOSE, OPEN 18, 16, 20, 18, 1~9 characters 22, 20, 24, 1~9 characters 22, 26, 24, NO, 28, 26, YES 30, 28, 0~12 32, 30, 35, 33, 1~30 38, 36, 41, 88 45, 88

V

20

None

LEVEL0 90

2

OPEN

V

57

V

42

None

YES

None

2

None

3

None

20

None

30

0~12

None

2

0~999

None

4000~33000

ms

27000

3000~34000

ms

34000

3000~34000

ms

26000

0~1000

s

280

1~30

s

15

None

0~60

s

4

0~1000

s

300

INACTIVE, ACTIVE

None

INACTIVE

CLOSE, OPEN

None

OPEN

NOLIMIT, LIMIT

None

NOLIMIT

East_Longitude, West_Longitude

None

None

INACTIVE, ACTIVE

None

INACTIVE

NO, YES

None

None

DENY, ALLOW

None

DENY

SUN, MON, TUE, WED, THU, FRI, SAT

None

None

M3UA_ASP, M3UA_IPSP

None

M3UA_ASP

0~24

h

NO, YES

None

5~1275, step:5

min

0~24

h

GMT-1200(GMT-12:00), GMT-1100(GMT-11:00), GMTNO, YES None 1000(GMT-10:00), GMT-0930(GMT-09:30), GMT-0900(GMTActive, Standby None 09:00), GMT-0800(GMT-08:00), GMT-0700(GMT-07:00), GMT-0600(GMT-06:00), GMT-0500(GMT-05:00), GMTGSM_AND_UMTS,GMT-0400(GMT-04:00), UMTS, GSM 0430(GMT-04:30), GMT-0330(GMT- None 03:30), GMT-0300(GMT-03:00), GMT-0200(GMT-02:00), GO None GMT-0100(GMT-01:00), GMT(GMT), GMT+0100(GMT+01:00), E1_UNBA, E1_BA, T1, E1GMT+0200(GMT+02:00), None GMT+0300(GMT+03:00), GMT+0330(GMT+03:30), GMT+0400(GMT+04:00), GMT+0430(GMT+04:30), E1, T1 None GMT+0500(GMT+05:00), GMT+0530(GMT+05:30), 1~127 None GMT+0545(GMT+05:45), GMT+0600(GMT+06:00), GMT+0630(GMT+06:30), GMT+0700(GMT+07:00), 30~300 s GMT+0800(GMT+08:00), GMT+0845(GMT+08:45), GMT+0900(GMT+09:00), GMT+0930(GMT+09:30), 60~300 s GMT+1000(GMT+10:00), GMT+1030(GMT+10:30), GMT+1100(GMT+11:00), GMT+1130(GMT+11:30), 30~60000 s GMT+1200(GMT+12:00), GMT+1245(GMT+12:45), GMT+1300(GMT+13:00), GMT+1400(GMT+14:00) None

22 NO 12 8 NO Active GSM None None E1 None 90 90 None GMT+0800

Recommended Value

Impact

Parameter Relationship

50 Cell

None

50 Cell

None

40 Cell

None

FALSE BTS

None

YES

Cell 30 BSC 60 BSC

None The value of this parameter should be smaller than "AbisFCTimer2". The value of this parameter should be greater than "AbisFCTimer1".

IDLETSALLOC_0

BTS

None

CLOSE

BTS

None

90 BSC

None

BTS

None

NO

It is recommended that the value of15 Cell this parameter is the same as that for "A Interface Tag". BSC 40 BSC6900 100 BSC 8BIT

The Nonevalue of this parameter is the same as those of "Um Interface Tag" and "A Interface Tag". None None

Cell

None

0 Cell

None

NO

Cell

None

None

Cell

Usubcell

Cell

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

None

Cell

None

NEUTRAL

Cell

None

0 Cell

None

2 Cell

None

120 Cell

None

Enable

PPP link

None

YES

BTS

None

CLOSE 4_75KBIT/S-1&5_15KBIT/S0&5_90KBIT/S-1&6_70KBIT/SFLEX 0&7_40KBIT/S-1&7_95KBIT/S4_75KBIT/S-1&5_15KBIT/S0&10_2KBIT/S-0&12_2KBIT/S-1 0&5_90KBIT/S-1&6_70KBIT/S0&7_40KBIT/S-1&7_95KBIT/S-0 6_60KBIT/S-1&8_85KBIT/S1&12_65KBIT/S-1

BSC

None

Cell

None

Cell

None

Cell

None

Cell

None

NO

Cell

None

10 BSC6900 180 BTS 2800 BTS 1800 BTS 280 BTS

The Nonevalue of this parameter must be smaller than "AC Voltage Upper The value of this parameter must be Threshold". greater than "AC undervoltage alarm The value of this parameter must be threshold". smaller than "AC overvoltage alarm The value of this parameter must be threshold". greater than "AC Voltage Lower Threshold".

NO

Cell

None

None

BTS

None

0 BSC

None

2 BSC

None

0 BTS

None

None

BSC6900

None

None

BSC6900

None

2 Cell

None

OFF

BTS

None

None

BTS

None

UNLOCK

Cell

None

Unlock

None

Unlock

TRX Current BFD session

None

BSC6900

None

10 BSC6900

None

OFF

BSC6900

None

None

BSC6900

None

None

BTS

None

None

BTS

None

BTS

This Noneparameter can be configured only when "BTS Software Version 1" is configured.

CLOSE

400 Board

None

20 Board

None

-50 Board

None

0 Board

None

6 Board

If the number of echo cancellations None performed by AEC exceeds "AEC If the number of echo cancellations Detect Threshold" within the time None performed by AEC exceeds "AECthe specified by "AEC Detect Time", Detect Threshold" within the time TFO is closed forcibly. specified by "AEC Detect Time", the TFO is closed forcibly.

Board 20 Board 4 Board

64_Times

None

Cell

None

48 Cell

None

None

None

None

None

Board

None

52_Times

Cell

None

32 Cell

None

None

None

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

None

BTS

None

15 Cell

None

None

BSC6900

None

None

BTS

None

NO

BSC

None

YES

BSC

None

YES

BSC

None

YES

BSC

None

YES

BSC

None

NO

BSC

None

ABIS

BSC

None

5 BSC

None

5 BSC

None

5 BSC

None

10 BSC

None

10 BSC

None

10 BSC

None

BSC

None

0 Board

None

-18 Board

None

6 Board

None

-4 Board

None

-23 Board

None

NO

FIXEDGAIN

Board

CLOSE

Board 5 BSC

None

3 BSC Transmission resource group

When "BWMODE" in "ADD RSCGRP" is set to HALF_DUPLEX, this parameter is valid;if the "BWMODE" in "ADD RSCGRP" of upper class and lower class RSCGRP is set to None HALF_DUPLEX, the "AllBw" in "ADD RSCGRP" of upper class RSCGRP can None not less than the "AllBwE" in "ADD RSCGRP" of lower class RSCGRP;The None "AllBw" in "ADD RSCGRP" of upper class None RSCGRP can not less than the sum of "TxBw" and "RxBw" in "ADD RSCGRP" of lower class RSCGRP.

ALLOW

BSC

None

OFF

Cell

The Nonefollowing condition must be met: "ALLOWAMRHALFRATEUSERPERC" <= "ALLOWHALFRATEUSERPERC".

100 Cell NOTALLOW

BSC 4 Cell 100 Cell

None The Nonefollowing condition must be met: "ALLOWHALFRATEUSERPERC" >= "ALLOWAMRHALFRATEUSERPERC".

ALLCIC

E1/T1 link

None

ALLCIC

PBE1T1

None

30 BTS

None

30 BTS

None

30 BTS

None

30 BTS

None

30 BTS

None

30 BTS

None

None

BTS

None

YES

BTS

None

None

BTS

None

None

BTS

None

10 BTS

None

100 BTS

None

150 BTS

The Nonerecommended value of this parameter is greater than twice "Alarm Clear None Accumulative Time Threshold" and greater than twice "Flash Alarm Occur Threshold".

None

BTS 0 BTS

0 BTS

The Nonerecommended value of this parameter is greater than twice "Alarm Clear Times Threshold".

0 BTS

None

NO

BTS

None

all

BSC6900

None

0 BTS

6 Cell

None

0 Cell None

BSC6900 40 Cell

None None None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

DISABLED

BTS

None

DISABLED

BTS

None

DISABLED

BTS

None

DISABLED

BTS

None

DISABLED

BTS

DISABLED

BTS

None This parameter is valid when "PWRCTRLSW" in the "SET None GCELLPWRBASIC" command is set to This parameter is valid only when PWR2. "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. This parameter parameter is is valid valid when This when "PWRCTRLSW" in the "SET "PWRCTRLSW" in the "SET None This parameter is valid only when GCELLPWRBASIC" command is GCELLPWRBASIC" command is set set to to "PWRCTRLSW" in "SET PWR2 and "DNPCEN" in the "SET PWR2. This parameter is valid onlytowhen GCELLPWRBASIC" iscommand set PWR2. GCELLBASICPARA" is set to "PWRCTRLSW" in "SET The following condition must be met: YES. GCELLPWRBASIC" "AMRDLQLTHRED" is >=set to PWR2. The following condition "AMRDLQHTHRED". must be met: This parameter is valid "AMRDLQLTHRED" >=when "PWRCTRLSW" in the "AMRDLQHTHRED". "SET This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. This parameter is is valid valid only when This parameter when GCELLPWRBASIC" command is set to "PWRCTRLSW" in "SET "PWRCTRLSW" in the "SET PWR2. This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR2. GCELLPWRBASIC" command is set to "PWRCTRLSW" in "SET The following condition must be met: PWR2. GCELLPWRBASIC" set to PWR2. "AMRDLSSHTHRED"is>= The following condition must be met: "AMRDLSSLTHRED". "AMRDLSSHTHRED" >= This parameter This parameter is is valid valid only only when when "AMRDLSSLTHRED". "HOCTRLSWITCH" is set "HOCTRLSWITCH" is set to to This parameter is valid HOALGORITHM2 and only when HOALGORITHM2. "HOCTRLSWITCH" is set to "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when HOALGORITHM2 and to YES. "HOCTRLSWITCH" is set to "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when HOALGORITHM2 and to YES. "HOCTRLSWITCH" is set to "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when HOALGORITHM2 and to YES. "HOCTRLSWITCH" is set to "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when HOALGORITHM2 and to YES. "HOCTRLSWITCH" is set to "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when HOALGORITHM2 and to YES. "HOCTRLSWITCH" is set to "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when HOALGORITHM2 and to YES. "HOCTRLSWITCH" is set to "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when HOALGORITHM2 and to YES. "HOCTRLSWITCH" is set to "AMRFULLTOHALFHOALLOW" is set HOALGORITHM2 and to YES. "AMRFULLTOHALFHOALLOW" is set to YES.

16 Cell ON

Cell

NO

Cell 5 Cell 0 Cell 0 Cell 3 Cell 5 Cell 2 Cell 8 Cell 33 Cell 25 Cell

NO

Cell 2 Cell 20 Cell 1 Cell 100 Cell 0 Cell 75 Cell 4 Cell 108 Cell

NO

Cell

4 Cell

This parameter is valid only when "HOCTRLSWITCH" is set to This parameter is valid HOALGORITHM2 and only when "HOCTRLSWITCH" is set to "AMRFULLTOHALFHOALLOW" is set HOALGORITHM2 and to YES. This parameter is valid when "AMRFULLTOHALFHOALLOW" is set "PWRCTRLSW" in the "SET to YES. This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. GCELLPWRBASIC" command is set to PWR2.

0 Cell

None

Cell

None

3 Cell 15 Cell 8 Cell 2 Cell 0 Cell 0 Cell 8 Cell YES

Cell 3 Cell

ON

55 Cell NO

Cell 5 Cell 0 Cell 0 Cell 3 Cell 5 Cell 3 Cell 6 Cell 30 Cell 18 Cell

None This This parameter parameter is is valid valid when when "PWRCTRLSW" in the "SET "PWRCTRLSW" in the "SET None This parameter is valid only when GCELLPWRBASIC" command is GCELLPWRBASIC" command is set set to to "PWRCTRLSW" in "SET PWR2 and "DNPCEN" in the "SET PWR2. This parameter is valid onlytowhen GCELLPWRBASIC" iscommand set PWR2. GCELLBASICPARA" is set to "PWRCTRLSW" in "SET The following condition must be met: YES. GCELLPWRBASIC" is set "AMRULQLOWTHRED" >=to PWR2. The following condition must be met: "AMRULQHTHRED". This parameter is valid when "AMRULQLOWTHRED" >= "PWRCTRLSW" in the "SET "AMRULQHTHRED". This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. This parameter is is valid valid only when This parameter when GCELLPWRBASIC" command is set to "PWRCTRLSW" in "SET "PWRCTRLSW" in the "SET PWR2. This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR2. GCELLPWRBASIC" command is set to "PWRCTRLSW" in "SET The following condition must be met: PWR2. GCELLPWRBASIC" set to PWR2. "AMRULSSHTHRED"is>= The following condition must be met: "AMRULSSLTHRED". "AMRULSSHTHRED" >= "AMRULSSLTHRED".

2 BSC

None

2 MSC

None

6 Board

None

Board

None

12 Board

None

None

None

None

None

None

None

None

IP path

None

None

BSC6900

None

MODE0

Board

None

-13 Board

None

CLOSE

-48 Board

None

CLOSE

Board

None

None

Cell

None

0 BTS

None

NOPOWER

BTS

None

OFF

Board

None

NO

BTS

None

None

None

None

None

TRX

None

None

TRX

NULL

BTS

None The setting of this parameter depends on "Board Type".

None

MTP3 link

None

None

SCTP link

None

None

BSC

None

20 BSC

None

1024 BSC

None

256 BSC

None

20 BSC

None

10 BSC

None

20 BSC

None

BSC

None

384 BSC

None

None

BSC

None

None

None

None

PRIMARY

None

None This parameter is valid only when "WLNKALMFLAG" is set to YES. This parameter is valid only when "WLNKALMFLAG" is set to YES. This parameter is valid only when "WLNKALMFLAG" is set to YES.

CLOSE

50 TRX 100 TRX 100 TRX 3 Ethernet port

None

3 Ethernet port

None

None

MTP3 link

None

None

ATERCONSL

None

None

MTP3 link

None

None

BSC6900

None

None

BSC6900

OFF

Cell

DISABLE

Cell 35 Cell

the condition for assigning channels of the overlaid subcell during the assignment of the underlaid subcell channels and overlaid subcell channels. In a normal concentric cell, if "LOWRXLEVOLFORBIDSWITCH" is set to ON, this parameter, together with "RECLEVTHRES" and None "RECLEVHYST", determines whether the current uplink receive level meets None the condition for assigning channels of the overlaid subcell during the None assignment of the underlaid subcell channels and overlaid subcell channels.

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

30 BSC

None

10000 Cell 30 BSC

60 MSC

None This parameter is used with "T18 -s" in flow Nonecontrol over the A interface. The This is used with "T17 valueparameter of this parameter should be -s" in flow control over the A interface. The smaller than "T18 -s". value of this parameter should be greater than "T17 -s".

30 BSC

None

30 BSC

None

20 MSC

None This This parameter parameter is is valid valid only only when when "ATCBHoSwitch" is set to OPEN, "IUOTP" is set to Concentric_cell. This parameter valid only or when "IUOTP" is set tois EDB_cell, "ATCBHoSwitch" is set to OPEN, "TIGHTBCCHSWITCH" setAter to ON. If the resource usage onisthe "IUOTP" is set to EDB_cell, or interface exceeds the value of "TIGHTBCCHSWITCH" is set to ON. "AterCongstRatio" and this parameter is set to Open, the BSC preferentially None selects TCHF when assigning traffic channels. This parameter is valid only when "AterCongHRFlag" is set to OPEN.

60 MSC 30 BSC

NO

Cell 2 Cell 10 Cell

YES

BSC

Open

BSC 85 BSC

None

None

MTP3 link 90 BSC

None None

None

E1/T1 link

None

None

BSC

None

None

E1/T1 link

None

None

E1/T1 link

None

None

ATERCONSL

None

TDM

BSC

None

None

None

None

None

MTP3 link

None

YES

Cell

None

0 BTS

None

0 BTS

None

60 None

None

1 E1/T1 port

None

None

BSC6900

None

None

PPP link

None

None

MP group

None

None

BTS

None

None

PPP link

None

MP group

None

BTS

None This parameter is required only when "Validate protocol type" is set to None "PAP_V" or "CHAP_V" with the "ADD PPPLNK" command.

None

PPP link

None

MP group

None

BTS

None This parameter is required only when "Validate protocol type" is set to None "PAP_V" or "CHAP_V" in the "ADD PPPLNK" command.

NO_V

PPP link

None

NO_V

MP group

None

NO_V

BTS

None

ENABLE

Ethernet port

None

None

None

None

YES

Cell

None

YES

Cell

None

NO

BSC

None

ENABLED

BTS

None

None

BTS

None

None GSM_PHASE_2 is recommended in common scenarios. If AMR services, None inter-RAT handover, eMLPP, or A over AU4 IP mode needs to be supported, "GSM_PHASE_2Plus" is recommended.

BSC6900

None

BSC6900 Channelized optical port

None

BSC

Generally, the value of this parameter is None equal to "Um Interface Tag" and "Um Interface Tag".

None

None

None

LOW

BTS

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

None

BSC6900

None

None

BSC6900

None

55 Cell

None

ALLTLLI

BSC

None

None

BTS

None

None

None

None

Ethernet port

BYTRX

BTS

BYCOVER

BTS

This Noneparameter can work with "BTSPOWEROFFLOCKBCCH" in "SET BTSLOCKBCCH" to determine whether None to shut down the TRX that carries the This mainparameter BCCH. is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.

1 Cell

None

1 Cell

None

1 Cell

None

20 Cell

None

None

None

None

For EPS4815 boards, the value of None this parameter is always "Battery1Temp".

BSC6900

None

BTS

None

Battery1Temp

BTS

None

50 BTS

None

BTS

None

50 BTS

None

BTS

None

NO

NO_BAT

58000 SCTP link 8 TRX

None This parameter is valid only when "WLNKALMFLAG" is set to YES.

36 BTS

None

None

Cell

None

None

Cell

None

None

BTS

None

None

Cell

None

None

Cell

None

None

Cell

None

80 BSC

None

60 BSC

None

14 BSC If "Power System Type" is "APM30", the recommended value is "7". For None BC other Power System Type, the recommended value is "15". BTS

None

565 BTS NO

None

BTS

None

8 Cell

None

4 Cell

None

2 Cell

None

SCCP

None

1 BSC

None

5 Cell

This Noneparameter is valid only when the ""INTERRATOUTBSCHOEN"" This parameter is validthe only when parameter regarding "SET None "BETTERCELLHOEN" is set to GCELLHOBASIC" command is YES set to This parameter is valid only when and "HOCTRLSWITCH" is set to This parameter is valid only when YES. "BETTERCELLHOEN" isfollowing set HOALGORITHM2. "HOCTRLSWITCH"The is set to to YES and "HOCTRLSWITCH" is set to condition must be met: HOALGORITHM2. HOALGORITHM2. The following "BETTERCELLSTATTIME" >= condition must be met: "BETTERCELLLASTTIME". "BETTERCELLSTATTIME" >= "BETTERCELLLASTTIME".

1 Cell NO

Cell

YES

Cell 4 Cell

None

None The value of this parameter must be greater None than "Float charging voltage" and at least two volts lower than "DC Voltage Upper Threshold".

6 Cell Current BFD 3 session Current BFD session 30 TRX

None None This parameter is valid only when "WLNKALMFLAG" is set to YES.

ALL

Cell

None

None

BSC6900

None

4 Cell

None

2 Cell

None

1 Cell None

BSC6900

If you set "Switch of stat blinking alarm" None to "ENABLE", you need to set "Alarm switch of blinking filter" to "ENABLE".

None

BSC6900

None

None

BSC6900

None

BSC6900

If you set "Switch of stat blinking alarm" None to "ENABLE", you need to set "Alarm switch of blinking filter" to "ENABLE".

4 BSC

None None

10 BSC Transport channel Transport channel

None None None None

None

Transport channel 1000 BSC

This Noneparameter is valid when "BMTCFFLAG" in the "SET BSCFCPARA" command is set to ON.

NO

MP group

None

None

BSC6900

None

NULL

BTS

NULL

BTS

YES

Cell

The value of this parameter must be None This parameter is validtoonly when of greater than or equal "Position "BQHOEN" is set to YES and Break Point 1". "HOCTRLSWITCH" is set to HOALGORITHM2. The following None This parameter is valid when condition must be met: only "BQSTATTIME" "BQHOEN" is set to YES and >= "BQLASTTIME". "HOCTRLSWITCH" is set to HOALGORITHM2. The following None condition must be met: "BQSTATTIME" >= "BQLASTTIME".

1 Cell 69 Cell 1 Cell None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

BTS

None

None

None

None

None

BTS

None

None

Board

None

None

None

None

None

Ethernet port

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

None

The Nonesetting of this parameter must meet the following condition: "FallBack Start Time" None > "Ring II Wait Time Before Switch" + "Ring II Try Rotating Duration Time".

0 BTS None

None

Cell

None

60 Cell

None

BSC6900 1 Cell

None None

None

BSC

None

NO

BSC

None

None

E1/T1 link

None

None

BSC

None

None

BSC6900

None

None

BSC6900

None

None

Adjacent node

None

None

Cell

None

5 BSC6900

None

None

BSC

None

BTS

None The IP address must have been configured.

UNCONDITIONALSTART

BSC

None

None

BSC

YES

BSC

NO

BSC

None

BTS

None

BSC

YES

BSC

YES

BSC

NO

BSC

When None "BSCPMA" is set to YES and "BSCQAD" is also set to Yes, highpriority None calls try to preempt radio This parameter is valid only resources of low-priority callswhen firstly if "BSCPMA" is setare to insufficient. YES. radio resources If no radio resources of low-priority calls can None be preempted, then the high-priority calls Noneare put into the queue. When "BSCPMA" is set to NO and "BSCQAD" is set to Yes, high-priority None calls are directly put into the queue if the radio resources are insufficient. This parameter is valid only when "BSCQAD" is set to YES.

65535 BSC

None

65535 BSC

None

65535 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

65535 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

65535 BSC

None

65535 BSC

None

65535 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

65535 BSC

None

None

BTS

None

None

BTS

None

None

BTS

None

BSC6900

None

E1/T1 link

None When configure TC data, for example, select None TC for "BM/TC config Flag", or MTP2 for "Application Type", the parameter should be set.

None

BSC

None

None

BTS

None

10 Cell YES

2_M_PERIOD

Cell

This Noneparameter must be set when "BTSMESRPTPREPROC" is set to BTS_PreprocessingN.

4 Cell

None

Cell

None

1 Cell

None

1 Cell

None

NEITHERSTART

BSC

None

NONSUPPORT

MSC

None

YES

Cell

None

None

None

None

None

None

None

None

None

None

None

E1/T1 port

None

None

Cell

None

None

E1/T1 port

None

None

None

None

Board Channelized optical port

None

IP logical port

None

None

E1/T1 port

None

None

BTS

None

None

BTS

None

BTS

The Nonevalue range of this parameter varies with BTS type. Different types of BTSs support different type of boards.

None

BTS

None

None

BTS

None

None

BTS

None

None

E1/T1 link

None

None

ATERCONSL

None

YES

Cell

None

None

BTS

None

LOGICIP

BTS

None

None

BTS

None

None

BTS

None

CLOSE

BTS

None

None

Adjacent node

None

None

BTS

None

None

BSC6900

None

None

BTS

None

None

None

None

None

BSC6900

None

None

None

None

None

BSC6900

None

BTS

UNCONDITIONALSTART

BSC

None

BTS

BTS_Preprocessing

Cell

None The value of BtsLsStartMode should be set when "BssLsGenMode" is set to None If the value of this parameter is or BTSPRIORITY, BSCPRIORITY, BSC_Preprocessing, the pre-processing BTSONLY. is performed on the BSC. In this case, the following parameters are invalid: None "PRIMMESPPT", "BSMSPWRLEV", and "MRPREPROCFREQ".

None

BTS

None

None

BTS

None

None

None

None

None

OFF

Cell

None

None

None

BTS

This parameter is used to caculate BindWidth of BTSAbisHDLCPath: 1. When Transmission compression ratio Noneis within range of [1, 200], This parameter is valid when BindWidth=16K*(amount of TRXs) + "PWRCTRLSW" in the "SET None 64K*(amount of TRXs)*(Transmission GCELLPWRBASIC" command is set to compression ratio)/100; PWR2. 2. When Transmission compression ratio Noneis within range of [200, 250], BindWidth=16K*(amount of TRXs) + 64K*(amount of TRXs)*(200 + None (Transmission compression ratio 200)*12)/100.

None

BTS

None

None

BTS

None

ON

BTS

NO

BTS 16 Cell

None

None Current BFD 3 session

None

None

NO_BAT

BTS 60 BTS

None None The Nonesetting of this parameter must meet the following condition: "FallBack Start Time" None > "Ring II Wait Time Before Switch" + "Ring II Try Rotating Duration Time".

NO

SCTP link

None

None

Cell

None

None

Cell

None

1000 BSC None

None

IP logical port

The Nonedynamic bandwidth switch is turned only when the IPPM function is activated through "ACT IPPM".

0 BSC6900

None

0 BSC6900

None

20 BSC6900

None

15 BSC6900

None

0 BSC6900

None

1 BSC6900

None

0 BSC6900

None

0 BSC6900

None

5 BSC6900

None

0 BSC6900

None

120 IP logical port Transmission resource group 25 IP logical port 80 TRX

None When "GRPT" in "ADD RSCGRP" is set to IP, this parameter is valid. None This parameter is valid only when "WLNKALMFLAG" is set to YES.

None

BSC6900

None

C31STANDARD

Cell

None

If this parameter is set to NO, the average call drop rate decreases. This setting is applicable in suburbs 0 Cell or urban areas with poor coverage. None Call reestablishment, however, may BTS take Nonea long time. Therefore, the None subscriber may hang up the phone before None the call is re-established. None Generally, the recommended value is YES. Cell

None None None None None

None

None

None

YES

Cell

None

None The CBA function applies to special GSM900 If this parameter is set to scenarios. YES and "Cell Bar Qualify" is set to NULL no, only handovers are allowed in a cell, Noneand direct access of an MS is not allowed. This condition applies to a dual-network coverage cell. For a None common cell, this parameter should be set to NO.

BTS BTS

None This parameter has relations with DCOM，DCBM board

IP path

None

IP logical port

None

None

None

Cell

None

None

BSC

None

None

BSC

None

30 BSC

None

BSC

None

15 BSC

None

None

NO

Cell 4500 IP logical port 3 BSC 2 Cell 6 Cell

None None This parameter is valid only when "MEASURETYPE" in "SET None This parameter is valid only when GCELLCCUTRANSYS" is set to "MEASURETYPE" in "SET EnhMeasReport. GCELLCCUTRANSYS" is set to EnhMeasReport.

None

BSC

None

None

BSC6900

None

15 Cell

None

80 Cell

None

46 BSC

None

1000 Ethernet port

None

90 Cell

None

0 Cell

None

0 Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell 0 Cell

This Noneparameter is valid only when "EDGE" in "SET GCELLGPRS" is set to YES.

0 Cell

None

0 Cell

None

Permit

Cell

OUTDOOR_CELL

Cell 283 BTS 565 BTS 268 BTS 535 BTS

None The value of this parameter must be greater None than "Float charging voltage" The value ofone this volt parameter must"DC be and at least lower than greater than "Float charging voltage" overvoltage alarm threshold". and at least three volts lower than "DC overvoltage alarm threshold". The value of this parameter must be smaller than "Even Charging Voltage". The value of this parameter must be smaller than "Even Charging Voltage".

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

BSC

None

None

Cell

None

None

Cell

None

None

None

None

None

Cell

None

3 Cell

None

None

Cell

None

NO

MSC

This Noneparameter is valid only when "SDDYN" in "SET GCELLBASICPARA" is set to YES.

80 Cell None

Cell

None

None

Cell

None

Cell

None

Cell

None The parameter value corresponds to the power None of each passage on the MRRU. If the cell is configured only on one passage of the MRRU, then the power None assigned to another passage of the operator must be set to 0.

255 Cell 30 Cell

None

1 Cell

None

4 Cell

None

YES

BTS 430 BTS

2G

The Nonevalue of this parameter must be smaller than "DC undervoltage alarm threshold".

Cell

None

30 Cell

None

COMMON

Cell

None

NO

Cell

The Nonevalue of this parameter must be smaller than "Low Temp Alarm Assembled Bat2".

500 BTS -100 BTS 800 BTS

NO

The Nonevalue of this parameter must be greater than "Lower Assembled Bat1 TEMP Measure".

-200 BTS

None

BTS

None

20 Cell

None

1 Cell

None

80 TRX

None

None

BSC6900

None

None

BTS

None

NULL

IP path

None

None

BTS

None

None

None

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

80 ATERCONSL

None

80 ATERCONSL

None

None

Cell

None

None

BSC6900

None

None

BTS

None

90 BSC

None

90 ATERCONSL

None

90 BSC

None

QUICK_HO_NCELL_TYPE_A

Cell

None

None

BTS

None

CAPABILITY

Cell

None

0 Cell

None

Cell

None

100 Cell

None

None

Cell

None

YES

Cell

None

NO

MSC

None

OFF

10 Cell 5 IP path

When None the value of "PATHCHK" in "ADD IPPATH" is set to ENABLED, this parameter is valid.

YES

BSC

None

MODE2

BTS

None

MODE2

BTS

None

None

None

None

None

None

None

10 BTS

None

10 BTS

None

NO

SCTP link

None

NO

SCTP link

None

CRC32

SCTP link

None

None

None

None

None

None

None

None

BTS

None

None

Board

None

None

Physical channel None

None

None

None

None

BTS

None

YES

MSC

None

YES

MSC

None

YES

MSC

None

YES

MSC

None

YES

MSC

None

YES

MSC

None

SYSTEMOPT

MSC

NO

Cell

This Noneparameter is valid only when "QTRUPWRSHARE" is not set to NONE.

OFF

BSC

None

100 BSC

None

200 BSC

None

1000 BSC

None

TCHFR

Physical channel None

None

Cell

None

None

Cell

None

E1/T1 link

When None the value of "OPMODE" of "BLK ACIC" is BYCICVALUE, the value of CIC needs to be set.

None

None

None

0 BSC

None

3 BSC

None

BSC

None

80 BSC

None

5 BSC

None

YES

MSC

None

YES

MSC

None

NOTSENDING

MSC

None

NOTSENDING

MSC

None

YES

MSC

None

YES

MSC

None

None

IP logical port

None

OFF

22 Cell

None

None

BSC6900

None

None

BSC6900

None

Cell

This Noneparameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT.

NO

BSC

None

ERR_PFM_5E6

Board

None

None

None

None

PTP

BTS

None

None

BSC6900

None

None

BTS

None This parameter is valid only when "AntiTheftAllow" is set to YES.

255 BTS None

BSC6900 255 BTS

None This parameter is valid only when "AntiTheftAllow" is set to YES.

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

BTS

None The value range of this parameter varies None with BTS type. Different types of The range of this parameter BTSsvalue support a different number of varies with BTS type. Different types of cabinets. BTSs support a different number of cabinets.

0 BTS None

BSC6900

None

None

None

None

None

None

None

30 Cell

None

None

MSC

None

None

NSE

None

None

BSC

None

None

None

None

NONE

BSC

None

None

BSC6900

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

None

None

None

None

None

YES

Cell

None

None

Cell

None

INACTIVE

BTS

None

L0_FORBID-0&L1_FORBIDNone 0&L2_FORBID-0&L3_FORBID0&L4_FORBID-0&L5_FORBID0&L6_FORBID-0&L7_FORBID0&L8_FORBID-0&L9_FORBID-0

BSC6900

None This parameter is valid only when "PWRBCDALLOWD" is set to YES.

None

45 Cell Cell

None

BSC6900

None

100 None

None

NO

Cell

None

None

BTS

None

IP/HDLC:15

BSC6900

None

IP/HDLC:15

BSC6900

None

IP/HDLC:15

BSC6900

None

IP/HDLC:15

BSC6900

None

25 BSC6900

None

25 BSC6900

None

IP/HDLC:25

BSC6900

None

IP/HDLC:25

BSC6900

None

IP/HDLC:25

BSC6900

None

IP/HDLC:25

BSC6900

None

50 BSC6900

None

50 BSC6900

None

NO

Cell

None

None

BSC6900

None

NO

None

None

None

BSC6900

None

None

BSC

None

4 Cell 6 Cell NO

Ethernet port

This Noneparameter, together with "BANTIME", limits the handover frequency in the cell. None

None

None

NO

TRX

This Noneparameter is valid only when "BSCDynSwitchTrxPAAllow" in "SET BSCDSTPA" and "DYNOpenTrxPower" None in "SET GCELLBASICPARA" are set to YES.

None

BSC

None

NOTSUPPORT

BTS

None

6dB

Cell

None

None

BSC6900

None

None

BSC6900

None

5 Ethernet port

10 Cell

None

3 Cell

None

0 Cell

None

255 BSC UNAVAILABLE

SCTP link

None

BSC 5 BSC

OFF BSC RESINSUFF,UMABNORM,TRAFFR EJECT,MSCREL BSC

None This Noneparameter is valid only when "CHR Output Mode" is set to "Common User This parameter is valid only when "CHR Mode". Output Mode" is set to "Common User This parameter is valid only when "CHR Mode". Output Mode" is set to "Specified User This parameter is valid only when "CHR Mode". Output Mode" is set to "Common User Mode".

When the interface type is Abis, transmission type is IP, the parameter is AF43; When the 100 BSC6900 interface type is A, Ater or Iur-g, the When the interface parameter is AF43. type is Abis and BSC6900 transmission type is HDLC, the parameter is 1. BSC6900 100 BSC6900 5 Cell

When None the value of "ITFT" in "ADD TRMMAP" is set to A or ABIS, this When the value of "ITFT" in "ADD parameter is valid. TRMMAP" is set to ABIS, this parameter is valid. None This Noneparameter is valid only when "CHR Output Mode" is set to "Common User This parameter is valid only when "CHR Mode". Output Mode" is set to "Common User This parameter is valid only when "CHR Mode". Output Mode" is set to "Common User Mode".

OFF

BSC

OFF

BSC

OFF

BSC

None

BSC

ABNORMREC

BSC

This Noneparameter is valid only when "CHR Output Mode" is set to "Common User Mode".

ON

BSC

None

OFF

BSC

None

90 TRX

None

BSC

None

CALL

When the interface type is Abis, 50 BSC6900 transmission type is IP, the parameter is EF; When the interface BSC OFF type is A, Ater or Iur-g, the parameter When is EF. the interface type is Abis and BSC6900 transmission type is HDLC, the parameter is 1. BSC6900 50 BSC6900 3 Cell ON

BSC6900

This Noneparameter is valid only when "CHR Output Mode" is set to "Specified User When Mode".the value of "ITFT" in "ADD TRMMAP" is set to A or ABIS, this When the value of "ITFT" in "ADD parameter is valid. TRMMAP" is set to ABIS, this parameter is valid. None None none

45000 None

None

30000 None

None

1300 None

None

500 None

None

8200 None

None

100 None

None

5000 None

None

1500 None

None

100 None

None

95 Board

None

85 Board

None

None

BSC6900

None

4BURST

Cell

None

None

None

None

BTS

The value range of this parameter varies None with BTS type. Different types of BTSs support a different number of cabinets.

None

BTS

None

None

BTS

None

None

None

None

BTS Transmission resource group

None

BTS

None

None

BTS

None

OFF

BSC6900

None

NO

MSC

None

None

BTS

None

None

None

None

None

None

None

None

4 Cell NT14_5K-0&NT12K-1&NT6K1&T14_4K-0&T9_6K-1&T4_8K4 Cell 1&T2_4K-1&T1_2K-0&T600_BITS0&T1200_75-0 Cell

None

NOLIMIT BSC6900 If the coverage area in the underlaid None is large and tight frequency BSC6900 subcell reuse is used in the overlaid subcell, None BSC the recommended value is Inner. If the coverage areas in the overlaid None BTS and underlaid subcells are similar and tight frequency reuse is used on2 BTS the BCCH, the recommended value is Extra. Cell

None

None

Cell

None

None

Cell

None

Cell

None

BTS

None

BTS

None The value range of this parameter varies None with BTS type. Different types of BTSs support a different number of cabinets. The value range of this parameter varies with BTS type.

None BTS If "Power System Type" is "SC48200", the recommended value BTS None is "470". For Power System Type, the recommended value is "450". BTS 580 BTS 450 BTS 580 BTS 0 Cell

None None

None None None None None

The Nonevalue of this parameter must be greater than "Battery power-off voltage", lower None than "DC overvoltage alarm The value ofand thisatparameter must lower be threshold", least two volts The value of this parameter must be greater than "DC undervoltage alarm than "Float charging voltage". greater than "Battery power-off voltage", threshold" and at least two volts greater lower than "DC overvoltage alarm than "Even charging voltage". The value ofand thisatparameter threshold", least threemust voltsbe lower greater than "DC Voltage Lower than "Float charging voltage". Threshold" and at least one volt greater than "Even charging voltage". None

1000 Cell

None

None

SCCP

None

None

BSC6900

None

INACTIVE

BTS

None

None

Ethernet port

None

None

BSC6900

None

None

None

None

None

Ethernet port

None

None

BTS

None

None

BTS

None

BSC

None

BSC

None

BSC

None This parameter is required when the Connection Type is Internal RNC. This parameter is required when the Connection Type is Internal RNC. This parameter is required when the Connection Type is Internal RNC.

None

Cell

None

2 Cell Current BFD 3 session

None

OFF

BSC6900

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

None

Cell

None

None

BTS

None

None

BTS

None

YES

MSC

None

DEFAULTPORT

BSC6900

None

1 None

None

None

None

BSC6900

None

None

BSC6900

None

DISABLE

BTS

None

NO

Cell

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

None

NO

MSC

None

YES

Cell

None

NO

Cell

None

3 BSC

None

Cell

None

4 Cell

None

4 Cell

None

4 Cell

None This parameter is valid only when "PWRCTRLSW" "SET This parameter isinvalid only when None This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" in "SET "PWRCTRLSW" in "SET The following condition must be met: GCELLPWRBASIC" is set PWR3. This parameter is valid onlyto GCELLPWRBASIC" is set towhen PWR3. "DLAFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SETmust be met: The following condition "DLAFSREXQUALLOWTHRED". This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "DLAFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SET The following condition must be "DLAFSREXQUALLOWTHRED".met: GCELLPWRBASIC" is set to PWR3. "DLAHSREXQUALHIGHTHRED" >= The following condition must be met: "DLAFSREXQUALLOWTHRED". "DLAHSREXQUALHIGHTHRED" >= "DLAFSREXQUALLOWTHRED".

None

N0

BTS 3 Cell 14 Cell 14 Cell 16 Cell 16 Cell

None

NSVC

5 BSC The recommended value is 20 when HUAWEI I Handover is used; None Cell The recommended value is 15 when HUAWEI II Handover is used. Cell 3 Cell 16 Cell 16 Cell 0 Cell 18 Cell 18 Cell 2 Cell 3 Cell 3 Cell 3 Cell 4 Cell 15 Cell 2 Cell 2 Cell 35 Cell

None None This parameter is valid only when This parameter valid when "GPRS" is set tois This parameter isSupportAsInnPcu. only when "FRINGEHOEN" isvalid set to YES or "PWRCTRLSW" in "SET This parameter is valid only when "LOADHOEN" is set to YES. This parameter is valid onlytowhen GCELLPWRBASIC" is set "PWRCTRLOPTIMIZEDEN" isPWR3. set to "PWRCTRLSW" in "SET The following condition must be met: YES. GCELLPWRBASIC" is set to PWR3. "DLFSREXQUALHIGHTHRED" >= The following condition must be met: "DLFSREXQUALLOWTHRED". This parameter is valid only when "DLFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SET "DLFSREXQUALLOWTHRED". This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" in "SET The following condition must be met: None GCELLPWRBASIC" is set to PWR3. "DLHSREXQUALHIGHTHRED" >= The following condition must be met: "DLHSREXQUALLOWTHRED". The setting of this parameter must "DLHSREXQUALHIGHTHRED" >=meet the following condition: "DLTHF1" "DLHSREXQUALLOWTHRED". + The setting of
40 Cell 90 BSC 5 Cell The recommended value is 8 when DTX is disabled. 2 Cell The recommended value is 14 when DTX is enabled. Cell 60 Cell

This parameter is valid when "PWRCTRLSW" in the "SET None GCELLPWRBASIC" command is set to The of this parameter PWR2 and "DNPCEN" in the must "SET meet Nonesetting the following conditions: GCELLBASICPARA" command is set to "DLLTFERLOWTH" < "DLLTFERTGT"; YES. "DLLTFERLOWTH" < The setting The setting of of this this parameter parameter must must meet meet "DLLTFERUPTH". the following conditions: the following condition: "LTFERLOWTH" "DLLTFERUPTH" < "DLLTFERTGT" >< "DLLTFERTGT"; "LTFERUPTH". "DLLTFERUPTH" > "DLLTFERLOWTH".

55 Cell

This Noneparameter is valid only when "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set This parameter isinvalid when PWR3. "PWRCTRLSW" "SET "PWRCTRLSW" in the "SET GCELLPWRBASIC" is set PWR3. This parameter is valid onlytowhen GCELLPWRBASIC" command is set to "PWRCTRLSW" in "SET PWR2 and "DNPCEN" in the "SET None This parameter is valid onlytowhen GCELLPWRBASIC" iscommand set PWR2. GCELLBASICPARA" is set to "PWRCTRLSW" in "SET The following condition must be met: YES. This parameter is valid when GCELLPWRBASIC" is set to PWR2. "DLQLOWTHRED" >= "PWRCTRLSW" in the "SET The following condition must be met: "DLQHIGHTHRED". GCELLPWRBASIC" command is set to "DLQLOWTHRED" >= PWR2 and "DNPCEN" in the "SET "DLQHIGHTHRED". This parameter is validcommand when GCELLBASICPARA" is set to "PWRCTRLSW" in the "SET YES. This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. GCELLPWRBASIC" command is set to This parameter is valid only when PWR2. "BQHOEN" in "SET GCELLHOBASIC" is set to YES.

60 Cell

None

55 Cell

This parameter is valid only when None This parameter isinvalid only when "PWRCTRLSW" "SET "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. This parameter isinvalid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" "SET "PWRCTRLSW" in "SET The following condition must be met: GCELLPWRBASIC" is set to PWR3. GCELLPWRBASIC" is set to "DLREXLEVHIGHTHRED" >=PWR3. The following condition must be met: "DLREXLEVLOWTHRED". "DLREXLEVHIGHTHRED" >= This parameter is valid only when "DLREXLEVLOWTHRED". "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to "PWRCTRLSW" in "SET This parameter is valid only when YES. This parameter is valid onlytowhen GCELLPWRBASIC" is set "PWRCTRLOPTIMIZEDEN" isPWR2. set to "PWRCTRLSW" in "SET The following condition must be met: YES. GCELLPWRBASIC" "DLSSHIGHTHRED"is>=set to PWR2. The following condition must be met: "DLSSLOWTHRED". "DLSSHIGHTHRED" >= "DLSSLOWTHRED".

2 Cell 4 Cell 8 Cell 100 BSC 0 Cell 0 Cell 2 Cell 5 Cell 2 Cell 10 Cell

3 Cell 3 Cell 20 Cell 20 Cell 1 Cell 6 Cell 3 Cell 1 Cell 5 Cell 55 Cell 45 Cell 28 Cell 140 Cell

None

0 Cell

None

5 Cell

None

None

BTS

None

BTS

The setting of this parameter must meet the following conditions: The setting
None

BTS

None

CS2

Cell

None

MCS6

Cell

DAS6

Cell

UNFIXED

Cell

None This parameter is valid only when "EGPRS2A" is set to YES. This parameter is valid only when "EGPRS2A" is set to YES.

UNFIXED

Cell

None

UNFIXED

Cell

None

YES

Cell

None

NO

Cell

None

2400 Cell

None

10 Cell

None

5 Cell

None

5 Cell

None

5 Cell

None

2 Cell

None

2 Cell

None

12 Cell 17 Cell 25 Cell 23 Cell 31 Cell 63 Cell 12 Cell 18 Cell

None

None

None

SCCP

None This parameter is valid only when When the value of "SPDF" "PWRBCDALLOWD" is set in to"ADD YES. N7DPC" is set to DNF, this parameter is valid.

None

SCCP

None

None

E1/T1 link

None

0 E1/T1 link

None

30 Cell

None

BSC

None

None

SCCP

None

None

SCCP

None

None

BSC

DPX of Iur-g type

72 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

IP/HDLC:60

BSC6900

None

IP/HDLC:60

BSC6900

None

IP/HDLC:60

BSC6900

None

IP/HDLC:60

BSC6900

None

80 BSC6900

None

80 BSC6900

This Noneparameter is valid only when "BAKPWRSAVMETHOD" is set to This parameter is valid only when BYPWR. "BAKPWRSAVMETHOD" is set to This parameter is valid only when BYPWR. "BAKPWRSAVMETHOD" is set to BYPWR.

10 BTS 3 BTS 2 BTS YES

Cell

None

4 Cell

None

INACTIVE

BTS

None

None

PPP link

None

None

MP link

None

48 SCTP link

None

0 Ethernet port None

BSC6900

None None

0 BTS

None

180 BSC

None

None

None

None

None

None

None

None

BSC6900

None

None

Board

None

BSC

None This parameter is valid only when "IDXTYPE" is set to BYCELL.

15 BSC

None

None

BSC6900

None

None

None

None

None

None

None

IP route Current BFD session

None

IP route

None

None

IP route

None

None

IP route

None

None

E1/T1 port

None

E1/T1 port

None The value of DTLOADTHRED must be set when "REASSEN" in the "SET None GCELLBASICPARA" command is set to DIRECTRYEN.

85 Cell

None

YES

Cell

None

BTS

None The setting of this parameter depends on "Board Type".

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

OFF

Cell

None

FULL

BTS

None

None

None

None

None

None

None

None

None

None

None

None

None

20 Cell

None

20 BSC6900

None

None

BTS

None

None

BTS

None

None

BTS

None

20 Cell

None

Cell

None

2 Cell

None

YES

Cell

None

NOTSUPPORT

Cell

None

None

None

None

LEVEL0

None None 1. For a 900/1800 MHz Co-BCCH Noneit is recommended that this BTS cell, parameter be set to Yes. None None 2. Channelized For a 1800 MHz cell in the dual-band None optical port network, it is recommended that this parameter be set to Yes. For other BTS None cells in the dual-band network, it is recommended that this parameter be BTS None set to No. 3. None the A5/4-7 encryption BTS When algorithm is used, it is recommended None IP path that this parameter be set to Yes. 4. When 3 Cell frequencies of the extended frequency band exist on a 900 MHz30 Cell cell, it is recommended that this parameter be set to Yes. Cell

None None None None None A 3G neighboring cell can be added into the candidate cell queue when the None following conditions are met: "INTERRATOUTBSCHOEN" is set to When in "ADD None the value of "PATHCHK" YES; "BET3GHOEN" is set to YES; IPPATH" is set to ENABLED, this the Ec/No of the neighboring cell for a parameter is 3G valid. period of time is greater than the sun of "HOECNOTH3G" and "ECNOOFF". None None

2147483646 BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

None

BSC6900

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to This is valid only when must EDB_cell. The following condition Noneparameter "IUOTP" in "ADD GCELL" is be met: "EDBSTATTIME" >=set to EDB_cell. The following condition must "EDBLASTTIME". be met: "EDBSTATTIME" >= This parameter is valid only when "EDBLASTTIME". "IUOTP" in "ADD GCELL" is set to EDB_cell.

4 Cell 5 Cell 10 Cell

None

Cell 4 Cell 6 Cell 1 Cell 4 Cell 1 Cell 6 Cell

This parameter is valid only when "HOCTRLSWITCH" is set towhen This parameter is valid only This parameter is valid only when or HOALGORITHM2 and "FRINGEHOEN" "GPRS" is set to SupportAsInnPcu "HOCTRLSWITCH" is set to is set to YES. The following condition SupportAsExtPcu. This is valid only when HOALGORITHM2 and "FRINGEHOEN" mustparameter be met: "EDGEADJSTATTIME" >= "HOCTRLSWITCH" is set tocondition is set to YES. The following "EDGEADJLASTTIME". This is valid only when HOALGORITHM2 and "FRINGEHOEN" mustparameter be met: "EDGEADJSTATTIME" >= "HOCTRLSWITCH" is set tocondition is set to YES. The following "EDGEADJLASTTIME". This is valid only >= when HOALGORITHM1 and "FRINGEHOEN" mustparameter be met: "EDGESTAT" "HOCTRLSWITCH" is set to is set to YES. The following condition "EDGELAST". This is valid only when HOALGORITHM2 and "FRINGEHOEN" mustparameter be met: "EDGESTAT1" >= "HOCTRLSWITCH" is set tocondition is set to YES. The following "EDGELAST1". HOALGORITHM1 and "FRINGEHOEN" must be met: "EDGESTAT" >= is set to YES. The following condition "EDGELAST". must be met: "EDGESTAT1" >= "EDGELAST1".

None

None

None

YES

Cell

None

Cell

None This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

None

16 Cell

None

7 Cell

None

BSC6900 15 Cell

None None

OFF

MTP3 link

None

ERR_PFM_1E5

Board

None

None

BSC6900

None

NO

Cell

None

Priority4

Cell

None

NO

BSC

None

None

BSC6900

None

7 BSC

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

NO

BTS

None

None A5/0-1&A5/1-0&A5/2-0&A5/30&A5/4-0&A5/5-0&A5/6-0&A5/7-0

None

None

Cell

None

AUTO

BSC6900

None

None

BSC6900

None

NO

BSC

None

None

BSC6900

None

E1/T1 link

When None the value of "OPMODE" of "BLK ACIC" is BYCICRANGE, the value of ENDCIC needs to be set.

None

PBCIC

None

None

BSC 0 BTS

None

BSC

None

BTS

None

BSC

None

E1/T1 link

None

E1/T1 link

None

BTS

None

BSC6900

ENABLED

BSC6900 70 Cell

The setting of this parameter must meet the following condition: When "EndMonthDSTPA" and "StartMonthDSTPA" are set to the same value, "EndDayDSTPA" must be later The of this parameter must be than value "StartDayDSTPA". The setting this parameter greater thanof"Heater Startup must meet the following condition: Temperature". "EndMonthDSTPA" is the same as or is later than "StartMonthDSTPA". When None "BSCDynSwitchTrxPAAllow" is set to YES, the value of When the value of "OPMODE" "EndTimeTACloseTrxPA" must of be"BLK set. ATERE1T1" is BYCICRANGE, the value When the value of "BLK of ENDTS needsofto"OPMODE" be set. AE1T1" is BYCICRANGE, the value of ENDTS needs to be set. None This parameter is valid only when "UTOOTRAFHOALLOW" is set to YES. None The following condition must be met: "ENSOVERLDTHRSH" > None "ENGOVERLDTHRSH" > "ENLOWLDTHRSH".

OFF

Cell

None

ON

Cell

This parameter is valid only when None This parameter is GCELL" valid onlyiswhen "IUOTP" in "ADD set to "UTOOTRAFHOALLOW" is when set to YES. This parameter is valid only EDB_cell. The following condition must be met: "IUOTP" in "ADD GCELL" is set to "ENSOVERLDTHRSH" > EDB_cell. "ENGOVERLDTHRSH" > "ENLOWLDTHRSH". This parameter is valid only when

5 Cell 5 Cell 20 Cell ON

BSC

ON

BSC 80 Cell

"UTOOTRAFHOALLOW" is set to YES. None The following condition must be met: "ENSOVERLDTHRSH" > None "ENGOVERLDTHRSH" > "ENLOWLDTHRSH".

None

Cell

None

None

SCCP

None

SCCP

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to Negotiation with the peer network Concentric_cell and "HOCTRLSWITCH" element is required. in "SET GCELLHOBASIC" is set to HOALGORITHM2.

63 Cell OFF

Board

None

None

BSC6900

None

NO

Cell

None

O5E4_R1E4

Board

None

OFF

Board

None

None

BSC6900

None

None

BSC6900

None

0 BSC None

None

BSC6900

None

2147483646 BSC6900

None

3000 Cell

None

CLOSE

MSC

None

0 BTS

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

ONE_BY_ONE

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

Cell

None

None

BSC6900

None

None

None

None

None

BSC6900

None

BSC6900

None

BSC6900

None

BSC6900

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If "Sensor Type of External Analog 1" is None set to VOLTAGE, the unit of "Upper If "Sensor TypeOutput of External Analog 1" is Limit of Signal of External None set to VOLTAGE, the unit Type of "Lower Analog 1" is V; if "Sensor of Limit of Signal Output of External External Analog 1" is set to CURRENT, None Analog V; if "Sensor ofOutput the unit 1" of is "Upper Limit of Type Signal If "Sensor Type of External Analog 1" is External Analog 1" is set to CURRENT, of External Analogthe 1" is A.of "Upper set to VOLTAGE, unit the unit of Type "Lower of Signal Output If "Sensor of Limit External Analog 1" is Limit of Measurement Range of External of External Analog 1" is A. set to VOLTAGE, the unit Type of "Lower Analog 1" is V; if "Sensor of If "Sensor Type of 2" is Limit of Measurement Range of External External Analog 1"External is set to Analog CURRENT, None set to VOLTAGE, the unit of "Upper Analog 1" is V; if "Sensor Type of the unit of Type "Upper Limit of Measurement If "Sensor of 2" is Limit ofof Signal Output of External External Analog 1"External is set to1"Analog CURRENT, Range External Analog is A. set to VOLTAGE, the unit of "Lower Analog 2" is V; if "Sensor Type of the unit of "Lower Limit of Measurement Limit ofof Signal Output of External External Analog 2" Analog is set to1"CURRENT, Range External is A. Analog 2" is V; if "Sensor Type ofOutput the unit of "Upper Limit of Signal If "Sensor Type of External Analog 2" is External Analog 2" is set to CURRENT, of External Analogthe 2" is A.of "Upper set to VOLTAGE, unit the unit of Type "Lower of Signal Output If "Sensor of Limit External Analog 2" is Limit of Measurement Range of External of External Analog 2" is A. set to VOLTAGE, the unit Type of "Lower Analog 2" is V; if "Sensor of If "Sensor Type of 3" is Limit of Measurement Range of External External Analog 2"External is set to Analog CURRENT, None set to VOLTAGE, the unit of "Upper Analog 2" is V; if "Sensor Type of the unit of Type "Upper Limit of Measurement If "Sensor of 3" is Limit ofof Signal Output of External External Analog 2"External is set to2"Analog CURRENT, Range External Analog is A. set to VOLTAGE, the unit of "Lower Analog 3" is V; if "Sensor Type of the unit of "Lower Limit of Measurement Limit ofof Signal Output of External External Analog 3" Analog is set to2"CURRENT, Range External is A. Analog 3" is V; if "Sensor Type ofOutput the unit of "Upper Limit of Signal If "Sensor Type of External Analog 3" is External Analog 3" is set to CURRENT, of External Analogthe 3" is A.of "Upper set to VOLTAGE, unit the unit of Type "Lower of Signal Output If "Sensor of Limit External Analog 3" is Limit of Measurement Range of External of External Analog 3" is A. set to VOLTAGE, the unit Type of "Lower Analog 3" is V; if "Sensor of If "Sensor Type of 4" is Limit of Measurement Range of External External Analog 3"External is set to Analog CURRENT, None set to VOLTAGE, the unit of "Upper Analog 3" is V; if "Sensor Type of the unit of Type "Upper Limit of Measurement If "Sensor of 4" is Limit ofof Signal Output of External External Analog 3"External is set to3"Analog CURRENT, Range External Analog is A. set to VOLTAGE, the unit of "Lower Analog 4" is V; if "Sensor Type of the unit of "Lower Limit of Measurement Limit ofof Signal Output of External External Analog 4" Analog is set to3"CURRENT, Range External is A. Analog 4" is V; if "Sensor the unit of "Upper Limit of Type SignalofOutput External Analog 4" 4" is set of External Analog is A.to CURRENT, the unit of "Lower Limit of Signal Output of External Analog 4" is A.

None

None

None

None

None

None

None

If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of "Upper If "Sensor Type of External Analog 4" is Limit of Measurement Range of External set to VOLTAGE, the unit Type of "Lower Analog 4" is V; if "Sensor of Limit of Measurement Range of External External Analog 4" is set to CURRENT, Analog 4" is V; if "Sensor Type of the unit of "Upper Limit of Measurement External Analog 4" is set to CURRENT, Range of External Analog 4" is A. the unit of "Lower Limit of Measurement Range of External Analog 4" is A.

NoExclusive

Cell

None

25 Cell 30 Cell 30 Cell

None This parameter is valid only when "PWRBCDALLOWD" is set to YES. This parameter is valid only when "PWRBCDALLOWD" is set to YES.

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC6900

None

None

BSC6900

None

CLOSE

Cell

None

YES

BTS

None

EM0

Cell

None

60sec

Cell

TYPE1

Cell

Normal_cell

Cell

SEND

Cell

None If "UPEXTTBFINACTDELAY" in the "SET None GCELLPRIVATEOPTPARA" command is set to 0, "EXTUTBFNODATA" must be 0. If None "UPEXTTBFINACTDELAY" is not set to 0, "EXTUTBFNODATA" can be 0 or 1.

8 Cell

None

NO

Cell

None

NO

Cell

None

None

BTS

None

None

Cell

None

30 Cell

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

BSC6900

None

None

SOFTWARE_CONTROL

BSC6900

None

None

None If this parameter is set to "YES", the following condition must be met: The None setting of this parameter must meet the None following condition: "FallBack Start Time" > "Ring II Wait Time Before None Switch" + "Ring II Try Rotating Duration Time". None If this parameter is set to "NO", the following condition must be met: "FallBack Start Time" > "Ring I Wait None Time Before Switch" + "Ring I Try Rotating Duration Time".

0 Cell NO

BTS

OFF

Board

None

None

Ethernet port

None

CLOSE

BTS

None

75 TRX

None

None

Ethernet port 0 PPP link 0 MP group 0 IP logical port

None

BSC6900 0 Ethernet port

None This index can correspond with any threshold (maximum value of 80) in the None six queues. The following condition must None be met: threshold x 64 x 1024 x logical port bandwidth < 4294967295(0xFFFFFFFF). None None

None

BSC6900

None

None

BTS

None

None

BTS

None

85 TRX

None

16bit

PPP link

None

16bit

MP link

None

None

None The value of this parameter must be smaller None than "Even charging voltage" and at least two volts higher than "DC undervoltage alarm threshold".

535 BTS None

Cell

None

None

Cell

None

0 Cell

None

0 Cell

None

None

Cell

None

None

Cell

None

0 Cell

This Noneparameter is valid only when the ""INTERRATCELLRESELEN"" parameter regarding the "SET None GCELLHOBASIC" command is set to YES.

0 Cell

None

8 Cell

None

Cell

None

6 Cell

None

10 Cell

None

Cell

None

4 None

None

10 Cell 2 Cell

RSCP

None

For the double-transceiver BTS and NGBTS, the default value is NO; for other BTS, this parameter is invalid.

Cell

None

2 Cell

None

4 Cell

None

8 Cell

None

16 Cell

None

32 Cell

None

64 Cell

None

128 Cell

None

NO_FH

Cell

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

csv

BSC6900

None

6 Cell

None

None

BSC6900

NO

Cell

This Noneparameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

INACTIVE

BTS

None

80 BTS

None

0 BTS

None

0 BTS

None

BTS

None

900 BTS

None

900 BTS

None

ENABLE

FIX_16K_ABIS BTS When tight frequency reuse is used, the recommended value is ON. Cell

This Noneparameter is valid when "FHMODE" in the "SET GCELLHOPTP" command is not set to NO_FH.

OFF

None

Cell 4500 BSC

None

1000 BSC

None

ON

Ethernet port

None

ON

PPP link

None

ON

MP group

None

ON

IP logical port

None

ON

Ethernet port

None

None

BTS 10 Cell 10 Cell 10 Cell 10 Cell 10 Cell 10 Cell 10 Cell 10 Cell 0 Cell

OPEN

BSC

This parameter is valid only when "RXQCKFALLHOEN" in "SET This parameter is valid whenThe GCELLHOBASIC" is setonly to YES. "RXQCKFALLHOEN" in "SET following condition must be met: This parameter+is"FLTPARAA2" valid when GCELLHOBASIC" is setonly to YES. "FLTPARAA1" +The "RXQCKFALLHOEN" in "SET following condition must be met: "FLTPARAA3" + "FLTPARAA4" + None This parameter+is"FLTPARAA2" valid when GCELLHOBASIC" is setonly to YES. "FLTPARAA1" + "FLTPARAA5" + "FLTPARAA6" +The "RXQCKFALLHOEN" in "SET following condition must be met: "FLTPARAA3" + "FLTPARAA4" + "FLTPARAA7" =The 80. This parameter+ is"FLTPARAA8" valid when GCELLHOBASIC" is setonly to YES. "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA5" + "FLTPARAA6" + "RXQCKFALLHOEN" in "SET following condition must be met: "FLTPARAA3" + "FLTPARAA7" +is"FLTPARAA4" "FLTPARAA8" =The 80. This parameter+ valid when GCELLHOBASIC" is setonly to YES. "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA5" + "FLTPARAA6" + "RXQCKFALLHOEN" in "SET following condition must be met: "FLTPARAA3" + "FLTPARAA7" +is"FLTPARAA4" "FLTPARAA8" =The 80. This parameter+ valid when GCELLHOBASIC" is setonly to YES. "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA5" + "FLTPARAA6" + "RXQCKFALLHOEN" in "SET following condition must be met: "FLTPARAA3" + "FLTPARAA7" +is"FLTPARAA4" "FLTPARAA8" =The 80. This parameter+ valid when GCELLHOBASIC" is setonly to YES. "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA5" + "FLTPARAA6" + "RXQCKFALLHOEN" in "SET following condition must be met: "FLTPARAA3" + + 80. "FLTPARAA7" + "FLTPARAA4" "FLTPARAA8" GCELLHOBASIC" is set to YES.= "FLTPARAA1" + "FLTPARAA5" + + "FLTPARAA2" "FLTPARAA6" +The following condition must be met: "FLTPARAA3" + "FLTPARAA4" "FLTPARAA7" + "FLTPARAA8" + = 80. "FLTPARAA1" "FLTPARAA5" + + "FLTPARAA2" "FLTPARAA6" + + "FLTPARAA3" "FLTPARAA7" + + "FLTPARAA4" "FLTPARAA8" + = 80. "FLTPARAA5" + "FLTPARAA6" + This parameter+is"FLTPARAA8" valid only when "FLTPARAA7" = 80. "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. None

5 Cell

None

None

BTS

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

none

BSC6900

None

None

None

None

None

None

None

OPEN

BSC

None

15 MSC

None

0 Board

None

Close

BSC

None

NO

Cell

None

YES

Cell

None

None

BTS

None

None

BTS

None

2 None

None

None

Cell

None

None

Cell

None

None

Cell

None

None

MP group

None

None

BSC6900

None

0 Cell

None

YES

Cell

None

None

BSC6900

None

None

BSC6900

None

None

TRX

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

NO

Cell

None

36671 Cell

None

BTS

None

25 Cell

None

None

Cell

None

LOOSE

TRX

None

None

BSC

None

MaximumMeanValue

Cell

None

YES

Cell

None

Shall_Use

Cell

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

TXT

BSC6900

None

None

The Nonefactor table index is configured by setting the value of "FTI" in "ADD FACTORTABLE".

None

BSC6900

None

None

BSC6900

6 Cell

This Noneparameter is valid only when "HOCTRLSWITCH" is set to This parameter is valid only when HOALGORITHM2. "HOCTRLSWITCH" is set to This parameter is valid only when HOALGORITHM2. This parameter is valid only "HOCTRLSWITCH" is set towhen "HOCTRLSWITCH" is set towhen This parameter is valid only HOALGORITHM2. This parameter is valid only HOALGORITHM2. The following "HOCTRLSWITCH" is set towhen "HOCTRLSWITCH" is set to condition must be met: HOALGORITHM2. HOALGORITHM2. The following>= "FULLTOHALFHODURATION" condition must be met: "FULLTOHALFHOPERIOD". "FULLTOHALFHOSTATTIME" >= "FULLTOHALFHOLASTTIME".

0 BSC6900

None

0 BSC6900

None

20 BSC6900

None

15 BSC6900

None

0 BSC6900

None

1 BSC6900

None

0 BSC6900

None

0 BSC6900

None

5 BSC6900

None

None

20 Cell 5 Cell 4 Cell 10 Cell 1 Cell

0 BSC6900

A0

110 BSC

None

10 BSC

None

Board 12 Cell

None

None

None None

BSC6900

None

40 BSC6900

None

ON

BSC6900

None

None

BSC6900

None

NO

Cell

None

OFF

BSC

None

DEG

None

None

YES

Cell

None

YES

Cell

None

None

BSC6900

None

20 Cell

None

None

Cell

None

NO

Cell

None

2dB

Cell

None

NONGPRS

Physical channel None

DB110

Cell

None

10sec

Cell

None

5 Cell

None

10db

Cell

None

GPS

BTS

None

10 None

None

NO

Cell

None

None

BTS

None

None

BTS

None

None

BSC

None

None

BSC

None

None None

0 BTS Transmission resource group Transmission resource group

None None None

LAC_CI

Cell

None

80 BSC6900

None

10 BSC

This Noneparameter is valid when "MEASURETYPE" is set to EnhMeasReport.

3 Cell SUPPORT

Cell

None

None

Ethernet port

None

None

BTS

None

255.255.255.255

BTS

None

NO

BSC

This parameter is valid only when None This parameter is valid only "HOCTRLSWITCH" is set towhen "HOCTRLSWITCH" is set towhen This parameter is valid only HOALGORITHM2. HOALGORITHM2. The following "HOCTRLSWITCH" is set to condition must be met: HOALGORITHM2. This parameter is valid only when "HALFTOFULLHOSTATTIME" >= "HOCTRLSWITCH" is set towhen This parameter is valid only "HALFTOFULLHOLASTTIME". HOALGORITHM2. following "HOCTRLSWITCH"The is set to condition must be met: HOALGORITHM2. "HALFTOFULLHOSTATTIME" >= "HALFTOFULLHOLASTTIME".

20 Cell 5 Cell 4 Cell 10 Cell 6 Cell NO

BTS

None

NO 1000(application type is M3UA), 5000(application type is BBAP)

BTS

None

SCTP link

None

BTS

This Noneparameter is valid only when "HOCTRLSWITCH" is set to This when HOALGORITHM2. The only following Noneparameter is valid "HOCTRLSWITCH" is set to condition must be met: HOALGORITHM2. The following "HCSSTATTIME" >= "HCSLASTTIME". condition must be met: "HCSSTATTIME" >= "HCSLASTTIME".

2 Cell 3 Cell None

BTS

None

None

BTS

None

DCS1800

BSC

This Noneparameter is valid only when "HIGHPRIUSERQUALFIRST" is set to YES.

1 Cell NO

BSC

None

NO

Cell

None

YES

BTS

None

YES

Cell

None

None

BSC6900

None

Cell

SysOpt

Cell

This Noneparameter is valid only when "GPRS" is set to SupportAsInnPcu and This parameter is is valid when "SUPPORTDTM" setonly to SUPPORT. "IUOTP" in "ADD GCELL" is set to Concentric_cell.

NO

BSC

None

10 Cell

None

0 Cell

None

None

Cell

None

Cell

HOALGORITHM1

Cell

NO

Cell 3 Cell 3 Cell 50 Cell 8 Cell 8 Cell 35 Cell 3 Cell

None

Cell 68 Cell 32 Cell

Pre_2G_CellThres

Cell 5 Cell

When parameter ""Quick handover enable"" is configured to "YES",then parameter ""Handover Direction None Forecast Enable"" can be configured to "YES".Furthermore,before The must be the Nonevalue of this parameteropen "Handover Direction Forecast Enable", same as that of "HOCTRLSWITCH" in parameter ""Chain Neighbour Cell "SET GCELLHOBASIC". Type"" of cell should be configured This parameter is valid only when the "Handover Direction Forecast Statistic correctly. following are met: Forecast Times" >=conditions "Handover Direction "Handover Last Times"Direction Forecast Statistic1. Times" >= "Handover Direction Forecast The ""INTERRATOUTBSCHOEN "" This is valid only when Last parameter Times" regarding the "SET GCELLHOBASIC" This parameter is valid only when "QUICKHOEN" in "SET command is setis tovalid YES. This parameter when "BET3GHOEN" is set to YES. The GCELLHOBASIC" is setonly to YES. 2. The ""BET3GHOEN"" "BET3GHOEN" is set to YES. The following condition must be met: parameter is set to YES. following condition must be met: "HOSTAT3G" >= "HODURT3G". 3. The "HOSTAT3GTDD" >= This parameter is valid only when ""FDDREP"" parameter regarding the "HODURT3GTDD". "QUICKHOEN" in "SET "SET GCELLCCUTRANSYS" command GCELLHOBASIC" is set to YES. The is set to EcNo. following condition must be met: "HOSTATICTIME" >= "HOLASTTIME". This Noneparameter is valid only when "QUICKHOEN" in "SET This parameter when This parameter is is valid valid only when the GCELLHOBASIC" is setonly to YES. ""INTERRATOUTBSCHOEN"" "LOWRXLEVOLFORBIDSWITCH" is set parameter regarding the "SET to ON. GCELLHOBASIC" command is set to This YES.parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

None

Cell

None

None

Cell

None

None

Cell

None

YES

Cell

This Noneparameter is valid only when "HOOPTSEL" is set to Pre_2G_CellThres. This parameter depends on "FHMODE" in "SET GCELLHOPTP". This None parameter can be set toonly BaseBand_FH This parameter is valid when the only when "FHMODE" is set to following conditions are met: None BaseBand_FH or Hybrid_FH. This 1. The ""INTERRATOUTBSCHOEN"" parameter can be to RF_FH only None regarding the "SETset GCELLHOBASIC" when "FHMODE" is set command is set to YES.to RF_FH or Hybrid_FH. 2. The ""BET3GHOEN"" parameter is set to YES. None 3. The ""FDDREP"" parameter regarding the "SET None GCELLCCUTRANSYS" command is set This parameter is valid only when to RSCP. This parameter is valid only when "INTERRATOUTBSCHOEN" is set to "INTERRATOUTBSCHOEN" is to setYES. to YES and "BET3GHOEN" is set None YES and "BET3GHOEN" is set to YES. The following condition must be met: This parameter is "HODURT3G". valid only The following condition mustwhen be met: "HOSTAT3G" >= "QUICKHOEN" in "SET "HOSTAT3GTDD" >= GCELLHOBASIC" "HODURT3GTDD".is set to YES. The following condition must be met: When the BTS or cell activated,the "HOSTATICTIME" >= is "HOLASTTIME". host type of OPC must be single or primary None if the host type of BTS is single. Otherwise, the host type of OPC must be consistent with that of the BTS.

25 Cell OFF

BSC 0 Cell

None

Cell

NO_FH

TRX 63 Cell 15 BSC6900 50 Cell

YES

MSC 10 Cell 10 Cell 4 Cell

SINGLEHOST

SCCP

SINGLEHOST

BTS

25 Cell 50 Cell

This Noneparameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.

NONE

Cell

None

None

Cell

None

None

BTS

None This parameter is valid only when "GRADEACCALLOW" is set to YES.

1 Cell NO

BTS 440 BTS

The Nonevalue of this parameter must be smaller than "DC Undervoltage Alarm Threshold".

NO

Cell

None

YES

Cell

None

YES

Cell

None

Shall_Use

Cell

None

0 Cell

None

None

BTS

OFF

Cell

None

BTS Current BFD session

None

40 BTS

This Noneparameter is valid when "FHMODE" in the "SET GCELLHOPTP" command is not set to NO_FH. None The Nonevalue of this parameter must be greater than "Low Temperature Critical Point".

None

BTS

None

ENABLE

BTS

None

None

Board

None

If "Power System Type" is None Board "SC48200", the recommended value is "900". For other types of Power None Board System, the recommended value is If "Power System Type" is "1000". BTS "SC48200", the recommended value is "100". For other types of Power 800 BTS System, the recommended value is "0". BTS

None

100 BTS

The Nonevalue of this parameter must be greater than "Lower Threshold of The valueAlarm". of this parameter must be Humidity greater than "Lower Threshold of The valueAlarm". of this parameter must be Humidity smaller than "Upper Threshold of The valueAlarm". of this parameter must be Humidity smaller than "Upper Threshold of Humidity Alarm".

15 BTS

None

720 SCCP

None

None

None

None

None

None

None

None

None

None

90 SCCP 4 Cell

None This parameter is valid only when "IBCASOFTBLKSWITCH" is set to YES.

10 Cell NO

This parameter is valid only when "IBCASOFTBLKSWITCH" is set to YES.

Cell

None

4 Cell

None

4 Cell

None

Set this parameter to YES for the 0 Cell neighboring cell with co-channel 4 Cell interference and the neighboring cell that may cause interference; set this 7 Cell parameter to NO for other neighboring cells. Cell

None

0 Cell

None

OFF

Cell

None

OFF

Cell

None

10 Cell

None

2 Cell

None

13 Cell

None

10 Cell

None

Cell

None

4 BSC

None

0 Cell

None

0 Cell

None

0 Cell

None

0 Cell

None

4 Cell

None

0 Cell

None

20 Cell

None

Cell

None

0 Cell

None

7 Cell

None

5 Cell

None

4 Cell

None

YES

NO

It is recommended that you set the 0 Cell path loss offset of layer 1 neighboring cells of the serving cell to 15 dB and 8 BSC that of other neighboring cells to 25 dB. Cell

None None None

None None None

6 Cell

None

4 Cell

None

110 Cell

None

1 Cell

None

NO

Cell

None

OFF

Cell

None

20 Cell

None

UNDER

Cell

None

NO

Cell

None

5 Cell

None

Cell

None

BTS

When the value isofone "PATHCHK" in "ADD This of the conditions Noneparameter IPPATH" is set to ENABLED, for the dynamic conversion of this the TCHF parameter is valid. to the SDCCH. In addition to the condition that the None of idle SDCCHs should be number smaller than or equal to None "IDLESDTHRES", the following three conditions must be met to trigger the None conversion from the TCHF to the SDCCH: None 1. "SDDYN" in "SET None GCELLBASICPARA" is set to YES. 2. In the cell, the value of (number of None idle TCHFs + number of idle TCHHs/2) is greater than four and is greater than None the number of TRXs. Idle TCHFs exist in the cell. None 3. Number of SDCCHs + 8 < "CELLMAXSD".

For SingleRAN BTS, the recommended value is "ENABLE". NO For other types of BTS, the recommended value is "DISABLE".

64 IP path 22 BSC 20 BSC 18 BSC None

BSC6900

None

BSC6900

None

BTS 84 Board

None

None 2 Cell

None

BSC6900

None

None

BSC6900

None

None

Cell

None

None

BSC

None

None

Cell

None

None

Cell

None

None

None

None

None

None

None

None

BSC

None

None

Subsystem

None

None

BSC

None

YES

Cell

None

None

IP route

None

Positive

BTS

None

0 BTS YES

None 1 Cell

None

BSC

None This Noneparameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES. None

5000 Cell

None

NO

Cell

None

NO

Cell

None

NO

Cell

None

4 Cell

None

2 Cell

None

NO

Cell

NO

Cell 0 Cell

NO

BSC6900 10 Cell

None

BSC

None

Subsystem 10000 Cell

None None None This parameter is valid only when "IDXTYPE" is set to BYIMSI. None

4 BSC6900

None

3 BSC6900

None

360 Cell None

BTS

NO

BTS 8 Cell 10 Cell

CELLCAPCLASS

BSC

None

Board 25 Cell 12 Cell

None

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. This parameter is valid only when "IMMASSTAALLOW" is set to YES.

None This parameter is valid only when "HOCTRLSWITCH" is set to None This parameter is valid HOALGORITHM1 and only when "HOCTRLSWITCH" is set "INTRACELLFHHOEN" is to set to YES. None HOALGORITHM1 and The following condition must be met: "INTRACELLFHHOEN" is set to YES. "INFHHOSTAT" >= "INFHHOLAST". The following condition must be met: "INFHHOSTAT" >= "INFHHOLAST". Set when Allow Info Exchange at Iur-g is set to Yes This parameter is valid only when "HOCTRLSWITCH" is set to None This parameter is valid HOALGORITHM1 and only when "HOCTRLSWITCH" is set "INTRACELLFHHOEN" is to set to YES. HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES.

8 TRX

None

1 Cell

None

0 Cell

None

2 Cell

None

BSC

None

NO

Cell

YES

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to This parameter is valid only when EDB_cell. "IUOTP" in "ADD GCELL" is set to EDB_cell.

None

BSC6900

None

None

BSC6900

NO

Cell

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. This parameter is valid only when "INNLOADHOEN" is set to YES. This parameter is valid only when "INNLOADHOEN" is set to YES. This parameter is valid only when "OUTLOADHOENABLE" is set to YES.

10 Cell 5 Cell 90 Cell None

BSC

None

None

BTS

None

None

BTS

None

Degree

Cell

NO

Cell

This Noneparameter is valid only when "SIGCHANHOEN" in "SET GCELLHOBASIC" is set to YES.

None

BSC

None

BTS

None

BSC

None

BTS 60 Cell

67 Cell In densely populated urban areas, the recommended value is 68; in the Cell INTBANII suburbs, the recommended value is 72. Cell 15 Cell 2 Cell 3 Cell

Inter-layer HO threshold of the serving None cell = "Inter-layer HO threshold" - "InterNone HO Hysteresis". layer Inter-layer HO threshold of the When "Current Control Algorithm" in None neighboring cellHO = "Inter-layer HO "SET GCELLHOBASIC" is set to threshold" + "Adjacent Cell Inter-layer None HOALGORITHM1(Handover algorithm HO Hysteresis" - 64. I), "Inter-cell HO Hysteresis" should be The value of "Inter-layer HO threshold" None set within the range of 64-127. When can be set through "SET "Current HO Control Algorithm" in "SET GCELLHOBASIC". GCELLHOBASIC" is set to This parameter is valid only when HOALGORITHM2(Handover algorithm None "INTERFHOEN" set to YES and be This parameter isis valid only when II), "Inter-cell HO Hysteresis" should This parameter is valid only when "HOCTRLSWITCH" is set to "HOCTRLSWITCH" in "SET set within the range of 0-127. "INTERFHOEN" is is set tofollowing YES and HOALGORITHM2. The GCELLHOBASIC" set to "HOCTRLSWITCH" is set to condition must be met: HOALGORITHM2. HOALGORITHM2. The following "INTERFERESTATTIME" >= condition must be met: "INTERFERELASTTIME". "INTERFERESTATTIME" >= "INTERFERELASTTIME".

YES

Cell

None

YES

Cell

The Nonesetting of this parameter must meet the following condition: The setting of this parameter must meet "INTERFTHRES0" > "INTERFTHRES1". the following condition: The setting of this parameter must meet "INTERFTHRES1" > "INTERFTHRES2". the following condition: The setting of this parameter must meet "INTERFTHRES2" > "INTERFTHRES3". the following condition: The setting of this parameter must meet "INTERFTHRES3" > "INTERFTHRES4". the following condition: The setting of this parameter must meet "INTERFTHRES4" > "INTERFTHRES5". the following condition: "INTERFTHRES4" > "INTERFTHRES5".

110 Cell 105 Cell 98 Cell 92 Cell 87 Cell 85 Cell 3 BSC6900 20 Cell

None None

NO

Cell 80 BSC

NO

Cell

NO

Cell

None When None "Inter-RAT In BSC Handover Enable" is set to NO, this parameter must be set to NO.

20 BSC

None

49 BSC

None

5 BSC

None

60 BSC

None

91 BSC

None

10 BSC

This Noneparameter is valid only when the ""INTERRATOUTBSCHOEN"" parameter regarding the "SET None GCELLHOBASIC" command is set to YES.

NO

Cell

OFF

BSC 72 BSC6900

None

1 BSC6900

None

1 Cell

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

30 Cell None Cell In the hot-spot areas, densely populated urban areas, urban areas, 10000 Cell suburbs, and rural areas, the recommended value is YES; in the YES Cell high-speed circumstances, the recommended value is NO. Cell 10000 Cell None

None

None This parameter is valid only when "HOCTRLSWITCH" is set to None HOALGORITHM1 and "INTRACELLHOEN" is set to YES. None None

BSC

None

25 BSC

None

10 BSC

None

30 BSC

None

None

BSC

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

NO

Cell

None

None

None

None

None

BSC6900

None

None

NSE

None

None

NSE

None

255.255.255.255

BTS

None

None

None

IP path

The "IPADDR" in "ADD IPPATH" can not be at one network segment with the peer IP address of SCTPLNK or IPPATH whose local IP address is device IP address of FG2/GOU in this subrack;"IPADDR" and "PEERIPADDR" in "ADD IPPATH" must be at one None network segment; ("IPADDR","PEERIPADDR","PEERMAS None K" in "ADD IPPATH") conflicts with other IPPATH whose type is IUPS.

None

BSC6900

None

None

Ethernet port

None

None

Ethernet port

None

None

BSC6900

None

None

Ethernet port

None

None

BSC

None

None

BSC

None

BTS

The Nonesetting of this parameter cannot be duplicate with "Slave Clock Server IP Address".

None

BSC

None

BTS

The Nonevalue of this parameter cannot be the same as "Master Clock Server IP Address".

None

BSC

None

None

BSC

None

10 Ethernet port

None

5 Ethernet port

None

UDP/IP_HC

PPP link

None

UDP/IP_HC

MP group

None

None

Ethernet port

None

None

Ethernet port

None

None

None

IP_OVER_FE/GE

BTS

This Noneparameter is valid only when "SERVICEMODE" in "MOD BTS" is set to IP.

None

BTS

None

NO

BTS

None

NO

BSC6900

NO

Cell

None

BTS

None

BTS

None If the redundancy configuration mode is not supported, only one clock server None If theberedundancy mode is can configured.configuration Otherwise, two clock not supported, only one clock server servers can be configured. can be configured. Otherwise, two clock servers can be configured.

NO

BTS

None

NO

BTS

None

YES

None

None

Cell Transmission resource group

YES

Cell

None

None

NO

TRX

None

None

BSC

None

None

BTS

None

NO

Cell

None

None

NSE

None

None

IP Path

None

NO

BSC6900

None

None

None

NO

BTS

NO

BTS

None This parameter can be set to YES only when None "BssLsGenMode" in "SET BSSLS" is set to BTSPRIORITY, BSCPRIORITY, or BTSONLY.

NO

BSC

None

None

None

None

NO

None

None

NO

BTS

None

NOT_CONFIG

BTS

None

None

Cell

None

None

Cell

None

None

Cell

None

65535 Cell

None

None

BSC6900

None

None

IP route

NONE

TRX

This Noneparameter is valid only when "IUOTP" in "MOD GCELL" is set to Concentric_cell.

CONVERT0

Cell 8 Cell 10 Cell

The Nonefollowing condition must be met: "IUOHOSTATIME" >= The following condition must be met: "IUOHODURATIME". "IUOHOSTATIME" >= "IUOHODURATIME".

Normal_cell

Cell

None

OFF

Board

None

Character_String

None

None

SBS 155

Board

None

SBS 155

Board

None

16byte

Board

None

OFF

Board

None

Character_String

None

None

SBS 155

Board

None

SBS 155

Board

None

16byte

Board Channelized optical port

None

None Channelized optical port

None

None Channelized optical port

None

Board

None

BTS

None

BTS

None

BSC MSP protect group

None

OFF None None None None When the disorder phenomenon is SPACE severe in the IP network, the recommended value is ALLOW; None when there is no or little disordered packets, you are recommended to None set this parameter to DENY to avoid extra transmission delay. None

None

None

None

None

0 Cell

None

2 PPP link

None

None

Cell

None

None

Cell

None

None

Ethernet port

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

None

None

None

None

None

2 IP logical port

None

4 IP logical port

None

25 IP logical port

None

3 IP logical port 8 IP logical port 3 Cell 3 Cell 0 Cell 20 BSC

None There are four network layers, that is, layer None 1 to layer 4. A lower layer No. indicates a higher priority. The cell priority None is determined by both the network layer and the "PRIOR" The parameter is independent of "Load parameter. Handover Support" and " Enhanced Load HO Allowed". Lb Congestion Protection Timer 1
CSFHHO

BSC

PSDOWN

BSC

AMRC

BSC

Lb Congestion Protection Timer 1
None

SCCP

None

None

BSC6900

None

None

BSC6900

None

ON

BSC6900

None

30 BSC

0 Ethernet port None

Cell

YES

Cell 2 Cell 4 Cell 6 Cell

None This Noneparameter is valid only when "HOCTRLSWITCH" is set to This parameter is valid only when HOALGORITHM1. "HOCTRLSWITCH" is set to This only when is HOALGORITHM1 and "LEVHOEN" Noneparameter is valid "HOCTRLSWITCH" is set to set to YES. The following condition must HOALGORITHM1 and "LEVHOEN" be met: "LEVSTAT" >= "LEVLAST". is set to YES. The following condition must be met: "LEVSTAT" >= "LEVLAST".

None

None

None

None

None

None

None

Board

None

None

None

None

None

None

None

10 BTS

None

90 None

None

70 None

None

None

LAPDLNK

None

DIFFERENCE

None

None

64K

MTP3 link

None

None

None

None

None

BTS

None

None

None

None

35 BTS

None

45 BTS

None

None

Board

None

None

BSC

None

M3UA_MASTER_MOD

BSC6900

None

B1111

SCCP

None

set to YES. 2. The ""InterRatServiceLoadHoSwitch"" parameter is not set to OFF.

B1111

SCCP 80 Cell

RANDOMALG

When the cell is under the BSC, this parameter is valid only when the ""LoadHoEn"" parameter regarding the None "SET GCELLHOBASIC" command is set to YES.

MSC

None

4 BSC

None

100 BTS NO

Cell

None This parameter can be set only when "Load Handover Support" is set to Yes.

NO

Cell

None

NO

Cell

NO

Cell

The Noneparameter value cannot be larger than the value of "PBGT HO Threshold". The Noneparameter takes effect only when This parameter valid only when "Enhanced LoadisHO Allowed" is "HOCTRLSWITCH" in "SET enabled. This parameter is valid GCELLHOBASIC" is setonly to when "HOCTRLSWITCH" in "SET HOALGORITHM2. GCELLHOBASIC" is set to This parameter This parameter is is valid valid only only when when HOALGORITHM2. "LOADHOEN" in "SET "LOADHOEN" in "SET GCELLHOBASIC" GCELLHOBASIC" is is set set to to YES. YES. The value of this parameter must be smaller The takes effect only when than parameter "LOADOFFSET". the enhanced load handover algorithm This parameter is valid only when is enabled. "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.

0 Cell 10 Cell 63 Cell 10 Cell 5 Cell 3 Cell 25 Cell NO

BTS

None

PERMIT

Cell

None

40 Cell

None

60 Cell

None

85 Cell

None

YES

Cell

DYNPDCHASIDLE

Cell

The Noneparameter is independent of "Load Handover Support" and "Enhanced Load HO Allowed".

None

BTS

None

None

BSC

None

None

BSC6900

None

None

MP group

None

BTS

None

BTS

None The IP address must be in the same network segment as "Peer IP address". The IP address must be in the same network segment as "Peer IP address".

None

NSE

None

None

BSC

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

SCTP link

None

None

SCTP link

None

OFF

BSC6900

None

SCTP link

When None the value of "MODE" in "ADD SCTPLNK" is set to Client, this parameter can be modified.

None

BSC6900

None

NORMMODE

None

None

95 Board

None

80 Board

This Noneparameter determines whether "LOGPORTSN" and "LOGPORTNO" in When the value ofare "LOGPORTFLAG" in "ADD SCTPLNK" valid. "ADD SCTPLNK" is set to ON, this When the value of "LOGPORTFLAG" in parameter is valid. "ADD SCTPLNK" is set to ON, this parameter is valid.

None

SCTP link

None

SCTP link

None

SCTP link 85 Board

None

70 Board

None

ON

Board

None

None

BSC6900

None

None

None

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

None

None

None

None

None

None

None

None

None

BC

None

ON

E1/T1 port

None

None

LAPDLNK

None

80 Cell

None

None

BSC

None

None

BSC

None

None

E1/T1 port None Loopback optical port None

None

180 BSC

None

NO

Cell

This Noneparameter is valid when "FLEXABISMODE" in the "MOD BTS" command is set to YES.

NO You are advised to disable this function in the co-BCCH cell with the ON inter-site distance not more than 1500m. For EPS4815 boards, the value of this parameter is set to "NO".

BTS

None

Cell

None

Cell

None

BTS

None

NO

BTS

None

None

None

None

IP path

When None the value of "CARRYFLAG" in "ADD IPPATH" is set to IP LGCPORT, this parameter is valid.

None

IP logical port

None

None

IP logical port

None

IP path

When None the value of "CARRYFLAG" in "ADD IPPATH" is set to IP LGCPORT, this parameter is valid.

None

ATM logical port None

1 IP logical port

If IR"Power System Type" is Cell "SC48200", the recommended value is "475". For other Power System DISABLE BTS Type of APMU boards, the recommended value is "440". BTS

None

CSPH

BSC

The Nonevalue of this parameter must be smaller than "DC Undervoltage Alarm If this parameter is not set to CLOSE, it Threshold". value must not be the same as "LDRSND", "LDRFST", or "LDRFOUH".

INCLUDE

BSC6900

None

None

None

None

HORIZONTAL

None

None

APPLICATION

None

None

None

BSC6900

None

OPTLOG

BSC6900

The Nonevalue of this parameter must be smaller than "High Temperature Critical Point". The setting of this parameter must meet the following conditions: None The setting of this "LTFERTGT"; "LTFERUPTH" > "LTFERLOWTH".

0 BTS -1 BTS 2 Cell 8 Cell 60 Cell 2 Cell

None

0 Board

None

20 BTS For EPS4815, the recommended value is "DISABLE". For other types30 BTS of APMU boards, the recommended value is "ENABLE". BTS 2905 SCTP link

None None None None

None

None

None

10 Ethernet port

None

5 Ethernet port

None

CA_MA

Cell

None

Cell

None This parameter is valid when " MAINBCCHPWRDTEN " in the " SET None GCELLOTHEXT " command is set to YES. This parameter is valid when " MAINBCCHPWRDTEN " in the " SET None This parameter is" valid when is " set to GCELLOTHEXT command MAINBCCHPWRDTEN " in the " SET YES. This parameter is" valid when is " set to GCELLOTHEXT command MAINBCCHPWRDTEN " in the " SET YES. GCELLOTHEXT " command is set to YES.

None

Board

YES

Cell

NO

Cell

None

Cell

None

BTS

None

None

BTS

None

None

BTS

None

0 BTS

None

0 Cell

None

BTS

None

Cell

None

Cell

None

Cell

None

Cell

None

Cell

None

Cell

None

Cell

None

Cell

None

Cell

None

Cell

None

Cell

None

Cell

None

This Noneparameter is valid only when "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET This parameter is valid when GCELLCHMGAD" is setonly to YES. "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

Ethernet port

None

None

Ethernet port

None

None

PPP link

None

None

MP group

None

None

BSC6900

None

None

Ethernet port

None

None

Ethernet port

None

None

BSC

None

255.255.255.255

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

BTS

None This parameter is valid when "PWRCTRLSW" in the "SET None GCELLPWRBASIC" command is set to PWR2.

4(application type is M3UA), 10(application type is BBAP) None

8 Cell SCTP link

None

IP logical port

None

3 Cell

None

2 BSC

None

1 BSC

This Noneparameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.

10 BTS 1 Cell

None

1 Cell

None

1031 None

None

100 BSC

None

256 PPP link

None

None

MP group

None

None

BSC6900

None

None

BSC6900

None

2(application type is M3UA), 5(application type is BBAP)

125 BTS

3 BSC

This Noneparameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.

8 TRX

None

30 Cell

None

SCTP link

5 BSC None

None

BSC6900

None None

15C

BTS

None

15C

BTS

None

30 Cell

None

7_Times

Cell

None

7_Times

Cell

None

7_Times

Cell

None

7_Times

Cell

None

64 PPP link None

MP group 2 Cell

In Normal cell,the recommended value is 62;in Double Timeslot Extension Cell,the recommended value is 219.

OFF

0 Cell 0 Cell

None This parameter is valid when "PWRCTRLSW" in the "SET None This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. GCELLPWRBASIC" command is set to PWR2.

Cell

None

20 Cell

None

Cell

None

255 Cell

None

12 None If the traffic volume on each frequency band is even and there is32 TRX no special requirements for the frequency band, the recommended 16 None value is 0; if the traffic volume on each frequency band is significantly 8 Cell uneven and a frequency band is None BSC6900 preferred for an MS, the recommended value is 3; if traffic None None volume on each frequency band is not extremely uneven, the None None recommended value is 1 or 2. For details, see the GSM Rec. 05. 08. Cell 2 Cell 6 Cell

None None This parameter is valid when "PWRCTRLSW" in the "SET None GCELLPWRBASIC" command is set to PWR2. None None None This parameter is valid only when "MEASURETYPE" in "SET None This parameter is valid only when GCELLCCUTRANSYS" is set to "MEASURETYPE" in "SET EnhMeasReport. GCELLCCUTRANSYS" is set to EnhMeasReport.

None

BSC6900

None

None

BSC6900

None

None

Cell

None

None

Cell

None

None

MP group

This Noneparameter is required when "MLPPP type" is set to "MCPPP" with the "ADD BTSMPGRP".

8 BTS None

BSC6900

None

None

BSC6900

None

None

BTS

"BTSTYPE" identifies the value range of this parameter. The number of cabinets supported by the BTS depends on the type of the BTS. For details, see the parameter description of the command.

OFF

Cell

None

CLASS0

BTS

None

None

Board

None

0 Ethernet port

None

None

Ethernet port

None

None

Ethernet port

None

NO

Cell

None Set when Allow Common Measurement at Iur-g is set to Yes

3 BSC ComMeasReport

Cell

None

None

Ethernet port

None

None

Ethernet port

None

Ethernet port

LONG

MP group

LONG

BTS

None This parameter is based on "HOCDCMINDWPWR" and None "HOCDCMINUPPWR". Different offset can Nonebe set for different neighboring cells. The following condition must be Nonefor a neighboring cell to be added met into the candidate cell queue: None Neighboring cell uplink level >= ("HOCDCMINUPPWR" + None "MINOFFSET"); Neighboring cell downlink level >= None ("HOCDCMINDWPWR" + "MINOFFSET").

15 Cell None

IP logical port 10 Cell 0 Cell 170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

140 BTS

None A 3G cell can be added into the candidate cell queue when following This parameter is valid onlythe when None conditions are met: "HOCTRLSWITCH" is set to "INTERRATOUTBSCHOEN" is set to This parameter is valid only when HOALGORITHM1. YES; "BET3GHOEN" is set to YES; the "SDDYN" in "SET GCELLBASICPARA" RSCP of the 3G cell for a period of time is set to YES. is greater than the sum of "HORSCPTH3G" and "RSCPOFF".

140 BTS 16 Cell 60 Cell 10 Cell 100 Ethernet port Current BFD 100 session

None None

100 Ethernet port Current BFD 100 session

None

None

Ethernet port

None

None

Ethernet port

None

None

Ethernet port

None

None

Cell

None

None

Cell

None

80 BSC

None

None

AUTO

BSC6900

None

None

SCTP link

None

OFF

BSC6900

None

None

BSC6900

None

None

None

None

None MSP protect group

None

None

None

MODE1

BTS

None

MODE1

BTS

None

MODE1

BTS

None

MODE1

BTS

None

MODE1

BTS

None

MODE1

BTS

None

None

None

None

None

None

None

None

BTS 35 Cell

This Noneparameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.

10 Ethernet port

None

5 Ethernet port

None

None

None

MP group

None

None

None

None

BTS

None This parameter can be set to MODE5_1 or MODE6_1 only when None "FLEXABISMODE" is set to FLEX_ABIS.

MODE4_1 BTS If "BTS Type" is "BTS3900E_GSM", the recommended value is "0". BTS

None

ENABLE

BTS

None

MCPPP

MP group

None

None

None

None

None

YES

Cell 4 Cell 5 Cell

Once_ps

Cell

None This parameter is valid when "PWRCTRLSW" in the "SET None GCELLPWRBASIC" command is set to PWR2. This Noneparameter is valid only when "PWRCTRLSW" in "SET This parameter must is beset settowhen GCELLPWRBASIC" PWR3. "BTSMESRPTPREPROC" is set to BTS_PreprocessingN.

4 BTS

None

4 BTS

None

OFF

None

None

None

BSC

None

1500 BTS

None

3 BSC6900 OFF

Cell

None None

1800 MSC

None

1 BSC

None

0 BSC

None

NO

BSC

None

NORMAL

MSC

None

R98_or_below

Cell

None

15000 Cell

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

NO

Cell

This Noneparameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.

4_Times

Cell

None

None

MSP protect group

MCS5

Cell 40 Cell

None

ON

None

10 Cell

None

200 Cell

None

1000 BSC

None

45 BSC

None

2 Cell

None

BSC6900

None E1/T1 port If "MTU" is set to a value smaller than Nonethe DHCP procedure may fail MTP3 link 576, when the BTS tries to retrieve the IP MET None address, and thus the BTS cannot work. The recommended value of 800 this SCTP link parameter is 1500. Do not modify it unless in special scenarios, for 1500 Ethernet port example, at the bottom layer where the number of MTU is limited. BTS 225 BTS Cell 5 Cell DISABLE

Cell

4 Cell When the transmission quality is 0 Cell good, the recommended settings are as NOfollows: "Ring II Wait Time Before Cell Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating 1000 MP group Penalty Time" = 0; "T200" = 12; None = 1; and "N200" = 3. MP group "T203" When the transmission quality is bad, None None the recommended settings are as follows: "Ring II Wait Time Before 6 BTS Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating None None Penalty Time" = 0; "T200" = 24; "T203" = 3; and "N200" = 3. BTS 5 Cell

OFF

The Nonevalue of this parameter must be smaller than or equal to "PDCH Downlink Multiplex Threshold".

BTS

85 BSC

REPORT6

None

None None None None None None None None None None This parameter is valid when "TCMUTEDETECTFLAG" is set to YES. This parameter is valid when "TCMUTEDETECTFLAG" is set to YES. None None None None None None None None None N200ESTAB must be set when "N200PARASWITCH" is set to YES.

34 Cell

None

29 Cell

None

Cell

None

5 Cell

None

5 Cell

None

23 Cell

None

20 Cell

None

3 Cell

None

10 Cell

None

6 BC

None

3 BC

None

4 BC None

Cell

This Noneparameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

BSC

None

NO

Cell

None

2 Cell

None

DISABLE

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

Cell

This Noneparameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.

NOTSUPPORT SELECTION0_PERM1&SELECTION1_PERMNone 1&SELECTION2_PERM1&SELECTION3_PERMNone 1&SELECTION4_PERM1&SELECTION5_PERMNone 1&SELECTION6_PERM1&SELECTION7_PERM-1

BSC Cell

This Noneparameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.

Cell

None

Cell

None

Cell

None

1 Cell 4 Cell 4 Cell 0 BSC 60 BSC 64 BSC 68 BSC 72 BSC 74 BSC 76 BSC 80 BSC 0 Cell 0 Cell

This Noneparameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES. The Nonefollowing condition must be met: The following condition must "NcellInterFLevelThres1" > be met: "NcellInterFLevelThres2" "NcellInterFLevelThres0".> The following condition must "NcellInterFLevelThres1" > be met: "NcellInterFLevelThres3" "NcellInterFLevelThres0".> The following condition must "NcellInterFLevelThres2" > be met: "NcellInterFLevelThres4" "NcellInterFLevelThres1".> The following condition must "NcellInterFLevelThres3" > be met: "NcellInterFLevelThres5" "NcellInterFLevelThres2".> The following condition must "NcellInterFLevelThres4" > be met: "NcellInterFLevelThres6" "NcellInterFLevelThres3".> The following condition must "NcellInterFLevelThres5" > be met: "NcellInterFLevelThres7" "NcellInterFLevelThres4".> "NcellInterFLevelThres6" > The following condition must be met: "NcellInterFLevelThres5". The setting of this parameter "NcellInterFLevelThres7" > must meet the following condition: "NcellInterFLevelThres6". The setting of this parameter must meet "NCHSTARTBLOCK"" <= the following condition: "NCHOCBLOCKNUM". "NCHSTARTBLOCK"" <= "NCHOCBLOCKNUM".

NC0

Cell

None

YES

SCCP

None

None

None

None

4 Cell

None

None

BSC6900

None

None

IP route

None

None

None

None

None

BTS

None

SCCP

None This parameter depends on network planning.

None

None

None

NMOII

Cell

None

None

BTS

None

BTS

The value range of this parameter varies with BTS type. Different types of BTSs support a different number of cabinets. The value range of this parameter varies with BTS type.

None

BTS

None

None

BTS

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

NO

Cell

This This parameter is is valid valid only only when when Noneparameter "HOCTRLSWITCH" is set "HOCTRLSWITCH" is set to to This parameter is valid HOALGORITHM2 and only when HOALGORITHM2. "HOCTRLSWITCH" is set to "NOAMRFULLTOHALFHOALLOW" is This parameter is valid only when HOALGORITHM2 and set to YES. "HOCTRLSWITCH" is set to "NOAMRFULLTOHALFHOALLOW" is This parameter is valid only when HOALGORITHM2 and set to YES. "HOCTRLSWITCH" is set to "NOAMRFULLTOHALFHOALLOW" is This parameter is valid only when HOALGORITHM2 and set to YES. "HOCTRLSWITCH" is set to "NOAMRFULLTOHALFHOALLOW" is This parameter is valid only when HOALGORITHM2 and set to YES. "HOCTRLSWITCH" is set to "NOAMRFULLTOHALFHOALLOW" is This parameter is valid only when HOALGORITHM2 and set to YES. "HOCTRLSWITCH" is set to "NOAMRFULLTOHALFHOALLOW" is This parameter is valid only when HOALGORITHM2 and set to YES. "HOCTRLSWITCH" is set to "NOAMRFULLTOHALFHOALLOW" is This parameter is valid only when HOALGORITHM2 and set to YES. "HOCTRLSWITCH" is set to "NOAMRFULLTOHALFHOALLOW" is This parameter is valid only when HOALGORITHM2 and set to YES. "HOCTRLSWITCH" is set to "NOAMRFULLTOHALFHOALLOW" is This parameter is valid only when HOALGORITHM2 and set to YES. "HOCTRLSWITCH" is set to "NOAMRFULLTOHALFHOALLOW" is HOALGORITHM2 and set to YES. "NOAMRFULLTOHALFHOALLOW" is set to YES.

2 Cell 30 Cell 1 Cell 95 Cell 0 Cell 85 Cell 14 Cell 103 Cell NO

Cell 2 Cell 25 Cell

None

Adjacent node 8 Cell

NO

Cell 50 Cell 100 BTS

ON

Cell

This Noneparameter is valid only when "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES. This Noneparameter is valid only when "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES. This Noneparameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

0.24sec

PERMIT

Cell

None

2500 BTS

None

2500 BTS

None

Cell 500 BTS

CLOSE

BSC 48 TRX 30 BTS 3 None 2 Cell 6 Cell

The Nonevalue of this parameter must be 8C smaller than "Derating TEMP Threshold". None This parameter is valid only when "WLNKALMFLAG" is set to YES. This parameter is valid only when "ENABLE" is set to YES. This parameter is valid only when "MEASURETYPE" in "SET None This parameter is valid only when GCELLCCUTRANSYS" is set to "MEASURETYPE" in "SET EnhMeasReport. GCELLCCUTRANSYS" is set to EnhMeasReport.

None

BSC

None

None

BSC

None

YES

BSC

None

None

NSE

None

Cell

None This parameter is valid only when "HOCTRLSWITCH" in "SET None GCELLHOBASIC" is set to HOALGORITHM2.

2 Cell None

Cell

None

None

NSVC

None

None

NSVC

None

None

9 BTS

None

16 BTS

None

10 Cell

None

Ethernet port

None

0 PPP link

None

0 MP group

None

0 IP logical port

None

0 Ethernet port

None

None

Port queue

None

None

Port queue

None

None

None

None

None

None

None

None

BSC

None

None

BSC

None

None

BSC6900

None

None

BTS

None

None

None

None

OFF

Cell

YES

Cell

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

NO

BTS

None

OFF

BSC6900

None

None

None

10 BSC

None

BSC6900 Transport 64 channel Transport 64 channel

None

BSC6900

None

1 BSC None

BSC6900 1 BTS

None None

None None None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC

None

None

Cell

None

None

E1/T1 link

None

None

BSC

None

None

BSC

None

None

BSC

None

None

None

None

None

E1/T1 link

None

None

E1/T1 link

None

None

E1/T1 link

None

None

PBCIC

None

None

BSC

SysOpt

Cell

This Noneparameter is valid only when This parameter is GCELL" valid onlyiswhen "IUOTP" in "ADD set to "IUOTP" in "ADD GCELL" is set to Concentric_cell. This parameter is valid only when is Concentric_cell and "OPTILAYER" "IUOTP" in "ADD GCELL" is set to set to SysOpt. Concentric_cell and "OPTILAYER" is set to SysOpt. This parameter is valid only when "TRXPRIALLOW" is set to YES.

35 Cell 63 Cell L0

TRX

None

Board

None

None

None

None

None

BTS

None

None

BSC

None

None

BTS

None

Step_by_Step

None

None

None

Cell

None

0 BTS 20 Cell YES

Cell 10000 Cell 10000 Cell

NO

Cell 80 Cell 15 TRX 25 Cell

YES

Cell 1 Cell 5 Cell 5 Cell 50 Cell

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to This parameter is valid only when EDB_cell. "IUOTP" in "ADD GCELL" is set to EDB_cell. None This parameter is valid only when "IUOTP" in "ADD set to This is GCELL" valid onlyiswhen Noneparameter EDB_cell. The following condition must "LOADHOEN" in "SET be met: "OUTSERIOVERLDTHRED" > GCELLHOBASIC" is set to YES. "OUTGENOVERLDTHRED" > "OUTLOWLOADTHRED". This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to This parameter is valid only when EDB_cell. "IUOTP" in "ADD GCELL" is set to EDB_cell. This parameter is valid only when "OUTLOADHOENABLE" is set to YES. This This parameter parameter is is valid valid only only when when This parameter is valid only when "OUTLOADHOENABLE" is to "OUTLOADHOENABLE" is set set to YES YES. "IUOTP" in "ADD GCELL" is setistoset to and "IUOTP" in "ADD GCELL" EDB_cell. EDB_cell. The following condition must be met: "OUTGENOVERLDTHRED" > "OUTLOWLOADTHRED".

None

BSC

None

None

BSC

None

None

BTS

None

None

BTS

None

HIGH

BTS

None

HIGH

BTS

None

HIGH

BTS

None

HIGH

BTS

None

None

BTS

None

BTS

None

BTS

None This parameter is valid only when "IUOTP" in "ADD GCELL" is set to None EDB_cell. The following condition must be met: "OUTSERIOVERLDTHRED" > None "OUTGENOVERLDTHRED" > "OUTLOWLOADTHRED".

90 Cell YES

Cell

None

None

BSC

None

None

BSC

None

None

BSC

None

NO

Cell

NO

BSC

This Noneparameter is valid only when "OUTSYSSERVICEHOEN" is set to YES.

CLOSE

BSC

None

15 BSC

None

BSC

None

320 BTS

None

320 BTS

None

185 BTS

None

280 BTS

None

280 BTS

None

155 BTS

None

1500 BTS

None

1500 BTS

None

None

15 Cell 580 BTS

The Nonevalue of this parameter must be 8C greater than "Normal Work TEMP Threshold".

90 BSC

None

85 BSC

None

80 BSC

None

75 BSC

None

NO

BTS

NO

Cell 180 Cell 255 Cell 220 Cell

None This parameter is valid when "ALLOWG2FLOWCTRALGL" in the None "SET BSCFCPARA" command is set to YES. This parameter is valid when "ALLOWG2FLOWCTRALGL" in the None "SET BSCFCPARA" command is set to YES.

4 Cell

None

Pan_1

Cell

None

Pan_2

Cell

Pan_20

Cell

L0

TRX

This Noneparameter is valid only when "BSCDynSwitchTrxPAAllow" in "SET BSCDSTPA","DYNOpenTrxPower" in None "SET GCELLBASICPARA" and "CPS" are set to YES.

None

BTS

None

None

BTS

None

DISABLED

IP path

None

None

IP path

None

None

IP path

NO

Cell

None This parameter is valid only when This parameter is validisonly when "PWRBCDALLOWD" set to YES. "HOCTRLSWITCH" is set to HOALGORITHM2.

QoS

IP path

None

None

None

None

DB2

Cell

This This parameter is is valid valid only only when when Noneparameter "HOCTRLSWITCH" is set "HOCTRLSWITCH" is set to to HOALGORITHM1 HOALGORITHM1.and "PBGTHOEN" is set to YES. The following condition must This parameter is valid>= only when be met: "PBGTSTAT" "PBGTLAST". "HOCTRLSWITCH" is set to HOALGORITHM1 and "PBGTHOEN" is None set to YES. The following condition must This parameter is valid>= only when be met: "PBGTSTAT" "PBGTLAST". This parameter valid when "TYPE" in "SETisBSCPCUTYPE" is set "PWRCTRLSW" in the "SET to OUTER. GCELLPWRBASIC" command is set to PWR2.

79 Cell

YES Cell In densely populated urban areas, the recommended value is 68; in the4 Cell suburbs, the recommended value is 72. Cell 6 Cell 2 BSC 3 Cell PDCH

Cell

None

None

PBCIC

None

None

BSC

None

None

PBE1T1

None

Cell

None This parameter is valid only when "GPRS" is set to SupportAsExtPcu.

NO

BTS

None

80 Cell

None

NO

Cell

None

NO

Cell

None

70 Cell

None

5 SCCP

None

None

BSC

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

MP group

None

None

None

None

BTS

The Nonepeer IP address and the local IP address specified by "Local IP address" must be on the same network segment.

The peer IP address and the local IP address specified by "Local IP address" must be onand the "PEERIPADDR" same network segment. "IPADDR" in "ADD

None

BTS

None

SCTP link

None

SCTP link

None

IP path

255.255.255.255

IP path

IPPATH" must be at one network None segment; ("IPADDR","PEERIPADDR","PEERMAS None K" in "ADD IPPATH") conflicts with other ("IPADDR","PEERIPADDR","PEERMAS IPPATH whose type is IUPS. K" in "ADD IPPATH") conflicts with other IPPATH whose type is IUPS.

None

SCTP link

None

None

None

None

YES

Cell

None

10 Cell

None

30 Cell

None

5 IP path

When None the value of "PATHCHK" in "ADD IPPATH" is set to ENABLED, this parameter is valid.

5 BSC

None

255 Cell

Enable

PPP link

None

Enable

MP link

None

YES

BTS

None

NO

NSE

None

2 BSC

None

Board

Nonephb of the traffic's transmission The path is determined like this: if the phb of None this transmission path is QOS, use the traffic's None phb from TRMMAP; if the phb of this transmission path is BE,AF11,AF12,AF13,AF21,AF22,AF23, None AF31,AF32,AF33,AF41,AF42,AF43,EF, use the phb of transmission path.

None

IP Path

None

YES

Cell

None

None

BSC6900

None

10 BSC6900

None

660 BSC 660 BSC 1000 BSC

128 BSC6900 None

BC 1031 BTS

None

12_level

Cell

None This parameter must meet the following requirements: The sum of the value of None "Max subframe length" and 8 must be This parameter validof only smaller than theisvalue thiswhen parameter. "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.

56 Ethernet port

None

128 Ethernet port

None

Cell

None

0 TRX

None

13_level

Cell

None

14_level

Cell

None

0 TRX

None

Cell

None

0 TRX

None

16_level

10 IP logical port

None

30 IP logical port

None

None

Board

None

None

Board

None

None

Board

None

60 Board

None

67 Board

None

2 Cell

None

5 Cell

None

Cell

None

50 Board

None

62 Board

None

ON

Board

None

None

None

None

None

None

None

None

None

None

None

E1/T1 link

None

None

E1/T1 link

None

None

E1/T1 link

None

None

PBE1T1

None

None

BSC6900

None

None

Board

None

None

E1/T1 port

None

None

None

None

None None

None None Loopback optical port None

None

BSC6900

None

None

Board Channelized optical port

None

OPEN

None

None

None

Ethernet port

If port 0 or port 4 of the FG2a board is set to the GE port, the port number can only be 0 or 4. Otherwise, the port number ranges from 0 to 7. If only port 0 is set to the GE port, ports 1-3 are unavailable. If port 4 is set to the GE port, ports 5-7 are unavailable.

None

IP logical port

None

None

None

None

None

E1/T1 port

None

None

E1/T1 port

None

None

E1/T1 port

None

None

PBSL

None

None

BTS

None

None

BTS

None

None

PPP link

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

650 Cell

None

16 Cell

None

6 Cell

None

Cell

None

2 Cell

None

2 Cell

None

Support

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

None

BTS

None

None

BTS

None

16 BTS

None

None

BSC6900

None

None

None

None

None

Ethernet port

None

None

BTS

BCCHNorm

Cell

If this parameter is BCCHExt,"CCCH None Blocks Reserved for AGCH" must be more than 0.

None

None

None

125 BTS

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

100 BTS

None

0 Cell

None

0 Cell

None

POWER_48_24

BTS

None

220VAC

BTS

None

0 TRX

None

TRX

None

None

10 Ethernet port

None

5 Ethernet port

None

None

PPP link

None

None

MP link

None

None

IP logical port

None

None

PPP link

None

Disable

MP group

When None the value of "PORTPROTYPE" in "ADD PORTFLOWCTRLPARA" is set to IP, this parameter should be set.

2 BSC6900 NO

BSC

None

NOT_ALLOWED

BSC

None

OFF

Cell

None

1 BSC 60 BTS 6 Cell NO

BSC

NO

Cell

None This parameter must be set when None "BTSMESRPTPREPROC" is set to BTS_Preprocessing. This parameter None must be set to NO when "MPMODE" of the BTS that serving this cell is set to None MODE4_1 and there are more than two SDCCHs.

60 Board

None

72 Board

None

50 Board

None

65 Board

None

ON

Board

None

None

Cell

Prior-1

Cell

None This parameter, together with "LAYER", determines the priority of the cell.

80 BTS

None

2 Cell

None

0 SCCP

None

0 None

None

None

IP route

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BTS

None

ITUT

SCCP

None

Q933

BC

None

15 BTS 5 Cell 300 BSC

None This parameter is valid only when "TURNOFFENABLE" is set to YES. None

ALL

E1/T1 port

None

None When "Mode Control" is set to "Common User Mode", the ALL recommended value is OFF; when "Mode Control" is set to "Specified OFF When "Mode the Control" is set to value User Mode", recommended "Common User Mode", the is ON. recommended value is OFF; when "Mode Control" is set to "Specified ON User Mode", the recommended value is ON.

Board Channelized optical port

None

ON

BSC

BSC BSC BSC

100 BSC6900

None

100 BSC6900

None

NO When the interface type is Abis, the When the interface parameter is AF43. type is Abis and transmission type is HDLC, the parameter is 1.

NO

BSC

None This parameter is valid only when "PS CHR Record Switch" is set to on. This parameter is valid only when "PS CHR Record Switch" is set to on. This parameter is valid only when "PS CHR Record Switch" is set to on. This parameter is valid only when "PS CHR Record Switch" is set to on. This parameter is valid only when "PS CHR Record Switch" is set to on.

NSE BSC6900 BSC6900

When None the value of "ITFT" in "ADD TRMMAP" is set to ABIS, this parameter When is valid.the value of "ITFT" in "ADD TRMMAP" is set to ABIS, this parameter is valid.

4 Cell

None

6 Cell

None

Cell

None

When the interface type is Abis, transmission type is IP, the When the interface parameter is AF33. type is Abis and transmission type is HDLC, the parameter is 2.

BSC6900 BSC6900 6 Cell

25 Cell

When the value of "ITFT" in "ADD TRMMAP" is set to ABIS, this parameter When is valid.the value of "ITFT" in "ADD TRMMAP" is set to ABIS, this parameter is valid. None

-109 Cell

None This parameter is valid only when The value of this parameter "PSRCDSW" is set to on. must be smaller than "RACH Busy Threshold" in the "SET GCELLCCBASIC" command.

-109 BTS

None

BSC

None

500 BSC

None

1000 BSC

None

None

BSC

ON

For YES"Power System Type" is "APM30" or "EPS4815", the recommended value is "NO". For YES other types of Power System, the recommended value is "YES".

BTS

None

BTS

None

BTS

None

YES

BTS

None

YES

BTS

None

YES

BTS

None

YES

BTS

None

YES

BTS

None

YES

BTS

None

35 Cell

None

None

BTS

None

None

BSC6900

None

None

None

None

None

BSC6900

None

0 Cell

None

None

NSE

None

BOOL

BTS

None

None

E1/T1 port

None

None

E1/T1 port

None

None

E1/T1 port

None

E1_CRC4_MULTI_FRAME

E1/T1 port

None

None

BTS

None

None

Ethernet port

None

None

BTS

None

None

BSC6900

None

None

BTS

None

None

None

None

500 BSC

None

None

BSC6900

None

None

BSC6900

None

None

None

None

None

BSC6900

None

None

None

None

None

None

None

None

None

None

NO

Cell

NO

Cell

This Noneparameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

PWR3

Cell

None

1 Cell

None

YES

Cell

None

ALLPwrLoc

Cell

None

None

BTS

This Noneparameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.

5 BTS YES

Cell

None

Default

TRX

None

OFF

BTS

None

OFF

BTS

None

OFF

BTS

None

None

Port queue

None

None

Port queue

None

None

Port queue

None

None

Port queue

None

None

Port queue

None

Use_Qsearch_I Cell Set this parameter to YES only in special scenarios such as highways. Cell 3 Cell 15 Cell 2 Cell

This Noneparameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES. The None following condition must be met: This parameter valid only This parameter is is >= valid only when when "QCKSTATCNT" "QCKTRUECNT". "QCKMVHOEN" in "SET "QCKMVHOEN" in "SET GCELLHOBASIC" GCELLHOBASIC" is is set set to to YES. YES. The following condition must be met: "QCKSTATCNT" >= "QCKTRUECNT".

NO

NO

15 Cell

None

6 Cell

None

2 Cell

None

Cell

None

15 Cell

None

15 Cell

This Noneparameter is valid only when "QTRUPWRSHARE" is not set to This is validcondition only when NONE. The following must be Noneparameter "QTRUPWRSHARE" is not set to >= met: "QTRUDNPWRSTATTIME" NONE. The following condition must be "QTRUDNPWRLASTTIME". met: "QTRUDNPWRSTATTIME" >= "QTRUDNPWRLASTTIME".

Cell 3 Cell 5 Cell

NONE

Cell 6 BTS 6 BTS 2 Cell

NO

This Noneparameter must be equal to or greater than 0.6x"CHKOFFTIMES" and This be equal to or equalparameter to or less must than "CHKOFFTIMES". This parameter is valid when greater than 0.6x"CHKONTIMES" and "PWRCTRLSW" in the "SET equal to or less than "CHKONTIMES". GCELLPWRBASIC" command is set to PWR2.

Cell

None

NO Cell AU0-0&AU1-0&AU2-0&AU3-0&AU40&AU5-0&AU6-0&AU7-0 BTS

None

NO

BTS

INSIDE_50AH

BTS

015C

BTS

None This parameter is valid only when "R0BatAllow" is set to YES. This parameter is valid only when "R0BatAllow" is set to YES. This parameter is valid only when "R0BatAllow" is set to YES.

INSIDE_BATTERY BTS AU0-0&AU1-0&AU2-0&AU3-0&AU40&AU5-0&AU6-0&AU7-0 BTS NO

BTS

INSIDE_50AH

BTS

015C

BTS

INSIDE_BATTERY BTS AU0-0&AU1-0&AU2-0&AU3-0&AU40&AU5-0&AU6-0&AU7-0 BTS NO

BTS

INSIDE_50AH

BTS

015C

BTS

INSIDE_BATTERY

BTS

None

None None This parameter is valid only when "R1BatAllow" is set to YES. This parameter is valid only when "R1BatAllow" is set to YES. This parameter is valid only when "R1BatAllow" is set to YES. None None This parameter is valid only when "R2BatAllow" is set to YES. This parameter is valid only when "R2BatAllow" is set to YES. This parameter is valid only when "R2BatAllow" is set to YES.

0 Cell

None

0 Cell None

Cell

None This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

None

Cell

None

None

Cell

None

None

Cell

The Nonevalue of this parameter must be smaller than "RACH Busy Threshold" in the "SET GCELLCCBASIC" command.

-109 Cell 16 Cell

None

5000 Cell

None

-109 BTS

None

1 Cell

None

Cell

None

225 Cell

None

2dB

Cell

None

100M

BTS

None

ALG1

Cell

None

DISABLE

Cell

None

4 BSC

None

YES

None

BSC6900

None

REC_ALL

BSC6900

None

None

BTS

None

None

BTS

None

None

BTS

None

NONE

TRX

None

96 IP logical port

YES

Cell

None This parameter is valid when "REASSEN" in the "SET None GCELLCCBASIC" command is set to This YES.parameter is valid only when "IUOTP" in "ADD GCELL" is set to This parameter is valid only when Concentric_cell. This parameter is GCELL" valid onlyiswhen "IUOTP" in "ADD set to "IUOTP" in "ADD GCELL" is set to Concentric_cell. This parameter is valid only when Concentric_cell and "ENIUO" is set to "IUOTP" in "ADD GCELL" is set to OFF. Concentric_cell and "ENIUO" is set to This OFF.parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

NO

BSC

None

YES

Cell

Diff_Band

Cell 50 Cell 40 Cell 5 Cell 30 Cell

NO

Cell

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to This parameter is valid only when Concentric_cell. "IUOTP" in "ADD GCELL" is set to Concentric_cell.

None

Board

None

30 IP logical port 60 Cell

10 BSC

None

3 BSC

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

NO

Board

None

None

BTS

None

None

Cell

None

None

Cell

None

REHOSTDELAY

Cell

None

NO

BSC6900

None

None

BTS

None

NO

BTS

None

OFF

BTS

None

None

BTS

None

None

BTS

None

NONE

BTS

None

None

BSC6900

None

None

IP route

None

None

NSE

None

None

Cell

None

NO

Cell

None This parameter is valid when "REPEATDLFASET" is set to YES.

5 Cell NO

Cell

None

NO

BTS

None

YES

BSC

None

6 Cell

None

2 Cell

None

10 Cell

None

1 Cell 0 Cell 2 Cell

None This parameter is valid when "DYNOpenTrxPower" in the "SET None GCELLBASICPARA" command is set to YES.

NO

BSC 5 BSC

None

BSC6900

None This parameter is valid only when "ResetAlmDelaySwitch" is set to YES. None

3 BSC

None

BTS

None

10 BSC

None

None

BSC

None

YES

BSC

None

None

BSC6900

None

None

None

3 PPP link

None

3 MP link

None

BSC6900 30 BSC

Set when Allow Common Measurement None at Iur-g is set to Yes or Allow Info Exchange at Iur-g is set to Yes

0 Cell

None

5 Cell

None

10 Cell

None

None

BSC6900

None

NO

BTS

None

GPS

BTS

None

NO

NSE

None

None

None

None

52_Times

Cell

STANDALONETC

BSC

RMTTCATERTRANSMODE must be None set when "ISTCCENTRAL" in the "ADD SUBRACK" command is set to YES.

None

Cell

None

255 BSC

None

None

BSC

None

None

None

None

None

BSC6900

None

None

BSC

None

None

BSC

None

DISABLE

Cell

None

15.36sec

Cell

None

0.96sec

Cell

None

20 IP logical port

None

NO

Cell 2 Cell 6 Cell

None None

AAL2 path Transmission resource group

None

IP logical port 5 Cell 3 Cell 30 Cell

This parameter is valid only when "MEASURETYPE" in "SET None This parameter is valid only when GCELLCCUTRANSYS" is set to "MEASURETYPE" in "SET EnhMeasReport. GCELLCCUTRANSYS" is set to When the value of "ADDTORSCGRP" in EnhMeasReport. "ADD AAL2PATH" is set to YES, this parameter is valid. A 3G cell can be added into the candidate cell queue when the following None conditions are met: "INTERRATOUTBSCHOEN" is set to None YES; "BET3GHOEN" is set to YES; the RSCP None of the 3G cell for a period of time is greater than the sun of "HORSCPTH3G" and "RSCPOFF". None

None

Board

None

None

Board

None

MINUS_2db

None

None

Cell Transport channel

None

BSC6900

None

None

None

None

BSC6900 Transport channel

None

BSC6900

None

4 BTS

None

None

None

Set this parameter to about 68 in None densely populated urban areas and about 72 in suburban areas.

BSC6900

None

BSC

None

None

None

None

None

BSC6900

OFF

SCCP

None When the value of "SPCBITS" is set to BIT14 or BIT24, this parameter is valid.

3000 PPP link 0 Cell

This Noneparameter is valid only when "EMCPRILV" in "SET GCELLCCAD" is not set to 15.

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None None

None

2 BSC MSP protect group 4294967295 SCCP

None None

1 BSC6900

None

ON

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

12 SCTP link 25 SCTP link 1000 SCTP link 3000 SCTP link 1000 SCTP link DISABLE

Cell 30 Cell

None

BTS 5 IP logical port 5 IP logical port

None BTS In dual-band networking mode for densely None populated urban areas, the IP path Transmission level drops rapidly due to multiple None barriers. The propagation loss of the resource group 1800 MHz frequency band is greater than the propagation loss of the 900 2 Cell MHz frequency band. Considering 5 Cell the preceding factors, you can set this parameter to YES for the 8 Cell DCS1800 cell. Under normal conditions, set this parameter to No. Cell

None The value to be set should be larger than Nonethe value of "RTOMIN" in "ADD SCTPLNK" but smaller than the value of The value to be set should be larger "RTOMAX". than the value of "RTOMIN" in "ADD The value to be set should be smaller SCTPLNK". than the value of "RTOMAX" in "ADD SCTPLNK". When "GRPT" in "ADD RSCGRP" is set to ATM or "BWMODE" is set to None FULL_DUPLEX, this parameter is valid;The sum of "TxBw" and "RxBw" in None "ADD RSCGRP" of upper class RSCGRP can not less than the "TxBw" None and "AllBw" in "ADD RSCGRP"of lower None RSCGRP;The "TxBw" in "ADD class RSCGRP" of upper class RSCGRP can None not less than the "TxBw" in "ADD RSCGRP" of lower class RSCGRP, and None the "RxBw" in "ADD RSCGRP" of upper class None RSCGRP can not less than the "RxBw" in "ADD RSCGRP" of lower class RSCGRP. None None This Noneparameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.

60 Cell

None

42 Cell

None

41 Cell

None

40 Cell

None

50 Cell

None

49 Cell

None

48 Cell

None

47 Cell

None

46 Cell

None

45 Cell

None

44 Cell

None

43 Cell

None

None

TRX

None

None

BTS

None

None

BTS

None

None

TRX

None

None

BTS

None

None

TRX

None

None

BTS

None

None

BTS

None

None

TRX

None

None

BTS

None

None

BTS

None

None

BTS

None

OFF

Board

None

None

Board

None

None

BTS

None

None

BTS

NO

BSC6900

NO

Cell

None This parameter is required when "Default DPC" is set to NO. This parameter is valid only when This parameter is validisonly when "PWRBCDALLOWD" set to YES. "SAICALLOWED" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set YES. "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. 1. This parameter is valid only when None "TURNOFFENABLE" set to ENABLE. This parameter is validisonly when 2. The setting of this "TURNOFFENABLE" is set to YES. parameter must meet the following This parameter is valid only when condition: "TURNOFFENABLE" is set to YES. "SAMECVGCELLLOADSTATTM" >= "SAMECVGCELLLOADLASTTM". This parameter is valid only when "TURNOFFENABLE" is set to YES. This parameter is valid only when "TURNOFFENABLE" is set to YES.

1 Cell 3 Cell None

BTS

None

Cell

BYNAME

Cell 5 Cell 50 Cell

None

Cell 32 Cell

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

ADD0dB

Cell

None

38 BSC 4 Cell

This Noneparameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.

None

BSC6900

None

None

BSC6900

None

ENGLISH

Cell

None

None

None

None

None

BSC6900

None

BYCELLID

None

None

None

None

None

0 Cell

None

1 BSC6900

None

None

SCTP link

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900 MSP protect 1.00E-06 group

None None

None

None

None

None

BSC6900

None

OFF

YES

1 BTS

None

Cell

None

10 Cell

None

6 Cell

None

55 Cell

None

6 Cell

None

55 Cell

None None

DISABLE

Cell MSP protect group

OFF

Cell

None

None

ENABLE

TRX 2 Cell 1 Cell

None This Noneparameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

40 Cell

None

30 Cell

None

48 BSC MSP protect group

None

53 BTS

None

None BTS If "Power System Type" is "SC48200", the recommended value BTS None is "460". Otherwise, the recommended value is "430". BTS

None

YES

Cell

None

None

None

None

YES

BSC

None

NO

BSC

None

NO

Cell

None

NO

MSC

None

YES

BSC

None

NoPriority

Cell

None

NoPriority

Cell

None

None

BTS

None

NO

BSC

None

YES

BSC

None

YES

BSC

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

None

BSC6900

None

SEPARATE

BSC

TDM

BTS

None

BTS

None The value range of this parameter varies None with "BTS Type". Different types of BTSs support different types of services.

None

BSC6900

None

None

None

The Nonevalue of this parameter must be smaller than "DC Voltage Lower Threshold".

None

BTS

None

NO

BTS

None

NO

BTS

None

NO

BTS

None

NO

BTS

None

None

BTS

None

1800 BSC

None

None

BSC 1 BSC 0 BSC

None This parameter is valid when "SGSNPOOLALLOW" is set to YES. This parameter is valid when "SGSNPOOLALLOW" is set to YES.

NO

BSC

None

Release 99 onwards

Cell

None

ALLOW

BSC

None

75 BSC

None

None

BSC

None

NO

BTS

None

BSC6900

This Noneparameter is valid only when the cell parameter "BAKPWRSAVMETHOD" is set to None BYPWR and "SDFALG" in "SET GTRXDEV" is set to ENABLE.

3 BTS YES

BSC

None

NO

Cell

None

4 BSC6900

None

None

SCCP

None

None

SCCP

None

None

BSC6900

None

None

100 NSE

None

100 NSE

None

2 BSC

None

5 BSC6900

None

2 Cell

None

None 2 Cell

None None

3000 BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

Ethernet port

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

None

BTS

None

None

None

None

B0000

SCCP

None

300 BSC

None

None

BSC6900

None

None

BSC

None

NOTSUPPORT

BSC

None

None

None

None

None

BSC6900

The Nonenumber of CPU usage sampling times is at least twice the size of "Fast judgement window".

10 None None

None

None

None

None

None

None Transmission resource group

None

BSC6900

None

None

E1/T1 link

None

None

None

None

E1/T1 link Transmission resource group

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

None

None

Cell

None

None

BSC

None

None

BTS

None

6 BTS

None

None

None

None

None

None

Board Transmission resource group

None

BTS

None

None

BTS

None

None

BTS

None

NONE

TRX

None

DOUBLE_ANTENNA

BTS

None

DOUBLE_ANTENNA

BTS

None

DOUBLE_ANTENNA

BTS

None

DOUBLE_ANTENNA

BTS

None

SGL_ANTENNA

BTS

None

None

BSC6900

None

SCCP

None

SCCP

None

SCCP

None When the value of "SPDF" is set to WNF, this parameter is valid. This parameter depends on network planning. When the value of "SPDF" is set to DNF, this parameter is valid.

None

PBE1T1

L11_FORBID-0&L12_FORBIDWNF 0&L13_FORBID-0&L14_FORBID0&L15_FORBID-0

SCCP

When None the value of "SPDF" in "ADD N7DPC" is set to WNF, this parameter is valid.

Cell

None

None

BTS

None

None

BTS

None

None

12 BSC

None

YES

MSC

None

YES

MSC

None

YES

MSC

None

NO

MSC

None

PSMODE

BTS

None

PSMODE

BTS

None

FR

BTS

None

AUTO

Ethernet port

None

30 Cell

None

40 Cell

None

NO

Cell

None

NOTSPPRTBC

BSC

None

NO

BSC

None

NO

BSC

None

Cell

None

Cell

None This parameter is valid only when "GPRS" is set to SupportAsInnPcu. This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

NO

BSC

NO

BSC6900

NO

BSC

NO

BSC

NO

BSC

NO

BSC

NO

BSC

None If the version of a GSM base station If software version of is the BTS3000V100R009 or the later, or if NO SingleRAN BTS is SRAN3.0 or later, the version of a multi-mode 3900 the parameter Is support SRAN or series base station is V100R002 None mode needs to be set to value of this later, the recommended SUPPORT(Support). If the software parameter is SUPPORT. Otherwise, None version of the SingleRAN BTS the recommended value of thisis earlier thanisSRAN3.0, the parameter parameter NOT_SUPPORT. Is support SRAN mode needs to be set to NOT_SUPPORT(Not Support).

Cell

None This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

BTS

None

BSC6900

None

SCCP

None

BTS

None

BTS

None

NOT_SUPPORT

BTS

None

None

Cell

None

None

Cell

None

None

Cell

None

None This parameter is required when This parameter when "Trunking MSC"isisvalid set toonly YES. "TYPE" in "SET BSCPCUTYPE" is set This parameter is valid only when to OUTER. "TYPE" in "SET BSCPCUTYPE" is set This parameter is valid only when to OUTER. "TYPE" in "SET BSCPCUTYPE" is set This parameter is valid only when to OUTER. "TYPE" in "SET BSCPCUTYPE" is set to OUTER.

None

Cell

None

None

Cell

None

None

BSC6900

None

None

None

None

None

None

HOALGORITHM1 None

Cell Current BFD session

The Nonevalue of this parameter must be the same as that of "HOCTRLSWITCH" in "SET GCELLHOBASIC".

None

Cell

None

None

Cell

None

None

Ethernet port

None

None

Cell

None

None LINE1_8K and LINE2_8K are most commonly used.

E1/T1 port

None

None

None

None

E1/T1 port

None

None

None

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

E1/T1 link

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC

None

None

BSC

None

None

BTS

None

0 BTS

None

None

BSC

None

None

BSC

None

None

BTS

None

None

BTS

None

None

None

None

BTS Control plane link

None

BSC6900

None

None

None

None

None

None

None

None

None

None

None

None

None

BSC6900

None

100 NSE

None

100 NSE

None

GSM_PRIOR

BTS

None

None

BTS

None

63 Cell

None

75 Board

None

85 Board

None

80 Board

None

80 Board

None

6 Cell

None

2 Cell

None

None

None

None

None

BSC

None

None

BSC6900

None

63 Cell

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

Cell

None

None

BSC6900

None

YES

BSC

None

YES

BSC

None

E1/T1 link

None

PBCIC

None

BSC

When the value of "OPMODE" of "BLK None The setting of this parameter must meet ACIC" is BYCICRANGE, the value of the following condition: When STARTTS needs to be set. "EndMonthDSTPA" and "StartMonthDSTPA" are set to the same None value, "EndDayDSTPA" must be later The of this parameter must be than value "StartDayDSTPA". The setting this parameter must meet smaller thanof"Heater shutdown the following condition: Temperature". "EndMonthDSTPA" is the same as or is later than "StartMonthDSTPA".

-100 BTS None

BSC

YES

BSC

None

YES

BSC

None

None

BTS

None

BSC

None

E1/T1 link

None

E1/T1 link

None This parameter is valid only when This parameter only when "ENABLE" is setistoset YES. "BSCDynSwitchTrxPAAllow" is set to When YES. the value of "OPMODE" of "BLK ATERE1T1" is BYCICRANGE, the value When the value of "OPMODE" of STARTTS needs to be set. of "BLK AE1T1" is BYCICRANGE, the value of STARTTS needs to be set.

None

BTS

None

ENABLED

BTS

None

DISABLED

BTS

None

None

E1/T1 link

None

BTS

None

BSC6900

None

BSC

None To ensure that all the frequencies can be measured within 24 hours, the None following condition must be met: ("PERIOD" x 15) x (total number of None frequencies to be measured/"STEP") < (24 x 60).

NO

MTP3 link

None

None

None

None

NO

Cell

None

OFF

Cell

None This parameter is valid only when "ENABLE" is set to YES. If the added monitoring timeslot works at 64 kbit/s, the sub-timeslots are None numbered from 0. If the added None monitoring timeslot works at 32 kbit/s, the sub-timeslots are numbered from 0 None or 4. If the added monitoring timeslot works None at 16 kbit/s, the sub-timeslots are numbered from 0, 2, 4, or 6. If the added None monitoring timeslot works at 8 kbit/s, the sub-timeslots are numbered from any value among 0 to 7.

240 BTS

120 BTS OFF

SCCP

None

BTS

None

Cell

None

BTS

None

BTS

None

BTS

None

BSC6900

None

BTS

None

BTS

None

E1/T1 link

None

E1/T1 link

None

None 352 None 352 BTS

None

BSC6900

None If "Work Mode for Auto Download Activation" is "TMUAUTOACT", the BTS None type must be consistent with the actual BTS type. When SUBBSC is selected for "BSC flag", this parameter should be set. When SUBBSC is selected for "BSC flag", this parameter should be set. This Noneparameter must meet the following requirements: The sum of the value of "Max None Subframe Length" and 8 must be smaller than the value of "Maximum Frame Length". None

None

BSC6900

NO

Cell

This Noneparameter is valid when "FLEXABISMODE" in the "MOD BTS" command is set to YES.

NO

BTS

None

None

BTS

None

None

BTS

None

YES

BSC

None

None

None

None

None

None

None

NO

Cell

None

NOTSUPPORT

BSC

None

Cell

None This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

NOTSUPPORT

BSC

None

Cell

This Noneparameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT.

NO

BSC

None

NO

BSC

None

NO

BSC

None

T_20

Cell

None

None

NSE

None

None

NSE

None

None

None

None

None

BSC6900

None

ON

BSC6900

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

None

None

None

BTS

None

CLOSE

BTS

None

YES

SCTP link

None

10 SCTP link

None

BSC6900

None

OFF

0 BSC6900

None

OFF

BSC6900

None

OFF

BSC6900

None

OFF

BSC6900

None

OFF

BSC6900

None

OFF

BSC6900

None

0 BSC6900

None

0 BSC6900

None

0 BSC6900

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

Cell

None This parameter is valid only when "UTRANCELLTYPE" is set to TDD.

AISS

BTS

None

None

BTS

None

1 BTS

None

2 BTS

None

0 BTS

None

None

None

None

None

None

This Noneparameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.

10 Cell None

None

None

YES

BSC

None

None

None

None

None

None

None

3000 BSC

None

5 None

None

60000 MTP3 link

None

1500 MTP3 link

None

1500 MTP3 link

None

3000 MTP3 link

None

1500 MTP3 link

None

1200 MTP3 link

None

as follows: "Ring II Wait Time Before Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 12; "T203" = 1; and "N200" = 3. When the transmission quality is bad, the recommended settings are as follows: "Ring II Wait Time Before3000 BSC Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating 5 None Penalty Time" = 0; "T200" = 24; "T203" = 3; and "N200" = 3. BTS When the transmission quality is 50 Cell good, the recommended settings are as follows: "Ring II Wait Time Before 50 Cell Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating 200 Cell Penalty Time" = 0; "T200" = 12; 60 Cell "T203" = 1; and "N200" = 3. When the transmission quality is bad, the recommended settings are as 150 Cell follows: "Ring II Wait Time Before 60 Cell Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating 60 Cell Penalty Time" = 0; "T200" = 24; "T203" = 3; and "N200" = 3. BTS

None None The value of this parameter must be smaller than "T203". None None None None None None None The value of this parameter must be greater than "T200".

360000 MTP3 link

None

360000 MTP3 link

None

2000 MTP3 link

None

10000 BSC 5 None

None The value of this parameter must be smaller than or equal to "Time2[S]".

7 Cell

None

10 Cell

None

500ms

Cell

None

500ms

Cell

None

20 Cell

None

10 BC

None

1200 MTP3 link

None

5000 BSC

None

1200 MTP3 link

None

1000 BSC

None

1200 MTP3 link

None

3000 BSC

None

3000 BSC

None

1200 MTP3 link

None

4 Cell NO

Cell

YES

Cell 0 Cell

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

63 Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "TAHOEN" is set to YES. The following condition must be met: "TASTATTIME" >= This parameter is valid only when "TALASTTIME". "TAHOEN" in "SET GCELLHOBASIC" is set to YES. This parameter is valid only when "HOCTRLSWITCH" in "SET None This parameter is valid GCELLHOBASIC" is setonly to when "TAHOEN" is set to YES and HOALGORITHM2. "HOCTRLSWITCH" is set to HOALGORITHM2. The following None This parameter is valid when condition must be met: only "TASTATTIME" "IUOTP" in "ADD GCELL" is set to >= "TALASTTIME". Concentric_cell. The following condition must be met: "TALIMIT" > "TATHRES".

10 Cell

None

10 Cell

None

1 Cell 255 Cell 0 Cell 2 Cell None

BSC6900 1 Cell

None

BSC6900

None

None

None

None This meet following This parameter parameter must is valid onlythe when requirements: "FallBack Start Time" > "OMLBKUP" is set to YES. "Ring I Wait Time Before Switch" + "Ring I Try Rotating Duration Time".

90 BTS 90 BTS 170 MTP3 link

None

4000 BSC

None

80 BTS

None

ON

BSC

None

NO

TRX

None

60 Cell

None

40 Cell

None

6 Cell

None

55 Cell

None

40 Cell

None

6 Cell

None

55 Cell

None

2 Cell 3 Cell YES

BSC

70 Cell 10 MTP3 link

None

MTP3 link

None

Cell 60 Cell

None

None "TCHTRICBUSYOVERLAYTHR" and None "TCHTRIBUSYUNDERLAYTHR" can be "TCHTRICBUSYOVERLAYTHR" and set only when None "TCHTRIBUSYUNDERLAYTHR" can "HRIUOLDRATESELALLOW" is set tobe set only when YES. "HRIUOLDRATESELALLOW" is set to YES.

60 Cell OFF

This Noneparameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

DISABLE

Cell

None

None

BTS Control plane link

None

None

None

Cell Control plane link Control plane link

None

None

None

None

Cell

None

None

Cell

None

0 Cell

None

8 Cell

None

0 Cell

None

Cell

None

0 Cell

None

NO

Cell

None

NO

Cell

None

10 Cell

None

None

Cell

None

None

Cell

None

NO

Cell

None

None

Cell

None

None None None

None

None

None None

20 BSC6900

None

15 BSC6900 Control plane link Control plane link

None

63 PBSL

None

None

None

None

None

None

None

None

None

None This parameter must be at least 3C greater than "Lower ENV TEMP Alarm". This parameter must be at least 4C greater than "Lower ENV TEMP Alarm". This parameter must be at least 3C lower than "Upper ENV TEMP Alarm". This parameter must be at least 4C lower than "Upper ENV TEMP Alarm".

None None

500 BTS 500 BTS 0 BTS 0 BTS 800 BTS

None None

None

None

Cell

None

None

None

None

None

None

None

None None For EPS4815 boards, the value of this parameter is always "-1". For 65 BTS other types of APMU boards, the recommended value is "-100". BTS

None

-100 BTS

None None

None

Cell

None The maximum length of this parameter is decided by "SCHEME": When None "SCHEME" is set to BINARY, the length of this parameter should not extend None 2462 bytes; otherwise, the length should not extend 1395 bytes.

OFF

Board

None

None

None

None

YES

BSC 30 BSC

65535 Cell

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

None

None

BSC6900

None

None

5000 BSC

None

264 BTS

None

264 BTS

None

10 Cell

None

6 Cell

None

4 Cell

None

8 Cell

None

4 Cell

None

3 Cell

None

6 Cell

None

3 Cell

None

2 Cell

None

BSC6900 5 BSC 30 Cell

None This Noneparameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON.

1 Cell 4 Cell 80 Cell 6 Cell 3 Cell OFF

Cell 40 Cell 5 BSC

This parameter is valid only when "TIGHTBCCHSWITCH" in "SET This parameter is valid only when GCELLCHMGBASIC" is set"SET to ON. The "TIGHTBCCHSWITCH" in following condition must be met: GCELLCHMGBASIC" set when to ON. This parameter is validisonly "TIGHTBCCHHOSTATTIME" >= "TIGHTBCCHSWITCH" in "SET This parameter is valid only when "TIGHTBCCHHOLASTTIME". GCELLCHMGBASIC" set"SET to ON. The "TIGHTBCCHSWITCH"is in following condition must be met: GCELLCHMGBASIC" is set to ON. "TIGHTBCCHHOSTATTIME" >= This parameter is valid only when "TIGHTBCCHHOLASTTIME". "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON. None None This parameter is valid when "MSCPOOLALLOW" is set to YES.

NOLIMIT

BSC6900

None

None

BSC6900

None

None

BTS

None

10 Cell

None

10 Cell

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

10 Cell 2000 Ethernet port

None

3000 None

None

2 Ethernet port

None

2 Ethernet port

None

2 BTS

None

10 Cell

None

4 Ethernet port NO

Cell 30 Cell 40 Cell 8 Cell 5 BSC

None

BSC6900

If "Power System Type" is None Subsystem "EPS4815", the recommended value is "0". For other types of Power 45 BTS System, the recommended value is "19". BTS -20 BTS

None None This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. None This parameter is valid when "MSCPOOLALLOW" is set to YES. None This parameter is valid only when "IDXTYPE" is set to BYTLLI. None The Nonevalue of this parameter must be at least two degrees smaller than "Temperature Alarm Upper Threshold".

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

The NoneTRMMAP index is configured by setting the value of "TMI" in "ADD TRMMAP".

None

BC

None

None

None

None

3 Cell

None

None

BSC6900

None

None

BSC

None

None

BSC6900

None

12000 MTP3 link

None

60000 MTP3 link

None

None

BSC6900

None

TRRS

ATERCONSL

None

None

PBE1T1

None

None

BSC6900

None

0 Cell

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BTS

None

8 Cell

None

60 Board

None

67 Board

None

50 Board

None

62 Board

None

Board

None

ON

5 BSC

None

5 BSC

None

M3UA_LOADSHARE_MOD

SCCP

None

None

BTS

None

None

BSC

None

None

IP path

None

BSC6900

None

BSC6900

When None the value of "ITFT" in "ADD TRMMAP" is set to IUB, IUR or IUCS, When the valueisofvalid. "ITFT" in "ADD this parameter TRMMAP" is set to IUB, IUR or IUCS, this parameter is valid.

None

BSC6900

None

None

BTS

None

NO

BTS

None

NO

BTS

None

NO

BTS

None

NO

BTS

None

None

None

None

10sec

Cell

This Noneparameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.

90 Cell None

Ethernet port

None

None

BSC6900

None

None

Ethernet port

None

None

BSC6900

None

2 BSC6900

None

2 BSC6900

None

BSC6900

None

None

2 PPP link 2 None 2 IP logical port 0 None

None The TRM load threshold parameter must None meet the following conditions: forward congestion recovery threshold < logical None port bandwidth, backward congestion recovery threshold < logical port bandwidth.

None

BTS

None

None

IP logical port

None

None

None

None

None

Ethernet port

None

AllowReCheckRes

Cell

None

None

None

None

255 Physical channel None None

TRX

None

None

BTS

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

BSC

None

None

None

None

None

Physical channel None

None

TRX

None

None

BTS

None

None

TRX

None

None

TRX

None

YES

Cell

None

None

TRX

None

E1/T1 link

None

E1/T1 link

When None the value of "OPMODE" of "BLK ATERE1T1" is BYCICVALUE, the value When the value of set. "OPMODE" of "BLK of TS needs to be AE1T1" is BYCICVALUE, the value of TS needs to be set.

None

Cell

None

None

BC

None

None

BTS

None

None

PPP link

None

None

MP link

None

None

BTS

None

None

Cell

None

None

BTS

None

NO

Cell

None

None

E1/T1 port

None

None

None

None

None

BTS

None

None

BSC6900

None

None None None If the board is configured with two to NoneTRXs, the recommended value BTS None four of this parameter is 20. None BTS None If the board is configured with five TRXs, the recommended value of None PBSL None this parameter is 50. If this parameter is set to “16K”, "In-BSC If the board is configured with six 0 Physical channel Sub NoneTimeslot No." and "Out-BTS Sub TRXs, the recommended value of Timeslot mustFlux be 0,Measurement 2, 4, or 6. If The valueNo." of "Fast this parameter is 48. TRX None this parameter is set to “32K”, Period" cannot be greater than"In-BSC that of Sub No." and "Out-BTS Sub 5000 BSC "FastTimeslot Flux Measurement TBF Time". Timeslot No." must be 0 or 4. If this parameter is set to “64K”, "In-BSC Sub Open BSC None Timeslot No." and "Out-BTS Sub None BTS Timeslot No." must be 0. None

BTS

None

None

None

None

None

None

None

None

None

None

None

None

None

NO

BSC

None

None

BTS

None

64 Ethernet port

None

64 Ethernet port

None

Cell

None

Cell

None This is When "TURNOFFCELLSTPTIME" This parameter parameter is valid valid only only when when < "TURNOFFENABLE" is set to "TURNOFFCELLSTRTIME", indicates "TURNOFFENABLE" is set toitENABLE ENABLE. or SLEEPING. The following condition that the Dynamic Cell Power Off feature must beenabled met: for more than a day. can be "TURNOFFCELLSTPTIME" < "TURNOFFCELLSTRTIME"..

DISABLE

Cell

None

6 Cell

80 Cell 50 BTS 68 BTS

TX_32

5 BSC6900

None

10 BSC6900

None

5 BSC6900

None

10 BSC6900

None

5 BSC6900

None

5 BSC6900

None

5 BSC6900

None

Cell

None

0 Board

None

0 Board

None "GRPT" in "ADD RSCGRP" is set When to ATM or "BWMODE" is set to None FULL_DUPLEX, this parameter is valid;The sum of "TxBw" and "RxBw" in None "ADD RSCGRP" of upper class RSCGRP can not less than the "TxBw" None and "AllBw" in "ADD RSCGRP"of lower None RSCGRP;The "TxBw" in "ADD class RSCGRP" of upper class RSCGRP can None not less than the "TxBw" in "ADD RSCGRP" of lower class RSCGRP, and None the "RxBw" in "ADD RSCGRP" of upper class None RSCGRP can not less than the "RxBw" in "ADD RSCGRP" of lower class RSCGRP.

0 Board 0 Board 0 Board 0 Board 0 Board 0 Board None None

This parameter is valid only when The value of this parameter must be "TURNOFFENABLE" is set to ENABLE. smaller than "Temperature Alarm Lower The value of this parameter must be at Threshold". least two degrees greater than "Temperature Alarm Lower Threshold".

IP path Transmission resource group 500 Ethernet port

None

T_20

Cell

None

None

None

None

ANY_ERR_RETURN

BSC6900

None

None

Cell

None

None

BSC

None

Cell

None

BTS

None The value range of this parameter varies None with BTS type. Different types of BTSs support different types of cabinets.

None

Cell

None

0 BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

0 BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

6 BSC

None

0 BSC

None

1 BSC

None

1 BSC

None

10 BSC

None

3 BSC

None

15 BSC

None

5 BSC

None

15 BSC

None

13 BSC

None

13 BSC

None

OFF

MSC

None

NO

BSC

None

6 BSC

None

0 BSC

None

1 BSC

None

1 BSC

None

10 BSC

None

3 BSC

None

15 BSC

None

1 BSC

None

15 BSC

None

13 BSC

None

13 BSC

None

OFF

MSC

None

None

None

None

None

None

None

None

NSE

None

None

NSE

None

Guests

BSC6900

None

80 BTS

None

64 Cell

None

1000 E1/T1 port None

None

None

BTS 3 Cell 14 Cell 14 Cell 16 Cell 16 Cell 1 Cell

1 Cell In Abis over TDM transmission, the recommended value is 180; in Abis 5 BSC over IP transmission, the recommended value is 200. Cell 15 BSC 10 Cell 20 BSC 32 BSC 3 Cell 16 Cell 16 Cell 18 Cell 18 Cell 2 Cell 3 Cell 3 Cell 3 Cell 4 Cell 15 Cell 2 Cell

None None This parameter is valid only when "PWRCTRLSW" "SET This parameter isinvalid only when None This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" in "SET "PWRCTRLSW" in "SET The following condition must be met: GCELLPWRBASIC" is set PWR3. This parameter is valid onlyto GCELLPWRBASIC" is set towhen PWR3. "ULAFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SETmust be met: The following condition "ULAFSREXQUALLOWTHRED". This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "ULAFSREXQUALHIGHTHRED" >= This parameter isinvalid only when "PWRCTRLSW" "SET The following condition must be met: "ULAFSREXQUALLOWTHRED". "BETTERCELLHOEN" is set YES GCELLPWRBASIC" is set to to PWR3. "ULAHSREXQUALHIGHTHRED" >= This parameter is valid only when and "HOCTRLSWITCH" is set to The following condition must be met: "ULAHSREXQUALLOWTHRED". "BETTERCELLHOEN" set to YES HOALGORITHM2. The isfollowing "ULAHSREXQUALHIGHTHRED" >= and "HOCTRLSWITCH" is set to condition must be met: "ULAHSREXQUALLOWTHRED". HOALGORITHM2. "ULBQSTATTIME" The >= following condition must be met: "ULBQLASTTIME". "ULBQSTATTIME" >= "ULBQLASTTIME". None None This Noneparameter is valid when "FRINGEHOEN" is set to YES or "RXQCKFALLHOEN" is set to YES. None This parameter is valid only when "PWRCTRLSW" "SET This parameter isinvalid only when None This parameter is valid onlytowhen GCELLPWRBASIC" is set "PWRCTRLOPTIMIZEDEN" isPWR3. set to "PWRCTRLSW" in "SET The following condition must be met: YES. This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "ULFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SET The following condition must be met: "ULFSREXQUALLOWTHRED". This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "ULFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SETmust be met: The following condition "ULFSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. "ULHSREXQUALHIGHTHRED" >= The following condition must be met: "ULHSREXQUALLOWTHRED". The setting of this parameter must "ULHSREXQUALHIGHTHRED" >=meet the following condition: "ULTHF1" "ULHSREXQUALLOWTHRED". + The setting of
55 Cell

The setting of this parameter must meet the following condition: "ULTHWB1" + "ULHYSTWB1" < "ULTHWB2" + This parameter is valid only when "ULHYSTWB2". "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and None "UPPCEN" in "SET This parameter is validisonly when GCELLBASICPARA" set to YES. "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" in "SET This parameter is valid only when GCELLPWRBASIC" is set PWR3. This parameter isinvalid onlytowhen "PWRCTRLSW" "SET "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and None This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR2. "UPPCEN" in "SET "PWRCTRLSW" in "SET The following condition must be met: GCELLBASICPARA" is set to YES. GCELLPWRBASIC" is set to PWR2. "ULQLOWTHRED" >= This parameter is valid only The following condition mustwhen be met: "ULQHIGHTHRED". "PWRCTRLSW" in "SET "ULQLOWTHRED" >= GCELLPWRBASIC" "ULQHIGHTHRED". is set to PWR2 and This parameter is valid when "UPPCEN" in "SET "PWRCTRLSW" in theis"SET GCELLBASICPARA" set to YES. This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. This parameter is valid only when GCELLPWRBASIC" command is set to "BQHOEN" in "SET GCELLHOBASIC" PWR2. is set to YES and "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES.

60 Cell

None

55 Cell

This parameter is valid only when None This parameter isinvalid only when "PWRCTRLSW" "SET "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. This parameter isinvalid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" "SET "PWRCTRLSW" in "SET The following condition must be met: GCELLPWRBASIC" is set to PWR3. GCELLPWRBASIC" is set to "ULREXLEVHIGHTHRED" >=PWR3. The following condition must be met: "ULREXLEVLOWTHRED". "ULREXLEVHIGHTHRED" >= This parameter is valid only when "ULREXLEVLOWTHRED". "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. "PWRCTRLSW" in "SET This parameter is valid onlytowhen GCELLPWRBASIC" is set PWR3. This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to "PWRCTRLSW" in "SET This parameter is valid only when YES. This parameter is valid onlytowhen GCELLPWRBASIC" is set "PWRCTRLOPTIMIZEDEN" isPWR2. set to "PWRCTRLSW" in "SET The following condition must be met: YES. The setting of this parameter must meet GCELLPWRBASIC" is>=set to PWR2. "ULSSHIGHTHRED" the following conditions: The following condition must be met: "ULSSLOWTHRED". The setting= the following conditions: "ULSSLOWTHRED". The setting< this parameter must meet+ "ULTHF2" "ULTHF1" +of"ULTHF3"; "ULHYSTF1" < "ULTHF2" the following conditions: "ULHYSTF2". The setting< this parameter must meet+ "ULTHF2" "ULTHF2" +of"ULTHF3"; "ULHYSTF2" < "ULTHF3" the following conditions: "ULHYSTF3". The setting+
2 Cell 90 BSC 5 Cell 6 Cell 8 Cell 100 BSC 0 Cell 0 Cell 3 Cell 5 Cell 3 Cell 5 Cell

3 Cell 3 Cell 18 Cell 18 Cell 1 Cell 6 Cell 3 Cell 1 Cell 6 Cell 75 Cell 30 Cell 18 Cell 15 Cell 19 Cell 28 Cell 23 Cell 31 Cell 63 Cell 21 Cell

The setting of this parameter must meet the following conditions: "ULTHWB1" < "ULTHWB2"; 25 Cell YES

Cell 32 BSC

NO

Cell

"ULTHWB1" + "ULHYSTWB1" < This parameter is valid only when "ULTHWB2" + "ULHYSTWB2". "IUOTP" in "ADD GCELL" is set to Concentric_cell. None None

It is recommended that the value of10 Cell this parameter is the same as that for "A Interface Tag". BSC

Generally, the value of this parameter is None equal to "A Interface Tag" and "Abis Interface Tag".

None

None

E1/T1 port 3 BSC

None

40 BTS

None

40 BTS

None

40 BTS

None

60 BTS

None

60 BTS

None

60 BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

Cell

None

CS1

Cell

None

MCS2

Cell

None

20 Cell MCS6

Cell

UNFIXED

Cell

None This parameter is valid only when "EGPRS2A" is set to YES. This parameter is valid only when "EGPRS2A" is set to YES.

2000 Cell

None

UNFIXED

Cell

None

UNFIXED

Cell

None

40 Cell

None

30 Cell

None This parameter is valid only when "ENABLE" is set to YES.

30 BTS None

BTS

None

YES

Cell

None

None

Transmission resource group

None

None 4 Cell 6 Cell 5 Cell

NO

When "ISFIRSTCLASSE" in "ADD RSCGRP" is set to NO, this parameter is valid. The Nonefollowing condition must be met: "UPRXLEVSTATICTIME" >= "UPRXLEVLASTTIME". The Nonefollowing condition must be met: "UPRXLEVSTATICTIME" >= "UPRXLEVLASTTIME".

Cell

None

120 Cell

None

10 Cell

None

5 Cell

None

5 Cell

None

5 Cell

None

2 Cell

None

2 Cell

None

PERMIT

Cell

None

None

BSC

None

NOTSUPPORT

BSC

None

None

BSC6900

None

None

None

None

None

BTS

None

None

BTS

None

50 BTS 3 Cell 10 Cell 35 Cell NO

Cell 5 Cell 5 Cell

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to This parameter is valid only when Concentric_cell. "IUOTP" in "ADD GCELL" is set to This parameter is valid only when EDB_cell. "IUOTP" in "ADD GCELL" is set to This parameter is valid only when EDB_cell. "IUOTP" in "ADD GCELL" is set to This parameter is valid only when EDB_cell. "IUOTP" in "ADD GCELL" is set to This parameter is valid only when EDB_cell. "IUOTP" in "ADD GCELL" is set to EDB_cell.

None

Cell

None

None

BTS

None "VGCSRSRVNUM"" <= "VGCSMAXNUM"。

255 Cell No_Priority

Cell 0 Cell 95 BSC

NO

Cell

None "VGCSRSRVNUM"" + PDTCH Number <= Cell total service Channels None None

LEVEL0

None 90 BSC

None None

DISABLE

IP path

None

None

BSC6900

None

DISABLE

SCTP link

None

DISABLE

SCTP link

None

None

BSC6900

None

None

Ethernet port

None This parameter is valid only when "VLANSWITCH" is set to YES.

2 BTS None

Ethernet port

None

None

BSC6900

None

None FULL_RATE_VER1None 1&FULL_RATE_VER21&FULL_RATE_VER30&HALF_RATE_VER11&HALF_RATE_VER2NO 0&HALF_RATE_VER30&FULL_RATE_VER5-0

BSC6900

None

BSC6900

None This parameter is valid only when "VLANSWITCH" is set to YES.

0 BTS BTS

None

Cell

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

YES

BTS

None

2 Cell

None

3 BTS

None This parameter must be at least 0.2 This parameter must be at least 0.2 smaller than "Serious VSW Alarm TH". greater than "Standing Wave Radio Alarm Threshold".

20 BTS 30 BTS

None

2 Cell

None

BTS

None

27000 Cell

None

34000 Cell

None

26000 Cell

Timer None of MS Location Response from MS
280 BSC 15 Cell

None

4 Cell 300 BSC

Timer None of MS Location Response from MS
INACTIVE

BTS

None

None

None

None

NOLIMIT

BSC6900

None

None

Cell

None

INACTIVE

BTS

None

None

None

None

None

BSC

None

None

BSC6900

None

M3UA_ASP

SCCP

None This parameter is valid only when "WLNKALMFLAG" is set to YES. This parameter is valid only when "WLNKALMFLAG" is set to YES. This parameter is valid only when "WLNKALMFLAG" is set to YES. This parameter is valid only when "WLNKALMFLAG" is set to YES.

22 TRX NO

TRX 12 TRX 8 TRX

NO

TRX

None

Active

BSC6900

None

GSM

BTS

None

None

None

None

None

E1/T1 port

None

E1

BTS

None

16 ATERCONSL 90 BTS 90 BTS MSP protect 600 group None

BSC6900

None This meet following This parameter parameter must is valid onlythe when requirements: "FallBack Start Time" > "OMLBKUP" is set to YES. "Ring I Wait Time Before Switch" + "Ring I Try Rotating Duration Time". None None

Access Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

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Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write Read & Write

Service Interrupted After Modification N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) If the value of this parameter is modified to "Lock", forced handover is triggered to hand the ongoing services on UE the in corresponding N (No impact on the idle mode) TRX to another TRX. Services will be disrupted if the If the valuefails. of this parameter modified to "Lock", forcedtohandover is triggered to hand the are handover If the value of is this parameter is modified "Shutdown", the ongoing services ongoing services on the corresponding channel to another channel. Services will be disrupted if not affected but new service accesses are not allowed. the handover fails. If the value of this parameter is modified to "Shutdown", the ongoing services are not affected but new service accesses are not allowed. N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y N (No impact on the UE in idle mode)

Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y Y Y Y Y Y Y Y Y Y Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Y

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved

Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y

Not involved Not involved Not involved N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y Y Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (Impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (Impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y Y Y Y Y Y Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y Y Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y

N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved

Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved

Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed. Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed. N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved

Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved

N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved If traffic handover fails after the modification of the parameter, the service is interrupted. N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode)

Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y

Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved Not involved N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Y Y Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

Y Y N (No impact on the UE in idle mode) Y Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved Not involved Y Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved

Not involved Not involved N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved N (No impact on the UE in idle mode) Not involved Y Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

Y N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y Y Y Not involved N (No impact on the UE in idle mode) Not involved Y

Y Y Y Not involved Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (Impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved N (No impact on the UE in idle mode)

Not involved Not involved Not involved Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y Y Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) Not involved Not involved Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Y Y Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y Y N (No impact on the UE in idle mode)

Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Y Y N (No impact on the UE in idle mode) Y Y

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Y Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y Not involved

Not involved Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) If traffic handover fails after the modification of the parameter, the service is interrupted. Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved Not involved N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y

N (No impact on the UE in idle mode) Y Not involved N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Y N (No impact on the UE in idle mode) Not involved Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

Not involved Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Y Not involved Y Y Y Not involved N (No impact on the UE in idle mode) Not involved Y Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode) Not involved Y N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) N (No impact on the UE in idle mode) Not involved N (No impact on the UE in idle mode)

Interruption Scope

Interruption Duration(Min)

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Channel

Not involved The services are disrupted until this parameter is set to Unlock. Services will be disrupted until the value of this parameter is changed to "Unlock". Services will be disrupted until the value of this parameter is changed to "Unlock".

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell TRX

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved Ethernet port

Interrupt the service until the correct Not involved gateway is set or the port swapping or the changing of IP route is finished.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved Interrupt the service until negotiate successfully again. Interrupt the service until negotiate successfully again.

PPP link BSC6900 PPP link BSC6900 BSC6900 PPP link PPP link BSC6900 PPP link PPP link BSC6900 PPP link

Less than 5 minutes Interrupt the service until negotiate successfully again. Interrupt the service until negotiate successfully again. Less than 5 minutes Interrupt the service until negotiate successfully again. Interrupt the service until negotiate successfully again. Less than 5 minutes Interrupt the service until negotiate successfully again. Interrupt the service until negotiate successfully again.

BSC6900

Less than 5 minutes Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved Optical port

Not involved If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved SCTP link

Not involved The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not Involved

IP path

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

IP path

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link

Not involved The services are interrupted until the SCTP link is working normally. The services are interrupted until the SCTP link is working normally. The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link SCTP link

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Channel

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not Involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

NSVC

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

BSC6900

Not involved Interrupt the service until negotiate successfully again. Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved Cell

PS Not service involvedof the cell will be interrupt until this parameter is set to "SupportAsInnPcu" or "SupportAsExtPcu.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved The services are interrupted until the signaling point is available.

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not Involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved Ethernet port

Not involved The loopback keeps interrupting the services until the loopback is cancelled.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Services are interrupted unless the NSVL Not involved configuration is the same as the SGSN configuration at the BSC.

NSE

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Not involved If the mode is not consistent, will interrupt service until it is consistent. If the mode is not consistent, will interrupt service until it is consistent. If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved If the mode is not consistent, will interrupt service until it is consistent.

BSC6900 BSC6900

BSC6900

BSC6900

If the mode is not consistent, will interrupt service until it is consistent. If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved Optical port

Not involved If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved Interrupt the service until negotiate successfully again.

BSC6900

BSC6900 Not involved BSC6900

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link SCTP link Not involved

The services are interrupted until the SCTP link is working normally. The services are interrupted until the SCTP link is working normally.

SCTP link

Not involved The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link

Not involved The services are interrupted until the SCTP link is working normally. The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

E1/T1 port

Not involved When the peer end unconditionally changes the bits in the check message, the Not involved services will not resume unless the switch is set to OFF.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Not involved The loopback keeps interrupting the services until it is cancelled. The loopback keeps interrupting the services until it is cancelled.

Not involved

Not involved

SCTP link

Not involved

E1/T1 port

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

IP path

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

IP path

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved Cell

Not involved Services are disrupted until the cells are redistributed successfully.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved The services are interrupted until the SCTP link is working normally.

SCTP link

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

PPP link

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved PPP link

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved PPP link

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved SCTP link

Not involved The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Not involved If the value is too big, will interrupt service until it is set to the normal value. Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Ethernet port

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 15 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

PPP link

SCTP link

Less than 5 minutes The services are interrupted until the SCTP link is working normally. The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved SCTP link

Not involved The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Not involved Interrupt the service until negotiate successfully again. Interrupt the service until negotiate successfully again.

PPP link

Less than 5 minutes

NSE

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Ethernet port

Not involved The loopback keeps interrupting the services until the loopback is cancelled. The loopback keeps interrupting the services until the loopback is cancelled.

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link

PPP link

Ethernet port

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BC

Services are interrupted until the parameter Not involved is consistent with the SGSN at the peer end.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

NSE

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Not involved Interrupt the service until negotiate successfully again. Interrupt the service until negotiate successfully again. Interrupt the service until negotiate successfully again. Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900 BSC6900 BSC6900

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

NSE

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved The services are interrupted until the signaling point is available.

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Not involved If the mode is not consistent, will interrupt service until it is consistent. The services are interrupted until the M3DE is available.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 10 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC

Services are interrupted until the parameter Not involved is set to ALLOW or the cell is configured with a new SGSN.

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved NSE

Not involved Services are interrupted until "SIGLW" is not set to 0.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Not involved The services are interrupted until the signaling point is available. The services are interrupted until the signaling point is available.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved BSC6900

Not involved Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Subrack connection path

Less than 5 minutes

Subrack connection path

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved NSE

Not involved Services are interrupted until "SRVLW" is not set to 0.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Subrack connection path

Less than 5 minutes

Subrack connection path BSC

Less than 5 minutes The services are interrupted until the PBSL is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not Involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

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Cell

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PPP link

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Not involved The services are interrupted until the PBSL is working normally.

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Not involved NSE

Services are interrupted unless the NSVL Not involved configuration is the same as the SGSN configuration at the BSC.

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IP path

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BSC6900

Not involved The services are interrupted until the SCTP link is working normally. The services are interrupted until the SCTP link is working normally. If the mode is not set back, will interrupt service until it is set back.

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BSC6900

Not involved If the mode is not set back, will interrupt service until it is set back. If the mode is not set back, will interrupt service until it is set back.

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SCTP link SCTP link

BSC6900

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Caution

None The value of this parameter must be greater than five times the maximum value of the following parameter: "Filter Length f Length None for TCH Level", "Filter Length for TCH Qual", "Filter Length for TA", "TA filter length for SDCCH level". If the param parameter must be greater than five times the value of "IBCA Assign Waiting Mr Time". If the parameter Waiting for "MR o parameter must be greater than the value of "Duration for Waiting MR on SDCCH". None None None None

None This parameter should be set to ON when the transmission delays of different 64 kbit/s timeslots are different over the Abis transmission delays usually occur in the DXX network mode or when the transmission paths of multiple E1 links are differe None None None None None

If this parameter is set too high, a normal voice may be considered abnormal. If this parameter is set too low, an abnormal None None None None None None None None None

The Nonenumber of the chosen data rates must be from one to four. If this parameter involves only one full rate coding rate, the adjustable thresholds and hysteresis of AMR coding rate make no sense. The of the chosentwo data ratesrates, must be to four.Starting If this parameter involves rateofcoding rate, thp None If thisnumber parameter involves coding thefrom valueone of "AMR Mode[F]" can be 0 only or 1;one the half values the following adjustable thresholds and hysteresis of AMR coding rate make no sense. thresholds and hysteresis of AMR coding rate do not: "AMR UL Coding Rate adj.th1[F]", "AMR UL Coding Rate adj.hyst1[F None If thisadj.hyst1[F]". parameter involves two coding rates, the value of "AMR Starting Mode[H]" can be 0 or 1; the values of the following Rate The number of the chosenthree rates must bethe from one three. If this parameter involves one coding rate,ofadj.hyst1[H the thresholds and hysteresis ofdata AMR coding rate do not: "AMR UL Coding Rate adj.th1[H]", UL Rate If this parameter involves coding rates, value ofto"AMR Starting Mode[F]" can be"AMR 0,only 1,isor 2;Coding the values thevalue follow This parameter is valid only when "BSSPAGINGCOORDINATION" in "SET GCELLPSBASE" set to YES. adjustable thresholds and hysteresis of AMR coding rate make no sense. Rate adj.hyst1[H]". thresholds and hysteresis of AMR coding rate do not: "AMR UL Coding Rate adj.th1[F]", "AMR UL Coding Rate adj.hyst1[F ACS usually set to 0 because system information 7 and 8 messages are seldom can usedbein0common cells. ACS should be s If thisis parameter involves twoCoding coding rates, the or values of the followin If this parameter involves three coding rates, thevalue valueof of"AMR "AMR StartingMode[WB]" Mode[H]" can be 0,"AMR 1, 1; or the 2; the values of the follow Rate adj.hyst1[F]", "AMR UL Rate adj.th2[F]", "AMR ULStarting Coding Rate adj.hyst2[F]", DL Coding Rate adj.th2[F a cell and C2 is used for cell reselection. thresholds and hysteresis hysteresis of AMR AMR coding raterates, do not: not: "AMR UL Coding Rate adj.th1[H]", adj.th1[WB]", "AMR Rate adj.hyst1 thresholds and of coding rate do "AMR Rate Coding Rate adj.hyst1[H If this parameter involves four full rate coding the valueUL of Coding "AMR Starting Mode[F]" "AMR can beUL 0,UL 1,Coding 2, and 3; all the adju Coding Rate adj.hyst1[WB]". Rate adj.hyst1[H]", "AMR UL Coding Rate adj.th2[H]", "AMR UL Coding Rate adj.hyst2[H]", "AMR DL Coding Rate adj.th2[ sense. If coding value "AMRofStarting Mode[WB]" can be 0, be 1, or values ofthe theadju foll If this this parameter parameter involves involves three four half rate rates, codingthe rates, theofvalue "AMR Starting Mode[H]" can 0, 2; 1, the 2, and 3; all thresholds and hysteresis of AMR coding rate do not: "AMR UL Coding Rate adj.th1[WB]", "AMR UL Coding Rate adj.hyst1 sense. Coding Rate adj.hyst1[WB]", "AMR UL Coding Rate adj.th2[WB]", "AMR UL Coding Rate adj.hyst2[WB]", "AMR DL Coding adj.hyst2[WB]". None

None None None None None None None None None None. None None None None None None None None None None None None None None None None None None None None None None None With a good anti-interference capability, AMR codes can support a lower carrier-to-interference ratio than non-AMR codes improves. In this case, the value of this parameter can be a little larger than that of "Radio Link Timeout".

With a good anti-interference capability, AMR codes can support a lower carrier-to-interference ratio than non-AMR codes improves. In this case, the value of this parameter can be a little larger than that of "SACCH Multi-Frames". The parameter cannot be modified. None With a good anti-interference capability, AMR codes can support a lower carrier-to-interference ratio than non-AMR codes improves. In this case, the value of this parameter can be a little larger than that of "Radio Link Timeout". With a good anti-interference capability, AMR codes can support a lower carrier-to-interference ratio than non-AMR codes improves. In this case, the value of this parameter can be a little larger than that of "SACCH Multi-Frames". None None None None None None

None If this parameter is set to a greater value, TRX mutual aid may not be triggered promptly in the case of BCCH TRX failure a smaller value, mutual aid may be decided mistakenly. None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None This parameter is valid only when "SUPPORTEDA" is set to SUPPORT. None None None None None None None None None None None None None None None None None None None None None None None None None

None The parameter cannot be modified. None The parameter cannot be modified. None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None The parameter cannot be modified. The adjacent node ID must be configured. None None None

None None None None None None None None The parameter cannot be modified. None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. This parameter is valid only when "AqmSwitch" is set to OPEN. This parameter is valid only when "AqmSwitch" is set to OPEN. This parameter is valid only when "AqmSwitch" is set to OPEN. This parameter is valid only when "AqmSwitch" is set to OPEN. This parameter is valid only when "AqmSwitch" is set to OPEN. This parameter is valid only when "AqmSwitch" is set to OPEN. None This parameter is valid only when "AqmSwitch" is set to OPEN. None None None None None None To modify this parameter, run "STP GATEWAYCHK" first and then "STR GATEWAYCHK". To modify this parameter, run "STP GATEWAYCHK" first and then "STR GATEWAYCHK". The parameter cannot be modified. None The parameter cannot be modified. None

None Before enabling this function, ensure that the parameter "Directed Retry" of the cell is set to YES. To obtain MRs on the SD MR on SDCCH Switch" and "IBCA Allowed" to YES. None None None None None None None None None None None None None None None None None None None None None None None The parameter cannot be modified. None The parameter cannot be modified. The parameter cannot be modified. None None The parameter cannot be modified. None None

The parameter cannot be modified. The ATT must be set to the same value for different cells in a same location area. If not, some MSs after power-on may no specified by "T3212". None None None None None Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends.

The port can be set to the DOWN or UP state when this parameter is modified. If the negotiation modes on the local and p None None None

If this parameter is set to YES, the BSC load is increased early in every morning. The auto negotiation mode of FE port on the IP-based interface board should be consistent with that of the port on the pee disconnection. None None None If the mode is not consistent, will interrupt service until it is consistent. None None None None None

None None

Each backplane board 8K clock has only one clock source. You are not allowed to turn on the same backplane board 8K c

Each backplane board 8K clock has only one clock source. You are not allowed to turn on the same backplane board 8K c None None None None None To modify this parameter, run "STP GATEWAYCHK" first and then "STR GATEWAYCHK". To modify this parameter, run "STP GATEWAYCHK" first and then "STR GATEWAYCHK". None None None None None None None None None None None None None

None The parameter modification should be negotiated with the peer end, and the BSC6900 should be reset after the modificatio modified when the system is running. None None None None None None None None

None None None None None None None None None None The parameter cannot be modified. None None None None None None None The parameter cannot be modified. None None None None None None None

None To disable the alarm blink filter function, set this parameter to "0". To enable the alarm blink filter function, set this paramet switch. See "SET ALMBLKSW" for setting the alarm blink filter switch.

To enable the alarm blink filter function, set "Alarm switch of blinking filter" and "Switch of stat blinking alarm" to "ENABLE" None None None The parameter cannot be modified. The parameter cannot be modified.

The parameter cannot be modified.

If the value of this parameter is too small, the SCUs of the TC subrack may remain congested. If the value is too large, the The parameter cannot be modified. None None None None None When the M900/M1800 BSC is upgraded to BSC6000, this parameter needs to be set to 69. If this parameter is not set to parameter is invalid. None None None None None None None None None None None None The parameter cannot be modified. None None None None None None None None As defined in the protocol, the value of this parameter cannot be 0 in the following cases: The NoneBSC needs to send system messages over the extended BCHs. CBCHs are configured. When the GSMR is enabled, NCHs are configured. None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None

None A paging block (four continuous CCCH timeslots) can bear IMSI paging TMSI pagingbalance messages, or tw If "MR.Preprocessing" is set to BTS_Preprocessing and thistwo parameter is setmessages, to NO, thefour uplink-downlink associate downlink is faulty when an MS is idle, the rule of downlink failure is based on the signaling downlink failure counter DSC. W algorithms that require power compensation are improper, such as PBGT handover, load handover, and concentric cell ha integer the closest to 90/N ("N" is BS_PA_MFRMS, number of multiframes in a cycle on a paging sub-channel, whose valu messages over its paging sub-channels: Every time the MS succeeds in encoding a message, the DSC increases by 1 but None encoding a message, the DSC decreases by 4. If the DSC is smaller than or equal to 0, a signaling downlink failure occurs varies with the BTS types. None None None None

This parameter is valid on a per cell basis and is valid only when "ACOOPERATPAGINGSWITCH" in the "SET BSCPSSO None None None If certain link is occupied, conversion from E1 to T1 or from T1 to E1 cannot be performed. None

The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None The parameter cannot be modified. The parameter cannot be modified. None None None None The parameter cannot be modified. None The parameter cannot be modified.

None If BTS Bar Code is incorrect, the OML between the BTS and the BSC cannot be established. In this case, no alarm or stat BTS is replaced, you need to set a new BTS bar code for the BTS on the BSC. None None This parameter cannot contain #. None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None None None None None This parameter can be set to BTS_Preprocessing only when the BTS supports the configured power control algorithm. None The parameter cannot be modified. None

This parameter is required only by BTSs in IP transmission mode. None None

For a double-transceiver BTS or an NGBTS, the initial value is ON. For a BTS of any other type, the initial value is OFF an None None The parameter cannot be modified. The parameter cannot be modified. None None None None None None The parameter cannot be modified. None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None None None None

None None None The parameter cannot be modified. None None None None None None The parameter cannot be modified. The parameter cannot be modified.

If the value of "Cell Bar Access" is YES and the value of "Cell Bar Qualify" is NO, new call access is prohibited but handov The parameter cannot be modified. None None None None

If the value of "Cell Bar Access" is YES and the value of "Cell Bar Qualify" is NO, new call access is prohibited but handov None None None None None None None None None The parameter cannot be modified. None None None None None

None None This parameter applies to only the EDGE trx. None None None None None None None None None None None None None None None None None None None None

None The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing assignment complete messages containing cell lists, set this parameter to YES; otherwise None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None The congestion start threshold must be greater than the congestion end threshold. The congestion start threshold must be greater than the congestion end threshold. None None None The congestion start threshold must be greater than the congestion end threshold. The congestion start threshold must be greater than the congestion end threshold. The congestion start threshold must be greater than the congestion end threshold. None None

None None This function can be activated only when the "Switch for Abis Timeslot Detection" is "ON". None None

None The purpose of setting this parameter is to avoid call connection failure when an MS supporting the full rate channel only r rate channel only requests a full rate channel. In this way, the BSC can easily interconnect with an MSC of another vendor None When the network status is poor, the check count should not be too small. Otherwise, the path state is affected. None None None The parameter cannot be modified. None This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. The checksum mode need the negotiation with the peer. According to the RFC4960, the value should be set to CRC32. The checksum mode need the negotiation with the peer. According to the RFC4960, the value should be set to CRC32. None The parameter cannot be modified. None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT None None None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing assignment complete messages containing the Chosen Channel, set this parameter to YE The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing handover performed messages containing the Chosen Channel, set this parameter to YES The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing HO REQ ACK messages containing the Chosen Channel, set this parameter to YES; othe

The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process

The The setting of this parameter needs negotiation with the opposite network element MSC. The setting setting of of this this parameter parameter needs needs negotiation negotiation with with the the opposite opposite network network element element MSC. MSC. In In this this way, way, the the MSC MSC can can process process SENDING: The HO REQ ACK message contains the Chosen Encryption Algorithm. complete message contains the Chosen Encryption Algorithm only when the encryption algorithm used by an MS in two ce NOSENDING: HO REQ ACK message does not contain the Chosen Encryption Algorithm. this parameter The is YES. SYSTEMOPT: If the encryption algorithm used by an MS in two cells changes before and after a handover, the HO REQ A otherwise, the message does not. None

None None None

The smaller the value of this parameter is, the more sensitively the BSC controls the arrival rate of channel request messa None None The CI can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214. 1. The block of A interface must be configured. 2. If A over IP is configured, the configuration does not support the operation. The parameter cannot be modified. None None None None None

The The setting setting of of this this parameter parameter needs needs negotiation negotiation with with the the opposite opposite network network element element MSC. MSC. In In this this way, way, the the MSC MSC can can process process NOSENDING: The assignment failure message does not contain the Circuit Pool List. SENDINGPRO: If the cause value assignmentwith failure "Circuitnetwork pool mismatch" "Switch circuit the assignment The setting of this parameter needsofnegotiation the is opposite element or MSC. In this way,pool", the MSC can process message does not. SENDING: The assignment failure message contains the Circuit Pool List without restriction.

The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC does not support process assignment complete messages containing the Circuit Pool, the value YES of this pa The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC does not support process assignment complete messages containing the Circuit Pool, the value YES of this pa None None None None None None None None None

If you want to modify the value of "Clock board type" from "GCGa" to "GCUa", the board must not be configured with GPS. None None None None

None None None The parameter cannot be modified. None None None None None None None None The value of this parameter cannot be changed. None None None None

1. If you set "Upper count threshold of raised fault" and "Lower count threshold of raised fault" to "0", the accumulated num None 2. If "Upper count threshold of raised fault" is not "0", the value of "Lower count threshold of raised fault" cannot be "0" and 1. If you set "Upper threshold of raisedoffault" andfault". "Lower count threshold of raised fault" to "0", the accumulated num fault" is greater thancount "Lower count threshold raised None 2. If "Lower count threshold of raised fault" is not 0, the value "Upper count of raised fault" cannot 0 and yo 3. When "Upper count threshold of raised fault" is not "0" and of "Alarm switch ofthreshold blinking filter" and "Switch of statbeblinking al smaller than "Upper count threshold of raised fault". to "0". Otherwise, blink statistics of the alarm is not performed. 3. When "Upper count threshold of raised fault" is not "0" and "Alarm switch of blinking filter" and "Switch of stat blinking al to "0". Otherwise, blink statistics of the alarm is not performed. None None None None None None None None None The parameter cannot be modified. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. None None None None None None None The parameter cannot be modified. The parameter cannot be modified. None This parameter cannot be set to YES for the TRX that carries the main BCCH. None This parameter is not supported by the BTS3001C and BTS3001CP. None None None None None

The settings of RXLEV-ACCESS-MIN and CRO should guarantee that cells with same priority have the same cell reselect None The parameter is related to practical networking. None None None None

The modification of the parameter affects the adjacent node that is configured with the factor table. After the successful mo cases: 1. New access subscriber. 2. Bandwidth modification of the existing subscriber The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio and the bandwidth modification of an existing subscriber. The is configured the factor table. the successful mo The modification modification of of the the parameter parameter affects affects the the adjacent adjacent node node that configured with thewith TRMMAP. After theAfter successful modificatio cases: and the bandwidth modification of an existing subscriber. 1. New access subscriber. 2. Bandwidth modification of the existing subscriber The larger the value of this parameter, the higher the proportion of discarded messages during congestion. Therefore, the that of a less important service. None None None None None None None

None The modification of the parameter affects the adjacent node that is configured with the factor table. After the successful mo cases: None 1. New access subscriber. 2. Bandwidth modification of the existing subscriber

None The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio and the bandwidth modification of an existing subscriber. The is configured the factor table. the successful mo The modification modification of of the the parameter parameter affects affects the the adjacent adjacent node node that configured with thewith TRMMAP. After theAfter successful modificatio cases: and the bandwidth modification of an existing subscriber. 1. New access subscriber. 2. Bandwidth modification of the existing subscriber The larger the value of this parameter, the higher the proportion of discarded messages during congestion. Therefore, the that of a less important service. None None None None None None None None None None None None None None

None None None None None The parameter cannot be modified. If this parameter of an activated BTS is modified, the entire BTS chain is reset. If this parameter of an activated BTS is modified, the entire BTS chain is reset. None

The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process None None None None None None None None None None None None None None None None None None None None None None None None

None The parameter cannot be modified. None None

When running this command, the source IP address and the destination IP address cannot be the local IP address and the The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None This parameter can be modified only when the BTS is deactivated. None None None None None. None None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None None None None None The parameter cannot be modified. None This parameter takes effect only when the SDCCH exists on the TRXs on different frequency bands. None None None

None The setting of this parameter needs negotiation with the MSC of the opposite network element. If the MSC supports processing assignment failure messages containing the cause value of direct retry, set this parameter

None If the value of this parameter is YES, the intra-BSC handovers (including intra-cell handovers) in which the cell is the sourc handovers. If this parameter is set to 15, this protection is disabled. None This parameter applies to only the double-transceiver BTS and the corresponding distributed BTS. This parameter applies to only the double-transceiver BTS and the corresponding distributed BTS. None None None None None None None

This parameter is related to the actual physical connection of the BC. This parameter is modified only when the NSVC serv

If this parameter is set to a small value, the detection of service type is sensitive and may lead to ping-pong handover betw None None None None None None None None None None None None None None None None None

None None

This Noneparameter is used for the adaptive adjustment function of AMR downlink threshold. When the voice is in poor perform rate mode is more used in the adaptation, you can increase the value of this parameter; if the high rate mode is more used parameter. Thevalue adjustment range is from 4 to and adjustment. the adjustment is 2. limit for adjusting the value of DLLongTerm Generally, the of this parameter does not20need It isstep the lower The target FER with the discontinuous transmission (DTX) enabled is a little higher than the one without the DTX enabled. to 14 when the DTX is enabled. Based on this value, you can make adjustments in the above mentioned principle accordin

Generally, fixed 2, with no need ofIt adjustment. of this parameter decides only th Generally, the the value value of of this this parameter parameter is does nottoneed adjustment. is the upperThe limitvalue for adjusting the value of DLLongTerm threshold. That is, the greater the value of this parameter is, the more frequently the threshold is adjusted. The setting of th adjustment of the threshold. None None None None None None None None None

None The setting of this parameter affects the triggering of a handover for poor quality in an AMR full rate call. The smaller the v due to a poor quality occurs. The setting of this parameter affects the triggering of a handover for poor quality in an AMR half rate call. The smaller the v due to a poor quality occurs. None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None

The downlink power control (at the BTS side) can support up to 15 levels, in each of which the power of 2 dB is dynamicall During upgrade, pay more attention to the setting of this parameter. Be sure to check it. If an area is allowed for receiving s If the value of this parameter is YES, the MS in either idle or connected mode cannot occupy radio channel resources to se None None None None None None None None If you do not use a dual-antenna to receive signals, set this parameter to 0. None The parameter cannot be modified. 1. The block of A interface must be configured. 2. If A over IP is configured, the configuration does not support the operation. None None The parameter cannot be modified.

The parameter cannot be modified. None None None None None None None None None None None None None None None None None None None None This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. This parameter can be added and modified. It cannot be deleted. None None None None None None The parameter cannot be modified.

None The priority of the signaling link should be the highest. The parameter cannot be modified. The existing networking can be affected when the relation between the VLAN and the DSCP are reset. None None None None None None None None None None The parameter cannot be modified. None None The parameter cannot be modified. None None None None None None None None None None None None None None None None

None None None None None This parameter can be modified only when the BTS is deactivated. None This parameter can be modified only when the BTS is deactivated. None None None None None None None The parameter cannot be modified. None It is used for interworking with products of other manufacturers. None None None The address must exist and respond to the PING request. None None It is recommended that this parameter be set to Yes on a multiband cell. None

None 1. If you set the start date or end date of daylight saving time (DST) to a day of the week after a specific date, the specific d None the month. For example, the last day of October is the 31st day. Then, the specific date cannot be later than the 25th (31 – October, this date is not included in the November of 2005. Therefore, the specific date is invalid. This date in 2006, howev None follow this principle to ensure that a specific data is always valid. 2. You are not allowed to set the start date or end date of DST to February 29. This is because that the local time changes None year, February 29 does not exist. Therefore, the local time cannot change between DST and non-DST. 3. The start month and end month of DST cannot be the same. None None None

None None None None None None None None None None None None None None For the modification of the parameter, See the ITU-T Q704. None The parameter cannot be modified. None None None The parameter cannot be modified. None The parameter cannot be modified. None None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT

The Nonevalue of this parameter must be the same at both the BSS side and the NSS side. Whether the BSC6900 is encrypted described in the MAP function process of the MSC. When setting the encryption algorithm type of the BSC6900, you must the functions of the MS. None None None 1. The block of A interface must be configured. None 2. If A over IP is configured, the configuration does not support the operation. 3. The difference between the end CIC and the start CIC is smaller than 256. None

None None None

None 1. The block of Ater interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the opera None 1. A interface must be configured. 3. The If theblock blockofoperation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block ope 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the opera subrack. 3. If the block operation is applicable to only the AE1T1 of the BM subrack. You are not allowed to perform the block opera subrack. None None None None None None None None None None None None None The parameter cannot be modified. The parameter cannot be modified. None None None None None None The parameter cannot be modified. The parameter cannot be modified. None The parameter cannot be modified. None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None. None None None None None None None None None None

None If the value of this parameter is too small, extension measurement reports are sent frequently. If the value is too large, feed extension measurement reports. None None None None None None None None None None None None None None None None None None

None None None None The parameter cannot be modified. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. None None The parameter cannot be modified. The parameter cannot be modified. None This parameter can be modified only when the BTS is deactivated. None Negotiation fails if this parameter is modified. Negotiation fails if this parameter is modified. None None None None None None None The value ranges of frequency numbers vary with corresponding band reporting. None None None None None None None None None None

None None None None None None None None You must deactivate the cell before modifying this parameter and activate the cell after modifying this parameter. None None None None None None None None None None None None None None None None None None None If this parameter is set to a small value, error is likely to occur during the detection of the burst packets. None Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. None The parameter cannot be modified.

The parameter cannot be modified. None None None None None None None None None None

The default value of "MS_TXPWR_MAX_CCH" in the GSM900 and GSM850 cells is 5; the default value of "MS_TXPWR_ None

In "EXP ELABEL", the "FN" parameter cannot be a space or any of the following characters: '@', '#', '!', '%', '^', '&', '*', '[', ']', None None None None None None None None None

When None this parameter is set to YES, during the channel activation of the BSC6900, if the allocated channel speech version rate speech version 2, the BSC6900 changes the speech version to full rate speech version 2 and sends it to the BTS. For version viewed at the MSC side is still full rate speech version 1. None None This parameter can be modified only when the BTS is deactivated. The adjacent node ID must be configured. None None None No_HC: disable the header compression function; RTP/UDP/IP_HC: enable the RTP/UDP/IP/PPP function None

For a BTS of the BTS3X series, the value of this parameter is invalid. None None None The value range of this parameter depends on the frequency range of the cell band.

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then r None None None None None None None This parameter is valid in only the cells in the coverage area of the BTS3X. None None None This parameter can be modified only when the BTS is deactivated. None This parameter can be modified only when the BTS is deactivated. None The FACTORTABLE must be configured. The parameter cannot be modified. The parameter cannot be modified. None None None None None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified.

The parameter cannot be modified. None None None None None None None None None None None None None

This parameter determines whether to load data from the OMU or the FLASH when the BSC6900 or the board is restarted The value of this parameter is valid only for the BTSs of the double-transceiver series and the distributed BTSs. None None None None None None None None None None None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT None None None The parameter cannot be modified. The parameter cannot be modified.

None The parameter cannot be modified. None None None The parameter cannot be modified. None None None None None None None None None None None None None None This parameter is supported only by the BTS3002C. This parameter is supported only by the BTS3002C.

If the TRXs in a cell under this BSC6900 are at a frequency on DCS1800, this parameter cannot be set to PCS1900, and v None None When this parameter is set to No, Highest Priority cannot be configured. None None None None None None None None

None None None None None None None None None None None None None None None None The value of this parameter cannot be changed. None

The value of this parameter must be the same as the attribute value of the TRX frequency hopping of this frequency hoppi None None None None The parameter cannot be modified.

After this parameter is modified, the services in the cell are handed over forcedly. The cell is reset after all the handover su None None None None None None None Before the modification, the cell mapping table bound to the signaling point must be deleted. None

Set this parameter properly to ensure that hierarchical handover and load-based handover can function properly. During h received level of the target cell must be greater than this threshold. None None None None None None None None None None None HSNs are optional for the cells with frequency hopping enabled. The cells in the same frequency group must use different same. None None None None None None None None None None None None None None This parameter is supported only by the BTS3012A and BTS3006A. For details of the timer, see ITU-T Q.714. The modification is not recommended. None None None For details of the timer, see ITU-T Q.714. The modification is not recommended. None

None None None None None None None None None None None None None None None None None None None None None None None None The parameter IBCA Allowed of the serving cell and the neighbor cell should be set to Yes before the configuration of this None None None None None None None None None

None None None None None None None None None None When the network status is poor, the packet length should not be too large. Otherwise, the path state is affected. None None None None None None None None None None The parameter cannot be modified. None None None The parameter cannot be modified. None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None

None None None None None None None None None None None None None None None None The parameter cannot be modified. None None None None This parameter can be modified only when the BTS is deactivated. None None None None None None None This parameter must be equal to or less than "OUTHOPWROVERLOADTHRESHOLD" to protect the other timeslots/cells None None None None

None None None None None None None None The parameter cannot be modified. This parameter can be modified only when the BTS is deactivated. None None None The parameter cannot be modified. This parameter can be modified only when the BTS is deactivated. The parameter cannot be modified. This parameter can be modified only when the BTS is deactivated. None None None None None None None None None None None None

None 1. Interference band 0 is not counted in the traffic statistics. None 2. In the following BTSs, the value range of this parameter is 115 to 85: BTS2X of all the versions, BTS3X 03.1130 of the e 3002C02.0820 of the earlier versions. If this parameter is set to a value beyond the range, the concerned cells cannot wor None 3. In the following BTSs, the value range is 115 to 48: BTS3X 03.1130 and its later versions, 3001c 07.0301 and its later v transceiver BTSs. None 4. If the value of this parameter is too great, the averaging result cannot accurately reflect changes. If the value is too sma of resources.

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None The parameter cannot be modified. None

None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None None None None None None None Negotiation can succeed only when the configuration is consistent on the local and peer ends. No_HC: disable the header compression function; RTP/UDP/IP_HC: enable the RTP/UDP/IP/PPP function The parameter cannot be modified. The parameter cannot be modified. None This parameter depends on the type of the actual physical IP transport cable of the BTS. This parameter must be set according to the medium type of the actual IP transmission cable used by the BTS. None None None None None None None None The parameter cannot be modified. None

Each cell can be configured with only one TRX that carries the main BCCH. None None None The parameter cannot be modified. The parameter IPPATH must be configured in advance. None None None None None None None None None None None None None The parameter cannot be modified. None None None None None None None None The setting of this parameter must be consistent with that on the peer. The setting of this parameter must be consistent with that on the peer. The setting of this parameter must be consistent with that on the peer. None None The setting of this parameter must be consistent with that on the peer.

The setting of this parameter must be consistent with that on the peer. The setting of this parameter must be consistent with that on the peer. It is used for interworking with products of other manufacturers. None 1. This command is applicable to the boards AOUa, POUa, AOUc, POUc, and OIUa. 2. It is used for interworking with products of other manufacturers. None 1. This command is applicable to the boards AOUa and POUa. 2. It is used for interworking with products of other manufacturers. The setting of this parameter must be negotiated with that on the interconnected side. None None None The setting of this parameter must be negotiated with that on the interconnected side. None None None None The parameter cannot be modified. None None None None None None The parameter cannot be modified. The parameter cannot be modified. None None None None None None None None. None

None None None None The parameter cannot be modified. None None None The parameter cannot be modified. None None None None None None None None None The parameter cannot be modified. This parameter must be less than "UHUMTHD". None None The parameter cannot be modified. None The parameter cannot be modified. None None None None None The setting of this parameter must be consistent with that on the peer. The parameter cannot be modified. The parameter cannot be modified. According to the MTP3 load sharing principle, the link selection mask must be set properly. If the value is not set properly,

The mask is calculated according to the link set to a destination entity. None None This parameter is valid only when "NC2LoadResel" is set to SUPPORT. None None. None None None None. None None None None The reciprocal of the parameter value is the ratio of the MSs to perform a load handover. None None

The function of cell load reselection is valid only when "NC2LoadResel" in "SET BSCPSSOFTPARA" is set to Support and None None None None None. None None The parameter cannot be modified.

The local IP address and peer IP must be configured in the same network segment. The peer IP address cannot be the sa None None The parameter cannot be modified. None The parameter cannot be modified. None None

The both end address of the SCTP is the parameter for the interconnection. The value can be modified after the negotiatio

The both end address of the SCTP is the parameter for the interconnection. The value can be modified after the negotiatio None The parameter can be modified when "MODE" in the command "ADD SCTPLNK" is set to Client. None None None None None It is valid when "LOGPORTFLAG[/PARA in the command "ADD SCTPLNK" is ON. It is valid when "LOGPORTFLAG[/PARA in the command "ADD SCTPLNK" is ON. None None None None None None None None None None None The parameter cannot be modified. The parameter cannot be modified. None

None 1. When the peer end unconditionally changes the bits in the check message, the services are disrupted if the switch is se 2. When the switch is set to OFF, the alarm "Inconsistent Configurations at the Two Ends of the Link over the Ater Interfac The parameter cannot be modified. None None

If this parameter is set to REMOTE_LOOP and LOCAL_LOOP, the service on this link is affected until the loopback is can None When the upper layer bearer is IMAGRP, IMAGRP is reset after the loopback is canceled. Otherwise, the state of the IMAG When the loopback type is changed to REMOTE_LOOP or LOCAL_LOOP, the service is affected. The service becomes n established. loopback type is set to LOCAL_LOOP, you cannot directly change it to REMOTE_LOOP. You must change it to NO_LOOP loopback type from REMOTE_LOOP to LOCAL_LOOP in the similar way. None

None None

None For the BTS3002C, if each cell is configured with two TRXs (O2 or S2) and the value of this parameter is YES, the radio fr main diversity antennas. Only the BTS3002C has this parameter. None None None None None The parameter cannot be modified. The parameter cannot be modified. None The parameter cannot be modified. None None None None None None None None None None None

This parameter must be less than "UTEMTHD". The value of this parameter decides whether the threshold is adjusted upwards or downwards. When the voice is in poor p the low ratethe mode is of more in the adaptation, youadjustment. can increase the value oflimit this for parameter; the value high rate mode is mo Generally, value thisused parameter does not need It is the lower adjustingif the of LongTermFE channel quality), you can decrease the value of this parameter. If the DTX function is enabled, the value of this parameter function is disabled.

Generally, fixed 2, with no need ofIt adjustment. of this parameter decides only th Generally, the the value value of of this this parameter parameter is does nottoneed adjustment. is the upperThe limitvalue for adjusting the value of LongTermFE threshold. That is, the greater the value of this parameter is, the more frequently the threshold is adjusted. The setting of th adjustment of the threshold.

The adjustment of the parameter setting changes the service distribution on the DSPs. The DSPs without LVDS links do n None None

None The parameter modification should be negotiated with the peer end, and the BSC6900 should be reset after the modificatio modified when the system is running.

None None

None If there are fewer frequencies in a frequency hopping group, the mode of Frequency List can decrease the length of an ass an MS. The parameter cannot be modified. None None None None None None None The parameter cannot be modified. None None None None None None None None None None None None None None None None None None None None The parameter cannot be modified.

The parameter cannot be modified. The parameter cannot be modified. None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None None None None None

The modification of the parameter affects the sensitivity of the SCTP link detection. The larger the value is, the longer the l None None None None None None

1. In the earlier versions of BSC6000V900R008C01B060SP06 and BSC6000V900R0086C01B060SP06, a maximum of 5 None through the M2000 client. In BSC6000V900R008C01B060SP06 and BSC6000V900R0086C01B060SP06 and its later ver simultaneously on one BSCbe through the M2000 client. Therefore, the number of BTSs to be downloaded should take the in The adjacent node ID must configured. BTSs supported by the M2000 client. 2. If the BTS software versions downloaded simultaneously are excessive, the CPU usage of the OMU increases. In this c None

The value of this parameter cannot be smaller than the maximum PPPMUX sub-frame length. The number sub-frame mus None None None

The modification of the parameter affects the sensitivity of the SCTP link detection. The larger the value is, the longer the l None None None None None

None

You Nonecan increase this value when the handovers are slow or the handover success ratio is low due to bad clock or transmi following condition must be met: "Physical information MAX Retrans" x "Radio link invalid count" > Interval between the ES ms); otherwise the handovers will fail for sure. None None None None

If the PPP frame length is larger than this value, PPPMUX multiplexing cannot be performed. The value of this parameter c None length wMuxMfl and the number sub-frame must be larger than 2 as the enabling condition of PPPMUX (the relation betwe multiplexing frame length is: MuxMaxSfL<=(wMuxMfl-8)/2 ). None None None If this parameter is set to a smaller value, the handover success rate may be affected. None None None Before performing single-point positioning, you need to remove GPS configuration history records. None The parameter cannot be modified. None None The parameter cannot be modified. The parameter cannot be modified. None None None None None None None None None None None

None This parameter is valid only when the MCPA algorithm is enabled. None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None

None The Enhanced Measurement Report supports the measurement of 3G neighboring cells to implement the interoperability b the service continuity. The parameter cannot be modified. The parameter cannot be modified. None None None None None None None None None None None None None None None None None None None None The parameter cannot be modified. None

To modify this parameter, run "STP GATEWAYCHK" first and then "STR GATEWAYCHK". None The parameter cannot be modified. The parameter cannot be modified. None None None None

None The local end of the SCTP link is the server and the application type is NBAP, the working mode should not be modified as For the SCTP link of the M3UA application, the working mode can be modified only when the upper layer application is del None None None The setting of this parameter must be negotiated with that on the interconnected side. The parameter cannot be modified. None None None None None None None None None None None None None None None None None None None

None None

None Because the measurement reports may not always be correctly decoded when the quality of a serving cell is poor, handov reports exceeds the value set by this parameter. You can set a relatively larger value for this parameter, thus enabling eme

None When this parameter is set to Noreport, the BTSs do not submit measurement reports to the BSC, which disables handove quality. None None None None None None None None None None None

If the MSC pool function is enabled, and the value of this parameter is not NORMAL, the DPC is not selected for call acces If the GSM BSC is connected to the GSM MSC, it is recommended that you set this parameter to R98_or_below. If the GS that you set this parameter to R99_or_above. None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

The parameter cannot be modified. None None None None None None None None None None The parameter cannot be modified. The parameter cannot be modified. None None The interconnection may be affected if this parameter is modified. None This parameter is supported only by the BTS3012A and BTS3006A. None None. None. None.

If the value of this parameter is increased, the cell congestion rate increases. If the value of this parameter is decreased, o If this parameter is set to YES, the call drop rate may increase. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. The adjacent node ID must be configured. None The parameter cannot be modified. None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None

This parameter is valid only when "NC2SPT" in "SET GCELLGPRS" is set to YES and "NCO" in "SET GCELLPSBASE" is None None None None None None None None None None None None None None None None None None None None None None The parameter cannot be modified. The parameter cannot be modified. None The parameter cannot be modified. None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None The parameter cannot be modified. None None None None None

None None None None None None None

This parameter is supported only by the following dual-density BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and The parameter cannot be modified. None None None None None The parameter cannot be modified. None None None The parameter cannot be modified. The parameter cannot be modified. None None None If this parameter is set to a larger value, the bandwidth of the service is smaller. Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. None The parameter cannot be modified. The transmission priority of the service is affected if the queue DSCP value of the port is modified. The transmission priority of the service is affected if the queue DSCP value of the port is modified. None None None The parameter cannot be modified.

None None None None None None If the parameter value is set relatively small, the sensitivity for detecting the OML when it is broken is improved. When the None intermittently disconnected, misjudgements may occur to the testing results. If the parameter value is set relatively large, the sensitivity for detecting the OML when it is broken is reduced. The testing The parameter cannot be modified. None None The parameter cannot be modified. None The parameter cannot be modified. None None None None Before modifying this parameter, you must deactivate the cells bound to the OPC. None The parameter cannot be modified. The parameter cannot be modified. Primary operator index must be 0. None

None 1. interface must configured. 1. The The block block of of Ater A interface must be be configured. 2. If the BSC is configured to the integrated BMTC over IP the is configured, 2. If A over IP is configured, the configuration does or notAsupport operation. the configuration does not support the opera 1. A interface must be configured. 3. The If theblock blockofoperation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block ope 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the opera subrack. 3. If the block operation is applicable to only the AE1T1 of the BM subrack. You are not allowed to perform the block opera subrack. The parameter cannot be modified. None None None None None

The setting of this parameter must be consistent with that on the peer. None None None None None None None None None If this parameter is set to a greater value, too many channel resources are occupied and the congestion occurs. If this parameter is set to a smaller value, the handover success rate may fall. If this parameter is set to a greater value, too many channel resources are occupied and the congestion occurs. If this parameter is set to a smaller value, the handover success rate may fall. None None None None None None None None None The parameter cannot be modified. The parameter cannot be modified. None None None None None None None None None None None

The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None None The parameter cannot be modified. None None None None None None None None None None If this parameter is set to a greater value, the CPU may be overloaded. If this parameter is set to a smaller value, the call loss rate is high. If this parameter is set to a greater value, the CPU may be overloaded. If this parameter is set to a smaller value, the call loss rate is high. If this parameter is set to a greater value, the CPU may be overloaded. If this parameter is set to a smaller value, the call loss rate is high. If this parameter is set to a greater value, the CPU may be overloaded. If this parameter is set to a smaller value, the call loss rate is high. None None None None None None None None None None None None

The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None The parameter cannot be modified. None None None None None None None None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None None None None None None None None None None The parameter cannot be modified.

The local IP address and peer IP must be configured in the same network segment. The peer IP address cannot be the sa The parameter cannot be modified. None

None

The both end address of the SCTP is the parameter for the interconnection. The value can be modified after the negotiatio

The both end address of the SCTP is the parameter for the interconnection. The value can be modified after the negotiatio The parameter cannot be modified. The parameter cannot be modified. The SCTP port number is the parameter for the negotiation. The value can be modified after the negotiation with the peer None None None None None When the network status is poor, the check period should not be too small. Otherwise, the path state is affected. None Negotiation fails if this parameter is modified. Negotiation fails if this parameter is modified. None

The SIGBVC must be reset after this switch is turned on. The BSC supports the PFC when the SGSN supports the PFC. If this parameter is set to a greater value, more paging messages are processed. When the BSC6900 is overloaded, the c If this parameter is set to a higher value, more PS paging messages can be processed, thus increasing the BSC load. As a effect. None protect the BSC. is If this parameter set tosome a lower value, more PS that paging are discarded, thus affecting the pagit If this parameter set to a smallerisvalue, paging messages canmessages be processed by the BSC6900 are discarded, set according to the actual PS paging volume and the CPU usage of the BSC. If the value of Pg State Period(ms) is changed, you need to change the value of this parameter accordingly. The setting of this parameter is closely related to that of "Paging Statistical Period". When the value of "Paging Statistical P adjusted accordingly. If this parameter is set to a smaller value, the control of the arrival rate of paging messages is sensitive. If this parameter is set to a greater value, the control is insensitive. The parameter cannot be modified. The adjacent node ID must be configured. None None None None None None None The parameter cannot be modified. None None This parameter is valid for the EDGE TRX only.

None None This parameter is valid for the EDGE TRX only. None This parameter is valid only for EDGE TRXs and is invalid for ordinary TRXs. None None None If "Play switch" is set, the normal calls may be affected. None None None None None None None None None None None None

The parameter cannot be modified. 1. The block of Ater interface must be configured. 2. If the BSC is cannot configured to the integrated BMTC or A over IP is configured, the configuration does not support the opera The parameter be modified. 3. If the block operation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block ope subrack. The parameter cannot be modified. None The parameter cannot be modified. None None

When None the loopback type is changed to REMOTE_LOOP or LOCAL_LOOP, the service is affected. The service becomes n loopback type is set to LOCAL_LOOP, you cannot directly change it to REMOTE_LOOP. You must change it to NO_LOOP loopback type from REMOTE_LOOP to LOCAL_LOOP in the similar way. None The parameter cannot be modified. 1. This command is applicable to the boards AOUa and POUa. 2. It is used for interworking with products of other manufacturers.

The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None None None This parameter can be modified only when the BTS is deactivated. None None None None None None None None If this parameter is set to a greater value, the error is small. None None None The parameter cannot be modified. The parameter cannot be modified. None None This parameter can be added and modified. It cannot be deleted. None The parameter cannot be modified. None None None

None None None None None None None None None None None None None None None None The parameter cannot be modified. None None The parameter cannot be modified. ENABLE: the multiplexing frame function of the PPP link is enabled. DISABLE: the multiplexing frame function of the PPP This parameter can be added or modified but cannot be removed. None None

None When the sampling rate of pre-processed measurement reports is set to 1, the frequency of submitting pre-processed mea seconds or one report per four seconds. None None None None None None None None

Each layer has 16 priorities, numbered 1-16 respectively. If the number of the priority is small, the priority is high. This para a cell. The priority affects the sequence of neighboring cells for handover. It also affects handover algorithms, such as PBG None For example, PBGT handovers can be performed only between the cells at the same layer and hierarchy. If a 1800 MHz c handover cannot be performed from the 1800 MHz cell to the 900 MHz cell. Consequently, handovers are performed slowl None None None The routing priority is modified. In the case of multiple routes to the same signaling point, the route priority is affected. None The parameter cannot be modified. None None None None None The parameter cannot be modified. None None None None The parameter cannot be modified. The parameter cannot be modified. 1. This command is applicable to the boards AOUa and POUa. 2. It is used for interworking with products of other manufacturers. None None None

None The modification of the parameter affects the adjacent node that is configured with the factor table. After the successful mo cases: None The modification of the parameter affects the adjacent node that is configured with the factor table. After the successful mo 1. New access subscriber. cases: 2. Bandwidth modification of the existing subscriber 1. New access subscriber. 2. Bandwidth modification of the existing subscriber

The SIGBVC must be reset after this switch is turned on. The BSC supports the PS HO when the SGSN supports the PS H The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio and the bandwidth modification of an existing subscriber. The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio and the bandwidth modification of an existing subscriber. If this parameter is set to a larger value, more packets are discarded when the congestion occurs. Thus, the priority value o service. None None

The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio and the bandwidth modification of an existing subscriber. The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio and the bandwidth modification of an existing subscriber. If this parameter is set to a larger value, more packets are discarded when the congestion occurs. Thus, the priority value o service. None

None This parameter should be set on the basis of the actual receiver sensitivity of the BTS and the minimum access level of the even though there are signals detected. None None None None None None None None None None None None None None None None None None None The parameter cannot be modified.

None The line code must be consistent with that on the interconnected side. HDB3 (HDB3 code) and AMI (AMI code) are used fo are used for T1 ports. The frame structure must be consistent with that on the interconnected side. The frame structure must be consistent with that on the interconnected side. The frame structure must be consistent with that on the interconnected side. None None None

None None None None None None None None None None None None None None None None None None None None None None None None The transmission priority of the service is affected if the queue DSCP value of the port is modified. The transmission priority of the service is affected if the queue DSCP value of the port is modified. The transmission priority of the service is affected if the queue DSCP value of the port is modified. The transmission priority of the service is affected if the queue DSCP value of the port is modified. The transmission priority of the service is affected if the queue DSCP value of the port is modified. None None None None None

None None None None None None None None None None This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. None None None This parameter is supported only by the BTS3012A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. None None None None

None For the BTS3X series and double-transceiver BTSs, this parameter does not affect MS access but affects the reporting of network None side is greater than the RACH Busy Threshold, the CCCH_LOAD_IND is counted once whether the decoding is s Busy Threshold should and whose decoding is successful is also counted. The measurement period the Average RACH T This parameter be set on the basis of the actual receiver sensitivity of the BTS and theisminimum access levelLoad of the If the value of this parameter is too low, the BTS easily considers that the RACH timeslot is busy and reports overload mes even though there are signals detected. cannot determine the status of the RACH timeslot correctly. The settings of the BTS312, BTS3001C, BTS3001CP, BTS3002C, and double-transceiver BTS must be consistent with th None None None None None None

If this parameter is set to Algorithm I, the BTS performs AMR rate adaptation according to the C/I value. None If this parameter is set to Algorithm II, the BTS performs AMR rate adaptation according to the BER value. Algorithm II is v If this parameter is set to None, the AMR rate adaptation algorithm is not enabled, and a fixed coding rate is used. None None None None None None None None None

None To improve the success rate of reassignment, it is recommended that you use the default value Different Band. That is, the different from what is used in the original assignment. None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None The parameter cannot be modified. None None None None None None None None None None None

The parameter must be set to a value smaller than the number of TCHs available on the BCCH TRX to prevent the frequen

None None None None None None The parameter cannot be modified.

The setting of this parameter requires negotiation with the MSC, so that the MSC can correctly process HO RQD message None Negotiation can succeed only when the configuration is consistent on the local and peer ends. Negotiation can succeed only when the configuration is consistent on the local and peer ends. None None

The range of this parameter is determined by the cell configuration. The lower limit is 0, and the upper limit is sum of TCHF If this parameter is set to a greater value, the BTS power decreases too much. If this parameter is set to a smaller value, th decrease effect is unsatisfactory. None None None None The SIGBVC must be reset after this switch is turned on. The BSC supports the RIM when the SGSN supports the RIM. None None None None None None None None The parameter cannot be modified. None None None None None

None None None The resource group must exist. The parameter cannot be modified. The parameter cannot be modified. None None None None None None None The parameter cannot be modified. The parameter cannot be modified. None The parameter cannot be modified. None None None None None

The switch is off in the case of a signaling point to the single link. After the link to a signaling point is disconnected, the res None None Change this parameter will impact the function interrelated with Parameter 1. Change this parameter will impact the function interrelated with Parameter 10. Change this parameter will impact the function interrelated with Parameter 2. Change this parameter will impact the function interrelated with Parameter 3. Change this parameter will impact the function interrelated with Parameter 4. Change this parameter will impact the function interrelated with Parameter 5. Change this parameter will impact the function interrelated with Parameter 6. Change this parameter will impact the function interrelated with Parameter 7. Change this parameter will impact the function interrelated with Parameter 8.

Change this parameter will impact the function interrelated with Parameter 9. None The setting of this parameter must be negotiated with that on the interconnected side. The routing context must be unique and needs to be negotiated with the peer. None None None None None None None The value should be greater than "RTOMIN" and smaller than "RTOMAX" in the command "ADD SCTPLNK". The value should be greater than "RTOMIN" in the command "ADD SCTPLNK". The value should be smaller than "RTOMAX" in the command "ADD SCTPLNK". None None None None None None None None

None For AMR calls, this parameter, together with "Interfere HO Qual Thresh n for Non-AMR FR", is used in interference handov triggered if this parameter is set to a smaller value. If the value of this parameter is too small, the required level of received signals is low. Therefore, many MSs attempt to cam risk of call drops. In such a case, you must set the parameter based on the balance conditions of the uplink and downlink l None

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a The parameter cannot be modified. None None The parameter cannot be modified. None The parameter cannot be modified. None None The parameter cannot be modified. None None None None None None None None None None None None None None None

When the same coverage cell allows the load handover, this parameter should be set to a value lower than "Load HO Thre None None None None None

None None None None None None None None None None None None None None None None The parameter cannot be modified. None None

None 1. If you set the start date or end date of DST to a day of the week after a specific date, the specific date must be six days None example, the last day of October is the 31st day. Then, the specific date cannot be later than the 25th (31 – 6) day. If you s not the parameter Novembermust of 2005. Therefore,with the specific dateinterconnected is invalid. Thisside. date in 2006, however, is October 31, wh Theincluded setting ofinthis be negotiated that on the ensure that a specific data is always valid. 2. You are not allowed to set the start date or end date of DST to February 29. This is because that the local time changes None 29 does not exist. Therefore, the local time cannot change between the start date and the end date. 3. The start month and end month of DST cannot be the same.

None If the parameter "IBCA Allowed" is set to YES, the BSC waits for MRs on the SDCCH for the duration specified by the para takes effect when the parameter "IBCA Allowed" is set to NO. None The level values 0 through 63 map to -110 dBm to -47 dBm. A smaller value indicates a lower receive level.

The parameter value corresponds to RQ (quality level: 0 to 7) multiplied by 10. A greater value indicates a poorer receive q The level values 0 through 63 map to -110 dBm to -47 dBm. A smaller value indicates a lower receive level.

The parameter value corresponds to RQ (quality level: 0 to 7) multiplied by 10. A greater value indicates a poorer receive q

The SDCCH dynamic adjustment converts the TCHs to the SDCCHs, this reduces the available TCHs and decreases the T The setting of this parameter must be negotiated with that on the interconnected side. None

None None None None None None The parameter cannot be modified. None None None None None None None None None This parameter should be set on the basis of the negotiation with the MSC at the peer end. None None None None None None None None None None None None None None None None None

The parameter cannot be modified. None None None None None The ratio of the subscribers accessing this SGSN is affected when this parameter is modified. The parameter cannot be modified. None None None

If this SGSN is the last SGSN connecting this cell: None 1. When the parameter is set to DENY, the services of all the online subscribers are interrupted and new subscribers cann 2. When the parameter is set to UNINSTALL, the services of all the online subscribers are not interrupted and new subscri None The parameter cannot be modified. None None None None None None The parameter cannot be modified. The parameter cannot be modified.

The parameter cannot be modified. The ratio of Gb interface signaling messages sent through NSVLs is affected when this parameter is modified. When this N "SIGLW" is set to 0, the signaling exchange between the NSE and SGSN is interrupted. None None None None The parameter cannot be modified. None None None None

None None None None None None None None None None None None None None None None None

None The source IP address can be: local IP address of the PPP link (PEUa/POUa/POS), local IP address of the MP group ((PE (FG2a/GOUa), and IP address of the local board. The parameter cannot be modified. None None None The parameter cannot be modified. None The modified parameter takes effect after the BSC6900 is reset. None None The value of this parameter cannot be changed. None None None None None

None The parameter cannot be modified.

The parameter cannot be modified. 1. The block of Ater interface must be configured. 2. If the BSC is cannot configured to the integrated BMTC or A over IP is configured, the configuration does not support the opera The parameter be modified. 3. If the block operation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block ope subrack. The parameter cannot be modified. None None The parameter cannot be modified. None None None None None The parameter cannot be modified. The parameter cannot be modified. None This parameter can be modified only when the BTS is deactivated. None None None None None None None None None None The parameter cannot be modified. None None None None None

This Noneparameter should be set on the basis of the negotiation with the MSC at the peer end so that the MSC can process th assignment request, if the speech/data indicator in the channel type is data, the assignment complete message does not c parameter. This parameter should be set on the basis of the negotiation with the MSC at the peer end so that the MSC can process th handovers, the Handover Perform message does not carry speech_ver even if this parameter is set to Yes.

This parameter should be set on the basis of the negotiation with the MSC at the peer end so that the MSC can process th This parameter should be set on the basis of the negotiation with the MSC at the peer end.

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT

The port can be set to the DOWN or UP state when this parameter is modified. If the speed modes on the local and peer e None None None None None None None None None None None None None None None None None None The parameter cannot be modified. None None None None None None

None None None Clock sources and priorities are in one-to-one mapping. Clock sources and priorities are in one-to-one mapping. None None None None The parameter cannot be modified. None The parameter cannot be modified. Clock sources and priorities are in one-to-one mapping. Each backplane board 8K clock has only one clock source. None None The parameter cannot be modified. The parameter cannot be modified.

The parameter cannot be modified. 1. The block of Ater interface must be configured. 2. If the BSC is cannot configured to the integrated BMTC or A over IP is configured, the configuration does not support the opera The parameter be modified. 3. If the block operation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block ope subrack. None None The parameter cannot be modified. None None None None The parameter cannot be modified. The parameter cannot be modified. None This parameter can be modified only when the BTS is deactivated. None 1. The command is used for the configuration when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack. 1. The command is used for the configuration when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack.

None

None If the interface board clock source of the MPS/TCS subrack is set, you can set the 8 kHz output clock source. For the MPS as the clock source of the interface board. For the EPS, you cannot perform the setting. None The ratio of Gb interface signaling messages sent through local NSVLs is affected when this parameter is modified. When "SRVLW" is set to 0, all the packet services of the local NSE are interrupted. None None None None None None None None None None None None None None None None None None None None

None In principle, you should not configure the frequencies on the P frequency band and on the E frequency band in one MA gro If the frequencies on the P frequency band and on the E frequency band are configured in one MA group, some MSs may None In this case, you can set this parameter to No. After that, if some other MSs cannot process calls, set this parameter to Yes and divide the MA group. None 1. The block of A interface must be configured. 2. If A over IP is configured, the configuration does not support the operation. None None None None

None None None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT 1. The block of Ater interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the opera None 1. A interface must be configured. 3. The If theblock blockofoperation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block ope 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the opera subrack. 3. If the block operation is applicable to only the AE1T1 of the BM subrack. You are not allowed to perform the block opera subrack. None None None None None None None The parameter cannot be modified. None None None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT The parameter cannot be modified. None None None None None None None None None None None The adjacent node ID must be configured. None None

None None None None None None None

When None the simple cell broadcast function is enabled, the BSC6900 provides the simple cell broadcast service if the CBC is broadcast the messages that are not changed frequently. The simple cell broadcast function and the cell broadcast function provided by the CBC cannot be enabled simultaneously The high multislot class function requires the support from the MS. For an MS of a high multislot class 32, 33, or34, the ext more than three timeslots are required on the uplink. None The EDA requires the support from the MS.

This Noneparameter should be set according to the requirements of the existing network. If this parameter is set to Yes, the voice signals are encoded only once at the originating MS and decoded only once at the call. None The TFO function is performed only between an MS and another MS, not between a fixed-line phone and an MS. If the TF occupied. None None None None None None None None None None None None None The parameter cannot be modified. None None None None Change this parameter will impact the patch function controlled by switch 1.

Change this parameter will impact the patch function controlled by switch 10. Change this parameter will impact the patch function controlled by switch 2. Change this parameter will impact the patch function controlled by switch 3. Change this parameter will impact the patch function controlled by switch 4. Change this parameter will impact the patch function controlled by switch 5. Change this parameter will impact the patch function controlled by switch 6. Change this parameter will impact the patch function controlled by switch 7. Change this parameter will impact the patch function controlled by switch 8. Change this parameter will impact the patch function controlled by switch 9. None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None

The physical information is sent over the FACCH. four TDMA sent once over the FACCH, which takes 18 It is recommended that you select a greater value,Every such as 16, 20, orframes 25, in are the area with heavy traffic, None T3105 timer expires for the but a smaller value, such asfirst 2 ortime, 3, inthe thephysical area withinformation light traffic.needs to be retransmitted. But at this time, the previous phys period is notspecify reached). To properly the value of this parameter, it is necessary to perform overall and long-term measurement on the entitie such as the processing capability of the MSC and BSC, and the load on the A interface, Abis interface, Um interface, HLR None The location update period in the MSC must be greater than that in the BSC. In the GSM system, it is possible that a powered-on MS is identified as implicit off-line if the MS sends no location update r None When the MS reselects another cell (in the same LAC), the MS is restarted through T3212 timeout if the T3212 of the new When None this parameter differs in the cells of the same LAC, it is possible that the MS is identified as implicit off-line if the MS case, system plays "The subscriber you dial is power off." even though the called MS is on. In an LAC, the value of this parameter should be the same in all cells. None None None None None None None None None None None None None

None None None None None None None None None None None None None None None

According to the GSM protocols, the BSC6900 performs CRC on each TRAU frame. If the CRC of a certain TRAU frame fa None the BSC6900 performs smoothing on the invalid frame, thus eliminating the noise caused by the errors in parameter transm of all speech services except the FR service. None None None None None None None None None None None None None None None None The parameter cannot be modified.

None None The parameter cannot be modified. None The parameter cannot be modified. The parameter cannot be modified. None None None None None None None None Before switched on, please insure that all the TRXs in this cell are suitable version. None None None None None None The parameter cannot be modified. The parameter cannot be modified. 1. The command is used for the configuration when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack. 1. The command is used for the configuration when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack. None None None None None None None None None

None None None None None None None None None None None None For the BTS3001C, BTS3001CP, and BTS3002C, this parameter is invalid. For other BTSs, this parameter is valid. None

None The IP address of the TGW cannot use the configured IP address of another TGW . The IP address of TGW cannot be the Otherwise, operation and maintenance channel for TGW fails. The IP address of the TGW cannot use the configured IP address of another TGW. The IP address of TGW cannot be the Otherwise, operation and maintenance channel for TGW fails.

None The IP address of the TGW cannot use the configured IP address of another TGW . The IP address of TGW cannot be the Otherwise, operation and maintenance channel for TGW fails. None This parameter is supported only by the BTS3012A and BTS3006A. This parameter is supported only by the BTS3012A and BTS3006A. None None None None None None None None None The parameter cannot be modified. None None

None None None None None Multi-band networks cannot use the TIGHT BCCH algorithm. None None None None None None None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None The parameter cannot be modified. None None None None None None The parameter cannot be modified. None None None None None None

None None None The parameter cannot be modified. The TRMMAP must be configured. None

1. If you set "Upper time threshold of raised fault" and "Lower time threshold of raised fault" to "0", the accumulated alarm None 2. If "Upper time threshold of raised fault" is not "0", the value of "Lower time threshold of raised fault" cannot be "0" and yo greater None than "Lower time threshold of raised fault". 3. When "Upper time threshold of raised fault" is not "0" and "Alarm switch of blinking filter" and "Switch of stat blinking ala 1. you set "Upper threshold raisedisfault" and "Lower time threshold of raised fault" to "0", the accumulated alarm "0".If Otherwise, blinktime statistics of theofalarm not performed. 2. If "Upper time threshold of raised fault" is not "0", the value of "Lower time threshold of raised fault" cannot be "0" and yo smaller None than or equal to "Upper time threshold of raised fault". 3. When "Lower time threshold of raised fault" is not "0" and "Alarm switch of blinking filter" and "Switch of stat blinking ala "0". Otherwise, blink statistics of the alarm is not performed. None None None None None None None None None None None None None None None None None None None None The parameter cannot be modified. None The parameter cannot be modified.

The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None None None None None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. The TRM load threshold must be configured already. The TRM load threshold must be configured already. The TRM load threshold must be configured already. The parameter cannot be modified. None The parameter cannot be modified.

None This parameter specifies whether to enable the TRX aiding function. None aiding: The main BCCH is aided to another normal TRX in this cell. BCCH BCCH aiding switchback: BCCH aiding switchback functions after the originally configured BCCH TRX is recovered. The parameter cannotWhen be modified. Baseband FH aiding: the TRX involved in baseband FH in the cell is faulty or BCCH aiding is performed in the cell, b non-hopping cell. The parameter cannot be modified. Baseband FH aiding switchback: When all the TRXs involved in baseband hopping in the cell are recovered and the origin switchback can cannot be performed and the cell is restored to the baseband FH mode. The parameter be modified. After TRX aiding (BCCH aiding or baseband FH aiding) or switchback occurs, the cell is re-initialized. For any types of BTS, no aiding is performed within 15 minutes after the cell is initialized. None

After this parameter is modified, the services in the cell are handed over forcedly. The cell is reset after all the handover su The parameter cannot be modified. None None None

None None None None None None None None None None None None None None None None None None None None None None None None

After this parameter is modified, the services in the cell are handed over forcedly. The cell is reset after all the handover su None None The parameter cannot be modified. The parameter cannot be modified.

None 1. The block of Ater interface must be configured. 2. If the BSC is cannot configured to the integrated BMTC or A over IP is configured, the configuration does not support the opera The parameter be modified. 1. A interface must be configured. 3. The If theblock blockofoperation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block ope 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the opera subrack. 3. If the block operation is applicable to only the AE1T1 of the BM subrack. You are not allowed to perform the block opera subrack. Loopback test, which cause the service interruption on this link

None None The parameter cannot be modified.

None The modification of the PPP link that is between the BTS and the BSC will affect the services. The modification of the PPP link that is between the BTS and the lower-level BTSs will lead to intermittent services carried None None None None None None None None None None None None None If this parameter is set to a great value, the PS DSP load will be heavy. None None None None None None None None The parameter cannot be modified. The parameter cannot be modified. The parameter cannot be modified. None None None None

None None None None None None None None None None None None. None. None. None. None. None. None. None. None None The parameter cannot be modified. None None None The value of this parameter cannot be changed. The modified parameter takes effect after the BSC is reset. None None None None None None None

None None None None None None None None None None None None None None None If this parameter is set to 0, the emergency call may be affected. None None None

None When RAI alarms occur on the E1 link, services cannot be assigned again by default. After the switch is enabled, services services. None None None None None None None None None None None None The adjacent node ID must be configured.

None The parameter cannot be modified. None None The setting of this parameter must be greater than "LHUMTHD". None The parameter cannot be modified. None None None None None None None None None

If this parameter is set to a small value, the detection of service type is sensitive and may lead to ping-pong switching betw None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None

The setting of this parameter affects the triggering of BQ(Bad Quality) handover of AMR FR calls. If it is set to a smaller va

The setting of this parameter affects the triggering of BQ handover of AMR HR calls. If it is set to a smaller value, the uplin None None None None None None None None None None None None None None None None None None None

None None None None None None The parameter cannot be modified. None None None None None None None None This parameter can be modified only when the BTS is deactivated. None The parameter cannot be modified. None This parameter can be modified only when the BTS is deactivated. None None None None None None None None None None None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BT In a GSM900 cell, the power control level of the MS ranges from 0 to 19. Generally, the maximum transmit power supporte transmit None power supported by an MS is level 19 (mapping to 5 dBm). Other transmit power levels are reserved for high-pow In a GSM1800 or GSM1900 cell, the power control level of the MS ranges from 0 to 31. Generally, the maximum transmit p The minimum transmit power supported by an MS is level 15 (mapping to 2 dBm). Other transmit power levels are reserve

The parameter cannot be modified. The parameter cannot be modified. None None

None Pay special attention to the setting of this parameter during an upgrade. If sending short messages is allowed, this parame If this parameter is set to Yes, radio channels cannot be used to send short messages regardless of whether an MS is bus None None None None None None None None None None None None None None The setting of this parameter must be greater than "LTEMTHD". None None None None None None None None None None None None None

None None None The parameter cannot be modified. None None Incorrect setting of this parameter can lead to access failure to the target IP address. The parameter cannot be modified. None The parameter cannot be modified. Incorrect setting of this parameter can lead to access failure to the target IP address. Incorrect setting of this parameter can lead to access failure to the target IP address. The existing networking can be affected when the relation between the VLAN and the DSCP are reset. None None None None None None None None None None If this parameter is set to a smaller value, the error is smaller. None None None None None None None None

None If the timer is set to a greater value, the time of reserving channel resources for an emergency call is long. In this case, the If the timer is set to a smaller value, reserved channel resources may not be assigned to an emergency call. In this case, th

None None None None None None None The parameter cannot be modified. None None The parameter cannot be modified. None None None None None None None None The conversion from E1 to T1 or from T1 to E1 takes effect after the board is reset. None None None None The parameter cannot be modified. None

Validation of Modification The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification. The radio link should be re-established after the parameter modification. The radio link should be reestablished after the parameter modification. The radio link should be re-established after the parameter modification. The radio link should be re-established after the parameter modification. The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The radio link should be re-established after the parameter modification. The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification.

The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The radio link should be re-established after the parameter modification. The radio link should be re-established after the parameter modification. The radio link should be re-established after the parameter modification. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The radio link should be reestablished after the parameter modification. The radio link should be re-established after the parameter modification.

The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The BSC should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.

Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BSC6900 should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved

Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

Not involved Not involved Not involved The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The board should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved

Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification does not impact the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The radio link should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The board should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved

Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The radio link should be reestablished after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved Not involved

Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved

The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. Not involved The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The BTS should be reset to validate the parameter modification. Not involved The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BSC6900 should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved

Not involved Not involved The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. Not involved The parameter modification has no impact on the equipment. Not involved The transport path should be re-established after the parameter modification.

The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment.

Not involved Not involved Not involved Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The transport path should be re-established after the parameter modification. The transport path should be re-established after the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The BTS should be reset to validate the parameter modification. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification does not impact the equipment. The parameter modification does not impact the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BSC should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BSC should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification does not impact the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The transport path should be re-established after the parameter modification. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The radio link should be reestablished after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The BTS should be reset to validate the parameter modification. Not involved

Not involved Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. Not involved The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved Not involved Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. The BSC should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.

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Impact on Radio Network Performance The smaller the value of this parameter is, the more MSs select a neighboring cell in directed retry. The smaller the value of this parameter is, the more MSs select a neighboring cell in directed retry. The setting of this parameter affects the access delay of parts of MSs. None None None None None None None None None None None None None None When the access control function is enabled, some MSs are caused to be inaccessible to the network for some time. None None None The throughput is affected. None None None None None None None The ACS may affect the MOS. The ACS may affect the MOS. The ACS may affect the MOS. None

None None None None The Noneswitching from an intra-cell handover procedure to an assignment procedure shortens the duration of the intra-cell handover. None None None None None None None None None None None None None None None None None None None None None None None None If this parameter is set to OPEN, the acoustic echo can be cancelled to improve the speech quality. None If this parameter is set to higher value, channel resources None may be wasted; if this parameter is set to lower value, the call drop rate may increase.

If this parameter is set to higher value, channel resources may be wasted; if this parameter is set to lower value, the call drop rate may increase. None If this parameter is set to higher value, channel resources Not involved may be wasted; if this parameter is set to lower value, the call If thisrate parameter is set to higher value, channel resources drop may increase. may be wasted; if this parameter is set to lower value, the call drop rate may increase. None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None If this parameter is set to OPEN, the voltage level can be adjusted automatically to improve the speech quality. None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None If this parameter is set to a smaller value, the dynamic power adjustment range for the BTS is decreased. This may cause None power waste and increase network interference when the downlink quality is good. When this parameter is set to YES and the value of the downlink threshold is not reasonable, the algorithm can be None used to dynamically adjust the AMR downlink rate to increase the downlink speech If this parameter is setMOS. to a smaller value, downlink power control may not be performed when the voice quality is good, None If thiscausing parameter set towaste a greater value, uplink thus the is power and increasing thepower control may not be performed when the voice quality is bad, interference. If this parameter is set to a greater value, None thus affecting the voice quality. If this parameter is set to a downlink power control may be performed when the voice smaller value, uplink power control may be performed when quality is bad, thus affecting the voice quality. the voice quality is good, thus causing the power waste and increasing the interference. None If this parameter is set to a greater value, downlink power control may not be performed when the downlink level is None If this thus parameter is the set power to a greater uplink power high, causing wastevalue, and increasing the control may be performed when the downlink level is high, interference. If this parameter is set to a smaller value, None If this parameter is seton, towaste aAMR greater value, thebe handover If this switch is turned FR calls can switched into thus causing the power and increasing the downlink control beperiod performed whenMSs the downlink margin is power increased in amay short and many arepower AMR HR calls to relieve the network congestion, but the interference. If this parameter is set to a smaller value, power isover low, from in this way, to call dropsthus mayaffecting occur. the voice handed voice is decreased; ifTCHH, this switch turned off, AMR controlquality may not beTCHF performed when the is downlink power is FR quality. calls cannot be switched into AMR HR calls, that is, network low, this way, call drops occur. If this is set to greater value, the handover If thisinparameter parameter is be set to a a may greater value, only MSs infrom the If this parameter is set to a smaller value, the handover congestion cannot relieved through themany handover margin is increased in a short period and MSs are the center of the cell can meet the handover condition. Thus, margin is enlarged slowly and it takes a long time to initiate a TCHF toover TCHH. handed from TCHF to TCHH, thuscongestion voicebe network congestion cannot be network relieved inaffecting time. the TCHF-TCHH handover. Thus, cannot quality. If this parameter set to a smaller value, MSs at the edge of relieved in time. is If this parameter is to greater MSs at theaffecting edge of If this parameter is set set the to a ahandover smaller value, value, the handover the cell can also meet condition, thus the cell can also meet the handover condition, thus affecting margin is enlarged slowly and it takes a long time to initiate a the voice quality. is set to a greater value, MSs with poor If this parameter the voice quality. TCHF-TCHH handover. Thus, network congestion cannot be quality can also meet condition, If this parameter is setthe to ahandover smaller value, onlythus MSsaffecting in the relieved in time. If this parameter is set to a greater value, the calls be the voice quality. center of the cell can meet the handover condition.cannot Thus, the handed over to TCHH in a short period when the traffic If this parameter is set to a smaller value, little MSs can meet network congestion cannot be relieved in time. If this parameter is set toThus, a greater value, only MSs in the volume is increased greatly. Thus, the network congestion the handover condition. the network congestion cannot center of the cell use the TCHH, thus leading to timeslot cannot be relieved in time. If this parameter is set to a smaller be relieved in time. If this parameter is set to a greater value, MSs at the edge of waste and congestion cannot be relieved in time. value, callsthe arenetwork handed over to TCHH unnecessarily, thus the cell and with poor quality also cannot be handed over to If this parameter is set to a smaller value, MSs at the edge of causing MOS loss of the customer. the the voice quality.be If this parameter the TCHF, cell andthus withaffecting poor quality also cannot handed over tois set a smaller value, only in quality. the center of the cell use the to TCHF, thus affecting theMSs voice the TCHH, thus leading to timeslot waste and the network congestion cannot be relieved in time. None

If this parameter is set to a greater value, handover cannot be triggered even when the quality is poor, thus affecting the If this quality; parameter is set to a smaller calls are handed voice if this parameter is setvalue, to a smaller value, over to TCHH unnecessarily, thus causing MOS loss of thethe handover is triggered even when the quality is good, thus customer; if this parameter is set to a greater value, TCHFnetwork congestion cannot be relieved in time. If this parameter is performed set to a smaller value,the calltraffic dropsvolume may is TCHH handover is only when occur due to delayed power control; if this parameter is set to high, and thus network congestion may occur. If this parameter is set to a smaller value,and fastnetwork power control a greater value, power waste may occur cannot be realized. this parameter is set to a greater value, interference may beIfincreased. If this parameter set be to aperformed smaller value, fast power the power controlismay excessively, thuscontrol cannot be realized. If this parameter is set to a greater value, leading to call drops. If this parameter set be to aperformed smaller value, fast power the power controlismay excessively, thuscontrol cannot realized. leading be to call drops.If this parameter is set to a greater value, If this parameter set be to aperformed smaller value, call drops may the power controlismay excessively, thus occur due to delayed power control; if this parameter is set to leading to call drops. a greater value, power waste may occur and network interference may be increased. If this parameter is set to a greater value, power control may not be performed in time. If this parameter is set to a smaller None value, power control may be performed frequently, thus If this parameter is set toload. a smaller value, the algorithm increasing the signaling cannot realize fast power control. If this parameter is set to a greater value, call drops may occur. None If this parameter is set to a greater value, cell congestion may not be relieved. If this parameter is set to a smaller value, None When parameter is set to YES and the value of thethe uplink TCHFsthis may be assigned unnecessarily, thus affecting threshold is not reasonable, the algorithm can be used to voice quality. dynamically adjust the AMR uplink rate to increase the uplink speech MOS. is set to a smaller value, downlink power If this parameter control may not be performed when the voice quality is good, None If thiscausing parameter set towaste a greater value, uplink thus the is power and increasing thepower control may not be performed when the voice quality is bad, interference. If this parameter is set to a greater value, None thus affecting the voice quality. If this parameter is set to a downlink power control may be performed when the voice smaller value, uplink power control may be performed when quality is bad, thus affecting the voice quality. the voice quality is good, thus causing the power waste and increasing the interference. None If this parameter is set to a greater value, power control may not be performed when the uplink level is high, thus causing None If this parameter setincreasing to a greater uplink power the power waste is and thevalue, interference. If this control may be performed when the uplink level is high, thus parameter is set to a smaller value, downlink power control None causing the power waste and increasing the interference. If may be performed when the uplink power is low, in this way, this parameter is set to a smaller value, power control may call drops may occur. not be performed when the uplink power is low, in this way, call drops may occur. None None None If this parameter is set to OPEN, the noise can be compensated automatically to improve the speech quality. None None None None None None None

None If this parameter is set to OPEN, the noise can be depressed automatically to improve the speech quality. None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

If this parameter is set to YES, the voice quality is enhanced and the handover times is reduced, but the call access delay is prolonged. The call access delay is affected by both the setting of "Maximum Assigning Duration" and the duration for waiting None MRs on the SDCCH. The maximum delay is the value of "Maximum Assigning Duration". Enabling this function may cause SDCCH congestion. None None None None None None None None If this parameter is set to a higher value, channel resources may Nonebe wasted and congestion occurs; if this parameter is set to a lower value, the assignment success rate may decrease. None None None None None None None None If this parameter is set to a greater value, the overlaid subcell range None in the algorithm is smaller than the actual range, thus leading to the unbalance between the traffic volume on the overlaid subcell and that the underlaid subcell.are If this parameter is set to on a greater value, TCHFs preferentially selected even when congestion occur on the None Ater interface, thus decreasing the system capacity. If this parameter is set to a lower value, TCHHs are selected None when no congestion occur on the Ater interface, thus decreasing the voice quality. None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None If this parameter is set to a greater value, the handover None cannot be performed in time, thus the voice quality is If this parameter is set to amay greater value, unnecessary decreased and call drops occur. None handovers may be performed. If this parameter is set to a smaller value, unnecessary If this parameter is set to a smaller value, handovers cannot handovers may be performed. be performed in time. Thus the voice quality is decreased and call drops may occur. None None None None None None None None None None None None None None None None

None None None None None If this parameter is set to a greater value, the handover None cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. None If this parameter is set to a smaller value, unnecessary If this parameter is set to a greater value, unnecessary handovers may be performed. handovers may be performed. If this parameter is set to a smaller value, the handover None cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. None None None None None None None None None None None None None None None None None None None None The setting of this parameter may affect the MS paging response and performance of the system. A greater value None may decrease the number of paging blocks, paging capacity, and paging success rate. None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None If this parameter is set to a greater value, the number of paging None subchannels in a cell increases and the number of MSs on each paging subchannel decreases. This can prolong None the average service life of MS batteries but increase the delay of paging messages and degrade the system performance. None None None None None None None None None None

None None None None None Not involved None None None None Not involved None None None None None None None None None None None Not involved None None None None None None If this parameter is set to BTS_Preprocessing, signaling on None the Abis interface and BSC load are decreased, thus enhancing the response speed and the network performance. None Not involved None

None If this parameter is set to a smaller value, the range of BTS None dynamic power adjustment is decreased, and thus network interference is difficult to be reduced. None None None None Not involved None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None Call reestablishment can decrease the call drop rate but waste channel resources. None None None None None None None None None None None None None None None None None None If this parameter is set to a smaller value, the status of RF resources is reported too frequently, thus burdening the None BSC6900. If this parameter is set to a greater value, the If this parameter is set to smaller theinsignaling flow status of RF resources cannot bevalue, updated time; therefore, None over the Abis interface increases, thus burdening the the BSC6900 cannot handle the interference to the BTS, thus BSC6900. If this parameter is set to a greater value, the causing unreasonable channel allocation. BSC6900 cannot handle the exceptions on the BTS in time, thus causing network congestion. None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None If this parameter is set to a smaller value, dynamic None adjustment may not be triggered when there are insufficient SDCCHs in the cell, this affects the access success rate. If None this parameter is set to a greater value, traffic volume on the TCH is decreased. None None None None Not involved None None None

None Nonefeature only applies to the areas covered by both the This GSM network and the UMTS network. The UMTS network is None preferentially used to perform the data services, and the GSM network is preferentially used to perform the speech None services. When a user is handed over to the GSM network during None a call, the user must return to the UMTS network immediately after the call is complete. Thus, a location update is avoided. None None None None If this parameter is set too small, the congestion control None duration is too long, and thus the transmission capability of signaling links cannot be fully used. If the difference between None the values of "CSTARTTHD" and "CENDTHD" is small, the signaling link is unstable and congestion control is performed None frequently. In this case, the paging messages may be abandoned. None None None None None None None None None None None None None None None None None The Nonesetting of this parameter depends on the actual physical location of the chain neighboring cell. Otherwise, fast PBGT handover may fail. None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None This parameter can be used to limit the user access type to control None the network load; however, some users may be adversely affected. Therefore, it is recommended that this parameter be disabled. None None None Not involved None None None

None None None None None None None None None None None None None If this parameter is set to a smaller value, handovers may be performed frequently; if this parameter is set to a greater None If this parameter set not to abe smaller value,inhandovers may be value, handoversismay performed time and call performed frequently; if this parameter is set to a greater drops may occur. value, handovers may not be performed in time and call drops may occur. None None The MS cannot respond to the paging during the location None thus decreasing the call completion rate in the update, system. None If this parameter is set to a smaller value, pingpong location update None may occur, thus increasing the signaling load on the SDCCH. If this parameter is set to a greater value, the MS may not None camp on an optimum cell for a long time after entering a new location area. None None None None None None None None None None None

None None None None None None None None None If the value of this parameter is too high, the congestion None control is delayed, which leads to deteriorated performance on the signaling link and certain messages may be lost. None If the difference between the values of "CSTARTTHD" and "CENDTHD" is small, the signaling link is unstable and None congestion control is performed frequently. In this case, the paging messages may be abandoned. None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. None None None None None None None None None None None None None If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. None None None Not involved None None None None None None None None None None If this function is enabled, number of signaling channel handovers is increased and the access speed is decreased, None but the congestion on the BCCH-compatible SDCCH can be relieved and the access success rate is enhanced. None None None

None None None None None None None None None None None None None None None None None If this parameter is set to a smaller value, call drops may occur due to delayed handover; if this parameter is set to a None If the parameter is set to a relatively down power greater value, unnecessary handovergreat mayvalue, be performed, adjustment may not be performed when the downlink quality thus affecting theisvoice If the parameter setpower toquality. a relatively great value, upthe power is good, thus causing waste and increasing adjustment may be parameter performed iswhen the interference. If this set to a downlink relatively quality small is None good, thus causing power waste and increasing the value, down power adjustment may be performed when the interference. If this parameter set tocall a relatively small downlink quality is poor. thisiscase, drops occur. If the parameter set to In a relatively value,may down power value, up power is adjustment may not great be performed when the adjustment may not be performed when the downlink quality downlink quality is poor. In this case, call drops may occur. If the parameter is setpower to a relatively great value, upthe power is good, thus causing waste and increasing adjustment may be performed when the downlink quality is interference. If this parameter is set to a relatively small The throughput of the GPRS service is affected. good, thus causing power waste and increasing the value, down power adjustment may be performed when the interference. If this parameter set tocall a relatively small downlink quality is poor. In thisiscase, drops may occur. value, up power adjustment may not be performed when the downlink quality is poor. In this case, call drops may occur. None None None None None None None None None

None None None None None If this parameter is set to a relatively small value, the fast None power control on the downlink cannot be implemented. If this If this parameter is set to a relatively small value, call drops parameter is set to a relatively great value, the power control None may occur due to delayed power control in the downlink. If may be performed excessively on the downlink, thus leading this parameter is set to a relatively great value, the power to poor quality, low level, and ping-pong power control. control may be performed excessively on the downlink, thus leading to ping-pong control.value, downlink power If this parameter is setpower to a smaller control may not be performed when the voice quality is good, None If thiscausing parameter set towaste a greater value, uplink thus the is power and increasing thepower control may not be performed when the voice quality is bad, interference. If this parameter is set to a greater value, None thus affecting the voice quality. If this parameter is set to a downlink power control may be performed when the voice smaller value, uplink power control may be performed when quality is bad, thus affecting the voice quality. the voice quality is good, thus causing the power waste and increasing the interference. None If this parameter is set to a greater value, handover may not None be performed when the downlink voice quality is bad, thus If this parameter is setIf to a smaller value, thetohandovers leading to call drops. this parameter is set a smaller due None to bad downlink quality may increase, thus decreasing value, unnecessary handovers may be performed, thusthe If this parameter is rate. set toIf athis smaller handovers due handover success parameter isthe settraffic to a load. greater decreasing the user experience andvalue, network to bad downlink quality may increase, thus decreasing the value, handovers due to bad downlink quality are less handover rate.increasing If this parameter set to a greater possible tosuccess occur, thus the callisdrop rate. value, handovers due to bad downlink quality are less possible to occur,isthus increasing call decrease drop rate. power If this parameter set to a greaterthe value, control may not be performed when the downlink level is None If this thus parameter is the set power to a greater increase power high, causing wastevalue, and increasing the control may be performed when the downlink level is high, interference. If this parameter is set to a smaller value, None thus causing the power waste and increasing the decrease power control may be performed when the downlink interference. is set may to a smaller power is low, Ifinthis thisparameter way, call drops occur. value, increase power control may not be performed when the downlink power is low, in this way, call drops may occur. None None None None If this parameter is set to a greater value, decrease power control may not be performed when the downlink level is None If this thus parameter is the set power to a greater increase power high, causing wastevalue, and increasing the control may be performed when the downlink level is high, interference. If this parameter is set to a smaller value, None thus causing the power waste and increasing the decrease power control may be performed when the downlink interference. is set may to a smaller power is low, Ifinthis thisparameter way, call drops occur. value, increase power control may not be performed when the If this parameter set improperly a small the downlink power isislow, in this way,tocall dropsvalue, may occur. downlink assignment procedure may fail. Therefore, it is recommended that this parameter be greater than 80 ms. None None

The coding rate and MOS are affected. The coding rate and MOS are affected. The coding rate and MOS are affected. None None None None None None None None None None None None None None None None None None None None None None None As the double antenna gain increases, the downlink power None increases; as the double antenna gain decreases, the downlink power decreases. None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None Not involved None None None If this parameter is set to a greater value, the corresponding None neighboring 3G cell may be difficult to become the candidate neighboring cell of the serving cell. In this way, call drops None may occur because the handovers may not be performed timely. None If this parameter is set to a smaller value, a call may be handed over to a neighboring 3G cell with low signal strength, thus affecting voice quality. None None None None None None None None None If this parameter is set to a greater or a smaller value, the None balance between the traffic volume on the overlaid subcell and that on the underlaid subcell may not be achieved.

None If this parameter is set to a greater value, the handover None cannot be performed in time. Thus, the voice quality is If this parameter is set to amay greater value, the handover decreased and call drops occur. None cannot be performed in time. Thus, the voice quality is If this parameter is set to a smaller value, unnecessary If this parameter is set to a greater value, unnecessary decreased and call drops may occur. handovers may be performed. handovers may be performed. If this parameter is set to a smaller value, unnecessary If this parameter is set to If this parameter is set to a a greater smaller value, value, unnecessary the handover handovers may be performed. handovers may be performed. cannot be performed in time. Thus, the voice quality is If this parameter is set to amay smaller value, the handover decreased and call drops occur. cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None If this parameter is set to a greater value, congestion may None occur in the underlaid subcell; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell. The number of block retransmissions is decreased and the throughput is increased. If this parameter is set to a smaller value, congestion may occur None in the underlaid subcell in a short time; if this parameter If parameter set tocongestion a greater value, may is is this set to a greaterisvalue, in thecongestion overlaid subcell If this parameter is set to a greater value, traffic load on the occur in the underlaid subcell in a short time; if this parameter difficult to be relieved. underlaid subcell is increased, and thus congestion may is set to a smaller value, congestion in the overlaid subcell is occur difficultintothe beunderlaid relieved. subcell. If this parameter is set to a smaller value, traffic load on the overlaid subcell is increased, and thus congestion may occur in the overlaid subcell. If this parameter is set to a greater value, the congestion None If this parameter setunderlaid to NO, the forcedishandover andIf call relieving speed inisthe subcell decreased. this delay caused by timeslot arrangement can be avoided, but parameter is set to a smaller value, traffic load on the overlaid None this mayiscause someand TCHF-only calls to fail. subcell increased, thus congestion may occur in the If this parameter is set to Yes, calls may fail when the timeslot overlaid subcell. arrangement fails and when the MS does not select the TCHF in the concentric If this parameter is set tocell. a greater value, congestion in the underlaid subcell may not be relieved in time. If this None parameter is set to a smaller value, many calls may be handed None over from the underlaid subcell to the overlaid subcell in a shot period, thus causing network congestion in the overlaid subcell and handover failure. If this parameter is set to OPEN, the speech quality can be improved when the signal strength is low on the air interface. None None None None None None None None If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. None If this timer is set to a smaller value, the success rate of immediate assignment may decrease.

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None If this parameter is set to a greater value, the effectiveness of None power control is reduced, and thus the network interference If this parameter is set to a greater value, the effectiveness can not be reduced effectively. If this parameter is set to a of None power control is reduced, and thus the network interference smaller value, call drops may occur due to excessive power can not be reduced effectively. If this parameter is set to a control. smaller value, call drops may occur due to excessive power control. None None None None None None None None None None None None None None None None None If this parameter is set to a greater value, call drops may occur None due to no suitable neighboring cell for handover. If this parameter is set to a smaller value, handover success rate may be decreased. None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None If this parameter is set to YES, the speech quality is improved. None None None None None None None None None

The discontinuous transmission (DTX) function allows a transmitter to stop power transmission in the case of no voice transfer. This function has the following benefits: In the uplink: decreasing the power consumption of the MS and system interference This reducing technology prevents the loss of measurement reports In the downlink: decreasing power of the BTS, caused by the BSIC that cannot beconsumption decoded, improves the reducing system interference, and reducing intermodulation system performance, and ensures the radio handover inside therate BTS success of the BSC6900. From the network perspective, the inter-frequency interference is reduced and the network quality is improved. None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None setting of this parameter must be consistent with the The transmission (DTX) function allows a Nonediscontinuous actual frequency pattern of the TRX. transmitter to stopreuse power transmission in theOtherwise, case of nothe voice speech quality will be bad. transfer. This function has the following benefits: In the uplink: decreasing the power consumption of the MS None and reducing system interference In the downlink: decreasing power consumption of the BTS, None reducing system interference, and reducing intermodulation inside None the BTS From the network perspective, the inter-frequency interference is reduced and the network quality is improved. None None None None None If this parameter is set to a smaller value, the duration of an None TCHF-TCHH handover is short after the handover is AMR triggered. Thus, few MSs can be handed over from TCHF to None TCHH, and the congestion capability is decreased. If this parameter is set to a relieving greater value, the voice quality If this parameter is set to a greater value, the duration of an may be decreased. None AMR TCHF-TCHH handover is long after the handover If this parameter is set to a smaller value, the congestionis If this parameter is may setthe tobeaMSs greater value, the triggered. Thus, even on the edge of handover the cell are relieving capability decreased. cannot be performed in time and network congestion may handed over from TCHF to TCHH, and the voice quality If this parameter parameter is is set set to to a a greater smaller value, value, network the handover zone If this congestion occur. deteriorates. is enlarged in a short time, and thus many MSs are handed may occur because the handover may not be performed If this parameter is set to a smaller value, unnecessary over from TCHF to performed. TCHH. timely. handovers may be If this parameter is set zone If this parameter is set to to a a greater smaller value, value, the the handover voice quality If this parameter is set to a greater value, unnecessary is enlarged slowly and it takes a long time to initiate a TCHFmay be decreased. handovers may beThus, performed. TCHH handover. and the congestion relieving If this parameter is set capability is decreased.to a smaller value, network congestion may occur because the handover may not be performed timely. None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None If this parameter is set to a greater value, only an MS close to None the overlaid subcell can be assigned TCHHs. Thus, timeslots are wasted. None If this parameter is set to a smaller value, an MS of bad quality None on the edge of the overlaid subcell cannot be handed over TCHH is to set TCHF. the voiceonly quality If this thisfrom parameter to a a Thus, greater value, MSsofinthe thecall If parameter is set to greater value, the TCHH-to-TCHF is decreased. center area of thebe overlaid subcell can be assigned TCHHs. handover cannot performed in time, thus the voice quality Thus, timeslots are wasted and the congestion relieving is decreased. None capability is decreased. If this parameter is set to a smaller value, unnecessary If this parameter is to If this parameter is set set to a a greater smaller value, value, unnecessary MSs on the edge of handovers may be performed. handovers may be performed. the overlaid subcell also use the TCHH. Thus, the voice If this parameter to a greater value, the handover quality of the call isis set decreased. cannot be performed in time, and thus the voice quality is decreased. None If this parameter is set to a greater value, the MS takes a longer time to meet the conditions for triggering the handover None and the handover cannot be performed in time. Thus, call drops None may occur or more handovers are triggered. If this parameter is set to a smaller value, the MS takes a If this parameter is set a greater value, congestion shorter time to meet thetoconditions for triggering the may None occur in the macro cell. handover, and thus network congestion may occur on the If this parameter is set to a smaller value, the handover macro cell. cannot be performed in time. Thus, call drops may occur or more handovers are triggered. None None None None Not involved None None None None None This parameter limits the number of candidate cells. If this parameter is set to a greater value, some desired cells may None This parameter limits numbercells of candidate cells. may If this be excluded from the the candidate and call drops parameter is set to a greater value, some desired cells may occur. If this parameter is set to a smaller value, an unwanted None be excluded from the candidate cells and call drops may cell may become the candidate cell, thus leading to handover occur. this failuresIfor callparameter drops. is set to a smaller value, an unwanted cell may become the candidate cell, thus leading to handover failures or call drops.

None None If this parameter is set to YES, the probability of MS None handover to the cell in the direction opposite to the moving direction during fast handover is reduced. If this parameter is set to a great value, there are strict restrictions on the judgement of the MS moving direction. If value, unnecessary If this this parameter parameter is is set set to to a a smaller great value, there are strict If this parameter is set to a greater value, the handover handovers may be performed. restrictions on the judgement of the MS moving direction. cannot be performed in time. Thus, the voice quality is If this parameter is set to a greater value, call drops may If this parameter is set to a greater value, the handover decreased and call drops may occur. occur because the handover may not be performed timely. cannot be performed Thus, value, the voice quality is If this parameter is setintotime. a smaller unnecessary decreased and call drops may occur. handovers may be performed. If greatvalue, value,unnecessary the handover If this this parameter parameter is is set set to to a a too smaller cannot be performed timely, and the speech quality is handovers may be performed. If this parameter is set a greater value, the handover deteriorated or call droptooccurs. If this parameter is set to a cannot bevalue, performed in time and call drops may too small unnecessary handovers may beoccur. performed. If this parameter is set to a smaller value, unnecessary handovers may be performed. If this parameter is set to a greater value, call drops may occur None because the handover may not be performed timely. If drops may If this this parameter parameter is is set set to to a a smaller smaller value, value, call unnecessary occur because the handover may not be performed timely. handovers may be performed. If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a greater value, congestion may occur None in the underlaid subcell. If this parameter is set to a smaller value, ping-pong handovers may occur. None None If this parameter is set to YES, the probability that the BTS None transmits at full power increases. This increases the interference but the handover success rate also increases. None None None If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call None drop there is is set no suitable neighboring cell. If thiswhen parameter to "NO_FH", the anti-interference If this parameter is set to a smaller value, the MS is likely to capability of the TRX is decreased. be handed over to the original cell again, thus leading to If this parameter is set to a too great value, the handover ping-pong handovers. cannot be performed timely, and the speech quality is deteriorated or call drop occurs. None If this parameter is set to a too small value, If this parameter is set to may a greater value, unnecessary unnecessary handovers be performed. handovers may be performed. If this If this parameter parameter is is set set to to a a greater smaller value, value, unnecessary the handover None handovers may be performed. cannot be performed in time. Thus, the voice quality is If this parameter is set to amay smaller value, the handover decreased and call drops occur. If this parameter is setintotime. a greater unnecessary cannot be performed Thus,value, the voice quality is handovers may be performed. decreased and call drops may occur. If this parameter is set to a smaller value, call drops may occur because the handover may not be performed timely. None None

If this parameter is set to a smaller value, unnecessary handovers may be performed. None If this parameter is set to a greater value, call drops may occur because the handover may not be performed timely. None None The Nonediscontinuous transmission (DTX) function allows a transmitter to stop power transmission in the case of no voice None transfer. This function has the following benefits: In the uplink: decreasing the power consumption of the MS The discontinuous transmission (DTX) function allows a None and reducing system interference transmitter to stop power transmission in the case voice In the downlink: decreasing power consumption of of thenoBTS, None transfer. This function has the following benefits: reducing system interference, and reducing intermodulation In the uplink: decreasing the power consumption of the MS inside the BTS None and reducing system interference From the network perspective, the inter-frequency In the downlink: decreasing power consumption the BTS, interference is reduced and the network quality isofimproved. reducing system interference, and reducing intermodulation inside None the BTS From the network perspective, the inter-frequency interference is reduced and the network quality is improved. None None None None None None None None None None None None None None None None None None None None If this parameter is set to a smaller value, the network None interference is increased; if this parameter is set to a greater value, congestion may occur in the cell.

If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, congestion may occur in the cell. If this parameter is set to a greater value, the call duration is None prolonged; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced. None None None None If this parameter is set to a greater value, the handover duration is prolonged and thus the handover cannot be None performed in time; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced. None If this parameter is set to a smaller value, the network None If this parameter is set to aif greater value, the handover interference is increased; this parameter is set to a greater duration is prolonged and thus the handover cannot be value, congestion may occur in the cell. performed in time; if this parameter is set to a smaller value, If this parameter is set to a smaller value, the network the IBCA estimation accuracy is reduced. interference is increased; if this parameter is set to a greater value, congestion may occur in the cell. None If this parameter is set to a greater value, the accuracy of interference assessment in the IBCA algorithm may be None reduced; if this parameter is set to a smaller value, the CPU occupancy for IBCA algorithm is increased. None None None None None None None None None If this parameter is set to a greater value, the handover duration is prolonged and thus the handover cannot be None performed in time; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced. None If this parameter is set to a greater value, the accuracy of interference assessment in the IBCA algorithm may be None reduced; if this parameter is set to a smaller value, the CPU occupancy for IBCA algorithm is increased. None None None

None None If this parameter is set to YES, cell congestion may occur when the interference is strong. None None None If this parameter is set to a smaller value, the network None interference is increased; if this parameter is set to a greater value, congestion may occur in the cell. None None None None None None None None If this parameter is set to a greater value and consequently there is a small number of requests for SDCCHs, the None SDCCHs of a cell are in idle state and the TCH traffic volume during None busy time is decreased. if this parameter is set to a smaller value and consequently there None is a large number of requests for SDCCHs, the requests cannot be met and the access success rate is decreased. None None None None None None None None None None None None None None

None None None None If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. None If this parameter is set to a greater value, the call-completion None rate of MS increases but the BSC6900 load may also If this parameter is set to a greater value, the call-completion increase. None rate MS increases BSC6900 load also of the If thisofparameter is setbut to the a smaller value, themay increase increase. call completion rate is not obvious. If this parameter is set to a smaller value, the increase of the call completion rate is not obvious. If this parameter is set to YES, the call completion rate of the MS increases but the BSC6900 load also increases. None None None If this parameter is set to a smaller value, the channel load may increase and the access success rate may decrease. None If this parameter is set to a greater value, channel resources may Nonebe wasted, thus causing congestion. If this parameter is set to a smaller value, the handover success rate may decrease. None None None None None None None None If this parameter is set to a greater value, the traffic volume during None busy time may be decreased. If volume If this this parameter parameter is is set set to to a a greater smaller value, value, the the traffic voice quality during busy time may be decreased. may be decreased. If this parameter is set to a smaller value, the voice quality may be decreased. The of this this parameter parameter is affects thehigh, MOS. C/I If thesetting value of set too theWhen powerthe load ratio is satisfactory, the coding scheme of higher rate is of other timeslots or cells is burdened. The setting of this parameter MOS.of When C/Iis recommended; otherwise, theaffects codingthe scheme lowerthe rate ratio is satisfactory, the coding scheme of higher rate is recommended. The setting of this parameter MOS.of When C/Iis recommended; otherwise, theaffects codingthe scheme lowerthe rate ratio is satisfactory, the coding scheme of higher rate is recommended. recommended; otherwise, the coding scheme of lower rate is recommended. None

None None None None None If this parameter is set to a greater value, congestion may occur None in the underlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the overlaid subcell is difficult to be relieved. None None None None None None None None None None None None If this parameter is set to a greater value, call drops may None occur. If this handover If this parameter parameter is is set set to to a a greater smaller value, value, the handover may be None cannot be performed in time. Thus, the voice quality is is performed frequently and the signaling load in the cell If this parameter is set to a greater value, unnecessary decreased and call drops may occur. increased. handovers may be performed. If this parameter is set to a smaller value, unnecessary If this parameter is set to a smaller value, the handover handovers may be performed. cannot be performed in time, thus the voice quality is decreased or call drops may occur. None None None None None None None None None None

None None None Not involved If this parameter is set to a relatively small value, the calls None If thislow parameter is setare to ahanded relatively great value, congestion with receive level over to other cells. Thus, occurs to inter-RAT neighboring cells in a short time. If this the handover success rate is decreased. If this parameter is set to a relatively great value, congestion parameter is set to a relatively small value, the congestion in occurs to inter-RAT neighboring the current cell cannot be solved.cells in a short time. If this parameter is set to a relatively small value, the congestion in If this parameter is set to relatively small value, the calls the current cell cannot beasolved. with low receive level are handed over to other cells. Thus, the handover success rate is decreased. None None None None None If this parameter is set to a greater value, congestion may occur None in the underlaid subcell; If this parameter is set to a smaller value, handover success rate may be decreased. If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. None If this timer is set to a smaller value, the handover success rate may decrease. None If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. None If this timer is set to a smaller value, the handover success If thismay parameter is set to a relatively great value, the rate decrease. congestion in the current cell cannot be solved. If this parameter is set to a relatively small value, the calls with low None receive level are handed over to other cells. Thus, the handover success rate is decreased. None None None None None None None None None None None

None None None None None None None None None None None None None None None Not involved Not involved None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None This parameter adjusts traffic distribution. None

None None None None None None None None None None If this parameter is set to a greater value, congestion may None occur in the macro subcell; If this If this parameter parameter is is set set to to a a greater smaller value, value, unnecessary unnecessary None handovers may be performed, thus handovers may be performed, thus the the voice voice quality quality is is decreased and ping-pong handover may occur. decreased and ping-pong handovers may be performed. If this parameter is set to a smaller value, congestion may occur in the macro subcell. None None None None None None None None None None None None None None None None None None None None

If this parameter is set to a too small value, the corresponding cell may reject some handover requests; thus the traffic congestion on the neighboring cells with heavy traffic cannot be relieved. None If this parameter is set to a too great value, the corresponding cell may be overloaded. None None None This parameter adjusts traffic distribution. None None If this parameter is set to a greater value, it is difficult for the MS to be handed over to the serving cell, thus leading to call None If thiswhen parameter to a greater value, it cell. is difficult for the drop there is is set no suitable neighboring MS to be handed over to the serving cell, thus leading to call If this parameter is set to a smaller value, the MS is likely to This parameter adjusts traffic distribution. drop when there is no suitable neighboring cell. be handed over to the serving cell again, thus leading to If this parameter is set to a smaller value, the MS is likely to ping-pong handovers. be handed over to the serving cell again, thus leading to ping-pong handovers. If this parameter is set to a greater value, congestion may occur None in the neighboring cells in a short time; if this parameter is set to a smaller value, congestion in the serving cell is difficult to be relieved. This parameter adjusts traffic distribution. None None None None None None None This parameter adjusts traffic distribution. None None None None None None None None Not involved None None

None None None None None None None None None None None None None None None None None None None None None None None None Not involved None None None None None None None None None

None When this parameter is set to "ON" and the level of the None channel request received by the BSC6900 is low, the BSC6900 assigns only an underlaid channel to the MS. In the None case of heavy traffic, this may lead to congestion in the underlaid subcell but can prevent call drops due to the None excessively low level when the MS accesses an overlaid channel. None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None Not involved Not involved None None When this parameter is set to YES, the network KPIs may be deteriorated. When this parameter is set to YES, the network KPIs may be deteriorated. None None None None None Not involved None None None None None None None None None None None None None None None None None None None None None

Not involved None None None None None None None None None None If this parameter is set to a smaller value, call drops may occur None due to delayed power control; if this parameter is set to a greater value, the power control may be performed excessively, thus leading to ping-pong power control. None If this parameter is set to a smaller value, call drops may occur None or voice quality may be decreased due to delayed handover; if this parameter is set to a greater value, unnecessary handover may be performed. None None None None None None None None None None None None None None None None None None

None None None None None None In a multi-band network, this parameter can be set on the basis of the traffic volume on each frequency band. None If this parameter is set to 0, the MS reports the measurement If this parameter is set to acells smaller value, algorithm results of six neighboring known and the permitted by the None cannot fast with power If thisregardless parameterofisthe setband to a NCC atrealize the bands thecontrol. best signal If this parameter is set to a smaller value, the algorithm greater value, the power control may be performed at which the neighboring cell is located. None cannot realize fastis power control. If this parameter is setpingto a excessively, thus leading quality, lowthe level, and If this parameter set to to 1, poor the MS reports measurement If this parameter is set to a smaller value, the algorithm greater value, the power control may be performed pong power control.. cell known and permitted by the NCC result of a neighboring cannot realize fastleading power control. If this parameter set to a excessively, poor quality, lowserving level, is and at each bandthus with the besttosignal (the band the pinggreater value, the power control may be performed pong power control.. current cell not included). The MS reports the measurement excessively, thus leading to poor quality, low level, and pingresult of the neighboring cell at the band serving the current pong power control.. cell in the redundant position. If the redundant position is still available, the MS reports the measurement results of other None neighboring cells regardless of the bands at which the neighboring cells are located. None If this parameter is set to 2, the MS reports the measurement If this parameter is set to acell smaller value, call drop None results of two neighboring known and the permitted by rate the may increase; if this parameter is set to a greater value, NCC at each band with the best signal (the band servingthe the speech cell quality be affected. current not may included). The MS reports the measurement result of the neighbor cell at the band serving the current cell None in the redundant position. If the redundant position is still available, the MS reports the measurement results of other None If this parameter set to a smaller value, call dropsthe may neighboring cellsisregardless of the bands at which occur due to delayed power control; if this parameter is set to neighboring cells are located. None a greater value, the power be performed If this parameter is set to 3,control the MSmay reports the measurement excessively, thus leading to cells ping-pong control. by the results of three neighboring knownpower and permitted NCC at each band with the best signal (the band serving the None current cell not included). The MS reports the measurement result None of the neighboring cell at the band serving the current cell in the redundant position. If the redundant position is still available, the MS reports the measurement results of other None neighboring cells regardless of the bands at which the neighboring cells are located. None None None None None None None None None None

None In scenarios with heavy traffic, the network performance can be improved if this switch is turned on. None None Not involved None Not involved None None None None Not involved None Noneparameter is used to limit the number of candidate cells This for handovers. None If this parameter is set to a greater value, some desired cells may Nonebe excluded from the candidate cells, thus leading to call drops. If this parameter is set to a smaller value, an unwanted cell None may become a candidate cell, thus leading to handover failures. None None None None None None None None None If this parameter is set to a smaller value, the idle state of the current SDCCHs cannot be indicated correctly and None consequently the rollback of SDCCHs immediately triggers adjustment and affects the access success rate. None If value,the some desired cells If this this parameter parameter is is set set to to a a greater larger value, channel may be excluded from the candidate cells, thus leading to call allocation algorithm becomes less sensitive and consequently None drops. the SDCCHs stay in idle state and cannot be rolled back for a If thisperiod parameter is set toaffecting a smallerthe value, unwanted cell long of time, thus TCHan traffic volume. may become a candidate cell, thus leading to handover failures. None None

None None None None None None None None None None None None None None None None None None None None None None None None None Not involved Not involved None None None If the value of this parameter is set too high, the RSL congestion is likely to occur. None None None

None None None None None None None None None None None None None None None None None If this timer is set to a greater value, the radio resources are None occupied for a too long time, thus affecting the channel resource usage. None If this timer is set to a smaller value, the call reestablishment success rate decreases. None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None This Noneparameter should be set as required: In the areas where the traffic volume is low, this parameter can be set to 4 or 7 to improve None the success rate of MS access. In the areas where congestion occurs or in the micro cells where the traffic volume is high, it is recommended this parameter be set to 1.

None None This parameter limits the number of candidate cells. If this parameter is set to a greater value, some desired cells may None be excluded from the candidate cells and call drops may occur. None If this parameter is set to a smaller value, an unwanted cell may become the candidate cell, thus leading to handover failures or call drops. None None None None None None None None None None None None None None None None None None None None None None None None Nonethe BTS3X in G3BTS32.30000.04.1130 or later and the Only double-transceiver BTSs support the LAPDm N200 None parameter. If this parameter is set to Yes, the BSC6900 sends the None LAPDm N200 parameter. If this parameter is set to OFF, the BSC6900 does not send the LAPDm N200 parameter. None If a BTS does not support this parameter, the parameter should be set to No. Otherwise, the BTS cannot be initialized.

None None None None None None None None None None None None None None None None None None None None None None None None When this parameter is set to ENABLE, the MOS can be increased in a call between MSs. None None None None None None None None None

The most significant three bits of BSIC for all cells map with the NCC. NCC Permitted should be set properly to avoid too many call drops. The MS does not report the information on the neighboring cells in the network whose corresponding NCC bit is set to 0. Thus, this parameter should be set properly. Otherwise, an MS during an ongoing call cannot perform normal handover and a cross-coverage call drop None For details, see GSM Rec. 05. 08. occurs. During an ongoing call, the MS reports to the BTS the signal None information on neighboring cells. A report covers a maximum of six cells. Thus, the MS should report those possible target None cells, rather than selecting cells only based on the signal level. None Generally, the MS does not report the information on the cells belonging to other GSM PLMNs. This Nonefunction enables the MS to measure only those specified cells. This parameter specifies the codes of the NCCs to be None measured by the MS. On the SCH, the system constantly transmits the BSIC, the None first three bits of which indicate the NCC. Thus, the MS needs to compare only this parameter with the adjacent NCCs None measured. Then, the MS reports the matched NCCs to the BTS Noneand discards others. The setting of this parameter affects only those MSs during conversation, as well as boundary handovers. None None None None None None None None None None None None None None None If this parameter is set to a smaller value, handovers are performed frequently; if this parameter is set to a greater None value, handovers cannot be performed timely, thus leading to call drops. None None None None None None None

None None None None None None None None None None None None None None If greater value, thebe handover If this this parameter parameter is is set set to to a YES, FR calls can switched into margin istoincreased in a short period and many MSs are HR calls relieve the network congestion, but the voice None handed from TCHF to parameter TCHH, thus theFR voice quality isover decreased; if this is affecting set to NO, calls quality. cannot be switched into HR calls, that is, network congestion None If this is set value, the If this parameter parameter is through set to to a a greater greater value, only MSs intothe If this parameter is set to a smaller value, from the handover handover cannot be relieved theperiod handover TCHF margin is increased in a short and many MSs are the center of the cell can meet the handover condition. margin is enlarged slowly and it takes a long time toThus, initiate a TCHH. handed over from TCHF to TCHH, thus affecting the network congestion cannot be relieved in time. TCHF-TCHH handover. Thus, the network congestionvoice cannot quality. If this parameter is set to a smaller value, MSs at the edge of be relieved in time. If this parameter is to greater MSs at theaffecting edge of If this parameter is set set the to a ahandover smaller value, value, the handover the cell can also meet condition, thus the cell can also meet the handover condition, thus affecting margin is enlarged slowly and it takes a long time to initiate a the voice quality. is set to a greater value, MSs with poor If this parameter the voice quality. TCHF-TCHH handover. Thus, network congestion cannot be quality can also meet condition, If this parameter is setthe to ahandover smaller value, onlythus MSsaffecting in the relieved in time. If this parameter is set to a greater value, the calls be the voice quality. center of the cell can meet the handover condition.cannot Thus, the handed over to TCHH in a short period when the traffic If this parameter is set to a smaller value, little MSs can meet network congestion cannot be relieved in time. If this parameter is set toThus, a greater value, only MSs in the volume is increased greatly. Thus, the network congestion the handover condition. the network congestion cannot center of the cell use the TCHH, thus leading to timeslot cannot be relieved in time. If this parameter is set to a smaller be relieved in time. If this parameter is set to a greater value, MSs at the edge of waste and congestion cannot be relieved in time. value, callsthe arenetwork handed over to TCHH unnecessarily, thus the cell and with poor quality also cannot be handed over to If this parameter is set to a smaller value, MSs at the edge of causing MOS loss of the customer. the the voice quality.be If this parameter the TCHF, cell andthus withaffecting poor quality also cannot handed over tois set a smaller value, only in quality. the center of the cell use the to TCHF, thus affecting theMSs voice the TCHH, thus leading to timeslot waste and the network If this parameter is be setrelieved to a greater value, handover cannot be congestion cannot in time. triggered even when the quality is poor, thus affecting the If this quality; parameter is set to a smaller calls are handed voice if this parameter is setvalue, to a smaller value, None over to TCHH unnecessarily, thus causing MOS loss of thethe handover is triggered even when the quality is good, thus customer; if this parameter is set to a greater value, TCHFnetwork congestion cannot be relieved in time. TCHH handover is performed only when the traffic volume is high, thus network congestion may occur. None The Nonehandover decision is allowed only when the uplink receive quality is greater than or equal to the value of this parameter. Therefore, if this parameter is set to a greater None value, the handovers due to no-downlink measurement report cannot be triggered. None None

None None None None None None None None None None None None None None None This Noneparameter should be set to a small value because the signaling channel seizure duration is shorter than the traffic channel seizure duration for the MS. None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None If this parameter is set to a greater value, congestion may None occur in the underlaid subcell; if this parameter is set to a If this parameter is set to a success greater value, assignment smaller value, assignment rate may be decreased. success rate may be decreased; if this parameter is set to a smaller value, congestion may occur in the underlaid subcell. None

None None None None None None None None None None None None If this parameter is set to a greater value, congestion may None occur in the overlaid subcell; if this parameter is set to a smaller value, congestion may occur in the underlaid subcell. If the value of this parameter is set too small, frequent If this parameter is set a greater value, congestion may handovers are likely to to occur. occur in the overlaid subcell; if this parameter is set to a smaller value, congestion may occur in the underlaid subcell. If this parameter is set to a greater value, congestion may occur None in the overlaid subcell in a short time; if this parameter If parameter set to congestion a greater value, in the is this set to a smallerisvalue, in thecongestion underlaid subcell underlaid subcell is difficult to be relieved; if this parameter is is difficult to be relieved. If is set congestion to a greatermay value, congestion may setthis to parameter a smaller value, occur in the overlaid occur overlaid subcell in a short time; if this parameter subcellininthe a short time. is set to a smaller value, congestion in the underlaid subcell If parameter is set to a greater value, congestion may is this difficult to be relieved. occur in the underlaid subcell; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell. None None None None None None None None None None If this parameter is set to a greater value, congestion may None occur in the underlaid subcell; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell. None

None None None None None None None None None None None If this parameter is set to a smaller value, the BTS frequently None reports overload indication messages to the BSC6900. As a None the BSC6900 frequently reports overload indication result, messages to the MSC and thus the MSC may initiate flow None control. If this parameter is set to a greater value, the BTS sends None overload indication messages to the BSC6900 only when a large number of MSs access the network and when the system resources are insufficient. Therefore, the access None requests on the RACH and all the messages on the PCH are discarded. None None None None None None None None None Properly setting this parameter can increase the paging success rate. If this parameter is set to a greater value, None paging overload may occur and the paging success rate may decrease. None None None None None None

None None None None None None None None If this parameter is set to a greater value, the handover cannot None be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed. If this parameter is set to a greater value, unnecessary handovers may be performed; if this parameter is set to a None smaller value, handovers may not be performed in time and call drops may occur. None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None If this parameter is set to a greater value, the target cell for None the previous handover will not be selected for the next handover, but the probability of call drop increases. If this None parameter is set to a smaller value, the probability of handover failure increases. None None None The MS calculates C1 and C2 of the serving cell at a None minimum interval of 5s. When necessary, the MS reIf this parameter is set to "YES", the user with high QoS calculates C1 and C2 of all non-serving cells (neighboring requirement may occupy a great number of PS resources. In None The MS cells). constantly checks whether a cell reselection is this case, the remaining resources for other users reduce. As required by checking following conditions: a result, the KPIs for these users become bad. Whether the path loss (C1) of the current serving cell drops below None 0 within 5s. If yes, the path loss is too large. C2 of an appropriate non-serving cell exceeds that of the serving None cell in 5s and the following conditions are met: If thisC2 parameter setintoanother a lowerLAC value, the CRH paging success The of a new is cell minus (broadcast rate decrease. in themay system information 3 and 4 of the serving cell) exceeds C2 of the serving cell in 5s. None A cell reselection is performed in the last 15s, and the C2 of the new cell minus 5 dB constantly exceeds the C2 of the None serving cell in 5s. A better cell exists if the above conditions are met. If a better None cell exists, the MS reselects a cell, and does not select the previous cell within 5s. None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None Not involved Not involved None None None Not involved None None Not involved Not involved None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None If this parameter is set to "YES", the delay caused by cell reselection decreases. None None None None None

None None None None If this parameter is set to a greater value, the call drop rate None decreases but the traffic volume and paging success rate are affected. None None None None None None None None None None None None None None None None None None The setting of this parameter affects the GSM Phase II MS. None None None None None None None None None

None None None None None None None None None None None None None None None None None None None If the value of this parameter is set inappropriately high or None small, the BTS cabinet top output power is inconsistent with the TRX output power. None None None None None None None None None If this parameter is set to a greater value, unnecessary handovers between micro cells are performed, thus affecting None the voice quality. If this parameter is set to a smaller value, congestion may occur in macro cells. If this parameter is set to a greater value, congestion may occur None in macro cells. If this parameter is set to a smaller value, unnecessary handovers between micro cells are performed, thus affecting the voice quality.

None None None None None If this parameter is set to a greater value, downlink power insufficiency may not be solved in time, thus leading to call None If this parameter is set to a greater value, unnecessary drops. handovers may be performed, thus value, the voice quality is If this parameter is set to a smaller unnecessary None decreased. handovers may be performed, thus the voice quality is If this parameter is set to a smaller value, downlink power decreased. insufficiency may not be solved in time, thus leading to call drops. None If this parameter is set to a smaller value, the algorithm None cannot realize fast power control. If this parameter is set to a greater None value, the power control may be performed excessively, thus leading to poor quality, low level, and pingpong power control. None None None None None None None None None None None None None None None None None None None None None

None If this value, the the call BTSdrop frequently If this parameter parameter is is set set to to a a smaller greater value, rate None sends the overload messages to the BSC6900. Thus, the are decreases but the traffic volume and paging success rate system affected.resource usage decreases and MSs are difficult to access the network. If this parameter is set to a smaller value, the random access If this parameter set to a greater value, the BTS sends an success rate mayisdecrease. overload message to the BSC6900 at a long interval. Thus, system faults may occur. None If this parameter is set to a smaller value, the allowable error rate Nonefor the random access signal is high and an MS can easily access the network; however, the error report rate is high. None If this parameter is set to a greater value, the error report rate of the MS is low but the MS cannot easily access the network. None None None When this parameter is set to on, the MOS of a MS-initiated and MS-terminated call is improved. None None None None None None If this parameter is set to YES, the BSC6900 initiates a reassignment when receiving an assignment failure message None over the Um interface. This helps increase the call completion rate Noneand improve the QoS of the network. The successful reassignment, however, results in an increase in the access delay of MSs and the load of the BSC6900. None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None If this parameter is set to a greater value, too many channels None may be reserved for the users with high priority, and the users with low priority may be failed to access channels. If None If this parameter smaller value, the radioreserved resourcefor this parameter is is setset toto aa smaller value, channels status is reported too frequently, thus increasing the load of the users with high priority may be insufficient. the BSC6900. If this parameter is set to a greater value, the radio resource None status is not immediately reported and thus the BSC6900 cannot handle the interference to the BTS in time. None None None If this parameter is set to a smaller value, the radio link is None vulnerable to failure, thus call drops are likely to occur. If this parameter is set to a greater value, the MS may not None release the connection for a long time, thus decreasing the resource usage. The parameter is valid in the downlink. None None None None None None None None None None None None

None None None None None If desired If this this parameter parameter is is set set to to a a greater greater value, value, some call drops maycells may be excluded from the candidate cells, thus leading call occur due to no suitable neighboring cell for handover. Iftothis None drops. parameter is set to a smaller value, handover success rate If thisbe parameter is set to a smaller value, an unwanted cell may decreased. may become a candidate cell, thus leading to handover failures. None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None When this parameter is set to on, the MOS of a MS-initiated and MS-terminated call is improved. None None None None None None None None If this parameter is set to a greater value, the call drop rate None decreases but the traffic volume and paging success rate are affected. None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None If this switch is set to ON, the call access delay may be None The greaterbut thethe value of this parameter is, the longer the call prolonged, performance of the algorithms in which the access duration is, the MRs are filtered more completely. SDCCH MRs are used are enhanced. Generally, you are advised to set this parameter to a value smaller than 20. None None None None None None If this function is enabled after encryption is enabled, the network security can be improved.

If this parameter is set to a greater value, the handover cannot beisperformed time and call drops may occur.of If the this The TRX shut downinautomatically, and the capacity parameter is set to a smaller value, unexpected handovers cell is decreased. may be performed due to incorrect MR when the call is If this parameter is set to a greater value, the handover initially set up, thus affecting handover success rate. to micro cells becomes difficult, and congestion may occur in If this parameter set to a greater the handover macro cells. If thisis parameter is set value, to a smaller value, to None micro cells becomes difficult, and congestion may occur unnecessary handovers are performed, thus affecting thein macro cells. If this parameter is set to a smaller value, voice quality. unnecessary handovers are performed, thus affecting the voice quality. None None None None None None None When the neighboring 3G cell is configured and the intersystem None cell reselection is enabled, the MS cannot receive the 2Quater message and thus cannot be reselected to the neighboring 3G cell if this parameter is set to NO. None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None Not involved None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None This parameter can be used to control network load based on the MS access classes, thus preventing some MSs from None accessing the network. It is recommended that this parameter be not used. None None

None None None None None None None If this parameter is set to a greater value, the handover to None micro cells becomes difficult, and congestion may occur in If this parameter is set to a greater value, the handover to macro cells. None micro cells becomes difficult, and congestion may occur in If this parameter is set to a smaller value, more handovers macro cells. may be performed, thus the voice quality is decreased. If this parameter is set to a smaller value, more handovers may be performed, thus the voice quality is decreased. None None None None None None None None None None None None None None None None None None None None None None None

None None None Not involved None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call None drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be None handed over to the original cell again, thus leading to pingpong handovers. None None None None None None None If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call None drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be None handed over to the original cell again, thus leading to pingpong handovers. None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None Not involved None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data None If timer T200 fails is setbefore to a smaller value,end the receives transmit end transmission the transmit a may mistakenly regard that the linkIf is faulty andisthe data response from the peer end. timer N200 set to a smaller None If timerthe T200 is setbefore to data a smaller value,end the receives transmit end maythe transmission fails the transmit a and value, number of retransmissions is reduced mistakenly regard that the link is faulty and the data response from the peer end. If timer N200 is set to a smaller success rate of transmission is reduced. timers T200 and None If timerthe T200 is set to data a smaller value,end theIfreceives transmit end may transmission fails before the transmit a and value, number of retransmissions is reduced N200 are set to greater values, the channels are seized allthe mistakenly regard that the linkIf is faulty and the data response from the peer end. timer N200 is set to a smaller success rate of transmission is reduced. If timers T200 and along the link Thus, resources are wasted. If timerwhen T200 is set toisdata afaulty. smaller value, the receives transmit end maythe transmission fails before the transmit end a and value, the number of retransmissions is reduced N200 are set to greater values, the channels are seized all mistakenly regard that the link is faulty and the data response from the peer end. If timer N200 is set to a smaller success ratethe of transmission is reduced. Iftransmit timers T200 and along when link is faulty. Thus, resources are wasted. If timer T200 is set to a smaller value, the end may transmission fails before the transmit end receives a and value, the set number of data retransmissions is reduced N200 are to greater values, the channels are seized allthe mistakenly regard that the linkIf is faulty and the data response from the peer end. timer N200 is set to a smaller success rate of transmission is reduced. If timers T200 and along the link Thus, resources are wasted. If timerwhen T200 is set toisdata afaulty. smaller value, the receives transmit end maythe transmission fails before the transmit end a and value, the number of retransmissions is reduced N200 are set to greater values, the channels are seized all mistakenly regard that the link is faulty and the data response from the peer end. If timer N200 is set to a smaller success ratethe of transmission is reduced. If timers T200 and along when link is faulty. Thus, resources are wasted. transmission fails before the transmit end receives a and value, the set number of data retransmissions is reduced N200 are to greater values, the channels are seized allthe response from the peer end. If timer N200 is set to a smaller success rate of transmission is reduced. If timers T200 and along when the link is faulty. Thus, resources are wasted. value, the set number of data retransmissions is reduced and N200 are to greater values, the channels are seized allthe success rate of transmission is reduced. If timers T200 and along when the link is faulty. Thus, resources are wasted. N200 are set to greater values, the channels are seized all along when the link is faulty. Thus, resources are wasted. None None None None None None None None None If this parameter is set to a smaller value, the paging success None rate increases but the load on the SDCCH also increases, thus causing congestion on the SDCCH. None None None None None None None None None None None None None

If this parameter is set to a greater value, the handover If this parameter is setintotime a greater value, handover cannot be performed and call dropsthe may occur. cannot be performed in time and call drops may occur. If this If this parameter is set to a smaller value, unnecessary parameter is set to a smaller value, the coverage area of the handovers may be performed. cell is reduced, and the traffic volume on the cell may be decreased. None None None None None None None None None None None None None None When this parameter is set to a large value, the values of the None new TCH call to drops (DL FER) and TCH call drops If thiscounters parameter is set a greater value, network congestion When thisand parameter is set reduced. to a largeWhen value, the values of the (UL FER DL FER) are this parameter is may occur in the cell; if this parameter is set to a smaller None new counters TCH call drops (DL receive level) and TCH call set to a small value, the values of the two counters are value, TCHHs are allocated even when the trafficvalues volume When this parameter isnumber set to aoflarge value, of on the drops (UL receive level) arethe increased. Whenthe this parameter increased. The this overall callquality. drops, however, the cell is light, affects voice new counters TCH call drops (DL receive quality) and TCH is set to a small value, the values of the two counters are remains unchanged and thetoperformance of the other counters is When this parameter isquality set a large value, values of the call drops (UL receivenumber and DLdrops, receive quality) are reduced. The overall of call however, remains not affected. new counters TCH drops (UL FER) TCH call drops reduced. When this parameter is set to aand small value, the unchanged and thecall performance of other counters is not When this parameter isare setare to aincreased. large value, theoverall values of the (UL FER and DL FER) reduced. When this parameter is values of the two counters The number affected. new counters TCH call drops (UL receive level) and TCH call set to a small value, the values of the two counters are of call drops, however,isremains unchanged and values the When this receive parameter set to large value, of the drops (UL level and DLais receive level)the are increased. increased. The overall number of callaffected. drops, however, performance of other counters not new counters TCH call drops (UL receive quality) and TCH When this parameter is set to a small value, the values of the remains unchanged and the performance of other counters is call drops (UL receive quality and DL receive quality) are two counters are reduced. The overall number of call drops, not affected. reduced. thisunchanged parameterand is set a small value, however, When remains thetoperformance of the other If this parameter is set to a greater value, the handover values of the two counters are increased. The overall number counters is not affected. cannot be performed time andunchanged call drops may occur. If this of call drops, however,inremains and the parameter is set to a smaller value, unexpected handovers performance of other counters is not affected. may be performed due to incorrect MR when the call is If this parameter is set to a greater value, the half-rate initially set up, thus affecting handover success rate. channels are assigned to the MS only when the channel If this parameter is set to subcell a greater the half-rate None seizure ratio of underlaid is value, very high. Insufficient halfchannels are assigned to the MS only when the channel rate channels can be assigned to the MS. Thus, the capacity None seizure ratioisofreduced. overlaid subcell is very high. Insufficient halfof the BSC If thischannels parameter setassigned to a smaller value, the handover rate canis to calls the MS. Thus, theover capacity If this is set smaller value, half-rate If this parameter parameter isbe set to to a ON, the arethe handed on frequency is higher. of the BSC is reduced. channels are assigned to the MS only when the channel schedule. This increases the load of the BSC6900 but If this parameter is setsecurity. to subcell a smaller theThe half-rate seizure ratio underlaid is value, very low. calls use improves theof network channels are assigned to the MS only when the channel the half-rate channel even if there are enough full-rate seizure ratio of overlaid subcell is veryquality. low. The calls use the channels, which influences the voice half-rate channel even if there are enough full-rate channels, which influences the voice quality. None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None If both TFO and AEC functions are enabled and the acoustic None echo is detected, the TFO is disabled to cancel the echo so that the speech quality can be improved. None None None None None None None None None None None None None None None None None None None None If this parameter is set to a greater value, the BCCH may idle while None non-BCCHs are congested, thus affecting the traffic volume during busy times. If this parameter is set to a smaller value, the assignment of None the BCCH may fail, and thus the access success rate may be decreased.

If this parameter is set to a greater value, the assignment of the BCCH may fail, and thus the handover success rate may If parameter is set to a greater value, the BCCH may idle bethis decreased. while affecting the traffic If this non-BCCHs parameter isare set congested, to a smallerthus value, the BCCH may idle volume during busy times and the access success while non-BCCHs are congested, thus affecting therate. traffic If this parameter is set to a smaller value, unnecessary volume during busy times. handovers may be performed, thus the voice quality is decreased. None None None None None None None If this parameter is set to a greater value, cell congestion may None If parameter is set to athus greater value, it is difficult for the bethis difficult to be relieved, affecting the traffic volume MS to be handed over to the original cell, thus leading to call during busy times and the access success rate. If this None drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, handover success rate parameter is set to a smaller value, the MS is likely to be may be decreased. If this parameter is set to a greater value, drop rate may handed over to the original cell again, thuscall leading to pingbe increased and congestion may occur in the overlaid pong handovers. subcell; if this parameter is set to a smaller value, handover success rate may be decreased. None None None If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call None drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be None handed over to the original cell again, thus leading to pingpong If this handovers. parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call None drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be None handed over to the original cell again, thus leading to pingIf this handovers. parameter is set to a greater value, congestion may pong occur in the underlaid subcell; if this parameter is set to a smaller value, handover success rate may be decreased. None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None Not involved None None None None None

None None None None None None None None None None None None None None None None None When None this parameter is enabled, the fast flux monitoing frequency is increased, and the channel allocation can be adjusted more quickly to adapt to the service type. Thus, the None terminal throughput and BSC PS resource usage can be increased. None None None None None None None Not involved None None None None None None

None None None None None If the number of RACH conflicts in a cell is small, T should be None set to a great value. If the number of RACH conflicts in a cell None is large, T should be set to a small value. The increase in T and S prolongs the access time of an MS, thus affecting the None access performance of the whole network. Therefore, appropriate values should be selected for T and S. None When the network traffic is heavy, the success rate of immediate assignment is low if the sum of S and T is low. None Thus, the value of T should be properly adjusted to make the sum of S and T great. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. None None None None None None None None None None None None None None None

None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None None

None None None None None None None None If the parameter is set to a relatively great value, down power adjustment may not be performed when the uplink quality is None If the parameter is set to a waste relatively value,the up power good, thus causing power andgreat increasing adjustment may be performed when the uplink quality interference. If this parameter is set to a relatively smallis None If the parameter is set to a relatively great value, down good, thus causing power waste and increasing the value, down power adjustment may be performed whenpower the adjustment may notparameter be performed uplink quality is interference. Ifisthis is setwhen to drops a the relatively small uplink quality poor. In this case, call may occur. If the parameter is set to a waste relatively value,the upwhen power good, thus causing power increasing value, up power adjustment may and not great be performed the adjustment may be performed when the uplink quality is interference. If this parameter is set to a relatively small uplink quality is poor. In this case, call drops may occur. good, power waste andbe increasing the value, thus downcausing power adjustment may performed when the interference. If this parameter is set to a relatively small uplink quality is poor. In this case, call drops may occur. If this parameter is set to a greater value, the handover value, up power adjustment may not be performed when the cannot be performed in time and call drops uplink quality is poor. In this case, call dropsmay mayoccur. occur. If If this this parameter parameter is is set set to to a a greater smaller value, value, unnecessary unnecessary handovers may be performed. handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time and call drops may occur. None None If this parameter is set to a smaller value, call drops may occur None due to delayed handover; if this parameter is set to a greater value, unnecessary handover may be performed, thus affecting the voice quality. None If the parameter is set to a relatively great value, down power adjustment may not be performed when the uplink quality is None If the parameter is set to a waste relatively value,the up power good, thus causing power andgreat increasing adjustment may be performed when the uplink quality interference. If this parameter is set to a relatively smallis None If the parameter is set to a relatively great value, down good, thus causing power waste and increasing the value, down power adjustment may be performed whenpower the adjustment may notparameter be performed uplink quality is interference. Ifisthis is setwhen to drops a the relatively small uplink quality poor. In this case, call may occur. If the parameter is set to a waste relatively value,the upwhen power good, thus causing power increasing value, up power adjustment may and not great be performed the adjustment may be performed when the uplink quality is interference. If this parameter is set to a relatively small uplink quality is poor. In this case, call drops may occur. good, power waste andbe increasing the value, thus downcausing power adjustment may performed when the interference. If this parameter is set to a relatively small uplink quality is poor. In this case, call drops may occur. value, up power adjustment may not be performed when the uplink quality is poor. In this case, call drops may occur. None None None None None None None

None If this parameter is set to a relatively small value, the fast None power control on the uplink cannot be implemented. If this If this parameter is set to a relatively small value, call drops parameter is set to a relatively great value, the power control None may occur due to delayed power control in the uplink. If this may be performed excessively on the uplink, thus leading to parameter is set to a relatively great value, the power control poor quality, low level, and ping-pong power control. may be performed excessively on the uplink, thus leading to ping-pong power iscontrol. If this parameter set to a smaller value, downward power control is not performed when the signal quality is good, thus None If this parameter is setand to aincreasing greater value, upward power causing power waste the interference. If this control may not be performed when the voice quality is bad, parameter is set to a greater value, downward power control None thus affecting the voice quality. If this parameter is set to is performed even though the signal quality is bad, thus a smaller upwardquality. power control may be performed when affectingvalue, the speech the voice quality is good, thus causing the power waste and increasing the interference. None If this parameter is set to a greater value, handover may not None be performed when the uplink voice quality is bad, thus If this parameter is setIf to a smaller value, thetohandovers leading to call drops. this parameter is set a smaller due None to bad uplink quality may increase, thus decreasing the value, unnecessary handovers may be performed, thus If this parameter is set to a smaller value, the handovers due handover success rate. If this parameter is set to a greater affecting the voice quality. to bad uplink quality may increase, thus decreasing the value, handovers due to bad uplink quality are less possible handover success rate. Ifthe thiscall parameter is set to a greater to occur, thus increasing drop rate. value, handovers due to bad uplink quality are less possible to occur, thus increasing call drop rate.downward power If this parameter is set to the a greater value, control may not be performed when the voice quality is good, None If thiscausing parameter set towaste a greater value, upward thus the is power and increasing the power control may be performed when the voice quality is good, interference. If this parameter is set to a smaller value, None thus causing the power waste and increasing the downward power control may be performed when the voice interference. this parameter is voice set to quality. a smaller value, quality is bad,Ifthus affecting the upward power control may not be performed when the voice quality is bad, thus affecting the voice quality. None None None None If this parameter is set to a greater value, downward power control may not be performed when the voice quality is good, None If thiscausing parameter set towaste a greater value, upward thus the is power and increasing the power control may be performed when the voice quality is good, interference. If this parameter is set to a smaller value, None thus causing the power waste and increasing the downward power control may be performed when the voice interference. this parameter is voice set to quality. a smaller value, quality is bad,Ifthus affecting the upward power control may not be performed when the voice quality is bad, thus affecting the voice quality. The coding rate and MOS are affected. The coding rate and MOS are affected. The coding rate and MOS are affected. None None None None

None None None If this parameter is set to a greater value, call drops may occur None due to no suitable neighboring cell for handover. If this parameter is set to a smaller value, handover success rate may be decreased. None None None None None None None None None None None None Not involved None None None None None None None None None None None None None None None None

None If this parameter is set to a greater value, the handover cannot None be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed, thus affecting the voice quality. If this parameter is set to a greater value, unnecessary handovers may be performed, thus affecting the voice quality. None If this parameter is set to a smaller value, the handover cannot be performed in time and call drops may occur. None None None None None None None None None None None None None None None None If this parameter is set to a greater value, congestion may occur None in the underlaid subcell. If this parameter is set to a smaller value, ping-pong handovers may occur. None If this parameter is set to a greater value, congestion in the underlaid subcell is difficult to be relieved; if this parameter is None If is set congestion to a greatermay value, congestion may setthis to parameter a smaller value, occur in the overlaid occur in the overlaid subcell in a short time; if this parameter subcell in a short time. is set to a smaller value, congestion in the underlaid subcell is difficult to be relieved. None If this parameter is set to a high value and the VGCS has priority, None public network services are likely to suffer from When preemption conditions areparameter met, publicneeds network services insufficient channels. Thus, this to be set can preempt channels of the VGCS if this parameter is set to according to the actual service requirements. If this parameter is setthe to VGCS a high can value and thechannels VGCS has Public Network First; preempt of priority, public network services are likely to suffer from First. public network services if this parameter is set to VGCS insufficient channels. Thus, this parameter needs to be set according to the actual service requirements. None None

None None None None None None None None None Not involved None None None None None None None None None None None None None None None None None None None If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion. If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion. If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion. None None

None None None None None None None None None None None None None None None None None None None None None None None None None None

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Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Transport

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Transport

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Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Transport

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Equipment

BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Equipment

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Transport

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Transport

Versions earlier than BSC6900 V900R011

Radio

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Equipment

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Equipment

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BSC6900 V900R011

Transport

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Transport

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Equipment

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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Radio

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

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Radio

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Radio

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

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Radio

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Radio

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Equipment

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Equipment

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Equipment

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Transport

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Transport

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Transport

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Transport

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Transport

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Equipment

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Equipment

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Equipment

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Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Transport

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BSC6900 V900R011

Equipment

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Transport

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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Radio

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BSC6900 V900R011

Equipment

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Equipment

BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

Radio

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

BSC6900 V900R011

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BSC6900 V900R011

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Radio

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

Radio

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BSC6900 V900R011

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

Radio

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Radio

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BSC6900 V900R011

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BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Transport

BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Versions earlier than BSC6900 V900R011

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Radio

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Transport

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

Radio

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Radio

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BSC6900 V900R011

Radio

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Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Equipment

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Equipment

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Equipment

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Radio

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Radio

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Radio

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

Equipment

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Transport

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Transport

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Transport

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Equipment

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Equipment

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Equipment

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Equipment

BSC6900 V900R011

Radio

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Equipment

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Radio

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Radio

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Radio

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Radio

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Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Radio

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Equipment

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Equipment

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Equipment

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Equipment

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Radio

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Equipment

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Transport

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Equipment

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Radio

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BSC6900 V900R011

Transport

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Radio

Versions earlier than BSC6900 V900R011

Radio

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Radio

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Transport

BSC6900 V900R011

Equipment

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Radio

Versions earlier than BSC6900 V900R011

Equipment

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Equipment

Versions earlier than BSC6900 V900R011

Radio

BSC6900 V900R011

Equipment

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Transport

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Equipment

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Radio

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

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Equipment

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Equipment

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Transport

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Transport

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Radio

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Equipment

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

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Transport

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Radio

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Radio

BSC6900 V900R011

Radio

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Equipment

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Radio

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BSC6900 V900R011

Radio

BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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Equipment

BSC6900 V900R011

Equipment

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Equipment

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

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BSC6900 V900R011

Equipment

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Versions earlier than BSC6900 V900R011

Equipment

Parameter ID

ABCDownQuality

ABCUpQuality

ABCWaitMaxTime

ABISBYPASSMODE

ABISFCEN

AbisFCTimer1

AbisFCTimer2

ABISIDLETSALLOC

ABISIDLETSCFGSWITCH

AbisJamThreshold2StartLs

ABISRESADJTCHHFUNSW

ABISTSFREETM

AbisVer

ABLASTTIME

AbnormalMosThreshold

ACCBURST

ACCCONTROLCLASS

ACCCTRLEN

ACCCTRLPY

ACCESSOPTILAY

ACCINDEX

AccStaServiceType

ACCWPOS

ACCWSIZE

ACCWSP

ACFC

ACFC

ACOOPERATPAGINGSWITCH

ACS

ACTCDSETF

ACTCDSETH

ACTCDSETWB

ACTL2REEST

ACTTIME

ACVLTHD

ACVOLALARMH

ACVOLALARML

ACVUTHD

ADAPTASSIGNMENTFLOW

ADDR

AddTransBwInt

AddTransBwNum

ADEF

ADJBSCDPC

ADJMODE

ADJUSTULMCSTYPE

ADLDACT

ADMODE

ADMSTAT

ADMSTAT

ADMSTAT

ADTET

ADTLOD

ADTON

ADTST

ADVALMMGRULETP

ADVER1

ADVER2

AEC_Echo_Path_Delay

AEC_Echo_Return_Loss

AEC_Nlp_Gate

AEC_Path_Delay

AEC_SNR_Gate

AEC_Switch

AECDetectThreshold

AECDetectTime

AFRDSBLCNT

AFRSAMULFRM

AGPSRECEIVERID

AGPSRECEIVERTYPE

AHRDSBLCNT

AHRSAMULFRM

AID

AID

AID

AID

AID

AID

AID

AIDDELAYPROTECTTIME

AIDST

AIDST

AInterMsgTrace

AINTFFCDISCLUEN

AINTFFCDISCMOCEN

AINTFFCDISCMTCEN

AINTFFCDISCOSEN

AINTFFCEN

AINTFFCMETHOD

AINTFFCRSRATE1

AINTFFCRSRATE2

AINTFFCRSRATE3

AINTFFCRSRATE4

AINTFFCRSRATE5

AINTFFCRSRATE6

AIPCSDSRVRDNDLEV

ALC_Fix_Gain

ALC_Fix_Target_Level

ALC_Max_Gain

ALC_Max_Target_Level

ALC_Min_Target_Level

ALC_Mode

ALC_Switch

ALIVERETRY

ALIVETIMER

AllBw

ALLOCDIFFTRX

ALLOCSINGLEPDCHFORSIGNALLING

ALLOWAMRHALFRATEUSERPERC

ALLOWEDADAMULTIPLEX

ALLOWEDMEASRPTMISSEDNUM

ALLOWHALFRATEUSERPERC

ALLTSTYPE

ALLTSTYPE

ALMD0

ALMD1

ALMD2

ALMD3

ALMD4

ALMD5

ALMDISACDUR

ALMENABLE

AlmId

ALMID

ALMLMTDOWN

ALMLMTUP1

ALMLMTUP2

ALMOCACDUR

AlmOccurAccuTimeHThd

AlmOccurAccuTimeLThd

AlmOccurTimesHThd

AlmOccurTimesLThd

ALMPARACFGFLAG

ALMTP

ALPHA

ALTIDECI

ALTITUDE

ALTITUDE

ALTITUDEIMP

ALVL

ALVL

AMPC0

AMPC1

AMPC2

AMPC3

AMPC4

AMPC5

AMRBTSPWRNUM

AMRCALLPCALLOWED

AMRDADTHAW

AMRDLLEVFTLEN

AMRDLPREDLEND

AMRDLQHTHRED

AMRDLQLTHRED

AMRDLQUAFTLEN

AMRDLQUALBADTRIG

AMRDLQUALBADUPLEV

AMRDLSSHTHRED

AMRDLSSLTHRED

AMRFULLTOHALFHOALLOW

AMRFULLTOHALFHOATCBADJSTEP

AMRFULLTOHALFHOATCBTHRESH

AMRFULLTOHALFHOPATHADJSTEP

AMRFULLTOHALFHOPATHTHRESH

AMRFULLTOHALFHOQUALTHRESH

AMRFULLTOHALFHOTHRESH

AMRHALFTOFULLHOATCBTHRESH

AMRHALFTOFULLHOPATHTHRESH

AMRHALFTOFULLHOQUALALLOW

AMRHALFTOFULLHOQUALTHRESH

AMRHALFTOFULLHOTHRESH

AMRMAXADJPCVAL

AMRMAXSTEP0

AMRMAXSTEP1

AMRMAXSTEP2

AMRMAXVALADJRX

AMRMRCOMPREG

AMRPCADJPERIOD

AMRQUALSTEP

AMRSADLUPGRADE

AMRTCHHPRIORALLOW

AMRTCHHPRIORLOAD

AMRUADTHAW

AMRULLEVFTLEN

AMRULPREDLEND

AMRULQHTHRED

AMRULQLOWTHRED

AMRULQUAFTLEN

AMRULQUALBADTRIG

AMRULQUALBADUPLEV

AMRULSSHTHRED

AMRULSSLTHRED

AN19

AN4

ANC_Max_Gain

ANC_Switch

ANC_Target_SNR

ANGLE

ANI

ANI

ANM

ANR_Mode

ANR_Noise_Reduction_Level

ANR_Noise_Target_Level

ANR_Switch

ANTAANGLE

ANTENNALONG

ANTENNAPOWERSWITCH

ANTIERRFLAG

AntiTheftAllow

ANTNO

ANTPASSNO

ANTPASSNO

AORB

APN

APP

APPTYPE

AqmM

AqmMaxTh

AqmMinTh

AqmNinit

AqmNLowerBound

AqmNUpBound

AqmSwitch

AqmTarTh

AreaCode

AREAFLAG

AREAFLAG

AREDISTHD

ARELBASE

ARELWTHD

ARPRETRY

ARPTIMEOUT

ASN

ASN

ASRN

ASS

ASS

AssignBetterCellEn

ASSLOADJUDGEEN

ASSOLRXLEVOFFSET

ASSORXUCN

ASSORXUCN

ASSORXUSN

ASSORXUSN

ASSORXUSRN

ASSORXUSRN

ASSThres

ASSTIMER

AT1

AT13

AT17

AT18

AT19

AT20

AT4

ATCBHOEN

ATCBHYST

ATCBTHRED

Ater8KSw

AterCongHRFlag

AterCongstRatio

ATERIDX

AterJamThreshold2StartLs

ATERMASK

ATEROMLFLAG

ATEROMLINX

ATERPIDX

ATERSLID

ATERTRANSMODE

ATN

ATSMASK

ATT

ATTENFACTOR1

ATTENFACTOR2

AUSTOP

AUSTOP

AUTHMODE

AUTHMODE

AUTHMODE

AUTHMODE

AUTHNAME

AUTHNAME

AUTHNAME

AUTHPWD

AUTHPWD

AUTHPWD

AUTHTYPE

AUTHTYPE

AUTHTYPE

AUTO

AUTOADDSRCON

AUTOADJULTHHYSTF

AUTOADJULTHHYSTH

AutoGetBtsLogFlag

AUTONEG

AUTOTYPE

AUTOULKSW

AutoUnlockTime

AUTYPE

AVer

AVOL

AVOL

B1B2SDTHRD

B1B2SFTHRD

B3SDTHRD

B3SFTHRD

BACK8KCLKSW1

BACK8KCLKSW2

BackupPath

BACKUPPATH

BADQUALDISCTHRES

bAdvEstDlTbf

BAKDEVTAB

BAKIP

BAKMASK

BAKPWRSAVMETHOD

BAKPWRSAVPOLICY

BANDINDICATOR1900

BANDINDICATOR850

BANDINDICATOR900

BANTIME

BARCODLST

BASEBTSID

BASETEMPERATURE

BASETEMPERATURE

BATTCAPACITY

BATTENABLEDIN

BATTERYDISCHARGEDEPTH

BATTTYPE

BBAPSRVPN

BBDIF

BC

BCC

BCC

BCC

BCCH

BCCHFREQ

BCCHTRXHP

BCCONGESTALMBOUND

BCCONGESTRESALMBOUND

BCDSCP

BCID

BCLC

BCV

BE

BEARP1PRIWEIGHT

BEARP2PRIWEIGHT

BEARP3PRIWEIGHT

BEARTYPE

BEATSENDINGDIS

BEPPERIOD

BESTTDDCELLNUM

BET3GHOEN

BETTERCELLHOEN

BETTERCELLLASTTIME

BETTERCELLSTATTIME

BFDDETECTCOUNT

BFDSN

BFRANGE

BHPREPOLICY

BITOFFSET

BKGARP1PRIWEIGHT

BKGARP2PRIWEIGHT

BKGARP3PRIWEIGHT

BLKFILTERSW

BLKPRD

BLKSTATPRD

BLKSTATSW

BLOCKRETRY

BLOCKTIMER

BMPN

BMSN

BMSRN

BMTCFCTimerLen

BORROWDEVIP

BOXFLG

BP1

BP2

BQHOEN

BQLASTTIME

BQMARGIN

BQSTATTIME

BRDCLASS

BRDCLASS

BRDCLASS

BRDCLASS

BRDNO

BRDNO

BRDRXBW

BRDSWTYPE

BRDTXBW

BRDTYPE

BRDTYPE

BRDTYPE

BRDTYPE

BRDTYPE

BRDTYPE

BrdType

BRDTYPE

BREAKTIME

BROADCASTCONTENT

BROADCASTINTERVAL

BS

BSAGBLKSRES

BSCDPC

BSCDynSwitchTrxPAAllow

BSCFLAG

BSCGATEWAYIP

BSCGATHET

BSCGATHST

BSCID

BSCIDX

BSCINCHPRD

BSCIP

BSCIP

BscLsStartMode

BSCNAME

BSCPMA

BSCPMAIRAHO

BSCPN

BSCPORT

BSCPRICLASS

BSCQAD

BSCQADIRAHO

BSCRESERVEDPARA1

BSCRESERVEDPARA10

BSCRESERVEDPARA11

BSCRESERVEDPARA12

BSCRESERVEDPARA13

BSCRESERVEDPARA14

BSCRESERVEDPARA15

BSCRESERVEDPARA16

BSCRESERVEDPARA17

BSCRESERVEDPARA18

BSCRESERVEDPARA19

BSCRESERVEDPARA2

BSCRESERVEDPARA20

BSCRESERVEDPARA21

BSCRESERVEDPARA22

BSCRESERVEDPARA23

BSCRESERVEDPARA24

BSCRESERVEDPARA25

BSCRESERVEDPARA26

BSCRESERVEDPARA27

BSCRESERVEDPARA28

BSCRESERVEDPARA29

BSCRESERVEDPARA3

BSCRESERVEDPARA4

BSCRESERVEDPARA5

BSCRESERVEDPARA6

BSCRESERVEDPARA7

BSCRESERVEDPARA8

BSCRESERVEDPARA9

BSCSN

BSCSRN

BSCSUBTS

BSCSYMOFF

BSCTID

BSCTID

BSCTS

BSCVMAX

BSMSPWRLEV

BSPAGBLKSRES

BSPAMFRAMS

BSPBCCHBLKS

BSPRACHBLKS

BssLsGenMode

BSSLSMSCCOOP

BSSPAGINGCOORDINATION

BT

BT

BT

BT

BT

BT

BT

BT

BT

BT

BT

BT

BT

BT

BT

BT

BTCFLAG

BTCFLAG

BTSadjust

BTSBARCODE

BTSCOMTYPE

BTSCOMTYPE

BTSDESC

BTSDETECTSWITCH

BTSID

BTSID

BTSID

BTSIDCONBSC

BTSIDLST

BTSIDTYPE

BTSIDTYPE

BTSIDX

BTSIP

BtsLsStartMode

BTSMASK

BTSMESRPTPREPROC

BTSNAME

BTSNAMECONBSC

BTSNAMELST

BTSPINGSWITCH

BTSPOWEROFFLOCKBCCH

BTSPWRNUM

BTSSAICPCADJSWITCH

BTSSWVER

BTSTRCMPRATE

BTSTYPE

BTSTYPE

BTSTYPE

BTSWTR

BTTSTTYPE

BTYPE

BUILDTIME

BUNDLINGFLAG

BVCI

BVCI

BVCTF

BWADJ

BWDCONGBW

BWDCONGCLRBW

BWDCONGCLRTH

BWDCONGTH

BWDOVLDCLRRSVBW

BWDOVLDCLRTH

BWDOVLDRSVBW

BWDOVLDTH

BWDRESVHOTH

BWDRSVHOBW

BWMAXRATIO

BWMODE

BWRTPTH

BWTHD

BYCELLTYPE

C31HYST

C32QUAL

CABINETDESC

CABLST

CABT

CALLRESTABDIS

CALVAL

CANPC

CAPCOVEROPTSWITCH

CARDFREATTR

CARRYFLAG

CARRYT

CARRYT

CBA

CBCINDEX

CBCIP

CBCITFPARA

CBCPORT

CbNonMsgTimer

CBQ

CBS

CbShakeHandTimer

CBSIGNLEN

CBTRAFFLEN

CC

CCAEnableSta

CCCHLOADINDPRD

CCCHLOADTHRES

CCDSCP

CCMINTERVAL

CDRTTRYFBDTHRES

CELL1800OFF

CELL1800THRED

CELL2GBA1BCCH

CELL2GBA1TAG

CELL2GBA2BCCH

CELL2GBA2TAG

CELL8PSKPOWERLEVEL

CELL900OFF

CELL900THRED

CELLBARACCESS2

CELLCOVERAGETYPE

CELLEQUCHGVOL

CELLEQUCHGVOL

CELLFLOATCHGVOL

CELLFLOATCHGVOL

CELLID

CELLID

CELLID

CELLID

CELLID

CELLID

CELLIDLST

CELLIDTYPE

CELLIDTYPE

CELLIDTYPE

CELLINEXTP

CELLLAYER

CELLLIST

CellListOptionSend

CELLMAXSD

CELLNAME

CELLNAME

CELLNAME

CELLNAMELIST

CELLOPPWRGRP

CELLOVERCVGRXLEVDLTH

CELLOVERCVGTALTH

CELLPAGINGOVERLOADCOUNTER

CELLPWROFFEN

CELLPWROFFVOL

CELLRESELSTRATEGY

CELLRXQUALWORSENRATIOTHRSH

CELLSCENARIO

CELLSELECTAFTERCALLREL

CELLTEMP1ALARMH

CELLTEMP1ALARML

CELLTEMP1THRESHOLDH

CELLTEMP1THRESHOLDL

CELLTEMPCOMPENABLED

CELLWEAKCVGRXLEVDLTH

CELLWEAKCVGTALTH

CENDTHD

CertChain

CFGFLAG

CFGFLAG

CFGMODE

CFGSW

CFLAG

CFLAG

CFM

CG

CG

CGET

CGET

CGIRACSWITCH

CGN

CGN

CGST

CGST

CGST

CHAINNCELLTYPE

CHAINTORING

CHALLOCSTRATEGY

CHANFAULTALMPDCHTH

CHANFAULTALMSWITCH

CHANFAULTALMTCHTH

CHANID

CHANINTERMESALLOW

CHANNELRATECODE

CHANPDOUTTIME

CHECKCOUNT

CheckingBTSConnection

ChkModA

ChkModB

CHKN

CHKN

CHKOFFTIMES

CHKONTIMES

CHKSUMRX

CHKSUMTX

CHKSUMTYPE

CHKTYPE

CHLDURATH

CHNNO

CHNNO

CHNO

CHNTSTTYPE

CHNTYPE

ChosenChInAssCmp

ChosenChInHoPerform

ChosenChInHoReqAck

ChosenEncrypAlgInCiphCmp

ChosenEncrypAlgInHoPerform

ChosenEncrypAloInAssCmp

ChosenEncrypAloInHoReqAck

CHPWRINSUFFALLOWED

CHRCOLLECTSWITCH

CHREQCSMAXMSGNUMINPERIOD

CHREQPSAVGMSGNUMINPERIOD

CHREQSTATPERIOD

CHTYPE

CI

CI1

CIC

CIC

CicDMuteDifCnt

CicDMutePeriod

CicDMuteSwitch

CicDMuteThre

CicDMuteTime

CicPoolInAssFail

CicPoolInHoFail

CicPoolListInAssFail

CicPoolListInHoFail

CicPoolSendFlagInAssCmp

CicPoolSendFlagInHoAck

CIR

CIRESTVALUE

CIUSLOTNO

CIUSUBRACKNO

CLASS11DTM

CLASSMARKQUERY

CLEARTHD

CLKMOD

CLKPRTTYPE

CLKTYPE

ClkType

ClrDelay

CLRFLG

ClrInterval

CMD

CMD

CMDSEQ

CN

CN

CN

CN

CN

CN

CNFAULTDELAY

CNID

CNID

CNNODEIDX

CNOPERATORINDEX

CNSTATEPOLICYFORGROUP

CNT

CNT

CNT

CNTL

CNTRISTHRD

CNTSTLTHRD

COBSCMSCADJEN

CODE

COLDSET

COLTYPE

COMBINERLOSS

COMMACC

Complicacy

COMPRS

COMSC

CONBSCBTSIDTYPE

CONGCLRTHD0

CONGCLRTHD1

CONGCLRTHD2

CONGCLRTHD3

CONGCLRTHD4

CONGCLRTHD5

CONGTHD0

CONGTHD1

CONGTHD2

CONGTHD3

CONGTHD4

CONGTHD5

CONHOEN

CONNECTPORTNO

CONNPWR

CONNTYPE

CONNTYPE

CONTHOMININTV

CONTINTV

CONTPING

Count

CPRIDURATS

CPS

CPUN

CRC4CHK

CRH

CRL

CRLEnableSta

CRMSGRESENDINT

CRMSGRESENDNUM

CRO

CROCALTMTHRD

CROSSIPFLAG

CSADDTINFO

CSBQTHR

CSCHRMR

CSCLTERMABNORM

CSDATADL

CSDATAPATH

CSDATAPRI

CSDATAUL

CSDSP

CSHOINFO

CSMRBFCLR

CSMRBFHO

CSOUTMODE

CSOUTRANGE

CSRCDSW

CSSIGINFO

CSTARTTHD

CSTRAFTYPE

CSVOICEDL

CSVOICEINFO

CSVOICEPATH

CSVOICEPRI

CSVOICEUL

CSVSP

CSW

CT1

CT2

CT3

CT4E

CT4N

CT5

CT6

CT7

CT9

CTHD

CTHD

CTRBSCDPC

CTRLACKTYPE

CTRLFLAG

CTRLPORTCN

CTRLPORTNO

CTRLPORTSN

CTRLPORTSRN

CTRLSLOT

CTRLSN

CTRLSRN

CTRLSW

CurChannelInHoRqd

CVer

CYCLE

DATAFILE

DATAQUAFLTLEN

DATASTRFLTLEN

DATATRAFFSET

DATE

DATE

DateRangeIndex

Day

DBD

DBFREQBCCHIUO

DBLFREQADJCID

DBLFREQADJCNAME

DBLFREQADJIDTYPE

DCLACN

DCLAPN

DCLASN

DCLASRN

DCVLTHD

DCVOLALARMH

DCVOLALARML

DCVUTHD

DefaultDynPdchPreTranNum

DELAYSENDRFCHREL

DENO

DESC

DESTEALSET

DESTIP

DESTIP

DESTIP

DESTMEPID

DESTNODE

DESTNODE

DESTSN

DESTSRN

DESTSSN

DESTTRXID

DETECTFRAMEPERIOD

DETECTMULT

DETECTSWITCH

DEVICENAME

DEVICENO

DEVIP

DEVTYPE

DF

DFCBSN

DFCBSRN

DFDPC

DFTPORTSWT

DGPSPERIOD

DHCPRLYGATEWAYIP

DHCPRLYID

DIESELENGINESAVESWITCH

DIFFBANDSDCCHUSINGOPTIMIZE

DINM

DINW

DIR

DIR

DirectedRetryAssFailSendEnable

DIRECTRYEN

DIRMAGANSITEFLAG

DisconnectHandoverProtectTimer

DIVERSITY

DIVERT16QAMDELAY

DIVERT32QAMDELAY

DIVERT8PSKDELAY

DivSwitch

DLADJPRD

DLAFSREXQUALHIGHTHRED

DLAFSREXQUALLOWTHRED

DLAHSREXQUALHIGHTHRED

DLAHSREXQUALLOWTHRED

DLCI

DLCOEFFICIENTTSRAPIDADJ

DLDCSPT

DLEDGETHRES

DLFILTADJFACTOR

DLFSREXQUALHIGHTHRED

DLFSREXQUALLOWTHRED

DlGprsTbfExpandOp

DLHSREXQUALHIGHTHRED

DLHSREXQUALLOWTHRED

DLHYSTF1

DLHYSTF2

DLHYSTF3

DLHYSTH1

DLHYSTH2

DLHYSTH3

DLHYSTWB1

DLHYSTWB2

DLINTERFLEVLIMIT

DLINTERFQUALLIMIT

DlLdrThrd2GCell

DLLEVFILTLEN

DLLTFERLOWTH

DLLTFERTGT

DLLTFERUPTH

DLLTTHADJFA

DLMAXDOWNSTEP

DLMAXUPSTEP

DlOlcThrd2GCell

DLPREDLEND

DLQHIGHTHRED

DLQLOWTHRED

DLQUAFILTLEN

DLQUALBADTRIG

DLQUALBADUPLEV

DLQUALIMIT

DLQUALIMITAMRFR

DLQUALIMITAMRHR

DLREXLEVADJFCTR

DLREXLEVEXPFLTLEN

DLREXLEVHIGHTHRED

DLREXLEVLOWTHRED

DLREXLEVSLDWINDOW

DLREXQUALADJFCTR

DLREXQUALEXPFLTLEN

DLREXQUALSLDWINDOW

DLRXLEVPROTECTFACTOR

DLRXQUALPROTECTFACTOR

DLSSHIGHTHRED

DLSSLOWTHRED

DLTBFESTDELAY

DLTESTRESENDINT

DLTESTRESENDNUM

DLTHF1

DLTHF2

DLTHF3

DLTHH1

DLTHH2

DLTHH3

DLTHWB1

DLTHWB2

DMDUA

DMDUB

DN

DNDEFAULTCS

DNDEFAULTMCS

DNE2ADEFAULTMCS

DNE2AFIXMCS

DNFIXCS

DNFIXMCS

DNPCEN

DNSENDSMDIS

DNTBFRELDELAY

DNTHDCSDEGRADE1

DNTHDCSDEGRADE2

DNTHDCSDEGRADE3

DNTHDCSUPGRADE1

DNTHDCSUPGRADE2

DNTHDCSUPGRADE3

DOOR_ENGINE_MASK

DOUBLEANTENNAGAIN

DPC

DPCDNF

DPCGIDX

DPCGIDX

DPCGIDX

DPCT

DPX

DPX

DRHOLEVRANGE

DROPCTRLABISCONNFAIL

DROPCTRLCONNFAILHOACCFAIL

DROPCTRLCONNFAILOM

DROPCTRLCONNFAILOTHER

DROPCTRLCONNFAILRLFAIL

DROPCTRLCONNFAILRRNOTAVL

DROPCTRLEQUIPFAIL

DROPCTRLERRINDDMRSP

DROPCTRLERRINDSEQERR

DROPCTRLERRINDT200

DROPCTRLFORCHOFAIL

DROPCTRLINBSCHO

DROPCTRLINTRABSCOUTHO

DROPCTRLINTRACELLHO

DROPCTRLNOMR

DROPCTRLOUTBSCHOT8

DROPCTRLRELIND

DROPCTRLRESCHK

DROPPKTTHD0

DROPPKTTHD1

DROPPKTTHD2

DROPPKTTHD3

DROPPKTTHD4

DROPPKTTHD5

DROPPWRINTERVAL

DROPPWRSTARTTIME

DROPPWRSTEP

DRXEN

DRXTIMERMAX

DRYSET

DS1

DS1

DSCP

DSCP

DSCP

DSCP

DSPKIFFOFFTIMER

DSPN

DSPN

DSPN

DSPN

DSPNO

DSPRECOVERTIMER

DST

DSTF

DSTIP

DSTIP

DSTIP

DSTMASK

DSTMASK

DSTPORTNO

DSTTSMASK

DTLOADTHRED

DTRTYPE

DTRX

DTRX

DTRXPN

DTRXPN

DTRXSN

DTRXSN

DTRXSRN

DTRXSRN

DUMMYBITRANDSWITCH

DUPLEX

DURATH

DURATH

DURATM

DURATS

DWNDYNCHNTRANLEV

DWNINTEN

DXXINDEX

DXXINDEX

DXXPN

DYNCHFREETM

DYNCHNPREEMPTLEV

DYNCHTRANRESLEV

DYNOpenTrxPower

DYNPBTSUPPORTED

E1DURAT

E1PORT

E1PORTNOINBTSCONBSC

E1SLCTTMU

E1T1PN

E1T1PN

E1T1PORTNO

E1T1TYPE

ECHOIP

ECNOOFF

ECNOTHRES

ECSC

ECSN

ED

ED

ED

EDATE

EDAY

EDBLASTTIME

EDBSTATTIME

EDBSYSFLOWLEV

EDGE

EDGEADJLASTTIME

EDGEADJSTATTIME

EDGELAST

EDGELAST1

EDGESTAT

EDGESTAT1

EFTIMMFLAG

EGPRS11BITCHANREQ

EGPRS2A

EGPRSBEPLIMIT8PSK

EGPRSBEPLIMITGMSK

EM

EMCPRILV

EMERGENCY

EMITTHD

EMLDSCP

EMLPPEN

EMLPPPRIORITY

EMLPPPRIORITY

EMLPRI

EMLSP

EMLVLANID

EMONTH

EMSIP

ENABLE

ENABLED

ENCRY

ENCRYMODE

ENCRYMODE

End2EndTraceState

ENDAID

ENDCIC

ENDCIC

EndDayDSTPA

ENDHEATTEMP

EndMonthDSTPA

ENDSUBTS

EndTimeTACloseTrxPA

ENDTS

ENDTS

ENDTS

ENF

ENF

ENGOVERLDTHRSH

ENGSMPSDLMACFLOWCTRL

ENIUO

ENLDHOPRD

ENLDHOSTP

ENLOWLDTHRSH

ENPREEMPTTRANSADMT

ENQUETRANSADMT

ENSOVERLDTHRSH

ENTCHADJALLOW

ENTITYT

ENTITYT

ENUTOOLOADINILEV

EPLCSwitch

ERCODE

ERGCALLDIS

ERRALARMTHD

ERRDETECTSW

ESLDSCP

ESLPRI

ESLSP

ESLVLANID

ESSN

ESTABINDTIMER

ESTINDL3MSGTAFLAG

ESTTIME

ET

ET

ET

ET

ET

ET

ET

ET

ETD

ETIME

ETP

ETT

EWEEK

EWSEQ

EX_ANO1_SIG_MAX

EX_ANO1_SIG_MIN

EX_ANO1_TYPE

EX_ANO1_VAL_MAX

EX_ANO1_VAL_MIN

EX_ANO2_SIG_MAX

EX_ANO2_SIG_MIN

EX_ANO2_TYPE

EX_ANO2_VAL_MAX

EX_ANO2_VAL_MIN

EX_ANO3_SIG_MAX

EX_ANO3_SIG_MIN

EX_ANO3_TYPE

EX_ANO3_VAL_MAX

EX_ANO3_VAL_MIN

EX_ANO4_SIG_MAX

EX_ANO4_SIG_MIN

EX_ANO4_TYPE

EX_ANO4_VAL_MAX

EX_ANO4_VAL_MIN

EXCACC

EXCEPFRAMETHRES

EXPDLRXLEV

EXPULRXLEV

EXT2GCELLID

EXT2GCELLNAME

EXT3GCELLID

EXT3GCELLNAME

EXTADJCELLID

EXTADJCELLNAME

EXTCELLTHRENH

EXTFlag

EXTMEASORD

EXTRPTPERIOD

EXTRPTTYPE

EXTTP

EXTUTBFNODATA

FACCHRESENDINT

FACCHSENDNOTMSGIND

FACCHSENDPGMSGIND

FACTORSW

FACTORYMODE

FAILSIGSTRPUNISH

FANADJUSTCOMMAND0

FANADJUSTCOMMAND1

FANADJUSTCOMMAND2

FANADJUSTMODE

FANFLAG

FANSPEEDMODE

FANTYPE

FASTCALLTCHTHRESHOLD

FASTCNETFLAG

FaultDetectSwitch

FC

FC

FCETHD

FCINDEX

FCINDEX

FCINDEX

FCINDEX

FCINDEX

FCINDEX

FCINDEX

FCN

FCN

FCSTHD

FCSTYPE

FCSTYPE

FCSW

FCV

FDDBA1TAG

FDDBA2TAG

FDDCELLOFF

FDDCELLTHRED

FDDDIVERSITY

FDDDLUARFAN

FDDECQUALTHRSH

FDDFREQCNUM

FDDQMIN

FDDQMINOFFSET

FDDQOFF

FDDREP

FDDRSCPMIN

FDDRSCPQUALTHRSH

FDDSCRAMBLE

FDWINDOW

FERRPTEN

FERSTATTH1

FERSTATTH2

FERSTATTH3

FERSTATTH4

FERSTATTH5

FERSTATTH6

FERSTATTH7

FHMODE

FILE

FILE

FileName

FILEPATH

FILETYPE

FILTERWNDSIZE

FIN

FINESTEPPCALLOWED

FIRESET

FIXABISPRIORABISLOADTHRED

FlashAlmClrThd

FlashAlmOccurThd

FlashFilterEn

FlashStatisAlmClrTW

FlashStatisAlmOccurTW

FLEXABISMODE

FLEXMAIO

FLEXTSCSWITCH

FlowCountPeriodTicks

FLOWCOUNTPERIODTSRAPIDADJ

FLOWCTRLSWITCH

FLOWCTRLSWITCH

FLOWCTRLSWITCH

FLOWCTRLSWITCH

FLOWCTRLSWITCH

FLOWCTRLSWITCH

FLTPARAA1

FLTPARAA2

FLTPARAA3

FLTPARAA4

FLTPARAA5

FLTPARAA6

FLTPARAA7

FLTPARAA8

FLTPARAB

FLUSHTRANSFERSWITCH

FMSMAXOPCC

FMUTYPE

FN

FN

FN

FN

FN

FN

FN

FORBIDEDGU

FORBIDNO7FLASHDISC

Force_Limit_Time

Force2Phase

FORCEDCELLEFRSWITCH

FORCEMSACCESS

FPN

FPN

FPTIMER

FQBSICOPTSWITCH

FQBSICSWITCH

FQBSICSWITCH1

FRAGSIZE

FRAMEOFFSET

FRAMEOFFSET

FRDLDTX

FREQ

FREQ

FREQ

FREQ1

FREQ10

FREQ11

FREQ12

FREQ13

FREQ14

FREQ15

FREQ16

FREQ17

FREQ18

FREQ19

FREQ2

FREQ20

FREQ21

FREQ22

FREQ23

FREQ24

FREQ25

FREQ26

FREQ27

FREQ28

FREQ29

FREQ3

FREQ30

FREQ31

FREQ32

FREQ33

FREQ34

FREQ35

FREQ36

FREQ37

FREQ38

FREQ39

FREQ4

FREQ40

FREQ41

FREQ42

FREQ43

FREQ44

FREQ45

FREQ46

FREQ47

FREQ48

FREQ49

FREQ5

FREQ50

FREQ51

FREQ52

FREQ53

FREQ54

FREQ55

FREQ56

FREQ57

FREQ58

FREQ59

FREQ6

FREQ60

FREQ61

FREQ62

FREQ63

FREQ64

FREQ7

FREQ8

FREQ9

FREQADJ

FREQADJVALUE

FREQBAND

FREQLOADSHARETRAFFTHRSH

FREQLST

FREQREUSEMODE

FREQS

FREQSCANRLSTTYPE

FRINGEHOEN

FRULDTX

FSN

FSN

FSRN

FSRN

FT

FTI

FTI

FTI

FULLTOHALFHOATCBOFFSET

FULLTOHALFHODURATION

FULLTOHALFHOLASTTIME

FULLTOHALFHOPATHOFFSET

FULLTOHALFHOPERIOD

FULLTOHALFHOSTATTIME

FWDCONGBW

FWDCONGCLRBW

FWDCONGCLRTH

FWDCONGTH

FWDOVLDCLRRSVBW

FWDOVLDCLRTH

FWDOVLDRSVBW

FWDOVLDTH

FWDRESVHOTH

FWDRSVHOBW

G2G3GLdBlcDeltaThrd

G2GLoadAdjustCoeff

G711_Mode

GAMMA

GATHET

GATHLOD

GATHON

GATHST

GBRQOS

GCChk

GCDF

GCSCHNASSULCHNEN

GCSIMPREEMPTIONEN

GLOBALROUTESW

GMSKDELAY

GPRS

GPRS

GPRSCELLRESELECTHYESTERESIS

GPRSCHPRI

GPRSHCSTHR

GPRSPENALTYTIME

GPRSRXQUALLIMIT

GPRSTEMPOFFSET

GPSORGLONASS

GPSPERIOD

GRADEACCALLOW

GROUPCALLNUM1

GROUPCALLNUM2

GROUPINDEX

GROUPNAME

GROUPRELTSNUM

GRPID

GRPT

GS

GSMCSBWRATE

GSMCSUSERHIGHPRILEV

GSMFREQCNUM

GSMTOTDALLOWED

GUARDTYPE

GWIP

GWIP

HalfRateDataSupport

HALFTOFULLATCBOFFSET

HALFTOFULLHODURATION

HALFTOFULLHOLASTTIME

HALFTOFULLHOPATHOFFSET

HALFTOFULLHOSTATTIME

HAVETT1

HAVETT2

HBINTER

HCN

HCSLASTTIME

HCSSTATTIME

HIERPWRPARA1

HIERPWRPARA2

HiFreqBandSupport

HIGHESTPRIORITQUALFIRST

HIGHLEVPREEM

HIGHPRIUSERQUALFIRST

HIGHTEMPLOADPWROFF

HISPRIOALLOW

HISTORYPWDNUM

HMCDTM

HOALGOPERMLAY

HOBTWNOTHOPALLOW

HOCDCMINDWPWR

HOCDCMINUPPWR

HOCELLIDTYPE

HOCELLNAME

HOCTRLSWITCH

HODIRFORECASTEN

HODIRLASTTIME

HODIRSTATIME

HODOWNTRIGE

HODURT3G

HODURT3GTDD

HOECNOTH3G

HOLASTTIME

HOMOD

HOOFFSET

HOOLRXLEVOFFSET

HOOPTSEL

HOPENALTYTIME

HOPINDEX

HOPINDEX

HOPMODE

HOPOWERBOOST

HOPRETH2G

HopSingleFreqOptSwitch

HOPTRXHSN

HOPTRXINDEX

HOPTYPE

HOPUNISHVALUE

HOREFTMR

HORSCPTH3G

HoSdcchSpeechVer

HOSTAT3G

HOSTAT3GTDD

HOSTATICTIME

HOSTTYPE

HOSTTYPE

HOTHRES

HOUPTRIGE

HPANTMODE

HPANTMODE

HPN

HPRIOR

HPVFLAG

HPVTHD

HRATESPT

HRDLDTX

HRIUOLDRATESELALLOW

HRULDTX

HSN

HSN

HSNSW

HSRN

HT

HTCP

HTDO

HTSDF

HUM_MASK

HUM_THD_HIGH

HUM_THD_LOW

HUMALAMRTHRESHOLDH

HUMALAMRTHRESHOLDH

HUMALAMRTHRESHOLDL

HUMALAMRTHRESHOLDL

HYSON

IARXTMR

IASUDURAT

IASUPORT

IASUSLCTTMU

IATXTMR

IBCAAFRSOFTBLKTHRD

IBCAAHRSOFTBLKTHRD

IBCAALLOWED

IBCAASSWAITMEASURERPTTIME

IBCACALLINFOFILTERLEN

IBCACALLSOFTBLOCKTHOFFSET

IBCACALLTARGETCIROFFSET

IBCADLPATHLOSSOFF

IBCADYNCMEASURENCELLALLOWED

IBCAEHOASSWAITMEASURERPTTIME

IBCAFLEXTSCALLOWED

IBCAFORCEDBTSSYNCALLOWED

IBCAFRSOFTBLKTHRD

IBCAHOASSWAITMEASURERPTTIME

IBCAHRSOFTBLKTHRD

IBCAICDMRELEVOFFSET

IBCAICDMSWITCH

IBCAINBSCINFORPTPRD

IBCAINITPCRXLEVDLOFFSET

IBCAINITPCRXLEVULOFFSET

IBCAINITPCRXQUALDLOFFSET

IBCAINITPCRXQUALULOFFSET

IBCAIUOPATHLOSSOFF

IBCAMAIOUSMTD

IBCAMAXINTFSRCNUM

IBCANCELLFLAG

IBCANCELLPATHLOSSESTIMATE

IBCANEWCALLCIROFFSET

IBCANHOASSWAITMEASURERPTTIME

IBCANONMEANCELLSTATNUM

IBCAOPRREVISEFACTOR

IBCAOUTBSCINFORPTPRD

IBCAPATHLOSSOFF

IBCAPLFILTFACTOR

IBCARXLEVOFFSET

IBCASCELLPATHLOSS

IBCASOFTBLKSAICOFF

IBCASOFTBLKSWITCH

IBCASUBCHNHANDOVERALLOWED

IBCATARGETCIRTHRSH

IBCAUSEDIUOSUBLAY

IBCAUSRDYNCMEASURENCELL

IBCAWAFRSOFTBLKTHRD

ICBALLOW

ICF

ICMPPKGLEN

ICTHP1DSCP

ICTHP2DSCP

ICTHP3DSCP

ID

ID

ID

Idle_Code

IDLECODE

IDLESDTHRES

IDTYPE

IDTYPE

IDTYPE

IDTYPE

IDTYPE

IDTYPE

IDTYPE

IDTYPE

IDX

IDXTYPE

IDXTYPE

IFCBSHAKEHAND

IFNO

IFOFFSETHIG

IFOFFSETLOW

IFREPPRO

IGNOREMRNUM

IMEI

IMMASSAINTERFTIMER

IMMASSCBB

IMMASSDLSHIFT

IMMASSEN

IMMASSMAXDELAYTIME

IMMASSMAXSENDNUM

IMMASSRESENDEN

IMMASSTAALLOW

IMMASSTATHRES

IMMFNAD

IMMREJWAITINDTIMER

IMSI

IMSI

INBSCHOTIMER

INCHLOD

INCHPRD

INCLUDEANG

INCN

INDEN3

INFHHOLAST

INFHHOSTAT

INFOEXCHGLIST

INFRA_RED_MASK

INHOF2HTH

INHOH2FTH

INHOPWROVERLOADTHRESHOLD

INITCDMDF

INITCDMDH

INITCDMDWB

INMASK

INNASSOPTEN

INNCELLEDGEHOEN

INNCELLID

INNCELLNAME

INNLOADHOEN

INNLOADHOPERI

INNLOADHOSTEP

INNSERIOVERLDTHRED

INPN

INPN

INPORTNO

INPUTMD

INRBSCSDHOEN

INSN

INSN

INSRN

INSRN

INT

INTELEVHOHYST

INTERBANDSTATALGO

INTERCELLHYST

INTERFEREHOPENTIME

INTERFERELASTTIME

INTERFERESTATTIME

INTERFHOEN

INTERFPRIALLOW

INTERFTHRES0

INTERFTHRES1

INTERFTHRES2

INTERFTHRES3

INTERFTHRES4

INTERFTHRES5

INTERIORSYNCTMR

INTERPERIOD

INTERRATCELLRESELEN

InterRatCsServiceLoadHoThrd

INTERRATINBSCHOEN

InterRatIurgInBscHoEn

InterRATLoadHoEcNoBandWidth

InterRATLoadHoEcNoStart

InterRATLoadHoEcNoStep

InterRATLoadHoRSCPBandWidth

InterRATLoadHoRSCPStart

InterRATLoadHoRSCPStep

INTERRATOUTBSCHOEN

InterRatServiceLoadHoSwitch

INTERVAL

INTERVAL

INTFREQUENCY

INTOINNREXLEVTHRED

INTRABSCCODECHOCMDTIMER

INTRABSCHOTIMER

INTRACELLFHHOEN

INTRACELLHOEN

INTRACELLHOTIMER

INTRAMBSC

IntRATLoadHOEcNoThr

IntRATLoadHoPeriod

IntRATLoadHORSCPThr

INTSN

INTSNO

INTV

INTV

INVALBSICEN

IP

IP

IP

IP

IP

IP

IPADDR

IPADDR

IPADDR

IPADDR

IPADDR

IPADDR

IPADDR

IPADDR1

IPADDR1

IPADDR2

IPADDR2

IPADDR3

IPADDR4

IPEAAT

IPEADT

IPHC

IPHC

IPINDEX

IPINDEX

IPMUXINDEX

IPPHYTRANSTYPE

IPPHYTRANSTYPE

ISADDEDTMPCONTROL

ISBASICBSC

ISCHAINNCELL

ISCLKREDUCY

ISCLKREDUCYBAK

ISCONFIGEDRING

ISCONFIGTHD

ISEDGESUPPORT

ISFIRSTCLASS

ISGPRSSUPPORT

ISMAINBCCH

IsMainBSC

ISMAINLOCGRP

ISNC2SUPPORT

ISNCMODE

ISQOSPATH

ISSPTBSCAISS

ISSPTDEMUS

ISSUPERBTS

ISSUPPORTBTSLSWITCH

IsSupportTcPool

ISTCBRD

ISTCCENTRAL

ISTMPCTRL

ISTRANCABCON

ITEM

ITEMINDEX

ITEMVALID

ITEMVALUE

ITFT

ITFType

IUO

IUOCHNTRAN

IUOHODURATIME

IUOHOSTATIME

IUOTP

J0ALMSWITCH

J0BYTE_FORMAT

J0RXVALUE

J0TXVALUE

J0TYPE

J1ALMSWITCH

J1BYTE_FORMAT

J1RXVALUE

J1TXVALUE

J1TYPE

J2ALMSWITCH

J2BYTE_FORMAT

J2MODE

J2RXVALUE

J2TXVALUE

JAUTOADD

JBF

JITBUFDELAY

JITBUFSWITCH

K2MODE

KBIAS

KEEPALIVE

LAC

LAC1

LACPMODE

LATIDECI

LATIDEGREE

LATIINT

LATIMINUTE

LATISECONDDECI

LATISECONDINT

LATITUDE

LATITUDESEC

LATPRD

LATSUSTM

LATTH

LATUDK

LATUPK

LAYER

LAYER

LAYHOLOADTH

LBCongestProtect1

LBCongestProtect2

LDRFOUH

LDRFST

LDRSND

LENO

LEVEL

LEVEL

LEVEL

Level

LEVELRPT

LEVHOEN

LEVHOHYST

LEVLAST

LEVSTAT

LGCAPPTYPE

LGCAPPTYPE

LGCAPPTYPE

LGCUSAGETYPE

LGIDX

LHUMTHD

LICALMCTHD

LICALMRTHD

LINKNO

LISTTYPE

LKTATE

LL

LL

LLCN

LNA1

LNA2

LNKNUMMODE

LNKRATE

LNKREDFLAG

LNKSLSMASK

LNKSLSMASK

LoadAccThres

LOADBALANCEALG

LOADBROADCASTPERIOD

LOADCURRENTDIV

LOADHOAD

LoadHoEn

LoadHoEnExt2G

LoadHoEnExt3G

LOADHOPBGTMARGIN

LOADHOPENTIME

LOADHOPENVALUE

LOADHOPERIOD

LOADHOSTEP

LOADHOUSRRATIO

LOADOFFSET

LOADPWROFFEN

LOADRESELALLOW

LOADRESELMAXRXLEV

LOADRESELRXTHRSH

LOADRESELSTARTTHRSH

LOADSHAREALLOW

LOADSTATYPE

LOADTHSW

LocalBSCID

LOCALIP

LOCALIP

LOCALIP

LOCALIP

LOCALNSVLI

LOCALPORTNO

LOCGRPNO

LOCGRPNO

LOCINFOKEY

LOCIP1

LOCIP2

LOCKST

LOCPN

LODCTRL

LODMODE

LOGCTHD

LOGCTHD

LOGPORTFLAG

LOGPORTNO

LOGPORTSN

LOGRTHD

LOGRTHD

LOGSW

LOGTYPE

LOGTYPE

LONGIDECI

LONGIDEGREE

LONGIINT

LONGIMINUTE

LONGISECONDDECI

LONGISECONDINT

LONGITUDE

LONGITUDESEC

LoopLevel

LOOPMODE

LOOPSW

LOOPTYPE

LOOSESDCCHLOADTHRED

LOPDIR

LOPLOC

LOPT

LOPT

LOPTIME

LOSTSUSTM

LOWLEVSUBRESPREEMPTFLG

LOWLEVSUBRESPREEMPTFLG

LOWNOISESWH

LOWRXLEVOLFORBIDSWITCH

LOWTEMPLOADPWROFF

LOWTEMPLOADPWROFF

LPBKMODE

LPN

LPN

LPN

LPNSN

LPNTYPE

LQCMODE

LSDF

LSDV

LSRTRD

LSTCMD

LstFormat

LSTFORMAT

LT

LT

LT

LTCP

LTEMTHD

LTFERLOWTH

LTFERTGT

LTFERUPTH

LTTHADJFA

LVDS252DSPNUM

Lvl1Vswr

Lvl2Vswr

LVSDF

M3UASRVPN

MAC

MACEAAT

MACEADT

MACODINGMOD

MAIDX

MAINBCCHPWDTACTCHEN

MAINBCCHPWRDTEN

MAINBCCHPWRDTETIME

MAINBCCHPWRDTRANGE

MAINBCCHPWRDTSTIME

MAINDEVTAB

MAINDEVTAB

MAINLOCGRPNO

MAINPORTNO

MainVer

MAIO1

MAIO10

MAIO11

MAIO12

MAIO2

MAIO3

MAIO4

MAIO5

MAIO6

MAIO7

MAIO8

MAIO9

MAJORALMUP0

MAJORALMUP1

MAJORALMUP2

MAJORALMUP3

MAJORALMUP4

MAJORALMUP5

MANAME

MANAME

MASK

MASK

MASK

MASK

MASK

MASK

MASK

MASK

MASK

MASTERIPADDR

MASTERIPADDR

MAXADJPCVAL

MAXASSOCRETR

MAXBW

MAXCNTNUM

MaxDlAssRetryTimes

MaxDlEstRetryNum

MAXDROPPWRTHRESHOLD

MAXFQNUM

MAXFQNUM1

MAXFRAMELEN

MAXLOADBTSNUM

MAXMFLEN

MAXMFLEN

MaxMissTimes

MAXNUM

MAXOUTPUTPOWER

MAXPATHRETR

MaxPbLinkChkNum

MAXPDCHNUM

MAXPDCHRATE

MaxPollingRetryTimes

MAXPROMPTDATES

MAXRECHARGECURRENT

MAXRECHARGECURRENT

MAXRESEND

MAXRETRANS1

MAXRETRANS2

MAXRETRANS3

MAXRETRANS4

MAXSFLEN

MAXSFLEN

MAXSTEP0

MAXSTEP1

MAXSTEP2

MAXTA

MAXTADROPCALLFILTER

MAXTADROPCALLSWITCH

MAXTADROPCALLTHRESHOLD

MAXTIME

MAXTSOCP

MAXTTL

MAXVALADJRX

MAXVALIDDATES

MBFDCHKN

MBFDLOCALIP

MBR

MBSIGNLEN

MBTRAFFLEN

MBTSID

MBTSNAME

MCC

MCC1

MCCLASS

MCCLASS

MCELLID

MCELLNAME

MCN

MCPAOPTALG

MCSTANDARD

MDIDX

MDLEVEL

MDName

MDNAME

MEASORDER

MEASPERIOD

MEASURETYPE

MEPID

MEPID

MEPTYPE

MHF

MHF

MINACCRXLEV

MINBW

MINECNOTHRES

MINOFFSET

MinorAlmThdA

MinorAlmThdB

MINORALMUP0

MINORALMUP1

MINORALMUP2

MINORALMUP3

MINORALMUP4

MINORALMUP5

MinorClrThdA

MinorClrThdB

MINPWRLEVDIRTRY

MINRESTIMETCH

MINRSCPTHRES

MINRXINT

MINRXINTERVAL

MINTXINT

MINTXINTERVAL

MIRRORDPN

MIRRORSPN

MIRRORTYPE

MNC

MNC1

MOCACCESSCPURATE

MODE

MODE

MODE

MODE

MODE

MODE

MODE

MODE0

MODE1

MODE2

MODE3

MODE4

MODE5

MONITORPERIOD

MONITORTIME

Month

MOVESPEEDTHRES

MPGRPEAAT

MPGRPEADT

MPGRPN

MPGRPN

MPGRPN

MPMODE

MPN

MPSWITCH

MPTYPE

MPUSLOT

MPUSUBRACK

MRCOMPREG

MRMISSCOUNT

MRMISSNUM

MRPREPROCFREQ

MRRUATTENFACTOR1

MRRUATTENFACTOR2

MRSCOPESWITCH

MRSWITCH

MRU

MS

MSCAPABLESTATSWITCH

MSCCAP

MSCNRILEN

MSCNULLNRI

MSCPOOLALLOW

MSCSTATUE

MSCVER

MSIPFAILINDDELAY

MSISDN

MSISDNPREFIX1

MSISDNPREFIX2

MSISDNPREFIX3

MSISDNPREFIX4

MSISDNPREFIX5

MsisdnPrfxList2StartBscLs1

MsisdnPrfxList2StartBscLs10

MsisdnPrfxList2StartBscLs2

MsisdnPrfxList2StartBscLs3

MsisdnPrfxList2StartBscLs4

MsisdnPrfxList2StartBscLs5

MsisdnPrfxList2StartBscLs6

MsisdnPrfxList2StartBscLs7

MsisdnPrfxList2StartBscLs8

MsisdnPrfxList2StartBscLs9

MsisdnPrfxList2StartBtsLs1

MsisdnPrfxList2StartBtsLs10

MsisdnPrfxList2StartBtsLs2

MsisdnPrfxList2StartBtsLs3

MsisdnPrfxList2StartBtsLs4

MsisdnPrfxList2StartBtsLs5

MsisdnPrfxList2StartBtsLs6

MsisdnPrfxList2StartBtsLs7

MsisdnPrfxList2StartBtsLs8

MsisdnPrfxList2StartBtsLs9

MsisdnSegList2AvoidBscLs1

MsisdnSegList2AvoidBscLs10

MsisdnSegList2AvoidBscLs2

MsisdnSegList2AvoidBscLs3

MsisdnSegList2AvoidBscLs4

MsisdnSegList2AvoidBscLs5

MsisdnSegList2AvoidBscLs6

MsisdnSegList2AvoidBscLs7

MsisdnSegList2AvoidBscLs8

MsisdnSegList2AvoidBscLs9

MsisdnSegList2AvoidBtsLs1

MsisdnSegList2AvoidBtsLs10

MsisdnSegList2AvoidBtsLs2

MsisdnSegList2AvoidBtsLs3

MsisdnSegList2AvoidBtsLs4

MsisdnSegList2AvoidBtsLs5

MsisdnSegList2AvoidBtsLs6

MsisdnSegList2AvoidBtsLs7

MsisdnSegList2AvoidBtsLs8

MsisdnSegList2AvoidBtsLs9

MSLEVSTRQPBGT

MSMAXRETRAN

MSPCMD

MSRDMCSLEV

MSRDPDCHLEV

MSRN

MSRXMIN

MSRXQUALSTATTHRSH

MSTF

MSTSERVACTDELAY

MSTXPWRMAX

MSW

MTCACCESSCPURATE

MTHD

MTP2LNKN

MTRLGY

MTU

MTU

MTU

MTVT

MULTIBANDREP

MUTECHECKCLASS1PERIOD

MUTECHECKCLASS2SWITCH

MUTECHECKPEIROD

MUTEFORBITCALLTMINTVAL

MUTERELCALLEN

MUXTIME

MUXTIME

MUXTYPE

MWTRXNO

MYDISCRIMINATOR

N200

N200ESTAB

N200FFULL

N200FHALF

N200PARASWITCH

N200REL

N200SACCH

N200SDCCH

N3101

N3103

N3105

N391

N392

N393

NACCSPT

NAME

NAME

NAME

NAME

NAME

NAME

NAME

NAME

NAME

NAME

NAME

NAME

NAMRLFRMTRXALLOWED

NAVGI

NBAMRTFOSWITCH

NBR2GNCELL1ID

NBR2GNCELL1NAME

NBR2GNCELL2ID

NBR2GNCELL2NAME

NBR2GNCELLID

NBR2GNCELLNAME

NBR3GNCELLID

NBR3GNCELLNAME

NBRCELLSWITCH

NBRCI

NBRLAC

NBRMCC

NBRMNC

NBRSPT64

NC2LoadResel

NC2SPT

NCC

NCC

NCCPERMIT

NCCPERMITED

NCELLFILTER

NCELLFLTLEN

NcellInterFLevelThres0

NcellInterFLevelThres1

NcellInterFLevelThres2

NcellInterFLevelThres3

NcellInterFLevelThres4

NcellInterFLevelThres5

NcellInterFLevelThres6

NcellInterFLevelThres7

NCHOCBLOCKNUM

NCHSTARTBLOCK

NCO

NEIGHBOR

NETMASK

NEWURGHOMININTV

NEXTHOP

NEXTHOP

NEXTHOP

NEXTHOP

NI

NM

NMO

NMSACN

NMSAPN

NMSASN

NMSASRN

NO1M48ALMTHDDOWN

NO1M48ALMTHDUP

NO2M48ALMTHDDOWN

NO2M48ALMTHDUP

NO3M48ALMTHDDOWN

NO3M48ALMTHDUP

NO4M48ALMTHDDOWN

NO4M48ALMTHDUP

NO5M48ALMTHDDOWN

NO5M48ALMTHDUP

NO6M48ALMTHDDOWN

NO6M48ALMTHDUP

NOAMRFULLTOHALFHOALLOW

NOAMRFULLTOHALFHOATCBADJSTEP

NOAMRFULLTOHALFHOATCBTHRESH

NOAMRFULLTOHALFHOPATHADJSTEP

NOAMRFULLTOHALFHOPATHTHRESH

NOAMRFULLTOHALFHOQUALTHRESH

NOAMRFULLTOHALFTHRESH

NOAMRHALFTOFULLHOATCBTHRESH

NOAMRHALFTOFULLHOPATHTHRESH

NOAMRHALFTOFULLHOQUALALLOW

NOAMRHALFTOFULLHOQUALTHRESH

NOAMRHALFTOFULLTHRESH

NODET

NODLMRHOALLOWLIMIT

NODLMRHOEN

NODLMRHOQUALLIMIT

NOMINALCAPACITY

NONAMRCALLPCALLOWED

NONDRXPERIOD

NormalCurDurA

NormalCurDurB

NORMALRESELALLOW

NORTHD

NOTMSIALLCELLPAGINGLIMITFLAG

NOTRASP

NOVGCSTIME

NQUERIES

NRBSDCCHFFLEN

NRBTCHFFLEN

NRI

NRI

NRofFDDCellFlag

NSEI

NSEI

NSIGSTRFLTLEN

NSLATI

NSVCI

NSVCIDX

NTDI

NTDO

NY2

OAMFLOWBW

OAMFLOWBW

OAMFLOWBW

OAMFLOWBW

OAMFLOWBW

OAMFLOWDSCP

OAMMINBWKEY

OBJECTTYPE

OBJECTTYPE

OBJIDX

OBJIDX

OBJTP

OBJTP

OBJTYPE

OccupyStreamingSwitch

OLTOULHOALLOW

OMLBKUP

OMLDETECTSWITCH

OmlDetectTime

OMLDSCP

OMLESLDL

OMLESLUL

OMLPRI

OMLSP

OMLVLANID

OMLWS

OMUIP

OMUMASK

OP

OPC

OPC

OPCIDX

OperatorType

OPINDEX

OPINDEXSET

OPMODE

OPMODE

OPMODE

OPMODE

OPMODE

OPNAME

OPTILAYER

OPTILEVTHRES

OPTITATHRES

OPTL

OPTM

OPTP

OPTYPE

OPX

ORIPORT

OT

OTHERFREQ

OTHMODNUM

OTOURECEIVETH

OUTASSOPTEN

OUTBSCHOCLEARTIMER

OUTBSCHOCMDTIMER

OutBscLoadHoEn

OUTGENOVERLDTHRED

OUTHOPWROVERLOADTHRESHOLD

OUTINNREXLEVTHRED

OUTLOADHOENABLE

OUTLOADHOMODPERI

OUTLOADHOPERIOD

OUTLOADHOSTEP

OUTLOWLOADTHRED

OUTMASK

OUTPN

OUTPORTNO

OUTPORTTS

OUTPUT0

OUTPUT1

OUTPUT2

OUTPUT3

OUTPUTPOWER

OUTPUTPOWER1

OUTPUTPOWERUNIT

OUTSERIOVERLDTHRED

OUTSERVICEALM

OUTSN

OUTSN

OUTSRN

OutSysLoadHoEn

OUTSYSSERVHOREASSIGNEN

OUTSYSSERVICEHOEN

OUTTIMER

OUTTSN

OverCurAlmThdA

OverCurAlmThdB

OverCurAlmThdRET

OverCurClrThdA

OverCurClrThdB

OverCurClrThdRET

OverCurDurA

OverCurDurB

OVERLOADINTV

OVERTHD

P11

P12

P13

P14

PaAdjVol

PACKASSDLSHIFT

PAGINGAVGCAPACITYINPERIOD

PAGINGLIFETIME

PAGINGMAXCAPACITYINPERIOD

PAGTIMES

PANDEC

PANINC

PANMAX

PAOPTILEVEL

PatchNo

PatchNo1

PATHCHK

PATHID

PATHID

PATHLOSS

PATHLOSSHOEN

PATHT

PATTYPE

PB

PBGTHOEN

PBGTLAST

PBGTMARGIN

PBGTSTAT

PbMtnMsgReSend

PCADJPERIOD

PCMEASCHAN

PCU

PCUINDEX

PCUNO

PCUNO

PCUPREEMPTFLAG

PDCHDWNLEV

PDCHPWRSAVEN

PDCHREFORMING

PDCHUPLEV

PDTMRVALUE

PeerBSCID

PEERBSCID

PEERBSCIP

PEERBSCMASK

PEERBTSID

PEERIP

PEERIP

PEERIP

PEERIP

PEERIP

PEERIP1

PEERIP2

PEERIPADDR

PEERMASK

PEERPN

PEERVERSION

PENALTYEN

PENALTYLASTTM

PENALTYRXLEV

PENALTYTIMER

PERIOD

PERIOD

PFC

PFC

PFC

PFCSUP

PGCLASSIFINGALLOWED

PGMAXMSGNUMINPERIOD

PGMAXPSMSGNUMINPERIOD

PGSTATPERIOD

PHB

PHB

PI

PKPEnableSta

PKTCOUNT

PKTLEN

PKTLEN

PKTLENTHRES

PKTSI

PKTSIZE

PKTSIZE

PL1

PL16QAM

PL2

PL3

PL32QAM

PL4

PL8PSK

PLPRD

PLTH

PLYPOINT

PLYSWITCH

PLYTIME

PMCTHD

PMCTHD

PMI

PMNUM

PMOAFLAG

PMRTHD

PMRTHD

PMSW

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

PN

POCDELAY

POCGBRMAX

POCGBRMIN

PocSup

PODECTHRES

POERRTHRES

POINTDESINFO

POINTNAME

Port

PORT

PORT

PORTNO

PORTNUM

PORTPROTYPE

PortSwitch

PORTTYPE

PORTTYPE

POS2QUATER

POT

POWER

POWER_RELAY1

POWER_RELAY2

POWER_RELAY3

POWER_RELAY4

POWER_RELAY5

POWER_RELAY6

POWERCURRENTDIV

POWERREDUCE16QAM

POWERREDUCE32QAM

POWERTYPE

POWERTYPE

POWL

POWT

PPPEAAT

PPPEADT

PPPLNKN

PPPLNKN

PPPLNKN

PPPLNKN

PPPMUX

PQNUM

PREEMFORHONOTREL

PREEMFORHOPDCH

PREEMPTIONPERMIT

PREMRSAMPLE

PRI

PRIACCTHR

PRIFCEN

PRIMMESPPT

PRINTCTHD

PRINTCTHD

PRINTRTHD

PRINTRTHD

PRINTSW

PRIOR

PRIOR

PRIORABISLOADTHRED

PRIORCLASS

PRIORITY

PRIORITY

PRIORITY

PRIVATEPROBEFST

PRIVATEPROBENUM

PRIVATEPROBESND

PrivKey

PROBESEQ

PROT

PROT

PROTECTDELAYTIME

PROTECTTIME

ProtectTimeTrxPowerOn

PS

PS

PS

PSCHRABIS

PSCHRGB

PSCHRINNINFO

PSCHRINNMSG

PSCHRUM

PSDATADL

PSDATAUL

PSHOSUP

PSHPRIDATAPATH

PSHPRIDATAPRI

PSHPSP

PSI1RPT

PSISTATUSIND

PSLPRIDATAPATH

PSLPRIDATAPRI

PSLPSVP

PSOTOURECEIVETHRSH

PSOUTMODE

PSRACHACCLEV

PSRACJACCLEV

PSRCDSW

PSRESREQMSGNUMINPERIOD

PSRESREQSTATPERIOD

PSU0

PSU1

PSU2

PSU2

PSU3

PSU4

PSU5

PSU6

PSU7

PSUTOORECEIVETHRSH

PSUTURNINGOFFENABLE

PSW

PT

PT

PT

PT

PT

PTCODE

PTRXT

PTTXT

PTTYPE

PTUID

PTYPE

PTYPE

PubCert

PV

PV

PVCUSERATETIMER

PWD

PWD

PWD

PwdMinLen

PWL

PWRALMSSW1

PWRALMSSW2

PWRBCDALLOWD

PWRCTRLOPTIMIZEDEN

PWRCTRLSW

PWRDIV

PWRDIVIND

PWRLOCATION

PWRMODE

PWROFFPROTECTSTARTTIME

PWRPRIORALLOW

PWRSPNR

PwrSwitchA

PwrSwitchB

PwrSwitchRET

Q0MINDSCP

Q1MINDSCP

Q2MINDSCP

Q3MINDSCP

Q4MINDSCP

QCI

QCKMVHOEN

QCKSTATCNT

QCKTIMETH

QCKTRUECNT

QI

QLENSD

QLENSI

QOSOPT

QP

QSEARCHC

QTRUCHANMANGSWITCH

QTRUDNPWRLASTTIME

QTRUDNPWRSTATTIME

QTRUPWRSHARE

QUALOFFTIMES

QUALONTIMES

QUALSTEP

QUERYCMAFTERINBSCHO

QUICKHOEN

R0AuxDev

R0BatAllow

R0BatCap

R0BatCoeff

R0BatType

R1AuxDev

R1BatAllow

R1BatCap

R1BatCoeff

R1BatType

R2AuxDev

R2BatAllow

R2BatCap

R2BatCoeff

R2BatType

RA

RA

RA

RA

RA

RA1

RACHACCLEV

RACHBUSYTHRED

RACHLDAVERSLOT

RACJACCLEV

RACOLOR

RANDACCESSRETRY

RANERRTHRED

RARESELECTHYST

RATE

RATECTRLSW

RATSCCHENABLED

RAWMRSAMPLE

RBPTYPE

RCDT

RCN

RCN1

RCN2

RCVMD

RDC

REASSEN

REASSFREQBAND

RECEIVEQUALTHRSHAMRFR

RECEIVEQUALTHRSHAMRHR

RECLEVHYST

RECLEVTHRES

RECLEVUOHOALLOW

RecordDiscardedPagingInfoFlag

RECOVERTHD

RECQUALTH

RECQUALUOHOALLOW

RED

ReduceTransBwInt

ReduceTransBwNum

REF2MCLK2SRC

REF2MCLK2SRCBAK

REF2MCLKSRC

REF2MCLKSRCBAK

REF2MCLKSW1

REF2MCLKSW2

REFUSELOCALCLK

REGION

REHOSTABSTIME

REHOSTDELAYTIME

REHOSTTYPE

REINITTBL

RELATEDCN

RELATEDFCUENABLED

RELATEDMODFUNC

RELATEDSN

RELATEDSRN

RELATEDTRACK

REMARK

REMARK

REMOTENSVLI

REP

REPEATDLFASET

REPEATDLFATHRED

REPEATSASET

RESALMID

ResCheckAllowed

RESELHYST

RESELINTERVAL

RESELWATCHPERIOD

RESELWORSENLEVTHRSH

ReservedDynPdchPreTranNum

ReservedIdleCh

ResetAlmDelaySwitch

ResetAlmDelayTime

RESETINTERVAL

RESETRETRY

RESETTIME

RESETTIMER

RESID

RespReqSel

REST

RESTARTTMR

RESTARTTMR

RESTYPE

RESUMETIMER

REVCHANNUM

RFMAXPWRDEC

RFRESINDPRD

RFT

RFUCFGBYSLOT

RGPSINDICATION

RIMSUP

RLCN

RLT

RMTTCATERTRANSMODE

RNCID

RNCINDEX

RNCINDEX

RNCNAME

RootCert

ROUTENO

ROUTEPORTNO

RPTDLVQIALLOWED

RPTPERIODI

RPTPERIODT

RPTTHD

RPTVOICE

RQSIGNLEN

RQTRAFFLEN

RSCGRPN

RSCMNGMODE

RSCMNGMODE

RSCPENALTYTIMER

RSCPOFF

RSCPTHRES

RSDSRC

RSFSRC

RSLCTOFFER

RSLDL

RSLDSCP

RSLPRI

RSLUL

RSLVLANID

RSLWS

RSNDES

RSSThres

RSTDESFILE

RSTF

RSTFUN

RSTIME

RSVCHMFORECNUM

RSVDPARA1

RSVDPARA10

RSVDPARA2

RSVDPARA3

RSVDPARA4

RSVDPARA5

RSVDPARA6

RSVDPARA7

RSVDPARA8

RSVDPARA9

RsvIdleChanNum

RT

RTCONTEXT

RTCPBWRATIO

RTCPSWITCH

RTDEST

RTDESTMASK

RTIDX

RTOALPHA

RTOBETA

RTOINIT

RTOMAX

RTOMIN

RTPSWITCH

RTTIPDCHMULTIPLEXTHRESH

RTTYPE

RUS

RUSPRD

RVer

RXBW

RxBw

RXLEVACCMIN

RXLEVOFF

RXMIN

RXQCKFALLHOEN

RXQUAL1

RXQUAL10

RXQUAL11

RXQUAL12

RXQUAL2

RXQUAL3

RXQUAL4

RXQUAL5

RXQUAL6

RXQUAL7

RXQUAL8

RXQUAL9

RXUCHAINNO

RXUCHAINNO

RXUCHAINNO

RXUIDTYPE

RXUIDTYPE

RXUNAME

RXUNAME

RXUNAME

RXUPOS

RXUPOS

RXUPOS

RXUTYPE

S1SWITCH

S1VALUE

SAADIS

SAAF

SaGsmrMsc

SAICALLOWED

SAICTHREDAPDTVALUE

SAICTHREDAPDTVALUE

SALOG

SAMECVGCELLID

SAMECVGCELLIDTYPE

SAMECVGCELLLOADSTATTM

SAMECVGCELLLOADTHRD

SAMECVGCELLNAME

SAMULFRM

SAS

SASE

SASV

SAVEENABLED

SBAF

SBTSID

SBTSNAME

SCALEORDER

SCDSCP

SCELLFILTER

SCELLID

SCELLNAME

SCHEME

SCHNNO

SCMD

SCOPETYPE

SCPIDX

SCRAMBLE

SCSN

SCTPLNKN

SD

SD

SD

SD

SDALMTHD

SDATE

SDAY

SDCCHNUM

SDCCHWaitMREn

SDCCHWaitMRTimeLen

SDDROPSTATDLLEV

SDDROPSTATDLQUAL

SDDROPSTATULLEV

SDDROPSTATULQUAL

SDDYN

SDENABLE

SDFASTHOSWITCH

SDFLAG

SDHOMININTV

SDMRCUTNUM

SDPUNTIME

SDPUNVAL

SDSCP

SDSFPRI

SDT

SDTMWDALMDIS

SDTMWDALMOC

SDV

SEARCH3G

SELFVERSION

Send2QuterFlag

SendBssInvokeTrace

SENDCMAFTERINBSCHO

SendConfusionToMSC

SENDDOWNLINKMESSAGE

SENDFACCHNOTPRI

SENDFACCHPAGPRI

SENDSAMBE

SENDSI2TERFLAG

SENDSI5TERFLAG

SendUtranECSCFlag

SEPARATEPOS

SEPERATEMODE

SERCMDPORT

SERDATAPORT

SERIALNO

ServerIP

ServiceMode

SERVICEMODE

SERVICEMODE

ServiceName

SERVICETYPE

SETDIESELENGINEENABLED

SETENVPARAENABLED

SETENVPARAENABLED

SETHUMPARAENABLED

SFPPORTNO

SGSNCAP

SGSNNAME

SGSNNRILEN

SGSNNULLNRI

SGSNPOOLALLOW

SGSNR

SGSNSTATUS

SHAREINCPURATE

SHARESN

SHARINGALLOW

SHLDFLG

SHUTDOWNTRXSTARTTIME

SI2TerSwitch

SIGCHANHOEN

SIGLAST

SIGLKSX

SIGLKSX

SIGLNKID

SIGLW

SIGLW

SIGNALSP

SIGOBS

SIGQUAFLTLEN

SIGSLC

SIGSTRFLTLEN

SilenceTicksOfResReq

SinglePassExcludeMsisdn1

SinglePassExcludeMsisdn10

SinglePassExcludeMsisdn11

SinglePassExcludeMsisdn12

SinglePassExcludeMsisdn13

SinglePassExcludeMsisdn14

SinglePassExcludeMsisdn15

SinglePassExcludeMsisdn16

SinglePassExcludeMsisdn17

SinglePassExcludeMsisdn18

SinglePassExcludeMsisdn19

SinglePassExcludeMsisdn2

SinglePassExcludeMsisdn20

SinglePassExcludeMsisdn3

SinglePassExcludeMsisdn4

SinglePassExcludeMsisdn5

SinglePassExcludeMsisdn6

SinglePassExcludeMsisdn7

SinglePassExcludeMsisdn8

SinglePassExcludeMsisdn9

SIPADDR

SIPADDR

SITES

SITESYNCZONE

SLAVEIPADDR

SLAVELOCGRPNO

SLPTYPE

SLSMASK

SLVSERVACTDELAY

SM

SMLCIDX

SMLCMode

SMOKE_MASK

SMONTH

SMWINDOW

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SN

SNDMD

SndRcvMode

SndRcvMode1

SndRcvMode2

SndRcvMode3

SndRcvMode4

SP

SPC

SPCBITS

SPCDNF

SPCIC

SPDF

SPECACC

SPECIALSWITCH

SPECIALSWITCHERLEVEL

SpeechAlmPeriod

SpeechVerInAssCmp

SpeechVerinHoPerform

SpeechVerInHoReqAck

SpeechVerInHoRqd

SPEECHVERMODE1

SPEECHVERMODE2

SPEECHVERSION

SPEED

SPEEDPUNISH

SPEEDPUNISHT

SPGCCCCHSUP

SpprtCB

SPTCOMMMEAS

SPTINFOEXCHG

SPTINTERRATINBSCPSHO

SPTINTERRATOUTBSCPSHO

SPTNACCResGuarantee

SptPaging

SptPbLapdCheck

SptPbResCheck

SptPbSglPassCheck

SptPCICCheck

SptRanSharing

SPTREDUCELATENCY

SPTSHARING

SPTSTATEFWL

SPX

SRANMODE

SRANMODE

SRANMODE

SRC2GNCELLID

SRC2GNCELLNAME

SRC3GNCELLID

SRC3GNCELLNAME

SRCCI

SRCF

SRCGRD

SRCGRD

SRCHOCTRLSWITCH

SRCIP

SRCLAC

SRCMCC

SRCMEPID

SRCMNC

SRCPORTNO

SRCT

SRCTSMASK

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN

SRN1

SRN2

SRName

SRNO

SRT

SRTORD

SRVLW

SRVLW

SRVPRIPOLICY

SRVTYPE

SSBQPUNISH

SSCPUAVEUSAGEALMTHD

SSCPUMAXUSAGEALMTHD

SSDSPAVEUSAGEALMTHD

SSDSPMAXUSAGEALMTHD

SSLENSD

SSLENSI

SSN

SSN

SSSN

SSTAPUNISH

ST

ST

ST

ST

ST

ST

ST

STARTAID

STARTCBSHORTMSGFLOWCTRL

STARTCHREQARRIVALCTRL

STARTCIC

STARTCIC

StartDayDSTPA

STARTHEATTEMP

StartMonthDSTPA

STARTPGARRIVALCTRL

STARTPSRESREQARRIVALCTRL

STARTSUBTS

STARTTIME

StartTimeTACloseTrxPA

STARTTS

STARTTS

STARTTS

STC

STC

STCIC

STCN

STD

STEP

STFLG

STIME

STIRCALLOWED

STOPSI5SWITCH

STOPTIME

STP

STPN

STRTM

STSN

STSRN

STSUBTS

STT

STTS

STTYPE

SUBBSCTID

SUBBSCTID

SUBCMD

SUBFRAMELEN

SUBFRAMETHRES

SUBID

SUBNET

SUBRESPREEMPTFLG

SUBRESPREEMPTFLG

SUBTS

SubVer

SupportApplyUsedCic

SUPPORTBAKCLK2SRC

SUPPORTBAKCLKSRC

SUPPORTCELLBROADCAST

SUPPORTDL5TS

SUPPORTDTM

SUPPORTEDA

SUPPORTENDTM

SupportIpSpanBtsLSwitch

SupportTFOCodecOptimize

SupptCellList

SVALUE

SVRIP

SVRPORT

SW

SW

SW

SW

SW

SWEEK

Switch

SWITCH

SWITCH

SWITCH

SWITCH

SWITCH3AH

SWITCHBACKFLAG

SWITCHBACKHBNUM

SwitchParameter1

SwitchParameter10

SwitchParameter2

SwitchParameter3

SwitchParameter4

SwitchParameter5

SwitchParameter6

SwitchParameter7

SwitchParameter8

SwitchParameter9

SWITCHPORTNO

SWOP

SWSEQ

SYMOFFSET

SYNCCASE

SYNCMETHOD

SYNMODE

SYNTIMEDAY

SYNTIMEHOUR

SYNTIMEMIN

SYSCONTACT

SYSDESC

SYSFLOWLEV

SYSLOCATION

SysMsg10Allowed

SYSOBJECTID

SYSSERVICES

T1

T1

T10TMR

T12TMR

T13TMR

T14TMR

T17TMR

T1TMR

T2

T2

T200

T200FACCHF

T200FACCHH

T200SACCH3

T200SACCHS

T200SACCT0

T200SDCCH

T200SDCCH3

T203

T22TMR

T23TMR

T2TMR

T3

T3

T3105

T3115

T3168

T3192

T3212

T391

T3TMR

T4

T4TMR

T5

T5TMR

T6

T8

T8TMR

TAFLTLEN

TAFORUOHOALLOW

TAHOEN

TAHYST

TALASTTIME

TALIMIT

TALKERINFINT

TASIGSTRFLTLEN

TASKIDX

TASTATTIME

TATHRES

TAVGT

TAVGW

TB

TB

TBS

TBS

TC

TC

TCC

TCCRCAllowed

TCHAJFLAG

TCHBUSYTHRES

TCHDROPSTATDLFER

TCHDROPSTATDLLEV

TCHDROPSTATDLQUAL

TCHDROPSTATULFER

TCHDROPSTATULLEV

TCHDROPSTATULQUAL

TCHHOMININTV

TCHMRCUTNUM

TCHRATEMODIFY

TCHTIMEHOPERIOD

TCHTIMEHOSWITCH

TCHTRIBUSYUNDERLAYTHR

TCHTRICBUSYOVERLAYTHR

TCLEN

TCMODE

TCMUTEDETECTFLAG

TCN

TCPN

TCPOOLID

TCSN

TCSRN

TCTYPE

TDDBA1TAG

TDDBA2TAG

TDDCELLOFF

TDDCELLRESELDIV

TDDCELLTHRED

TDDDIVERSITY

TDDDLUARFAN

TDDMIOPTIMIZEDALLOWED

TDDMIPROHIBIT

TDDRSCPQUALTHRSH

TDDSCRAMBLE

TDDSCRAMBLE

TDDSIOPTIMIZEDALLOWED

TDDSYNCCASE

TDMCONGCLRTH

TDMCONGTH

TDMN1

TDMN2

TEI

TEMP_MASK

TEMP_THD_HIGH

TEMP_THD_LOW

TEMPALARMTHRESHOLDH

TEMPALARMTHRESHOLDH

TEMPALARMTHRESHOLDL

TEMPALARMTHRESHOLDL

TEMPCOMPENSATECOEF

TEMPLATEDESC

TEMPLATEID

TEMPLATEID

TEMPLATENAME

TEMPOFHIGHTEMPLOADPWROFF

TEMPOFLOWTEMPLOADPWROFF

TEMPOFLOWTEMPLOADPWROFF

TER2INDICATOR

TESTTIMER

TEXT

TFOOptSwitch

TFREQ

TFRMSTARTTIME

TG

TGWID

TGWIPOAMIP

TGWIPOAMMASK

TGWPEERSN

TGWPEERSRN

TH

THDOFF

THDON

THP1ARP1PRIWEIGHT

THP1ARP2PRIWEIGHT

THP1ARP3PRIWEIGHT

THP2ARP1PRIWEIGHT

THP2ARP2PRIWEIGHT

THP2ARP3PRIWEIGHT

THP3ARP1PRIWEIGHT

THP3ARP2PRIWEIGHT

THP3ARP3PRIWEIGHT

THTYPE

TI_WAIT_SGSN_PRIVATE_MESSAGE

TIGHTBCCHASSMAINBCCHLEV

TIGHTBCCHASSMAINBCCHQUAL

TIGHTBCCHHOLASTTIME

TIGHTBCCHHOLOADTHRES

TIGHTBCCHHOSTATTIME

TIGHTBCCHRXQUALTHRES

TIGHTBCCHSWITCH

TIGHTSDCCHRXLEVTHRED

TIIMSIPAGING

TIME

TIME

TIME

TIMEAMRFHPUNISH

TIMEBQPUNISH

TIMEOTOUFAILPUN

TIMEOUT

TIMEOUT

Timeout

TIMEOUT

TIMEOUT

TIMEPUNISH

TIMES

TIMESLOTVOLADJALLOW

TIMETAPUNISH

TIMEUTOOFAILPUN

TIQUEUINGTIMER

TIWAITMSCMSG

TL

TLLI

TLT

TLTHD

TLTHD

TM

TM1

TM2

TM3

TM4

TM5

TMI

TMIGLD

TMLEN

TMODE

TMRBADQUALDISCSTAT

TMRISTHRD

TMSI

TMSTLTHRD

TMT1TMR

TMT2TMR

TNAME

TNMODE

TNMODE

TO

TO

TOPBOARDCN

TOPBOARDSLOTNO

TOPBOARDSRN

TP

TPN

TQHO

TRACECTHD

TRACECTHD

TRACERTHD

TRACERTHD

TRACESW

TrafficClassDlCoefficient

TrafficClassUlCoefficient

TRAMODE

TransMode

TRANSSN

TRANST

TRANST

TRANST

TRANSTYPE

TRANSTYPE

TRANSTYPE0

TRANSTYPE1

TRANSTYPE2

TRANSTYPE3

TRCRNGLMT

TRESEL

TRIGTHRES

TRKLNKPN

TRKLNKSN

TRKN

TRMI

TRMLOADTHINDEX

TRMLOADTHINDEX

TRMLOADTHINDEX

TRMLOADTHINDEX

TRMLOADTHINDEX

TRMLOADTHINDEX

TRMLOADTHINDEX

TRMMAPSW

TRUNKN

TRUNKN

TRUNKN

TRXAIDSWITCH

TRXDURATS

TRXHOPINDEX

TRXID

TRXID

TRXID1

TRXID10

TRXID11

TRXID12

TRXID13

TRXID14

TRXID15

TRXID16

TRXID17

TRXID18

TRXID19

TRXID2

TRXID20

TRXID21

TRXID22

TRXID23

TRXID24

TRXID3

TRXID4

TRXID5

TRXID6

TRXID7

TRXID8

TRXID9

TRXIDLST

TRXIDLST

TRXMAIO

TRXNO

TrxNum

TRXPN

TRXPN

TRXPRIALLOW

TRXTP

TS

TS

TS

TS

TS

TSBITMAP

TSBITMAP

TSBITMAP

TSC

TSCOUNT

TSCPLANEN

TSCROSSX

TSDURAT

TSIDX

TSKN

TSMASK

TSMASK

TSN

TSNO

TSPRIORITY

TSPWRRESERVE

TSRAPIDADJPERIOD

TSRAPIDADJSWITCH

TSRATE

TSRN

TSTMODE

TSTTIMESLOT

TSTTYPE

TSTTYPE

TsTurningOffEnable

TT

TTL

TTL

TURNOFFCELLCHANNUM

TURNOFFCELLSTPTIME

TURNOFFCELLSTRTIME

TURNOFFENABLE

TURNONCELLLOADTHRD

TUTHD

TUTHD

TWFCMCHIDLE

TWFCMTRXIDLE

TWFCSCHIDLE

TWFRRMRSP

TWFSEEKMS

TWFSYNCACK

TWFSYNCRPT

TX

TXAOPER1

TXAOPER2

TXAOPER3

TXAOPER4

TXBOPER1

TXBOPER2

TXBOPER3

TXBOPER4

TXBW

TxBw

TXINT

TXINT

TYPE

TYPE

TYPE

TYPE

TYPE

TYPE

TYPE

U0GEN

U0TOW

U0TRX

U0TRXBPN

U0TRXSN

U0TRXSRN

U1GEN

U1TOW

U1TRX

U1TRXBPN

U1TRXSN

U1TRXSRN

ucCSPrefCallReestPrio

ucCSPrefCSEmergCallPrio

ucCSPrefCSOrgCallPrio

ucCSPrefCSTermCallPrio

ucCSPrefInBscHoPrio

ucCSPrefIntraBscHoPrio

ucCSPrefOtherPrio

ucCSPrefPSPrio

ucCSPrefSupplePrio

ucCSPrefVBSPrio

ucCSPrefVGCSPrio

ucCtrlOfCicIE

UCISRAIFAULT

ucPSPrefCallReestPrio

ucPSPrefCSEmergCallPrio

ucPSPrefCSOrgCallPrio

ucPSPrefCSTermCallPrio

ucPSPrefInBscHoPrio

ucPSPrefIntraBscHoPrio

ucPSPrefOtherPrio

ucPSPrefPSPrio

ucPSPrefSupplePrio

ucPSPrefVBSPrio

ucPSPrefVGCSPrio

ucSpeechVerOptiInHo

UDPMUXMODRECV

UDPMUXMODSEND

UDPPN

UDPPN

UG

UHUMTHD

UIC

UINTTIME

UL

UL

ULADJPRD

ULAFSREXQUALHIGHTHRED

ULAFSREXQUALLOWTHRED

ULAHSREXQUALHIGHTHRED

ULAHSREXQUALLOWTHRED

ULBQLASTTIME

ULBQSTATTIME

ULCOEFFICIENTTSRAPIDADJ

ULDATAFWDTMR

ulDlAckFreq

ULEDGETHRES

ulEgprsDlAckFreq

ulEgprsUlAckFreq

ULFILTADJFACTOR

ULFSREXQUALHIGHTHRED

ULFSREXQUALLOWTHRED

ULHSREXQUALHIGHTHRED

ULHSREXQUALLOWTHRED

ULHYSTF1

ULHYSTF2

ULHYSTF3

ULHYSTH1

ULHYSTH2

ULHYSTH3

ULHYSTWB1

ULHYSTWB2

UlLdrThrd2GCell

ULLEVFILTLEN

ULMAXDOWNSTEP

ULMAXUPSTEP

UlOlcThrd2GCell

ULPREDLEND

ULQHIGHTHRED

ULQLOWTHRED

ULQUAFILTLEN

ULQUALBADTRIG

ULQUALBADUPLEV

ULQUALIMIT

ULQUALIMITAMRFR

ULQUALIMITAMRHR

ULREXLEVADJFCTR

ULREXLEVEXPFLTLEN

ULREXLEVHIGHTHRED

ULREXLEVLOWTHRED

ULREXLEVSLDWINDOW

ULREXQUALADJFCTR

ULREXQUALEXPFLTLEN

ULREXQUALSLDWINDOW

ULRXLEVPROTECTFACTOR

ULRXQUALPROTECTFACTOR

ULSSHIGHTHRED

ULSSLOWTHRED

ULTHF1

ULTHF2

ULTHF3

ULTHH1

ULTHH2

ULTHH3

ULTHWB1

ULTHWB2

ULTOOLHOALLOW

ulUlAckFreq

UMCROSSTALKOPTALLOWED

UMPENALTYTIMER

UmVer

UNBA

UNBLOCKRETRY

UnderCurAlmThdA

UnderCurAlmThdB

UnderCurAlmThdRET

UnderCurClrThdA

UnderCurClrThdB

UnderCurClrThdRET

UPBTSID

UPBTSID

UPBTSIDTYPE

UPBTSIDTYPE

UPBTSNAME

UPBTSNAME

UPDATE

UPDEFAULTCS

UPDEFAULTMCS

UPDYNCHNTRANLEV

UPE2ADEFAULTMCS

UPE2AFIXMCS

UPEXTTBFINACTDELAY

UPFIXCS

UPFIXMCS

UPINTERFQUALLIMIT

UPINTERLEVLIMIT

UPLNKMAXLENGTH

UPOMLWS

UPPCEN

UPPERGRPID

UPPERLP

UPRXLEVLASTTIME

UPRXLEVSMOOTHPARA

UPRXLEVSTATICTIME

UPSENDSMDIS

UPTBFRELDELAY

UPTHDCSDEGRADE1

UPTHDCSDEGRADE2

UPTHDCSDEGRADE3

UPTHDCSUPGRADE1

UPTHDCSUPGRADE2

UPTHDCSUPGRADE3

URGENTRESELALLOW

USERIDTYPE

USFGRAN4BLK

USR

USR

USTBGNTIME

USTENDTIME

UTEMTHD

UTOOFAILMAXTIME

UTOOHOPENTIME

UTOORECTH

UTOOTRAFHOALLOW

UTRAFHOPERIOD

UTRAFHOSTEP

UTRANCELLTYPE

VENDORCODE

VGCSMAXNUM

VGCSPREEMPT

VGCSRSRVNUM

VIPACCESSCPURATE

VIPCELL

VIPPRIORITY

VIPSHAREINCPURATE

VLANFlAG

VLANFLAG

VLANFLAG1

VLANFlAG2

VLANID

VLANID

VLANID

VLANID

VLANID1

VLANID2

VLANPRI

VLANPRI

VLANSWITCH

VOICEVER

VOL24_MASK

VOL24_THD_HIGH

VOL24_THD_LOW

VOL48_MASK

VOL48_THD_HIGH

VOL48_THD_LOW

VSWRENABLED

VSWRERRTHRES

VSWRFILETERCOUNTER

VSWRTHRES1

VSWRTHRES2

VSWRUNJUSTTHRES

VVer

WAITFORRELIND

WAITFORRELINDAMRFR

WAITFORRELINDAMRHR

WaitMSLocationResponse

WAITRESVCHANREFRESHTIMER

WAITSDCCHIDLETIMER

WaitSMLCLocationResponse

WARMSET

WATER_MASK

WEEK

WELONGI

WETSET

WHETHERAFFECTSWAP

WINADJSWITCH

WK

WKMODE

WLAETIME

WLAFLAG

WLARP

WLASTIME

WLNKALMFLAG

WORKAREA

WORKINGSTANDARD

WORKMODE

WORKMODE

WORKMODE

WS

WTBS

WTBS

WTRT

ZONET

Parameter Name

NE

Downlink Quality Threshold in Assigning Better Cell

BSC6900

Uplink Quality Threshold in Assigning Better Cell

BSC6900

Maximum Better Cell Assigning Duration

BSC6900

Abis ByPass Mode

BSC6900

SDCCH Congestion Flow Control Allowed

BSC6900

Abis Flow Control Timer 1

BSC6900

Abis Flow Control Timer 2

BSC6900

Abis Idle TS Allocate Strategy

BSC6900

Abis Idle TS Configure Switch

BSC6900

Abis Jam Rate for BTS Local Switch

BSC6900

TCHH Function Switch

BSC6900

Timer of Releasing Abis Timeslot

BSC6900

Abis Interface Tag

BSC6900

Duration of BTS Collecting AB[100 Millisecond]

BSC6900

Abnormal Voice MOS Threshold

BSC6900

Access Burst Type

BSC6900

Access Control Class

BSC6900

Access Control Allowed

BSC6900

Access Control Policy

BSC6900

Incoming-to-BSC HO Optimum Layer

BSC6900

Access Control Policy Index

BSC6900

PS Initial Access Service Type

BSC6900

Starting Point of the Access Control Window

BSC6900

Access Control Window Size

BSC6900

Sliding Speed of the Access Control Window

BSC6900

Address and control field compress

BSC6900

Support Address and Control Field Compress

BSC6900

A Interface Paging Co-ordination Switch

BSC6900

Additional Reselect Parameter Indication

BSC6900

AMR ACS[F]

BSC6900

AMR ACS[H]

BSC6900

AMR ACS[WB]

BSC6900

Activate L2 Re-establishment

BSC6900

Valid Time of BTS Resource Activation

BSC6900

AC Voltage Lower Threshold

BSC6900

AC Overvoltage Alarm Threshold

BSC6900

AC Undervoltage Alarm Threshold

BSC6900

AC Voltage Upper Threshold

BSC6900

Assignment Procedure in Intra-Cell HO Allowed

BSC6900

Communication Address

BSC6900

Sub-Link Bandwidth Request Interval When Not Congested

BSC6900

Bandwidth for Secondary Link When Not Congested

BSC6900

External Alarm Customer Definition Switch

BSC6900

Adjacent BSC DPC

BSC6900

Adjustment Mode

BSC6900

Support EGPRS Uplink MCS Dynamic Adjust

BSC6900

Auto Download Active Function Switch

BSC6900

Auto Download Mode

BSC6900

Administrative State

BSC6900

Administrative State

BSC6900

Administrative State

BSC6900

Offset Time Adjustment End Time

BSC6900

Load Threshold of Offset Adjustment

BSC6900

Offset Time Adjustment Switch

BSC6900

Offset Time Adjustment Start Time

BSC6900

Advanced Alarm Management Rule Type

BSC6900

BTS Software Version 1

BSC6900

BTS Software Version 2

BSC6900

AEC Echo Path Delay

BSC6900

AEC Echo Return Loss

BSC6900

AEC Nlp Gate

BSC6900

AEC Path Delay

BSC6900

AEC SNR Gate

BSC6900

AEC Switch

BSC6900

AEC Detect Threshold

BSC6900

AEC Detect Time

BSC6900

AFR Radio Link Timeout

BSC6900

AFR SACCH Multi-Frames

BSC6900

GPS ID

BSC6900

GPS type

BSC6900

AHR Radio Link Timeout

BSC6900

AHR SACCH Multi-Frames

BSC6900

Alarm ID

BSC6900

Alarm ID

BSC6900

Alarm ID

BSC6900

Alarm ID

BSC6900

Alarm ID

BSC6900

Alarm ID.

BSC6900

Alarm ID.

BSC6900

Aiding Delay Protect Time

BSC6900

Alarm Select Type

BSC6900

Alarm Select Type

BSC6900

A Interface Msg [End2end User Tracing]

BSC6900

A IF FC Discard LOC UP Enable

BSC6900

A IF FC Discard MOC Enable

BSC6900

A IF FC Discard MTC Enable

BSC6900

A IF FC Discard Other Service Enable

BSC6900

A Interface Flow Control Enable

BSC6900

A Interface Flow Control Method

BSC6900

A IF FC Service Rate in Level 1

BSC6900

A IF FC Service Rate in Level 2

BSC6900

A IF FC Service Rate in Level 3

BSC6900

A IF FC Service Rate in Level 4

BSC6900

A IF FC Service Rate in Level 5

BSC6900

A IF FC Service Rate in Level 6

BSC6900

CSD Service Redundancy Level

BSC6900

ALC Fix Gain

BSC6900

ALC Fix Target Level

BSC6900

ALC Max Gain

BSC6900

ALC Max Target Level

BSC6900

ALC Min Target Level

BSC6900

ALC Mode

BSC6900

ALC Switch

BSC6900

Alive Retry

BSC6900

Alive Timer

BSC6900

Bandwidth

BSC6900

Resource Reallocation to Different Trx

BSC6900

Allocate One PDCH for Signaling Data

BSC6900

Ratio of AMR-HR

BSC6900

Allow EDA Multiplex

BSC6900

Allowed Measure Report Missed Number

BSC6900

Ratio of TCHH

BSC6900

Timeslot Type

BSC6900

Timeslot Type

BSC6900

Feed Tri. 0 TMA Low Current Alarm Threhold

BSC6900

Feed Tri. 1 TMA Low Current Alarm Threhold

BSC6900

Feed Tri. 2 TMA Low Current Alarm Threhold

BSC6900

Feed Tri. 3 TMA Low Current Alarm Threhold

BSC6900

Feed Tri. 4 TMA Low Current Alarm Threhold

BSC6900

Feed Tri. 5 TMA Low Current Alarm Threhold

BSC6900

Alarm Disappear Accumulate Duration

BSC6900

Alarm Enable Flag

BSC6900

Alarm ID.

BSC6900

Alarm ID.

BSC6900

Lower Alarm

BSC6900

Upper Alarm

BSC6900

Upper Alarm

BSC6900

Alarm Occurrence Accumulate Duration

BSC6900

Alarm Occur Accumulative Time Threshold

BSC6900

Alarm Clear Accumulative Time Threshold

BSC6900

Alarm Occur Times Threshold

BSC6900

Alarm Clear Times Threshold

BSC6900

Alarm Parameter Configuration Enabled

BSC6900

Alarm Type

BSC6900

ALPHA

BSC6900

Antenna Altitude Decimal Part

BSC6900

GPS antenna altitude

BSC6900

Antenna Altitude Int Part

BSC6900

GPS antenna altitude

BSC6900

Alarm Severity

BSC6900

Alarm Severity

BSC6900

Feed Tri. 0 TMA Configuration

BSC6900

Feed Tri. 1 TMA Configuration

BSC6900

Feed Tri. 2 TMA Configuration

BSC6900

Feed Tri. 3 TMA Configuration

BSC6900

Feed Tri. 4 TMA Configuration

BSC6900

Feed Tri. 5 TMA Configuration

BSC6900

AMR BTS PC Class

BSC6900

Allow III Power Control For AMR

BSC6900

AMR Downlink Adaptive Threshold Allowed

BSC6900

AMR Filter Length for DL RX_LEV

BSC6900

AMR DL MR. Number Predicted

BSC6900

AMR DL Qual. Upper Threshold

BSC6900

AMR DL Qual. Lower Threshold

BSC6900

AMR Filter Length for DL Qual.

BSC6900

AMR DL Qual Bad Trig Threshold

BSC6900

AMR DL Qual Bad UpLEVDiff

BSC6900

AMR DL RX_LEV Upper Threshold

BSC6900

AMR DL RX_LEV Lower Threshold

BSC6900

AMR F-H Ho Allowed

BSC6900

AMR F-H Ho ATCB Adjust Step

BSC6900

AMR F-H Ho ATCB Threshold

BSC6900

AMR F-H Ho Pathloss Adjust Step

BSC6900

AMR F-H Ho Pathloss Threshold

BSC6900

AMR F-H Ho Qual. Threshold

BSC6900

AMR F-H Traffic Threshold

BSC6900

AMR H-F Ho ATCB Threshold

BSC6900

AMR H-F Ho Pathloss Threshold

BSC6900

Allow AMR H-F Quality-based HO

BSC6900

AMR H-F Ho Qual. Threshold

BSC6900

AMR H-F Traffic Threshold

BSC6900

AMR MAX Up Adj. PC Value by Qual.

BSC6900

AMR MAX Down Adj. Value Qual. Zone 0

BSC6900

AMR MAX Down Adj. Value Qual. Zone 1

BSC6900

AMR MAX Down Adj. Value Qual. Zone 2

BSC6900

AMR MAX Up Adj. PC Value by RX_LEV

BSC6900

AMR MR. Compensation Allowed

BSC6900

AMR PC Interval

BSC6900

AMR MAX Down Adj. PC Value by Qual.

BSC6900

AMR SACCH Downlink Power Upgrade

BSC6900

AMR TCH/H Prior Allowed

BSC6900

AMR TCH/H Prior Cell Load Threshold

BSC6900

AMR Uplink Adaptive Threshold Allowed

BSC6900

AMR Filter Length for UL RX_LEV

BSC6900

AMR UL MR. Number Predicted

BSC6900

AMR UL Qual. Upper Threshold

BSC6900

AMR UL Qual. Lower Threshold

BSC6900

AMR Filter Length for UL Qual

BSC6900

AMR UL Qual. Bad Trig Threshold

BSC6900

AMR UL Qual. Bad UpLEVDiff

BSC6900

AMR UL RX_LEV Upper Threshold

BSC6900

AMR UL RX_LEV Lower Threshold

BSC6900

MAX Retrans Reset Circle Msg on A-I

BSC6900

MAX Reset Mesg Retransmission on A-I

BSC6900

ANC Max Gain

BSC6900

ANC Switch

BSC6900

ANC Target SNR

BSC6900

RET Antenna Tilt Angle

BSC6900

Adjacent Node ID

BSC6900

Adjacent node ID

BSC6900

Alarm Name

BSC6900

ANR Mode

BSC6900

ANR Noise Reduction Level

BSC6900

ANR Noise Target Level

BSC6900

ANR Switch

BSC6900

Antenna Azimuth Angle

BSC6900

GPS Antenna Delay

BSC6900

Antenna Power Supply Switch

BSC6900

E1T1 anti-error switch

BSC6900

Burglar Alarm Auto Clear Permit

BSC6900

Antenna No.

BSC6900

Antenna Pass No

BSC6900

Sub-Location Group Antenna Pass No.

BSC6900

Down TRX1 A or B

BSC6900

A interface port No.

BSC6900

Application type

BSC6900

Application Type

BSC6900

AQM N Update Interval

BSC6900

AQM Maximum Threshold

BSC6900

AQM Congestion Threshold

BSC6900

AQM Packet Discard Initial Interval

BSC6900

AQM Packet Discard Interval Lower Threshold

BSC6900

AQM Packet Discard Interval Upper Threshold

BSC6900

AQM Switch

BSC6900

AQM Target Threshold

BSC6900

Area Code

BSC6900

Area flag

BSC6900

Area flag

BSC6900

Abnormal Release Threshold

BSC6900

Abnormal Release Statistic Base

BSC6900

Abnormal Warn Threshold

BSC6900

ARP packet resend times

BSC6900

ARP packet time-out[100ms]

BSC6900

A interface slot No.

BSC6900

A interface slot No.

BSC6900

A interface subrack No.

BSC6900

Event Type

BSC6900

Event Type

BSC6900

Assigning Better Cell Allowed

BSC6900

Assignment Cell Load Judge Enable

BSC6900

Assign to Overlayer RxLev Offset

BSC6900

Associated RXU Board CN

BSC6900

Associated RXU Board CN

BSC6900

Associated RXU Board SN

BSC6900

Associated RXU Board SN

BSC6900

Associated RXU Board SRN

BSC6900

Associated RXU Board SRN

BSC6900

Absolute Signal Strength Threshold

BSC6900

T3107

BSC6900

T1

BSC6900

T13 -s

BSC6900

T17 -s

BSC6900

T18 -s

BSC6900

T19

BSC6900

T20

BSC6900

T4 -s

BSC6900

Concentric Circles ATCB HO Allowed

BSC6900

Distance Hysteresis Between Boundaries

BSC6900

Distance Between Boundaries of Subcells

BSC6900

Switch of 8K on Ater

BSC6900

HR Allocation Flag

BSC6900

Congestion Ratio on Ater Resource

BSC6900

Ater connection path index

BSC6900

Ater Jam Rate for BSC Local Switch

BSC6900

Ater Mask

BSC6900

Whether or not for OML

BSC6900

Ater OML Index

BSC6900

Ater Connection Path Index

BSC6900

Ater Signaling Channel ID

BSC6900

Ater Interface Transfer Mode

BSC6900

Antenna Tributary No.

BSC6900

A interface timeslot mask

BSC6900

Attach-detach Allowed

BSC6900

Antenna Tributary 1 Factor

BSC6900

Antenna Tributary 2 Factor

BSC6900

Loop time[min]

BSC6900

Test time[min]

BSC6900

Authentication Mode

BSC6900

Validate mode

BSC6900

Validate mode

BSC6900

Validate Mode

BSC6900

Validate user name

BSC6900

Validate user name

BSC6900

Validate User Name

BSC6900

Validate password

BSC6900

Validate password

BSC6900

Validate Password

BSC6900

Validate protocol type

BSC6900

Validate protocol type

BSC6900

Validate Protocol Type

BSC6900

Auto negotiation

BSC6900

Add inter-subrack path automatically

BSC6900

Auto Adjust UL TH and Hysteresis [F]

BSC6900

Auto Adjust UL TH and Hysteresis [H]

BSC6900

Support Auto Obtaining of BTS Logs

BSC6900

Automatic Negotiation Mode

BSC6900

Work Mode for Auto Download Activation

BSC6900

Auto Unlock Switch

BSC6900

Auto Unlock Time

BSC6900

Administration unit type

BSC6900

A Interface Tag

BSC6900

Alarm level

BSC6900

Alarm VOL.

BSC6900

B1B2 signal degraded threshold

BSC6900

B1B2 signal fail threshold

BSC6900

B3 signal degrade threshold

BSC6900

B3 signal fail threshold

BSC6900

Switch of backplane LINE1

BSC6900

Switch of backplane LINE2

BSC6900

Backup Path

BSC6900

Path of Backup File

BSC6900

Bad Quality Disconnection Threshold

BSC6900

Support Advance Downlink TBF Establishment

BSC6900

BTS Interface Board Bar Code 2

BSC6900

Backup port IP address

BSC6900

Backup port mask

BSC6900

Backup Power Saving Method

BSC6900

Backup Power Saving Policy

BSC6900

High Band Indicator of Cell 1900

BSC6900

High Band Indicator of Cell 850

BSC6900

High Band Indicator of Cell 900

BSC6900

Forbidden time after MAX Times

BSC6900

Cabinet Bar Code List

BSC6900

Reference BTS Index

BSC6900

Temperature Basis for Compensation

BSC6900

Temperature Basis for Compensation

BSC6900

Battery Capacity

BSC6900

Battery Configuration Enabled

BSC6900

Battery Discharge Depth

BSC6900

Battery Type

BSC6900

BBAP service listening port No.

BSC6900

Up Down Balance Basic Difference

BSC6900

Battery Capcity

BSC6900

BCC

BSC6900

BCC

BSC6900

BCC

BSC6900

BCCH FD

BSC6900

Main BCCH Frequency

BSC6900

Frequency Hopping Mode of BCCH TRX

BSC6900

BC Congestion Alarm Threshold

BSC6900

BC Congestion Restore Alarm Threshold

BSC6900

DSCP of BG[QoS]

BSC6900

BC Identifier

BSC6900

Battery Current Limiting Coefficient

BSC6900

Boost-Charging Voltage

BSC6900

Battery Configuration Enabled

BSC6900

BestEffort-ARP1 Priority Weight

BSC6900

BestEffort-ARP2 Priority Weight

BSC6900

BestEffort-ARP3 Priority Weight

BSC6900

DSP bear type

BSC6900

Interval for Sending Heartbeat

BSC6900

Bep Period

BSC6900

Best TDD Cell Number

BSC6900

Better 3G Cell HO Allowed

BSC6900

Better Cell Handover Enable

BSC6900

Better Cell HO Valid Time

BSC6900

Better Cell HO Watch Time

BSC6900

Detect multiplier of BFD packet

BSC6900

BFD Session No.

BSC6900

Up Down Balance Floating Range

BSC6900

Switchback Policy of Baseband FH Mutual Aid

BSC6900

In Frame Bit Offset [1/8 bit]

BSC6900

Background-ARP1 Priority Weight

BSC6900

Background-ARP2 Priority Weight

BSC6900

Background-ARP3 Priority Weight

BSC6900

Alarm switch of blinking filter

BSC6900

Alarm blink threshold

BSC6900

Observing time window of statistical alarm

BSC6900

Switch of statistics blinking alarm

BSC6900

Block Retry

BSC6900

Block Timer

BSC6900

BM Port No

BSC6900

BM Slot No

BSC6900

BM Subrack No

BSC6900

Timer Length of BM-TC Flow Control

BSC6900

Borrow DevIP

BSC6900

To Alarm Box Flag

BSC6900

Position of Break Point 1

BSC6900

Position of Break Point 2

BSC6900

BQ HO Allowed

BSC6900

BQ HO Valid Time

BSC6900

BQ HO Margin

BSC6900

BQ HO Watch Time

BSC6900

Board Class

BSC6900

Board Class

BSC6900

Board Class

BSC6900

Board Class

BSC6900

Board No.

BSC6900

Board No.

BSC6900

Receive Bandwidth

BSC6900

BTS Board Software Type

BSC6900

Forward Bandwidth

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board type.

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Ring II Wait Time Before Switch

BSC6900

Broadcast Content

BSC6900

Broadcast Interval

BSC6900

Backup Style

BSC6900

CCCH Blocks Reserved for AGCH

BSC6900

External BSC DPC

BSC6900

Allow Dynamic Shutdown of TRX by BSC

BSC6900

BSC Flag

BSC6900

BSC GateWay IP

BSC6900

BSC Offset Information Collection End Time

BSC6900

BSC Offset Information Collection Start Time

BSC6900

BSC ID

BSC6900

BSC Index

BSC6900

BSC Fine Tuning Period

BSC6900

BSC IP

BSC6900

BSC IP

BSC6900

Options for BSC Local Switch

BSC6900

External BSC Name

BSC6900

Preemption Allowed

BSC6900

Preemption Allowed During Intra-BSC Handover

BSC6900

In-BSC Port No.

BSC6900

BSC Port

BSC6900

eMLPP Multi-Priority Classes Allowed

BSC6900

Queue Allowed

BSC6900

Queuing Allowed During Intra-BSC Handover

BSC6900

Reserved parameter 1

BSC6900

Reserved parameter 10

BSC6900

Reserved parameter 11

BSC6900

Reserved parameter 12

BSC6900

Reserved parameter 13

BSC6900

Reserved parameter 14

BSC6900

Reserved parameter 15

BSC6900

Reserved parameter 16

BSC6900

Reserved parameter 17

BSC6900

Reserved parameter 18

BSC6900

Reserved parameter 19

BSC6900

Reserved parameter 2

BSC6900

Reserved parameter 20

BSC6900

Reserved parameter 21

BSC6900

Reserved parameter 22

BSC6900

Reserved parameter 23

BSC6900

Reserved parameter 24

BSC6900

Reserved parameter 25

BSC6900

Reserved parameter 26

BSC6900

Reserved parameter 27

BSC6900

Reserved parameter 28

BSC6900

Reserved parameter 29

BSC6900

Reserved parameter 3

BSC6900

Reserved parameter 4

BSC6900

Reserved parameter 5

BSC6900

Reserved parameter 6

BSC6900

Reserved parameter 7

BSC6900

Reserved parameter 8

BSC6900

Reserved parameter 9

BSC6900

In-BSC Slot No.

BSC6900

In-BSC Subrack No.

BSC6900

In-BSC Sub Timeslot No.

BSC6900

BSC Symbol Offset

BSC6900

ID of BSC in TC Pool

BSC6900

ID of a BSC in TC Pool

BSC6900

In-BSC Timeslot No.

BSC6900

BS_CV_MAX

BSC6900

Transfer BTS/MS Power Class

BSC6900

Number of PAGCH Blocks

BSC6900

Multi-Frames in a Cycle on the Paging CH

BSC6900

Number of PBCCH Blocks

BSC6900

Number of PRACH Blocks

BSC6900

BSS Local Switching General Strategy

BSC6900

MSC-Collaborated BSS Local Switching

BSC6900

BSS Paging Co-ordination

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

Board Type

BSC6900

BM/TC config flag

BSC6900

BM/TC config flag

BSC6900

Adjust Voltage

BSC6900

BTS Bar Code

BSC6900

BTS Communication Type

BSC6900

BTS Communication Type

BSC6900

BTS Description

BSC6900

BTS Detect Switch

BSC6900

Site Index

BSC6900

BTS Index

BSC6900

BTS Index

BSC6900

Connect BSC BTS Index

BSC6900

BTS Index List

BSC6900

BTS Index Type

BSC6900

BTS Index Type

BSC6900

Site Index Collect

BSC6900

BTS IP

BSC6900

Options for BTS Local Switch

BSC6900

Subnet Mask

BSC6900

MR.Preprocessing

BSC6900

BTS Name

BSC6900

Connect BSC BTS Name

BSC6900

BTS Name List

BSC6900

BTS Ping Switch

BSC6900

BTS Power-off Lock BCCH

BSC6900

BTS PC Class

BSC6900

Switch for BTS Supporting SAIC PC Adjust

BSC6900

BTS Software Version

BSC6900

Transmission Compression Ratio

BSC6900

BTS Type

BSC6900

BTS Type

BSC6900

BTS Type

BSC6900

Time for Waiting to Restore

BSC6900

BT Test Type

BSC6900

Battery Type

BSC6900

Ring II Try Rotating Duration Time

BSC6900

Bundling Flag

BSC6900

PTP BVC Identifier

BSC6900

PTPBVC Identifier

BSC6900

BVC Flow Control Timer

BSC6900

Auto adjust bandwidth switch

BSC6900

Backward congestion remain bandwidth

BSC6900

Backward congestion clear remain bandwidth

BSC6900

Backward congestion clear remain ratio

BSC6900

Backward congestion remain ratio

BSC6900

Backward overload congestion clear remain bandwidth

BSC6900

Backward overload congestion clear remain ratio

BSC6900

Backward overload congestion remain bandwidth

BSC6900

Backward overload congestion remain ratio

BSC6900

Backward handover reserved ratio

BSC6900

Backward handover reserved bandwidth

BSC6900

Max bandwidth estimate ratio [%]

BSC6900

Bandwidth Mode

BSC6900

Load Control algorithm BandWidth THD[%]

BSC6900

Up Down Balance Alarm Threshold

BSC6900

Cell Index Type

BSC6900

GPRS Cell Reselect Hysteresis Applied to C31 Criterion

BSC6900

Exceptional Rule for GPRS Reselect Offset

BSC6900

Cabinet Description

BSC6900

Cabinet List

BSC6900

Is remote cabinet

BSC6900

Call Reestablishment Forbidden

BSC6900

Calibration Value

BSC6900

PWRC

BSC6900

Capacity and Coverage Optimize Switch

BSC6900

Card Frequency Attribute

BSC6900

Carry Flag

BSC6900

The bearing type of the logic port

BSC6900

Carry port type

BSC6900

Cell Bar Access

BSC6900

CBC INDEX

BSC6900

CBC IP

BSC6900

CBC ITF Para

BSC6900

CBC Port

BSC6900

Cb No Message Disconnection Timer

BSC6900

Cell Bar Qualify

BSC6900

Consent burst size [Byte]

BSC6900

Cell Broadcast Handshake Timer

BSC6900

Filter Length for SDCCH CV_BEP

BSC6900

Filter Length for TCH CV_BEP

BSC6900

CC

BSC6900

Certificate Chain File Enabled State

BSC6900

CCCH Load Indication Period

BSC6900

CCCH Load Threshold

BSC6900

DSCP of CONV[QoS]

BSC6900

CCM Send Prid

BSC6900

Cell Directed Retry Forbidden Threshold

BSC6900

1800 Reporting Offset

BSC6900

1800 Reporting Threshold

BSC6900

2G NCELL BCCH

BSC6900

2GBA1 Input Tag

BSC6900

2G NCELL BCCH

BSC6900

2GBA2 Input Tag

BSC6900

Cell 8PSK Power Attenuation Grade

BSC6900

900 Reporting Offset

BSC6900

900 Reporting Threshold

BSC6900

Cell Access Bar Switch

BSC6900

Cell Coverage Type

BSC6900

Even Charging Voltage

BSC6900

Even Charging Voltage

BSC6900

Float Charging Voltage

BSC6900

Float Charging Voltage

BSC6900

Cell Index

BSC6900

Cell Index

BSC6900

Cell Index

BSC6900

Cell Index

BSC6900

Cell Index

BSC6900

Cell Index

BSC6900

Cell List

BSC6900

Cell Index Type

BSC6900

Cell Index Type

BSC6900

Cell Index Type

BSC6900

Cell Inner/Extra Property

BSC6900

Layer of the cell

BSC6900

Cell Index List

BSC6900

Cell List Send Flag in ASS CMP

BSC6900

Cell SDCCH Channel Maximum

BSC6900

Cell Name

BSC6900

Cell Name

BSC6900

Cell Name

BSC6900

Cell Name List

BSC6900

Cell Operator Power Group

BSC6900

Cell Over Coverage DL RxLev Threshold

BSC6900

Cell Over Coverage TA Threshold

BSC6900

Cell Paging Overload Threshold

BSC6900

Battery Power-off Allowed State

BSC6900

Battery Power-off Voltage

BSC6900

2G/3G Cell Reselection Strategy

BSC6900

Cell Rx Quality Worsen Ratio Threshold

BSC6900

Cell Scenario

BSC6900

Select 3G Cell After Call Release

BSC6900

High Temp Alarm Assembled Battery1

BSC6900

Low Temp Alarm Assembled Battery1

BSC6900

Upper Assembled Battery 1 Temp

BSC6900

Lower Assembled Battery1 TEMP Measure

BSC6900

Battery Temperature Compensated Configure Enabled

BSC6900

Cell Weak Coverage DL RxLev Threshold

BSC6900

Cell Weak Coverage TA Threshold

BSC6900

Congestion End Threshold

BSC6900

Certificate Chain File Name

BSC6900

Board Parameter Configuration Enabled

BSC6900

Carry Flag

BSC6900

BTS Configuration Mode

BSC6900

Configure switch

BSC6900

Board Parameter Configuration Enabled

BSC6900

Board Parameter Configuration Enabled

BSC6900

Confirm Password

BSC6900

Command Group

BSC6900

Command Group

BSC6900

Congestion End Threshold

BSC6900

Congestion End Threshold

BSC6900

CGI and RAC Plan Switch

BSC6900

Command Group Name

BSC6900

Cabinet Group No.

BSC6900

Congestion Start Threshold

BSC6900

Congestion Start Threshold

BSC6900

Congestion Start Threshold

BSC6900

Chain Neighbour Cell Type

BSC6900

Combine Type

BSC6900

Channel Allocate Strategy

BSC6900

PDCH Available Threshold of Channel Failure

BSC6900

Monitoring Alarm Switch for Channel Failure

BSC6900

TCH Available Threshold of Channel Failure

BSC6900

Chan ID

BSC6900

Active CH Interf. Meas.Allowed

BSC6900

Channel Rate Type Decode Expand

BSC6900

PDCH Out-of-Synchronization Period

BSC6900

Ping Check Timeout Counts

BSC6900

Auto Check of BTS Connection Port

BSC6900

ANT_A ALD Current Detection Mode

BSC6900

ANT_B ALD Current Detection Mode

BSC6900

Check Index

BSC6900

Check Index

BSC6900

Check Times for Off

BSC6900

Check Times for On

BSC6900

Calculate checksum when receive message

BSC6900

Calculate checksum when send message

BSC6900

Checksum arithmetic

BSC6900

Check type

BSC6900

Duration

BSC6900

Channel No.

BSC6900

Channel No.

BSC6900

Channel No.

BSC6900

Channel Test Type

BSC6900

Channel Type

BSC6900

ChosenCh Send Flag in ASS CMP

BSC6900

ChosenCh Send Flag in HO Perform

BSC6900

ChosenCh Send Flag in HO REQ ACK

BSC6900

ChosenEncrypAlg Send Flag in Cipher CMP

BSC6900

ChosenEncrypAlg Send Flag in HO Perform

BSC6900

ChosenEncrypAlg Send Flag in ASS CMP

BSC6900

ChosenEncrypAlg Send Flag in HO REQ ACK

BSC6900

Channel Assign Allow for Insuff Power

BSC6900

PS CHR Collect Switch

BSC6900

Max CS CHAN REQ Num in Period

BSC6900

Average PS CHAN REQ Num

BSC6900

CHAN REQ Statistical Period

BSC6900

Channel Type

BSC6900

Cell CI

BSC6900

Cell CI

BSC6900

CIC

BSC6900

CIC

BSC6900

Number of Different Frames in CIC One-Way Mute Detection

BSC6900

CIC Downlink One-Way Mute Detection Period

BSC6900

CIC Downlink One-Way Mute Detection Switch

BSC6900

CIC Downlink One-Way Mute Detection Threshold

BSC6900

CIC Downlink One-Way Mute Detection Duration

BSC6900

CIC Pool Send Flag in ASS Fail

BSC6900

CIC Pool Send Flag in HO Fail

BSC6900

CIC Pool List Send Flag in ASS Fail

BSC6900

CIC Pool List Send Flag in HO Fail

BSC6900

CIC Pool Send Flag in ASS CMP

BSC6900

CIC Pool Send Flag in HO REQ ACK

BSC6900

Bandwidth [64kbps]

BSC6900

C/I Estimate Value

BSC6900

Slot No.

BSC6900

Subrack No.

BSC6900

Support Class11 DTM

BSC6900

Classmark Enquiry With 3G Request

BSC6900

Error clear threshold

BSC6900

Clock Mode

BSC6900

Clock Protocol Type

BSC6900

Clock board type

BSC6900

Clock Type

BSC6900

Clear Command Delay Time

BSC6900

Alarm Cleared Flag

BSC6900

Clear Command Time Interval

BSC6900

Command Name

BSC6900

Command Name

BSC6900

Command Sequence

BSC6900

Cabinet No.

BSC6900

Cabinet No.

BSC6900

Cabinet No.

BSC6900

Port Cabinet No.

BSC6900

Cabinet No.

BSC6900

Cabinet No.

BSC6900

CN Fault Delay

BSC6900

MSC ID

BSC6900

SGSN Node ID

BSC6900

CN Node Index

BSC6900

Operator Index

BSC6900

CN State Policy For Group

BSC6900

Records to Return

BSC6900

Cabinet Type

BSC6900

Cabinet Type

BSC6900

Counts Limit

BSC6900

Upper count threshold of raised fault

BSC6900

Lower count threshold of raised fault

BSC6900

Co-BSC/MSC Adj

BSC6900

Code

BSC6900

Refrigeration Equipment

BSC6900

Collection Type

BSC6900

Combiner Loss

BSC6900

Common Access Control Class

BSC6900

Password Complexity

BSC6900

BTS Transfer Compression Rate

BSC6900

Co-MSC

BSC6900

Connect BSC BTS Index Type

BSC6900

Recover threshold of queue 0 [ms]

BSC6900

Recover threshold of queue 1 [ms]

BSC6900

Recover threshold of queue 2 [ms]

BSC6900

Recover threshold of queue 3 [ms]

BSC6900

Recover threshold of queue 4 [ms]

BSC6900

Recover threshold of queue 5 [ms]

BSC6900

Congestion threshold of queue 0 [ms]

BSC6900

Congestion threshold of queue 1 [ms]

BSC6900

Congestion threshold of queue 2 [ms]

BSC6900

Congestion threshold of queue 3 [ms]

BSC6900

Congestion threshold of queue 4 [ms]

BSC6900

Congestion threshold of queue 5 [ms]

BSC6900

Concentric Circles HO Allowed

BSC6900

Connect Port No.

BSC6900

Connect power monitoring board

BSC6900

Connection Type

BSC6900

Connection Type

BSC6900

Min Interval for Consecutive HOs

BSC6900

Interval for Consecutive HO Jud.

BSC6900

Continue ping or not

BSC6900

Send PKT Count

BSC6900

Duration Second

BSC6900

Allow Dynamic Shutdown of TRX

BSC6900

CPU NO

BSC6900

CRC4 Check Switch

BSC6900

Cell Reselect Hysteresis Parameters

BSC6900

Certificate Revocation List File Name

BSC6900

Certificate Revocation List File State

BSC6900

Channel Release Resend Interval

BSC6900

Channel Release Resend Number

BSC6900

Cell Reselect Offset

BSC6900

Cross Call Detect Time Threshold

BSC6900

Cross IP address available flag

BSC6900

CHR Supplementary Info Output Control

BSC6900

Bad Speech Quality Rate Threshold

BSC6900

CHR MR Output

BSC6900

Abnormal Call End Output Control

BSC6900

GSM CS data service downlink factor

BSC6900

CS data path

BSC6900

CS data priority

BSC6900

GSM CS data service uplink factor

BSC6900

CS Data Service PRI

BSC6900

CHR Handover Information Output

BSC6900

Output MR Before Call Release

BSC6900

Output MR Before Handover

BSC6900

CHR Output Mode

BSC6900

CHR Output Range

BSC6900

CHR Function Switch

BSC6900

CHR Signaling Output

BSC6900

Congestion Start Threshold

BSC6900

Service Type of CHR Output

BSC6900

GSM CS voice service downlink factor

BSC6900

CHR Speech Information

BSC6900

CS voice path

BSC6900

CS voice priority

BSC6900

GSM CS voice service uplink factor

BSC6900

CS Voice Service PRI

BSC6900

Self-healing Switch for Ethernet Adapter Traffic Monitoring

BSC6900

Timer alignment ready

BSC6900

Timer not aligned

BSC6900

Timer aligned

BSC6900

Timer emergency proving

BSC6900

Timer normal proving

BSC6900

Timer sending SIB

BSC6900

Timer remote congestion

BSC6900

Timer excessive delay of acknowledgement

BSC6900

Timer interval of resending FISU

BSC6900

Critical threshold

BSC6900

Critical threshold

BSC6900

Control BSC DPC

BSC6900

Control Acknowledge Type

BSC6900

Control Flag

BSC6900

Control Port Cabinet No.

BSC6900

Control Port No.

BSC6900

Control Port Slot No.

BSC6900

Control Port Subrack No.

BSC6900

Slot No.

BSC6900

Control Plane Slot No.

BSC6900

Control Plane Subrack No.

BSC6900

CM Control Enable Switch

BSC6900

HO_RQD Current Channel

BSC6900

C-Version No.

BSC6900

Period of New File Generation[min]

BSC6900

Data file

BSC6900

Filter Length for TCH Qual

BSC6900

Filter Length for TCH Level

BSC6900

Data Service Allowed

BSC6900

Date Limit

BSC6900

Date

BSC6900

Prohib DynShutdown TRX DateRangeIdx

BSC6900

Day

BSC6900

Dead Band

BSC6900

BCCH IUO of Double Frequency Cell

BSC6900

Same Group Cell Index

BSC6900

Same Group Cell Name

BSC6900

Same Group Cell Index Type

BSC6900

DC Low Voltage Alarm Cabinet No.

BSC6900

DC Low Voltage Alarm Port No.

BSC6900

DC Low Voltage Alarm Slot No.

BSC6900

DC Low Voltage Alarm Subrack No.

BSC6900

DC Voltage Lower Threshold

BSC6900

DC Overvoltage Alarm Threshold

BSC6900

DC Under Voltage Alarm Threshold

BSC6900

DC Voltage Upper Threshold

BSC6900

Number of Dynamic Channel Pre-Converted

BSC6900

T3111

BSC6900

Destination entity No.

BSC6900

Description

BSC6900

Anti-theft Equipment

BSC6900

Destination IP address

BSC6900

Destination IP address

BSC6900

Destination IP address

BSC6900

RMEP ID

BSC6900

Transport Link Type

BSC6900

Dest Node Type

BSC6900

Peer Slot No.

BSC6900

Peer Subrack No.

BSC6900

Peer Subsystem No.

BSC6900

Destination Main BCCH TRX ID

BSC6900

Period of Mute Detect Class2 TRAU Frame

BSC6900

Detect Period

BSC6900

Switch for Abis Timeslot Detection

BSC6900

Device Name

BSC6900

Device No.

BSC6900

Borrowed device IP address

BSC6900

Device IP Address Type

BSC6900

DL UARFCN

BSC6900

DFCB Board SN

BSC6900

DFCB Board SRN

BSC6900

Default DPC

BSC6900

The Type of FTP Server Command Port

BSC6900

DGPS data report period[min]

BSC6900

DHCP Relay Gateway IP Address

BSC6900

DHCP Relay ID

BSC6900

Diesel Engine Save Switch

BSC6900

Different Band SDCCH Using Optimize

BSC6900

Date in Month

BSC6900

Date in Week

BSC6900

Directory

BSC6900

File Directory

BSC6900

Directed Retry AssFail Send Enable

BSC6900

Directed Retry

BSC6900

Directly Magnifier BTS Flag

BSC6900

Disconnect Handover Protect Timer

BSC6900

Diversity

BSC6900

Diversity Transmitter 16QAM Delay

BSC6900

Diversity Transmitter 32QAM Delay

BSC6900

Diversity Transmitter 8PSK Delay

BSC6900

Four Diversity Receiver

BSC6900

PwrCtrlDLAdjPeriod

BSC6900

DLAFSRexQualHighThred

BSC6900

DLAFSRexQualLowThred

BSC6900

DLAHSRexQualHighThred

BSC6900

DLAHSRexQualLowThred

BSC6900

The Identifier of Data Link Connection

BSC6900

Fast DL Priority Decision Threshold

BSC6900

Support Downlink Dual-Carrier

BSC6900

Edge HO DL RX_LEV Threshold

BSC6900

III DL Filter Adjust Factor

BSC6900

DLFSRexQualHighThred

BSC6900

DLFSRexQualLowThred

BSC6900

Downlink GPRS TBF Window Expansion Optimization

BSC6900

DLHSRexQualHighThred

BSC6900

DLHSRexQualLowThred

BSC6900

AMR DL Coding Rate adj.hyst1[F]

BSC6900

AMR DL Coding Rate adj.hyst2[F]

BSC6900

AMR DL Coding Rate adj.hyst3[F]

BSC6900

AMR DL Coding Rate adj.hyst1[H]

BSC6900

AMR DL Coding Rate adj.hyst2[H]

BSC6900

AMR DL Coding Rate adj.hyst3[H]

BSC6900

AMR DL Coding Rate adj.hyst1[WB]

BSC6900

AMR DL Coding Rate adj.hyst2[WB]

BSC6900

Interf.of DL Level Threshold

BSC6900

Interf.of DL Qual.Threshold

BSC6900

2G Cell DL Basic Congest Thred

BSC6900

Filter Length for DL RX_LEV

BSC6900

Downlink Long-term FER Lower Threshold

BSC6900

Downlink Long-term FER Target

BSC6900

Downlink Long-term FER Upper Threshold

BSC6900

Downlink Threshold Adjust Factor

BSC6900

DLMAXDownStep

BSC6900

DLMAXUpStep

BSC6900

2G Cell DL Overload Congest Thred

BSC6900

DL MR. Number Predicted

BSC6900

DL Qual. Upper Threshold

BSC6900

DL Qual. Lower Threshold

BSC6900

Filter Length for DL Qual.

BSC6900

DL Qual. Bad Trig Threshold

BSC6900

DL Qual. Bad UpLEVDiff

BSC6900

DL Qual. Threshold

BSC6900

DL Qual. Limit for AMR FR

BSC6900

DL Qual. Limit for AMR HR

BSC6900

DLRexLevAdjustFactor

BSC6900

DLRexLevExponentFilterLen

BSC6900

DLRexLevHighThred

BSC6900

DLRexLevLowthred

BSC6900

DLRexLevSlideWindow

BSC6900

DLRexQualAdjustFactor

BSC6900

DLRexQualExponentFilterLen

BSC6900

DLRexQualSlideWindow

BSC6900

III DL RexLev Protect Factor

BSC6900

III DL RexQual Protect Factor

BSC6900

DL RX_LEV Upper Threshold

BSC6900

DL RX_LEV Lower Threshold

BSC6900

Downlink TBF Establishment Delay

BSC6900

Download Test Resend Interval

BSC6900

Download Test Resend Number

BSC6900

AMR DL Coding Rate adj.th1[F]

BSC6900

AMR DL Coding Rate adj.th2[F]

BSC6900

AMR DL Coding Rate adj.th3[F]

BSC6900

AMR DL Coding Rate adj.th1[H]

BSC6900

AMR DL Coding Rate adj.th2[H]

BSC6900

AMR DL Coding Rate adj.th3[H]

BSC6900

AMR DL Coding Rate adj.th1[WB]

BSC6900

AMR DL Coding Rate adj.th2[WB]

BSC6900

Down MDU A

BSC6900

Down MDU B

BSC6900

Domain

BSC6900

Downlink Default CS Type

BSC6900

Downlink Default MCS Type

BSC6900

Downlink EGPRS2-A Default MCS Type

BSC6900

Downlink EGPRS2-A Fixed MCS Type

BSC6900

Downlink Fixed CS Type

BSC6900

Downlink Fixed MCS Type

BSC6900

DL PC Allowed

BSC6900

Short Message Downlink Disabled

BSC6900

Release Delay of Downlink TBF

BSC6900

Downlink TBF Threshold from CS2 to CS1

BSC6900

Downlink TBF Threshold from CS3 to CS2

BSC6900

Downlink TBF Threshold from CS4 to CS3

BSC6900

Downlink TBF Threshold from CS1 to CS2

BSC6900

Downlink TBF Threshold from CS2 to CS3

BSC6900

Downlink TBF Threshold from CS3 to CS4

BSC6900

Enable Door Status Alarm Reporting

BSC6900

Double Antenna Gain

BSC6900

DSP code[Whole Number]

BSC6900

DSP code[Divided Number]

BSC6900

DPC Group Index

BSC6900

DPC Group Index

BSC6900

DPC Group Index

BSC6900

DSP type

BSC6900

DSP index

BSC6900

DPX

BSC6900

Directed Retry Handover Level Range

BSC6900

Drop Optimize ABIS Link Failure

BSC6900

Drop Optimize Conn Fail[HO access fail]

BSC6900

Drop Optimize Conn Fail[OM intervention]

BSC6900

Drop Optimize Conn Fail[other]

BSC6900

Drop Optimize Conn Fail[radio link fail]

BSC6900

Drop Optimize Conn Fail[resource not available]

BSC6900

Drop Optimize Equipment Failure

BSC6900

Drop Optimize Err Ind[unsolicited DM response]

BSC6900

Drop Optimize Err Ind[sequence error]

BSC6900

Drop Optimize Err Ind[T200 timeout]

BSC6900

Drop Optimize Forced Handover Failure

BSC6900

Drop Optimize Into-BSC Handover Timeout

BSC6900

Drop Optimize Intra-BSC Handover Timeout

BSC6900

Drop Optimize Intra-Cell Handover Timeout

BSC6900

Drop Optimize No MR for Long Time

BSC6900

Drop Optimize Out-BSC Handover Timeout

BSC6900

Drop Optimize Release Indication

BSC6900

Drop Optimize Resource Check

BSC6900

Packet discard threshold of queue 0 [ms]

BSC6900

Packet discard threshold of queue 1 [ms]

BSC6900

Packet discard threshold of queue 2 [ms]

BSC6900

Packet discard threshold of queue 3 [ms]

BSC6900

Packet discard threshold of queue 4 [ms]

BSC6900

Packet discard threshold of queue 5 [ms]

BSC6900

Drop Power Time Interval[T3]

BSC6900

Drop Power Start Time[T1]

BSC6900

Drop Power Step

BSC6900

SMCBC DRX

BSC6900

Max. Duration of DRX

BSC6900

Dehumidification Equipment

BSC6900

E1T1 port No.

BSC6900

E1T1 port No.

BSC6900

Differentiated Service Codepoint

BSC6900

Differentiated services code point

BSC6900

Differentiated Service Codepoint

BSC6900

DSCP

BSC6900

DSP Kickoff Timer

BSC6900

DSP No.

BSC6900

DSP No.

BSC6900

DSP No.

BSC6900

DSP No.

BSC6900

DSP No.

BSC6900

DSP Recover Timer

BSC6900

DaylightSave

BSC6900

Destination File Name

BSC6900

Destination IP address

BSC6900

Destination IP Address

BSC6900

Destination IP Address

BSC6900

Destination address mask

BSC6900

Destination Address Mask

BSC6900

Destination port No.

BSC6900

Destination timeslot mask

BSC6900

Directed Retry Load Access Threshold

BSC6900

DRX Type

BSC6900

Down Link No.

BSC6900

Down Link No.

BSC6900

Down TRX Board Pass No.

BSC6900

Down TRX Board Pass No.

BSC6900

Down TRX Slot No.

BSC6900

Down TRX Slot No.

BSC6900

Down TRX Subrack No.

BSC6900

Down TRX Subrack No.

BSC6900

Dummy Bit Randomization Switch

BSC6900

Duplex Mode

BSC6900

Duration

BSC6900

Duration Hour

BSC6900

Duration

BSC6900

Duration

BSC6900

Downlink Multiplex Threshold of Dynamic Channel Conversion

BSC6900

DL Signal Strength Limit

BSC6900

Up DXX Index

BSC6900

DXX Index

BSC6900

Up DXX Port No.

BSC6900

Timer of Releasing Idle Dynamic Channel

BSC6900

Level of Preempting Dynamic Channel

BSC6900

Reservation Threshold of Dynamic Channel Conversion

BSC6900

Allow Dynamic Shutdown of TRX

BSC6900

Dynamic Transmission Div Supported

BSC6900

Duration

BSC6900

Port No.

BSC6900

E1 Port No Connect To BSC

BSC6900

Transmission Board Type

BSC6900

E1/T1 port No.

BSC6900

E1/T1 Port No.

BSC6900

Backboard E1/T1 Port No.

BSC6900

E1/T1 Type

BSC6900

Check IP address

BSC6900

Ec/No Offset

BSC6900

Ec/No Threshold for Layer Of 3G Cell

BSC6900

ECSC

BSC6900

End Serial No.

BSC6900

End Date

BSC6900

End Date

BSC6900

End Date

BSC6900

End Date

BSC6900

End date

BSC6900

Number of Satisfactory Measurements

BSC6900

Total Number of Measurements

BSC6900

Subcell HO Allowed Flow Control Level

BSC6900

EDGE

BSC6900

Edge HO AdjCell Valid Time

BSC6900

Edge HO AdjCell Watch Time

BSC6900

Handover Algorithm II Edge HO Valid Time

BSC6900

Handover Algorithm I Edge HO Valid Time

BSC6900

Handover Algorithm II Edge HO Watch Time

BSC6900

Handover Algorithm I Edge HO Watch Time

BSC6900

Effect Immediately Flag

BSC6900

Support 11BIT EGPRS Access

BSC6900

EGPRS2-A

BSC6900

EDGE 8PSK Quality Threshold

BSC6900

EDGE GMSK Quality Threshold

BSC6900

EndType

BSC6900

Priority of Emergency Call

BSC6900

Emergency verification

BSC6900

Error emit threshold

BSC6900

EML DSCP

BSC6900

Allow EMLPP

BSC6900

eMLPP Priority

BSC6900

eMLPP Priority In Paging

BSC6900

EML Priority

BSC6900

EML Service PRI

BSC6900

EML VlanId

BSC6900

End month

BSC6900

EMS IP Address

BSC6900

Fallback Function Enable

BSC6900

TMA Power Supply Enabled

BSC6900

Encryption Algorithm

BSC6900

Transport Encrypted Mode

BSC6900

The Encrypted Mode

BSC6900

Support End-to-end User Tracing Function

BSC6900

End Alarm ID

BSC6900

End CIC

BSC6900

End CIC

BSC6900

Prohibit Power Saving End Day

BSC6900

Heater Shutdown Temperature

BSC6900

Prohibit Power Saving End Month

BSC6900

End Sub Timeslot NO.

BSC6900

Time When the Function Is Disabled

BSC6900

End TS

BSC6900

End TS

BSC6900

End Timeslot NO.

BSC6900

Status

BSC6900

Subtask Status

BSC6900

En Iuo Out Cell General OverLoad Thred

BSC6900

User Plane DL Flow Ctrl Switch

BSC6900

Enhanced Concentric Allowed

BSC6900

Load Classification HO Period

BSC6900

Load Classification HO Step

BSC6900

En Iuo Out Cell Low Load Thred

BSC6900

Transmission Resource Preempting Support

BSC6900

Transmission Resource Queuing Support

BSC6900

En Iuo Out Cell Serious OverLoad Thred

BSC6900

Enhanced TCH Adjust Allowed

BSC6900

Local entity type

BSC6900

Destination entity type

BSC6900

IniLev for EnUtoO Load HO

BSC6900

EPLC Switch

BSC6900

Return Code

BSC6900

Emergent Call Disable

BSC6900

Error-frame alarm threshold

BSC6900

Error-frame detect switch

BSC6900

ESL DSCP

BSC6900

ESL Priority

BSC6900

ESL Service PRI

BSC6900

ESL VlanId

BSC6900

End Sync Serial No.

BSC6900

T3101

BSC6900

Add TA to A Interface EST IND

BSC6900

Ring II Rotating Penalty Time

BSC6900

EndTime

BSC6900

End Time

BSC6900

End Time

BSC6900

Execute Type

BSC6900

End Time

BSC6900

End Time

BSC6900

End Time

BSC6900

End Time

BSC6900

End Date

BSC6900

End Time

BSC6900

Log Type

BSC6900

End Time

BSC6900

End week

BSC6900

End week sequence

BSC6900

Upper Limit of Signal Output of External Analog 1

BSC6900

Lower Limit of Signal Output of External Analog 1

BSC6900

Sensor Type of External Analog 1

BSC6900

Upper Limit of Measurement Range of External Analog 1

BSC6900

Lower Limit of Measurement Range of External Analog 1

BSC6900

Upper Limit of Signal Output of External Analog 2

BSC6900

Lower Limit of Signal Output of External Analog 2

BSC6900

Sensor Type of External Analog 2

BSC6900

Upper Limit of Measurement Range of External Analog 2

BSC6900

Lower Limit of Measurement Range of External Analog 2

BSC6900

Upper Limit of Signal Output of External Analog 3

BSC6900

Lower Limit of Signal Output of External Analog 3

BSC6900

Sensor Type of External Analog 3

BSC6900

Upper Limit of Measurement Range of External Analog 3

BSC6900

Lower Limit of Measurement Range of External Analog 3

BSC6900

Upper Limit of Signal Output of External Analog 4

BSC6900

Lower Limit of Signal Output of External Analog 4

BSC6900

Sensor Type of External Analog 4

BSC6900

Upper Limit of Measurement Range of External Analog 4

BSC6900

Lower Limit of Measurement Range of External Analog 4

BSC6900

Exclusive Access

BSC6900

Exceptional Frame Threshold of Mute Detect Class1

BSC6900

Expected DL RX_LEV

BSC6900

Expected UL RX_LEV

BSC6900

Cell Index

BSC6900

Cell Name

BSC6900

Cell Index

BSC6900

Cell Name

BSC6900

BSC Adjacent Cell Index

BSC6900

BSC Adjacent Cell Name

BSC6900

Extended Cell Throughput Enhancement

BSC6900

Extended Switch of Input Alarm

BSC6900

Extension Measurement Command

BSC6900

Extension MR Period

BSC6900

Extension MR Type

BSC6900

Cell Extension Type

BSC6900

Not Send Dummy Message with Extended Uplink TBF

BSC6900

FACCH Msg Resend Interval

BSC6900

FACCH Send Notification Msg Indication

BSC6900

FACCH Send Paging Msg Indication

BSC6900

TRM Factor switch

BSC6900

Factory Mode

BSC6900

Penalty Level after HO Fail

BSC6900

Continuous adjustment command

BSC6900

Discrete adjustment command

BSC6900

Duty ratio adjustment command

BSC6900

Fan adjustment mode

BSC6900

Fan Type

BSC6900

Speed adjustment mode

BSC6900

FanBox Type

BSC6900

Fast Call Setup TCH Usage Threshold

BSC6900

Configure Ring II

BSC6900

Fault Detect Switch

BSC6900

Physical layer flow control switch

BSC6900

Flow Control

BSC6900

Flow Control End Threshold

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Flow control parameter index

BSC6900

Cabinet No. of Parent BTS

BSC6900

Cabinet No. of Father BTS

BSC6900

Flow Control Start Threshold

BSC6900

CRC check mode

BSC6900

CRC check mode

BSC6900

Flow control switch

BSC6900

Float-Charging Voltage

BSC6900

FDDBA1 Input Tag

BSC6900

FDDBA2 Input Tag

BSC6900

FDD Reporting Offset

BSC6900

FDD Reporting Threshold

BSC6900

Diversity Indication

BSC6900

Downlink Frequency

BSC6900

PS FDD Ec/No Quality Threshold

BSC6900

FDD Multirate Reporting

BSC6900

FDD Qmin

BSC6900

FDD Qmin Offset

BSC6900

FDD Q Offset

BSC6900

FDD REP QUANT

BSC6900

FDD RSCP Min.

BSC6900

PS FDD RSCP Quality Threshold

BSC6900

Scrambling Code

BSC6900

Fast judgement window

BSC6900

FER Report Enable

BSC6900

FER Threshold 1

BSC6900

FER Threshold 2

BSC6900

FER Threshold 3

BSC6900

FER Threshold 4

BSC6900

FER Threshold 5

BSC6900

FER Threshold 6

BSC6900

FER Threshold 7

BSC6900

Frequency Hopping Mode

BSC6900

File Name

BSC6900

Target File Path

BSC6900

File Name

BSC6900

Export File Path

BSC6900

Log File Type

BSC6900

Filter Window Size

BSC6900

Final

BSC6900

0.2dB Power Control Enable

BSC6900

Fire-extinguishing Equipment

BSC6900

Fix Abis Prior Choose Load Thred

BSC6900

Flash Alarm Clear Threshold

BSC6900

Flash Alarm Occur Threshold

BSC6900

Flash Filter Enable

BSC6900

Flash Statistic Alarm Clear Time Window

BSC6900

Flash Statistic Alarm Raise Time Window

BSC6900

Flex Abis Mode

BSC6900

Start Flex MAIO Switch

BSC6900

Flex TSC Switch

BSC6900

Flux Measurement Period

BSC6900

Fast Flux Measurement Period

BSC6900

Flow control switch

BSC6900

Flow control switch

BSC6900

Flow control switch

BSC6900

Flow control switch

BSC6900

Flow control switch

BSC6900

Flow control switch

BSC6900

Filter Parameter A1

BSC6900

Filter Parameter A2

BSC6900

Filter Parameter A3

BSC6900

Filter Parameter A4

BSC6900

Filter Parameter A5

BSC6900

Filter Parameter A6

BSC6900

Filter Parameter A7

BSC6900

Filter Parameter A8

BSC6900

Filter Parameter B

BSC6900

FLUSH-LL PDU Transfer Switch

BSC6900

MS_TXPWR_MAX_CCH

BSC6900

FMU Board Type

BSC6900

File Name

BSC6900

File Name

BSC6900

File Name

BSC6900

File Name

BSC6900

File Name

BSC6900

File Name

BSC6900

File Name

BSC6900

Allow E Down G Up Switch

BSC6900

Anti DPC Intermittent Disconnect Timer

BSC6900

Force Limit Time

BSC6900

Force MS Two-phase Access

BSC6900

Allow Forced EFR in Cell

BSC6900

Force MS to Send Ho Access SWITCH

BSC6900

Dest Father BTS Port No.

BSC6900

Dest Father BTS Port No.

BSC6900

Maximum Delay Time[ms]

BSC6900

Freq. and BSIC Optimize Switch

BSC6900

Freq. and BSIC Plan Switch

BSC6900

Freq. and BSIC Plan Switch

BSC6900

MP flake size

BSC6900

Frame Offset [Frame No]

BSC6900

Frame Offset

BSC6900

FR Use Downlink DTX

BSC6900

Time Mode

BSC6900

Time Mode

BSC6900

Frequency

BSC6900

Frequency 1

BSC6900

Frequency 10

BSC6900

Frequency 11

BSC6900

Frequency 12

BSC6900

Frequency 13

BSC6900

Frequency 14

BSC6900

Frequency 15

BSC6900

Frequency 16

BSC6900

Frequency 17

BSC6900

Frequency 18

BSC6900

Frequency 19

BSC6900

Frequency 2

BSC6900

Frequency 20

BSC6900

Frequency 21

BSC6900

Frequency 22

BSC6900

Frequency 23

BSC6900

Frequency 24

BSC6900

Frequency 25

BSC6900

Frequency 26

BSC6900

Frequency 27

BSC6900

Frequency 28

BSC6900

Frequency 29

BSC6900

Frequency 3

BSC6900

Frequency 30

BSC6900

Frequency 31

BSC6900

Frequency 32

BSC6900

Frequency 33

BSC6900

Frequency 34

BSC6900

Frequency 35

BSC6900

Frequency 36

BSC6900

Frequency 37

BSC6900

Frequency 38

BSC6900

Frequency 39

BSC6900

Frequency 4

BSC6900

Frequency 40

BSC6900

Frequency 41

BSC6900

Frequency 42

BSC6900

Frequency 43

BSC6900

Frequency 44

BSC6900

Frequency 45

BSC6900

Frequency 46

BSC6900

Frequency 47

BSC6900

Frequency 48

BSC6900

Frequency 49

BSC6900

Frequency 5

BSC6900

Frequency 50

BSC6900

Frequency 51

BSC6900

Frequency 52

BSC6900

Frequency 53

BSC6900

Frequency 54

BSC6900

Frequency 55

BSC6900

Frequency 56

BSC6900

Frequency 57

BSC6900

Frequency 58

BSC6900

Frequency 59

BSC6900

Frequency 6

BSC6900

Frequency 60

BSC6900

Frequency 61

BSC6900

Frequency 62

BSC6900

Frequency 63

BSC6900

Frequency 64

BSC6900

Frequency 7

BSC6900

Frequency 8

BSC6900

Frequency 9

BSC6900

Frequency Adjust Switch

BSC6900

Frequency Adjust Value

BSC6900

Frequency Band Attribute

BSC6900

GSM900 Band Traffic Load Share Threshold

BSC6900

Freq Band List

BSC6900

Frequency Reuse Mode

BSC6900

Frequency List

BSC6900

Frequency Scan Result Type

BSC6900

Edge HO Allowed

BSC6900

FR Uplink DTX

BSC6900

Slot No. of Father BTS

BSC6900

Slot No. of Father BTS

BSC6900

Subrack No. of Parent BTS

BSC6900

Subrack No. of Father BTS

BSC6900

File Type

BSC6900

Factor table index

BSC6900

Factor table index

BSC6900

Factor table index

BSC6900

F-H ATCB Offset Overlay

BSC6900

F-H Ho Duration

BSC6900

F-H Ho Last Time

BSC6900

F-H Pathloss Offset Overlay

BSC6900

F-H Ho Period

BSC6900

F-H Ho Stat. Time

BSC6900

Forward congestion remain bandwidth

BSC6900

Forward congestion clear remain bandwidth

BSC6900

Forward congestion clear remain ratio

BSC6900

Forward congestion remain ratio

BSC6900

Forward overload congestion clear remain bandwidth

BSC6900

Forward overload congestion clear remain ratio

BSC6900

Forward overload congestion remain bandwidth

BSC6900

Forward overload congestion remain ratio

BSC6900

Forward handover reserved ratio

BSC6900

Forward handover reserved bandwidth

BSC6900

CS 2G 3G Load Balance Delta Threshold

BSC6900

2G Load Adjustment Coefficient

BSC6900

G711 Mode

BSC6900

GAMMA

BSC6900

Offset Information Collection End Time

BSC6900

Load Threshold of Offset Collection

BSC6900

Offset Information Collection Switch

BSC6900

Offset Information Collection Start Time

BSC6900

Support GBR QoS

BSC6900

Group Call Check

BSC6900

GCDF

BSC6900

VGCS Channel Assign in Channel Enable

BSC6900

VGCS IM Preemption Enable

BSC6900

Global route management switch

BSC6900

Diversity Transmitter GMSK Delay

BSC6900

GPRS

BSC6900

Support GPRS

BSC6900

GPRS Cell Reselect Hysteresis

BSC6900

PDCH Channel Priority Type

BSC6900

Threshold of HCS Signal Strength

BSC6900

GPRS Penalty Time

BSC6900

GPRS Quality Threshold

BSC6900

GPRS Temporary Offset

BSC6900

GPS or Glonass

BSC6900

GPS data report period

BSC6900

Grade Access Allow

BSC6900

Group Call Num 1

BSC6900

Group Call Num 2

BSC6900

BSC Node Redundancy Group Index

BSC6900

BSC Node Redundancy Group Name

BSC6900

Group Release TS Number

BSC6900

Transport Resource Group No.

BSC6900

Transport Resource Group Type

BSC6900

Geography Scope

BSC6900

CS ratio

BSC6900

GSM CS High Level Standard

BSC6900

Serving Band Reporting

BSC6900

GSM-to-TD Cell Reselection Allowed

BSC6900

ICMP type which will be guarded

BSC6900

BTS SeGW IP Address

BSC6900

BTS Security Gateway IP Address

BSC6900

Support Half Rate Data Service

BSC6900

H-F ATCB Offset Overlay

BSC6900

H-F Ho Duration

BSC6900

H-F Ho Last Time

BSC6900

H-F Pathloss Offset Overlay

BSC6900

H-F Ho Stat. Time

BSC6900

Antenna Tributary 1 Flag

BSC6900

Antenna Tributary 2 Flag

BSC6900

Heartbeat interval

BSC6900

Head Cabinet No.

BSC6900

HCS HO Valid Time

BSC6900

HCS HO Watch Time

BSC6900

Hierarchical Power Para1

BSC6900

Hierarchical Power Para2

BSC6900

Support High Frequency Band

BSC6900

Highest Priority for Quality First

BSC6900

Highest-Priority MSs Rapid Preemption

BSC6900

Highest Priority User Quality First

BSC6900

High Temp Load Power Off

BSC6900

History Record Priority Allowed

BSC6900

Maximum History Password Numbers

BSC6900

Support HMC DTM

BSC6900

Pref. Subcell in HO of Intra-BSC

BSC6900

Handover Between Operators Allow

BSC6900

Min DL Level on Candidate Cell

BSC6900

Min UL Level on Candidate Cell

BSC6900

Specify Index of Cell Handover to

BSC6900

Cell Name of Handover to

BSC6900

Current HO Control Algorithm

BSC6900

Handover Direction Forecast Enable

BSC6900

Handover Direction Forecast Last Times

BSC6900

Handover Direction Forecast Statistic Times

BSC6900

Quick Handover Down Trigger Level

BSC6900

FDD 3G Better Cell HO Valid Time

BSC6900

TDD 3G Better Cell HO Valid Time

BSC6900

Ec/No Threshold for Better 3G Cell HO

BSC6900

Quick Handover Last Time

BSC6900

Handover Scope

BSC6900

Quick Handover Offset

BSC6900

Handover to Overlayer RxLev Offset

BSC6900

Inter-rat HO Preference

BSC6900

Inter UL/OL Subcells HO Penalty Time

BSC6900

Hop Index

BSC6900

Hop Index

BSC6900

Hop Mode

BSC6900

Power Boost before HO Enabled or Not

BSC6900

HO Preference Threshold for 2G Cell

BSC6900

Hop Group Single Freq Optimization

BSC6900

Hop TRX Group HSN

BSC6900

Hop TRX Group Index

BSC6900

Hop Type

BSC6900

Quick Handover Punish Value

BSC6900

BSC HO Protect Time

BSC6900

RSCP Threshold for Better 3G Cell HO

BSC6900

Speech VER in SDCCH HO REQ ACK

BSC6900

FDD 3G Better Cell HO Watch Time

BSC6900

TDD 3G Better Cell HO Watch Time

BSC6900

Quick Handover Static Time

BSC6900

The host type of signalling point

BSC6900

HostType

BSC6900

Inter-layer HO Threshold

BSC6900

Quick Handover Up Trigger Level

BSC6900

Cell Antenna Hopping

BSC6900

Cell Antenna Hopping

BSC6900

Head Port No.

BSC6900

Highest Priority

BSC6900

Hierarchical Power-off Config. Enabled

BSC6900

Load Power-off Voltage

BSC6900

Support Half Rate

BSC6900

HR Use Downlink DTX

BSC6900

Load of UL-OL Cells Rate Select Allowed

BSC6900

HR Uplink DTX

BSC6900

HSN

BSC6900

Head Slot No.

BSC6900

HSN Modification Switch

BSC6900

Head Subrack No.

BSC6900

Hop Type

BSC6900

High Temperature Critical Point

BSC6900

High Temperature Delta Tout

BSC6900

High Temperature Shutdown Flag

BSC6900

Enable Humidity Alarm Reporting

BSC6900

Upper Limit of Humidity Alarm

BSC6900

Lower Limit of Humidity Alarm

BSC6900

Upper Threshold of Humidity Alarm

BSC6900

Upper Threshold of Humidity Alarm

BSC6900

Lower Threshold of Humidity Alarm

BSC6900

Lower Threshold of Humidity Alarm

BSC6900

Hysteresis for On

BSC6900

Inactive RX timer

BSC6900

Duration

BSC6900

Port No.

BSC6900

Transmission Board Type

BSC6900

Inactive TX timer

BSC6900

IBCA AMR FR Soft Block Threshold

BSC6900

IBCA AMR HR Soft Block Threshold

BSC6900

IBCA Allowed

BSC6900

IBCA Assign Waiting Mr Time

BSC6900

IBCA Call Information Filter

BSC6900

IBCA Set-up Call Soft Block Threshold Offset

BSC6900

Target CIR Offset of IBCA Set-up Call

BSC6900

IBCA Downlink Path Loss Offset

BSC6900

IBCA Dyn Measure Neighbour Cell Flag

BSC6900

IBCA Urgent HO Waiting Mr Time

BSC6900

IBCA Flexible TSC Allowed

BSC6900

IBCA Forced BTS Synchronization Allowed

BSC6900

IBCA FR/EFR Soft Block Threshold

BSC6900

IBCA HO Waiting Effective Mr Time

BSC6900

IBCA HR Soft Block Threshold

BSC6900

IBCA ICDM Initial Level Offset

BSC6900

IBCA ICDM Switch

BSC6900

IBCA Info Report Period Within BSC

BSC6900

IBCA Init. Power Control RexLevDL Offset

BSC6900

IBCA Init. Power Control RexLevUL Offset

BSC6900

IBCA Init. Pwr Ctrl Rx Qual DL Offset

BSC6900

IBCA Init. Pwr Ctrl Rx Qual UL Offset

BSC6900

IBCA IUO Path Loss Offset

BSC6900

IBCA MAIO Using Method

BSC6900

IBCA Max. Interference Source Num.

BSC6900

IBCA Neighbor Cell Flag

BSC6900

IBCA Pathloss Est of Non. MR Ncell

BSC6900

Target CIR Offset of IBCA New Call

BSC6900

IBCA Natural HO Waiting Mr Time

BSC6900

IBCA Non Measurement Ncell Stat. Num

BSC6900

Corrected Factor of IBCA Priority

BSC6900

IBCA Info Report Period Between BSC

BSC6900

IBCA Pathloss Offset

BSC6900

IBCA Path Lose Filter Factor

BSC6900

IBCA RxLev Offset

BSC6900

IBCA Service Cell Pathloss

BSC6900

IBCA Soft Block SAIC Offset

BSC6900

IBCA Soft Block Switch

BSC6900

IBCA Sub-Channel Handover Allowed

BSC6900

IBCA MAIO Target C/I Threshold

BSC6900

IUO IBCA Allowed

BSC6900

IBCA User Dyn Measure Neighbor Cell

BSC6900

IBCA WAMR FR Soft Block Threshold

BSC6900

ICB Allowed

BSC6900

Intelligent Control Flag

BSC6900

ICMP packet Length

BSC6900

DSCP of PRI.1 INTACT[QoS]

BSC6900

DSCP of PRI.2 INTACT[QoS]

BSC6900

DSCP of PRI.3 INTACT[QoS]

BSC6900

Task ID

BSC6900

Task ID

BSC6900

Index

BSC6900

Idle Code

BSC6900

Idle code

BSC6900

Idle SDCCH Threshold N1

BSC6900

Index Type

BSC6900

BTS Index Type

BSC6900

Index Type

BSC6900

Index Type

BSC6900

Index Type

BSC6900

Index Type

BSC6900

Index Type

BSC6900

Index Type

BSC6900

Semipermanent Link Index

BSC6900

Index Type

BSC6900

Index Type

BSC6900

If CB Shake Hand

BSC6900

Outgoing Interface No.

BSC6900

Positive or Minus Offset

BSC6900

Indication Offset

BSC6900

Report Process Flag

BSC6900

Ignore Measurement Report Number

BSC6900

IMEI

BSC6900

IMM ASS A IF Creation Timer

BSC6900

Immediate Assignment Optimized

BSC6900

Move Immediate Assignment Down to BTS

BSC6900

TCH Immediate Assignment

BSC6900

Max Delay of IMM ASS Retransmit

BSC6900

Max Transmit Times of IMM ASS

BSC6900

Use IMM ASS Retransmit Parameter

BSC6900

TA Pref. of Imme-Assign Allowed

BSC6900

TA Threshold of Imme-Assign Pref

BSC6900

Immediate Initial Adjust After Site Reset Enable

BSC6900

T3122

BSC6900

IMSI

BSC6900

IMSI

BSC6900

T3121

BSC6900

Fine Tuning Threshold

BSC6900

Fine Tuning Period in BSC

BSC6900

Included Angle

BSC6900

In Port Cabinet No.

BSC6900

Independent E1 Port 3

BSC6900

Intracell F-H HO Last Time

BSC6900

Intracell F-H HO Stat Time

BSC6900

Info Exchange Content

BSC6900

Infrared alarm switch

BSC6900

F2H HO Threshold

BSC6900

H2F HO Threshold

BSC6900

Power Overload Threshold In Ho. In

BSC6900

AMR Starting Mode[F]

BSC6900

AMR Starting Mode[H]

BSC6900

AMR Starting Mode[WB]

BSC6900

In BSC Mask

BSC6900

OL Subcell Assignment Optimization

BSC6900

Inner Cell EDGE HO Enable

BSC6900

BSC Inner Cell Index

BSC6900

BSC Inner Cell Name

BSC6900

Load HO of OL Subcell to UL Subcell

BSC6900

OL Subcell Load Diversity HO Period

BSC6900

Step Length of OL Subcell Load HO

BSC6900

Inner Cell Serious OverLoad Thred

BSC6900

In BSC Port No.

BSC6900

BTS In Port No.

BSC6900

DXX In Port No.

BSC6900

Latitude and Longitude Input Mode

BSC6900

Inter-BSC SDCCH HO ALLowed

BSC6900

In BSC Slot No.

BSC6900

In Port Slot No.

BSC6900

In BSC Subrack No.

BSC6900

In Port Subrack No.

BSC6900

Broadcast Interval

BSC6900

Adjacent Cell Inter-layer HO Hysteresis

BSC6900

Interfere Band Stat Algorithm Type

BSC6900

Inter-cell HO Hysteresis

BSC6900

Penalty Time on Interfere HO

BSC6900

Interfere HO Valid Time

BSC6900

Interfere HO Static Time

BSC6900

Interference HO Allowed

BSC6900

Interf. Priority Allowed

BSC6900

Interference Band Threshold 0

BSC6900

Interference Band Threshold 1

BSC6900

Interference Band Threshold 2

BSC6900

Interference Band Threshold 3

BSC6900

Interference Band Threshold 4

BSC6900

Interference Band Threshold 5

BSC6900

BSC Interior Clock Synchronize Protect Time

BSC6900

Interference Calculation Period

BSC6900

Inter-RAT Cell Reselection Enable

BSC6900

Inter-RAT CS Service HO Load Threshold

BSC6900

Inter-RAT In BSC Handover Enable

BSC6900

Allow Incoming BSC Handover at Iur-g

BSC6900

Inter-RAT Load HO Bandwidth [EcNo]

BSC6900

Inter-RAT Load HO EcNo at Start Point

BSC6900

Inter-RAT Hierarchy Load HO Step [EcNo]

BSC6900

Inter-RAT Load HO Bandwidth [RSCP]

BSC6900

Inter-RAT Load HO RSCP at Start Point

BSC6900

Inter-RAT Hierarchy Load HO Step [RSCP]

BSC6900

Inter-RAT Out BSC Handover Enable

BSC6900

Allow Inter-RAT Load HO in Access State

BSC6900

Relative Time

BSC6900

Send PKT Interval[s]

BSC6900

Interference Frequency

BSC6900

Incoming OL Subcell HO Level TH

BSC6900

T25

BSC6900

T3103A

BSC6900

Intracell F-H HO Allowed

BSC6900

Intracell HO Allowed

BSC6900

T3103C

BSC6900

Co-MBSC

BSC6900

Inter-RAT Load HO EcNo Threshold

BSC6900

Inter-RAT Hierarchical Load HO Period

BSC6900

Inter-RAT Load HO RSCP Threshold

BSC6900

In BSC Start Timeslot No.

BSC6900

DXX In Time Slot No.

BSC6900

Time Interval

BSC6900

OMU Automatic Switchover Interval

BSC6900

Invalid BSIC Reporting

BSC6900

IP Address

BSC6900

IP Address

BSC6900

Local IP Address

BSC6900

Remote IP Address

BSC6900

Physical IP

BSC6900

FTPServer IP

BSC6900

Local IP address

BSC6900

IP address

BSC6900

Local IP address

BSC6900

Packet source IP address

BSC6900

Next Hop IP address.

BSC6900

Local IP address

BSC6900

IP Address

BSC6900

IP Address1

BSC6900

Master Clock Server IP Address

BSC6900

IP Address2

BSC6900

Slave Clock Server IP Address

BSC6900

IP Address3

BSC6900

IP Address4

BSC6900

IP Frame Error Alarm Threshold

BSC6900

IP Frame Error Alarm Clearance Threshold

BSC6900

Head compress

BSC6900

Head compress

BSC6900

IP address index

BSC6900

IP address index

BSC6900

IP MUX Index

BSC6900

IP Phy Trans Type

BSC6900

IP Physical Tran. Type

BSC6900

DHEU Heater Control Allowed

BSC6900

Base BSC

BSC6900

Chain Neighbor Cell

BSC6900

Clock Server Redundancy

BSC6900

Clock Server Redundancy

BSC6900

Config Ring

BSC6900

Configure Check Thresholds or Not

BSC6900

EDGE Support in External Neighbour Cell

BSC6900

Is First Class Transport Resource Group

BSC6900

GPRS Support in External Neighbour Cell

BSC6900

Is Main BCCH TRX

BSC6900

Is Main BSC

BSC6900

Is Main Local Group

BSC6900

NC2 Support in External Neighbour Cell

BSC6900

Subnetwork Configure Mode

BSC6900

IS QOSPATH

BSC6900

Support BSC AISS

BSC6900

Demu Configure Information

BSC6900

Is Supper BTS

BSC6900

Support BTS Local Switch

BSC6900

Is Support Tc Pool

BSC6900

TC board

BSC6900

Remote TC Central

BSC6900

DHEU Temperature Control

BSC6900

Tran. Cabinet Configured

BSC6900

NCCELL No.

BSC6900

Item Index

BSC6900

Item Valid

BSC6900

Value

BSC6900

Interface Type

BSC6900

Interface Type

BSC6900

Concentric Attribute

BSC6900

Dynamic Channel Conversion Parameter of Concentric Cell

BSC6900

UO HO Valid Time

BSC6900

UO HO Watch Time

BSC6900

Cell IUO Type

BSC6900

J0 trace mismatch alarm switch

BSC6900

J0 Byte Format

BSC6900

J0 expected incept value

BSC6900

J0 transmit value

BSC6900

J0 type

BSC6900

J1 trace mismatch alarm switch

BSC6900

J1 Byte Format

BSC6900

J1 expected incept value

BSC6900

J1 transmit value

BSC6900

J1 type

BSC6900

J2 mismatch alarm switch

BSC6900

J2 Byte Format

BSC6900

J2 length

BSC6900

J2 expected incept value

BSC6900

J2 transmit value

BSC6900

Automatic Append J Byte

BSC6900

LAPD Jitter Buffer Algorithm

BSC6900

PS Jitter Buffer Delay

BSC6900

Jitter Buffer switch

BSC6900

K2 Mode

BSC6900

K Bias

BSC6900

Keep-alive timer length[S]

BSC6900

Cell LAC

BSC6900

Cell LAC

BSC6900

Aggregation Mode

BSC6900

Latitude Decimal Part

BSC6900

Latitude Degree Part

BSC6900

Latitude Int Part

BSC6900

Latitude Minute Part

BSC6900

Latitude Second Decimal Part

BSC6900

Latitude Second Int Part

BSC6900

GPS antenna latitude

BSC6900

GPS antenna latitude

BSC6900

Delay measure period [100ms]

BSC6900

Delay adjust suspend period [LATTH]

BSC6900

Rate down threshold for delay [ms]

BSC6900

average delay down filter mantissa

BSC6900

average delay up filter mantissa

BSC6900

Layer of The Cell

BSC6900

Layer of the cell

BSC6900

Inter-Layer HO Load Threshold

BSC6900

Lb Congestion Protection Timer 1

BSC6900

Lb Congestion Protection Timer 2

BSC6900

LDR Fourth

BSC6900

LDR First

BSC6900

LDR Second

BSC6900

Local entity No.

BSC6900

Log Level

BSC6900

Log Level

BSC6900

Alarm Mask Switch

BSC6900

MD LEVEL

BSC6900

Level Report Switch

BSC6900

Level HO Allowed

BSC6900

Inter-layer HO Hysteresis

BSC6900

Layer HO Valid Time

BSC6900

Layer HO Watch Time

BSC6900

Logical function type

BSC6900

Logical function type

BSC6900

Logic function type

BSC6900

Application type of POUc_TDM

BSC6900

PbSL Logical Index

BSC6900

Lower Humidity Threshold

BSC6900

Alarm occur threshold

BSC6900

Alarm recover threshold

BSC6900

Link No.

BSC6900

Query Type

BSC6900

Link rate type

BSC6900

Lower Limit

BSC6900

Lower Limit

BSC6900

Channel No.

BSC6900

LNA Threshold1

BSC6900

LNA Threshold2

BSC6900

Tributary Numbering

BSC6900

Semipermanent Link Rate

BSC6900

Initial bearing traffic active tag

BSC6900

Signalling link mask

BSC6900

Signalling link mask

BSC6900

Load handover Load Accept Threshold

BSC6900

MSC Pool Load Balancing Algorithm Select

BSC6900

NC2 Load Broadcast Period

BSC6900

Load Current Shunt Coefficient

BSC6900

Enhanced Load HO Allowed

BSC6900

Load Handover Support

BSC6900

Load Handover Support

BSC6900

Load Handover Support

BSC6900

Load HO PBGT Threshold

BSC6900

Penalty Time on Load HO

BSC6900

Penalty Value on Load HO

BSC6900

Load HO Step Period

BSC6900

Load HO Step Level

BSC6900

HO Ratio of Enhanced Load HO Algorithm

BSC6900

Load HO Bandwidth

BSC6900

Load Power-off Allowed State

BSC6900

Cell Load Reselection Allowed

BSC6900

Load Reselect Level Threshold

BSC6900

Load Reselection Receive Threshold

BSC6900

Load Reselection Start Threshold

BSC6900

Balance Traffic Allowed

BSC6900

Type of Cell Load Calculation

BSC6900

TRM Load Threshold switch

BSC6900

Local BSC ID

BSC6900

Local IP address

BSC6900

Local IP address

BSC6900

Local IP Address

BSC6900

Local IP Address

BSC6900

Local NSVL ID

BSC6900

Local Port No.

BSC6900

Location Group No.

BSC6900

Location Group No.

BSC6900

Filter of Location Information

BSC6900

First local IP address

BSC6900

Second local IP address

BSC6900

Set Locked/Unlock

BSC6900

Local SCTP port No.

BSC6900

Board Start Load Control.

BSC6900

Loading Mode

BSC6900

Log control threshold

BSC6900

Log control threshold

BSC6900

Logic Port Flag

BSC6900

Logic Port No.

BSC6900

Logic Port Slot No.

BSC6900

Log restore threshold

BSC6900

Log restore threshold

BSC6900

Log control switch

BSC6900

Log File Type

BSC6900

Log Type

BSC6900

Longitude Decimal Part

BSC6900

Longitude Degree Part

BSC6900

Longitude Int Part

BSC6900

Longitude Minute Part

BSC6900

Longitude Second Decimal Part

BSC6900

Longitude Second Int Part

BSC6900

GPS antenna longitude

BSC6900

GPS antenna longitude

BSC6900

Loop Level

BSC6900

Loopback Type

BSC6900

Loop Detect Switch

BSC6900

Loop type

BSC6900

IBCA Loose Trx SDCCH Load Threshold

BSC6900

Loop Direction

BSC6900

Loop Position

BSC6900

Loop type

BSC6900

Loop type.

BSC6900

Loop Time

BSC6900

Suspend times after bandwidth adjusted

BSC6900

Low-level Sublink Resource Preempt Switch

BSC6900

Low Lev Sub Res Preempt Flag

BSC6900

Diversity LNA Bypass Permitted

BSC6900

Allocate OL Channel Based on RX Level

BSC6900

Low Temperature StartLoadPower-off Allowed State

BSC6900

Low Temperature StartLoadPower-off Allowed State

BSC6900

Loop Back Mode

BSC6900

IP Logic Port No.

BSC6900

Logic port No.

BSC6900

Logic port No.

BSC6900

IP Logic Port Slot No.

BSC6900

Type of the logic port

BSC6900

Link Quality Control Mode

BSC6900

Load Shutdown Flag

BSC6900

Load Shutdown Voltage

BSC6900

LDR Third

BSC6900

Whether Include List Command

BSC6900

Result list format

BSC6900

Result List Format

BSC6900

Load type

BSC6900

Log Type

BSC6900

Log Type

BSC6900

Low Temperature Critical Point

BSC6900

Lower Temperature Threshold

BSC6900

Uplink Long-term FER Lower Threshold

BSC6900

Uplink Long-term FER Target

BSC6900

Uplink Long-term FER Upper Threshold

BSC6900

Uplink Threshold Adjust Factor

BSC6900

Number of DSPs with 252 LVDS Links

BSC6900

Lvl1 Vswr

BSC6900

Lvl2 Vswr

BSC6900

Low Voltage Shutdown Flag

BSC6900

M3UA service listening port No.

BSC6900

MAC Address

BSC6900

MAC Frame Error Alarm Threshold

BSC6900

MAC Frame Error Alarm Clearance Threshold

BSC6900

ARFCN Coding Scheme

BSC6900

MA Index

BSC6900

Power Derating Active Channel Enabled

BSC6900

Power Derating Enabled

BSC6900

Power Derating End Time

BSC6900

Power Derating Range

BSC6900

Power Derating Start Time

BSC6900

BTS Interface Board Bar Code 1

BSC6900

PTU Main Dev. Tab

BSC6900

Main Location Group No.

BSC6900

Main Port No

BSC6900

Main Version No.of TMU

BSC6900

MAIO 1

BSC6900

MAIO 10

BSC6900

MAIO 11

BSC6900

MAIO 12

BSC6900

MAIO 2

BSC6900

MAIO 3

BSC6900

MAIO 4

BSC6900

MAIO 5

BSC6900

MAIO 6

BSC6900

MAIO 7

BSC6900

MAIO 8

BSC6900

MAIO 9

BSC6900

Feed Tri. 0 TMA Over Critical Alarm Threshold

BSC6900

Feed Tri. 1 TMA Over Critical Alarm Threshold

BSC6900

Feed Tri. 2 TMA Over Critical Alarm Threshold

BSC6900

Feed Tri. 3 TMA Over Critical Alarm Threshold

BSC6900

Feed Tri. 4 TMA Over Critical Alarm Threshold

BSC6900

Feed Tri. 5 TMA Over Critical Alarm Threshold

BSC6900

MA Name

BSC6900

MA Name

BSC6900

Subnet mask

BSC6900

Subnet mask

BSC6900

Subnet mask

BSC6900

Packet source mask

BSC6900

Subnet mask

BSC6900

Mask

BSC6900

IP Mask

BSC6900

Subnet Mask

BSC6900

Subnet Mask

BSC6900

Master Clock Server IP Address

BSC6900

Clock Server IP Address 1

BSC6900

MAX Up Adj. PC Value by Qual.

BSC6900

Association max retrans

BSC6900

Max bandwidth [64kbps]

BSC6900

MAX Consecutive HO Times

BSC6900

Retry Times of Downlink TBF Reassignment

BSC6900

Retry Times of Downlink TBF Establishment

BSC6900

Max Drop Power Threshold

BSC6900

Maximum TRX Number

BSC6900

Maximum TRX Number

BSC6900

Maximum Frame Length[byte]

BSC6900

Max BTS Num of Parallel Software Load

BSC6900

PPP mux max mux-frame length

BSC6900

PPP mux max mux-frame length

BSC6900

Maximum Retry Times

BSC6900

Max Alarm Log Number

BSC6900

Diesel Max Output Power

BSC6900

Path max retrans

BSC6900

Pb Link Check Max TimeOut Number

BSC6900

Maximum Number of PDCH

BSC6900

Maximum Rate Threshold of PDCHs in a Cell

BSC6900

Retry Times of Downlink TBF Polling

BSC6900

Expire Prompt Dates

BSC6900

Charge Coefficient

BSC6900

Charge Coefficient

BSC6900

Max Resend Times of Phy.Info.

BSC6900

Max Retransmissions for Radio Priority 1

BSC6900

Max Retransmissions for Radio Priority 2

BSC6900

Max Retransmissions for Radio Priority 3

BSC6900

Max Retransmissions for Radio Priority 4

BSC6900

PPP mux max sub-frame length

BSC6900

PPP mux max sub-frame length

BSC6900

MAX Down Adj.Value Qual.Zone 0

BSC6900

MAX Down Adj.Value Qual.Zone 1

BSC6900

MAX Down Adj.Value Qual.Zone 2

BSC6900

Max TA

BSC6900

MAX TA Drop Call Filter

BSC6900

Max TA Drop Call Switch

BSC6900

MAX TA Drop Call Threshold

BSC6900

Maximum time for posave

BSC6900

Maximum Number of Occupied Abis Timeslots

BSC6900

MAX TTL

BSC6900

MAX Up Adj. PC Value by RX_LEV

BSC6900

Maximum Valid Dates

BSC6900

MBFD Check Index

BSC6900

Multi hop BFD detect local ip

BSC6900

Multi-band report

BSC6900

Filter Length for SDCCH MEAN_BEP

BSC6900

Filter Length for TCH MEAN_BEP

BSC6900

Second BTS Index

BSC6900

Second BTS Name

BSC6900

MCC

BSC6900

Cell MCC

BSC6900

MC PRI number

BSC6900

MC PRI Number

BSC6900

Second Cell Index

BSC6900

Second Cell Name

BSC6900

Cabinet No. of Management Board

BSC6900

MCPA Optimization Switch

BSC6900

GSM Multi Carrier BTS Standard

BSC6900

MD INDEX

BSC6900

MD Level

BSC6900

MD NAME

BSC6900

MD Name

BSC6900

Allow MR Command or not

BSC6900

Measurement Period

BSC6900

Measurement Report Type

BSC6900

MEP ID

BSC6900

MEP ID

BSC6900

MEP Type

BSC6900

MP/MC list head option

BSC6900

MP/MC List Head Option

BSC6900

Cell Reselection Level Threshold

BSC6900

Min bandwidth [64kbps]

BSC6900

Min Ec/No threshold

BSC6900

Min Access Level Offset

BSC6900

ANT_A ALD Current Minor Alarm Occur Threshold

BSC6900

ANT_B ALD Current Minor Alarm Occur Threshold

BSC6900

Feed Tri. 0 TMA Over Warning Alarm Threshold

BSC6900

Feed Tri. 1 TMA Over Warning Alarm Threshold

BSC6900

Feed Tri. 2 TMA Over Warning Alarm Threshold

BSC6900

Feed Tri. 3 TMA Over Warning Alarm Threshold

BSC6900

Feed Tri. 4 TMA Over Warning Alarm Threshold

BSC6900

Feed Tri. 5 TMA Over Warning Alarm Threshold

BSC6900

ANT_A ALD Current Minor Alarm Clear Threshold

BSC6900

ANT_B ALD Current Minor Alarm Clear Threshold

BSC6900

Min Power Level For Directed Retry

BSC6900

TCH Minimum Recovery Time

BSC6900

Min RSCP threshold

BSC6900

Min interval of BFD packet receive [ms]

BSC6900

Minimum RX Interval

BSC6900

Min interval of BFD packet send [ms]

BSC6900

Minimum TX Interval

BSC6900

Mirror Dest Port No.

BSC6900

Mirror Source Port No.

BSC6900

Mirror Type

BSC6900

MNC

BSC6900

Cell MNC

BSC6900

MOC Access CPU Rate

BSC6900

System clock working mode

BSC6900

Signalling link mode

BSC6900

Configure Mode

BSC6900

Mode after Switchover

BSC6900

File Output Mode

BSC6900

Backup mode

BSC6900

Check mode

BSC6900

Feed Tri. 0 Alarm Mode

BSC6900

Feed Tri. 1 Alarm Mode

BSC6900

Feed Tri. 2 Alarm Mode

BSC6900

Feed Tri. 3 Alarm Mode

BSC6900

Feed Tri. 4 Alarm Mode

BSC6900

Feed Tri. 5 Alarm Mode

BSC6900

Monitor Period

BSC6900

Monitor Time

BSC6900

Month

BSC6900

Quick Move Speed Threshold

BSC6900

MP Group Frame Error Alarm Threshold

BSC6900

MP Group Frame Error Alarm Clearance Threshold

BSC6900

MP Group No.

BSC6900

MP Group No.

BSC6900

MLPPP Group No.

BSC6900

Multiplexing Mode

BSC6900

Connect Port No.

BSC6900

MCPPP Switch

BSC6900

MP type

BSC6900

MPU Slot No.

BSC6900

MPU Subrack No.

BSC6900

MR. Compensation Allowed

BSC6900

Allowed MR Number Lost

BSC6900

MRMissNumber

BSC6900

Sent Freq.of preprocessed MR

BSC6900

Antenna Tributary 1 Factor

BSC6900

Antenna Tributary 2 Factor

BSC6900

MR Collection Scope Switch

BSC6900

MR Collection Control Switch

BSC6900

Max Receive Unit

BSC6900

Number of MSs

BSC6900

MS Capability Statistic Switch

BSC6900

MSC Available Capability

BSC6900

Length of NRI in TMSI

BSC6900

MSC NULL-NRI Value

BSC6900

MSC Pool Function Enabled

BSC6900

MSC Administrable State

BSC6900

MSC Version Indication

BSC6900

TREESTABLISH

BSC6900

MSISDN

BSC6900

MSISDN prefix 1

BSC6900

MSISDN prefix 2

BSC6900

MSISDN prefix 3

BSC6900

MSISDN prefix 4

BSC6900

MSISDN prefix 5

BSC6900

Prefix Number for BSC 1

BSC6900

Prefix Number for BSC 10

BSC6900

Prefix Number for BSC 2

BSC6900

Prefix Number for BSC 3

BSC6900

Prefix Number for BSC 4

BSC6900

Prefix Number for BSC 5

BSC6900

Prefix Number for BSC 6

BSC6900

Prefix Number for BSC 7

BSC6900

Prefix Number for BSC 8

BSC6900

Prefix Number for BSC 9

BSC6900

Prefix Number for BTS 1

BSC6900

Prefix Number for BTS 10

BSC6900

Prefix Number for BTS 2

BSC6900

Prefix Number for BTS 3

BSC6900

Prefix Number for BTS 4

BSC6900

Prefix Number for BTS 5

BSC6900

Prefix Number for BTS 6

BSC6900

Prefix Number for BTS 7

BSC6900

Prefix Number for BTS 8

BSC6900

Prefix Number for BTS 9

BSC6900

Avoid Number for BSC 1

BSC6900

Avoid Number for BSC 10

BSC6900

Avoid Number for BSC 2

BSC6900

Avoid Number for BSC 3

BSC6900

Avoid Number for BSC 4

BSC6900

Avoid Number for BSC 5

BSC6900

Avoid Number for BSC 6

BSC6900

Avoid Number for BSC 7

BSC6900

Avoid Number for BSC 8

BSC6900

Avoid Number for BSC 9

BSC6900

Avoid Number for BTS 1

BSC6900

Avoid Number for BTS 10

BSC6900

Avoid Number for BTS 2

BSC6900

Avoid Number for BTS 3

BSC6900

Avoid Number for BTS 4

BSC6900

Avoid Number for BTS 5

BSC6900

Avoid Number for BTS 6

BSC6900

Avoid Number for BTS 7

BSC6900

Avoid Number for BTS 8

BSC6900

Avoid Number for BTS 9

BSC6900

EN Quick PBGT HO ALG When MS Leaves BTS

BSC6900

MS MAX Retrans

BSC6900

MSP Control Command

BSC6900

MSRD MCS Threshold

BSC6900

MSRD PDCH Multiplex Threshold

BSC6900

Subrack No. of Management Board

BSC6900

Min DL level on candidate Cell

BSC6900

MS Rx Quality Statistic Threshold

BSC6900

MS Flow Control Timer

BSC6900

Master Service Active Delay

BSC6900

Maximum TX Power for Access PCH

BSC6900

Self-healing Switch for Memory Overload

BSC6900

MTC Access CPU Rate

BSC6900

Method

BSC6900

MTP2 link No.

BSC6900

Metrology

BSC6900

MTU value

BSC6900

MTU[Byte]

BSC6900

MTU

BSC6900

Hierarchical Power Supply Para.<0.1v>

BSC6900

Multi-Band Report

BSC6900

Period of Mute Detect Class1

BSC6900

Mute Detect Class2 Switch

BSC6900

Period of Mute Detect Class2

BSC6900

Access Prohibited Upon One-Way Audio

BSC6900

Forced Call Release Upon Failed Handover in One-Way Audio

BSC6900

PPP mux framing out-time[us]

BSC6900

PPP mux framing out-time[us]

BSC6900

IP MUX Type

BSC6900

Min Quantity of Working TRXs

BSC6900

My discriminator of BFD

BSC6900

N200

BSC6900

N200 of Establish

BSC6900

N200 of FACCH/Full Rate

BSC6900

N200 of FACCH/Half Rate

BSC6900

Use LAPDm N200

BSC6900

N200 of Release

BSC6900

N200 of SACCH

BSC6900

N200 of SDCCH

BSC6900

Maximum Value of N3101

BSC6900

Maximum Value of N3103

BSC6900

Maximum Value of N3105

BSC6900

Parameter of DTE [N391]

BSC6900

Parameter of DTE [N392]

BSC6900

Parameter of DTE [N393]

BSC6900

Support NACC

BSC6900

OSP name

BSC6900

DSP name

BSC6900

Signalling Route name

BSC6900

Signalling link set name

BSC6900

Signalling link name

BSC6900

Adjacent Node Name

BSC6900

Local entity name

BSC6900

Destination entity name

BSC6900

M3UA route name

BSC6900

M3UA Signalling link set name

BSC6900

M3UA Signaling link name

BSC6900

PCU Name

BSC6900

Assign Non-AMR User Loose Fre. Reuse TRX

BSC6900

N_AVG_I

BSC6900

TFO Switch

BSC6900

Neighbor 2G Cell 1 Index

BSC6900

Neighbor 2G Cell 1 Name

BSC6900

Neighbor 2G Cell 2 Index

BSC6900

Neighbor 2G Cell 2 Name

BSC6900

Neighbor 2G Cell Index

BSC6900

Neighbor 2G Cell Name

BSC6900

Neighbor Cell Index

BSC6900

Neighbor Cell Name

BSC6900

Neighbor Cell Plan Switch

BSC6900

Neighbour Cell CI

BSC6900

Neighbour Cell LAC

BSC6900

Neighbour Cell MCC

BSC6900

Neighbour Cell MNC

BSC6900

Support 64 Neighbour Cells

BSC6900

NC2 Load Reselection Switch

BSC6900

Support NC2

BSC6900

NCC

BSC6900

NCC

BSC6900

NCC Permitted

BSC6900

NCC Permitted

BSC6900

Neighbor Cell Filter Length MR Number

BSC6900

Filter Length for Ncell RX_LEV

BSC6900

NeighborCell Interfere Level Thresh 0

BSC6900

NeighborCell Interfere Level Thresh 1

BSC6900

NeighborCell Interfere Level Thresh 2

BSC6900

NeighborCell Interfere Level Thresh 3

BSC6900

NeighborCell Interfere Level Thresh 4

BSC6900

NeighborCell Interfere Level Thresh 5

BSC6900

NeighborCell Interfere Level Thresh 6

BSC6900

NeighborCell Interfere Level Thresh 7

BSC6900

NCH Occupy Block Number

BSC6900

NCH Start Block

BSC6900

Network Control Mode

BSC6900

Adjacent flag

BSC6900

Net Mask

BSC6900

Min Interval for Emerg. HO

BSC6900

Forward Route Address

BSC6900

Forward route address

BSC6900

Forward route address

BSC6900

Forward Route Address

BSC6900

Network ID

BSC6900

Download file name

BSC6900

Network Operation Mode

BSC6900

No Mains Supply Alarm Cabinet No.

BSC6900

No Mains Supply Alarm Port No.

BSC6900

No Mains Supply Alarm Slot No.

BSC6900

No Mains Supply Alarm Subrack No.

BSC6900

Lower limit of No.1 input -48V[-V]

BSC6900

Upper limit of No.1 input -48V[-V]

BSC6900

Lower limit of No.2 input -48V[-V]

BSC6900

Upper limit of No.2 input -48V[-V]

BSC6900

Lower limit of No.3 input -48V[-V]

BSC6900

Upper limit of No.3 input -48V[-V]

BSC6900

Lower limit of No.4 input -48V[-V]

BSC6900

Upper limit of No.4 input -48V[-V]

BSC6900

Lower limit of No.5 input -48V[-V]

BSC6900

Upper limit of No.5 input -48V[-V]

BSC6900

Lower limit of No.6 input -48V[-V]

BSC6900

Upper limit of No.6 input -48V[-V]

BSC6900

Non-AMR F-H Ho Allowed

BSC6900

Non-AMR F-H Ho ATCB Adjust Step

BSC6900

Non-AMR F-H Ho ATCB Threshold

BSC6900

Non-AMR F-H Ho Pathloss Adjust Step

BSC6900

Non-AMR F-H Ho Pathloss Threshold

BSC6900

Non-AMR F-H Ho Qual. Threshold

BSC6900

Non-AMR F-H Traffic Threshold

BSC6900

Non-AMR H-F Ho ATCB Threshold

BSC6900

Non-AMR H-F Ho Pathloss Threshold

BSC6900

Allow Non-AMR H-F Quality-based HO

BSC6900

Non-AMR H-F Ho Qual. Threshold

BSC6900

Non-AMR H-F Traffic Threshold

BSC6900

Adjacent Node Type

BSC6900

Cons.No Dl Mr.HO Allowed Limit

BSC6900

No Dl Mr.HO Allowed

BSC6900

No Dl Mr.Ul Qual HO Limit

BSC6900

Norminal Capacity{AH}

BSC6900

Allow III Power Control For Non-AMR

BSC6900

Non-DRX Period

BSC6900

A ALD Cur-Minor Alarm N-Cur Duration

BSC6900

B ALD Cur-Minor Alarm N-Cur Duration

BSC6900

Cell Normal Reselection Allowed

BSC6900

Normal Work TEMP Threshold

BSC6900

Discard TMSI All Cell Paging

BSC6900

Statistical Period of No-traffic

BSC6900

No VGCS Call Time

BSC6900

Number of TRACERT Packages Per TTL

BSC6900

Filter Length for SDCCH NBR_RCVD_BLOCK

BSC6900

Filter Length for TCH NBR_RCVD_BLOCK

BSC6900

NRI Value

BSC6900

NRI Value

BSC6900

Support NR_of_FDD_cells Writing

BSC6900

NSE Identifier

BSC6900

NSE Identifier

BSC6900

NCell Filter Length for SDCCH Level

BSC6900

NS Latitude

BSC6900

NSVC Identifier

BSC6900

NSVC Index

BSC6900

Normal Temperature Delta Tin

BSC6900

Normal Temperature Delta Tout

BSC6900

Ny2

BSC6900

OAM flow min bandwidth[%]

BSC6900

OAM flow min bandwidth[%]

BSC6900

OAM flow min bandwidth[%]

BSC6900

OAM flow min bandwidth[%]

BSC6900

OAM flow min bandwidth[%]

BSC6900

DSCP of OAM flow

BSC6900

OAM flow min bandwidth switch

BSC6900

Operate Object

BSC6900

Object Type

BSC6900

User Index

BSC6900

Object Index

BSC6900

Object Type

BSC6900

Object Type

BSC6900

Object Type

BSC6900

Preempt Switch of Streaming Resource

BSC6900

OL to UL HO Allowed

BSC6900

Configure Backup OML

BSC6900

OML Detection Switch

BSC6900

OML Lapd Link Detect Time

BSC6900

OML DSCP

BSC6900

BTS OML&ESL Average Down-bandwidth

BSC6900

BTS OML&ESL Average Up-bandwidth

BSC6900

OML Priority

BSC6900

OML Service PRI

BSC6900

OML VlanId

BSC6900

OML/ESL/EML LAPD Downlink Window Size

BSC6900

OMU External Network Virtual IP

BSC6900

OMU External Network Mask

BSC6900

Operator

BSC6900

OSP Code

BSC6900

OSP Code

BSC6900

OPC Index

BSC6900

Operator Type

BSC6900

Operator Index

BSC6900

OP INDEX SET

BSC6900

Operate mode

BSC6900

Operation Mode

BSC6900

Operation Mode

BSC6900

Operation Mode

BSC6900

Operation Mode

BSC6900

Operator Name

BSC6900

Assign Optimum Layer

BSC6900

Assign-optimum-level Threshold

BSC6900

TA Threshold of Assignment Pref

BSC6900

TRX Priority

BSC6900

Optical interface standard

BSC6900

Operation Type

BSC6900

Operate Type

BSC6900

OPX

BSC6900

Originally E1/T1 Port No.

BSC6900

Operation type

BSC6900

Other Frequency

BSC6900

Number of Other-RAT Modules

BSC6900

OtoU HO Received Level Threshold

BSC6900

UL Subcell Assignment Optimization

BSC6900

T8

BSC6900

T7

BSC6900

Inter BSC Load Information Allowed

BSC6900

UL Subcell General Overload Threshold

BSC6900

Power Overload Threshold In Ho. Out

BSC6900

Outgoing OL Subcell HO Level TH

BSC6900

Load HO Allowed

BSC6900

MOD Step LEN of UL Load HO Period

BSC6900

UL Subcell Load Hierarchical HO Periods

BSC6900

Step Length of UL Subcell Load HO

BSC6900

UL Subcell Lower Load Threshold

BSC6900

Out BSC Mask

BSC6900

Out BSC Port No.

BSC6900

DXX Out Port No.

BSC6900

DXX Out Time Slot No.

BSC6900

Cannel 0 Digital Control Signal Level

BSC6900

Cannel 1 Digital Control Signal Level

BSC6900

Cannel 2 Digital Control Signal Level

BSC6900

Cannel 3 Digital Control Signal Level

BSC6900

Output Power

BSC6900

Output Power

BSC6900

Output Power Unit

BSC6900

UL Subcell Serious Overload Threshold

BSC6900

Cell Out-of-Service Alarm Switch

BSC6900

Out BSC Slot No.

BSC6900

Load Outlet Slot No.

BSC6900

Out BSC Subrack No.

BSC6900

Allow Inter-RAT Load HO in Connect State

BSC6900

Service Handover Reassign

BSC6900

Service Based Handover Switch

BSC6900

Load Info Timeout Timer

BSC6900

Out BSC Start Timeslot No.

BSC6900

ANT_A ALD Over Current Occur Threshold

BSC6900

ANT_B ALD Over Current Occur Threshold

BSC6900

RET ALD Over Current Occur Threshold

BSC6900

ANT_A ALD Over Current Clear Threshold

BSC6900

ANT_B ALD Over Current Clear Threshold

BSC6900

RET ALD Over Current Clear Threshold

BSC6900

A ALD Cur-Minor Alarm Over-Cur Duration

BSC6900

B ALD Cur-Minor Alarm Over-Cur Duration

BSC6900

Overload Indication Period

BSC6900

Derating TEMP Threshold

BSC6900

CPU Usage for Critical Paging FC

BSC6900

CPU Usage for Major Paging FC

BSC6900

CPU Usage for Minor Paging FC

BSC6900

CPU Usage for Slight Paging FC

BSC6900

PA Intelligent Adjust Voltage

BSC6900

Move Packet Assignment Down to BTS

BSC6900

Average Paging Message Number In Period

BSC6900

BTS Paging Lifetime

BSC6900

MAX Paging Message Number In Period

BSC6900

Paging Times

BSC6900

PAN_DEC

BSC6900

PAN_INC

BSC6900

PAN_MAX

BSC6900

Priority of Shut Down TRX

BSC6900

Patch No.

BSC6900

Patch Number

BSC6900

IP path check flag

BSC6900

IP path ID

BSC6900

IP path ID

BSC6900

Path Loss of Different Frequency Band

BSC6900

Pathloss Ho. Enable

BSC6900

IP path type

BSC6900

Patch type

BSC6900

Pb

BSC6900

PBGT HO Allowed

BSC6900

PBGT Valid Time

BSC6900

PBGT HO Threshold

BSC6900

PBGT Watch Time

BSC6900

MAX Retrans Maintenance Msg on Pb-I

BSC6900

PC Interval

BSC6900

PC_MEAS_CHAN

BSC6900

PCU No

BSC6900

PCU No.

BSC6900

PCU No.

BSC6900

PCU No.

BSC6900

PCU Support PREEMPT_ABIS_LINK Message

BSC6900

PDCH Downlink Multiplex Threshold

BSC6900

PDCH Power Saving Enable

BSC6900

PDCH Reforming

BSC6900

PDCH Uplink Multiplex Threshold

BSC6900

PENDING timer

BSC6900

Peer BSC ID

BSC6900

Peer BSC ID

BSC6900

Peer BSC IP

BSC6900

Peer BSC Mask

BSC6900

Peer BTS ID

BSC6900

Peer IP address

BSC6900

Peer IP address

BSC6900

Peer IP address

BSC6900

Peer IP Address

BSC6900

Peer IP Address

BSC6900

First destination IP address

BSC6900

Second destination IP address

BSC6900

Peer IP address

BSC6900

Peer subnet mask

BSC6900

Destination SCTP port No.

BSC6900

Peer Version

BSC6900

Penalty Allowed

BSC6900

Cell Penalty Duration

BSC6900

Cell Penalty Level

BSC6900

CfgPenaltyTimer

BSC6900

Ping Check Period

BSC6900

Measurement Period

BSC6900

Protocal field compress

BSC6900

Protocol field compress

BSC6900

Support Protocol Field Compress

BSC6900

PFC Support

BSC6900

Paging Message Classifying Allowed

BSC6900

Max CS Paging Message Num in Period

BSC6900

Max PS Paging Message Num in Period

BSC6900

Paging Statistical Period

BSC6900

Per-Hop Behavior

BSC6900

PHB

BSC6900

Cell Reselect Parameters Indication

BSC6900

Private Key Password Enabled State

BSC6900

PKT Count

BSC6900

PKT Size[Byte]

BSC6900

Packet Length

BSC6900

Maximum Frame Length

BSC6900

PACKET SI

BSC6900

Size of packet

BSC6900

PKT Size

BSC6900

Persistence Level 1

BSC6900

16QAM Transmitter Power Reduce Level

BSC6900

Persistence Level 2

BSC6900

Persistence Level 3

BSC6900

32QAM Transmitter Power Reduce Level

BSC6900

Persistence Level 4

BSC6900

TRX 8PSK Level

BSC6900

Packet lost measure period [100ms]

BSC6900

Packet discard threshold[0.001]

BSC6900

Play Point

BSC6900

Play Switch

BSC6900

Play Time

BSC6900

Performance monitor control threshold

BSC6900

Performance monitor control threshold

BSC6900

Interval for Sending Cell Paging Package

BSC6900

Number of Cell Pagings in One Package

BSC6900

Cell Paging Package Switch

BSC6900

Performance monitor restore threshold

BSC6900

Performance monitor restore threshold

BSC6900

Performance monitoring flow control switch

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No

BSC6900

Port No

BSC6900

BM Port No

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Physics port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Port No.

BSC6900

Transmission Delay of POC Service

BSC6900

Max. GBR for POC Service

BSC6900

Min. GBR for POC Service

BSC6900

POC Support

BSC6900

Power Output Reduction Threshold

BSC6900

Power Output Error Threshold

BSC6900

Rollback Point Description

BSC6900

Rollback Point Name

BSC6900

Destination Port

BSC6900

Port

BSC6900

Port

BSC6900

DXX In Port No.

BSC6900

DXX Port Number

BSC6900

Port protocol type

BSC6900

Panel Port Switch

BSC6900

Port Type

BSC6900

Port Type

BSC6900

2Quater Message Transmission Channel

BSC6900

Patch Operation Type

BSC6900

Rated Power

BSC6900

Switch for Relay 1

BSC6900

Switch for Relay 2

BSC6900

Switch for Relay 3

BSC6900

Switch for Relay 4

BSC6900

Switch for Relay 5

BSC6900

Switch for Relay 6

BSC6900

Battery Shunt Coefficient

BSC6900

16QAM Transmitter Power Reduce Level

BSC6900

32QAM Transmitter Power Reduce Level

BSC6900

Power Type

BSC6900

Cabinet Power System Type

BSC6900

Power Level

BSC6900

Power Type

BSC6900

PPP Frame Error Alarm Threshold

BSC6900

PPP Frame Error Alarm Clearance Threshold

BSC6900

PPP link No.

BSC6900

PPP sub-link No.

BSC6900

PPP link No.

BSC6900

PPP Link No.

BSC6900

PPP mux

BSC6900

Priority queue number

BSC6900

Preempted Call Not Released After Handover Failure

BSC6900

PDCH Preemption Allowed During Handover Due to Preemption

BSC6900

Emergency Call Preemption Permitted

BSC6900

Preprocess MR Sample Ratio

BSC6900

Route Priority

BSC6900

Packet Access Priority

BSC6900

Support Priority Based Flow Control

BSC6900

Transfer Original MR

BSC6900

Print control threshold

BSC6900

Print control threshold

BSC6900

Print restore threshold

BSC6900

Print restore threshold

BSC6900

Print Flow control switch

BSC6900

Cell Priority

BSC6900

Cell Priority

BSC6900

Flex Abis Prior Choose Load Thred

BSC6900

Cell HCS Prior Class

BSC6900

Route priority

BSC6900

Signalling link priority

BSC6900

Priority

BSC6900

Preferential Customized Detection Type

BSC6900

Number of Customized Detection Types

BSC6900

Subsidiary Customized Detection Type

BSC6900

Private Key File Name

BSC6900

BTS Port Detection Sequence

BSC6900

SS7 protocol type

BSC6900

Frame Relay Protocol Type

BSC6900

Protection Delay for Detection

BSC6900

Dyn. Turning Off Cell Protection Time

BSC6900

TRX Power-on Protection Time

BSC6900

Port select

BSC6900

Port select

BSC6900

Port select

BSC6900

PS CHR Abis

BSC6900

PS CHR Gb

BSC6900

PS CHR Inner Information

BSC6900

PS CHR Inner Message

BSC6900

PS CHR Um

BSC6900

GSM PS data service downlink factor

BSC6900

GSM PS data service uplink factor

BSC6900

PS Handover Support

BSC6900

PS high PRI data path

BSC6900

PS high PRI data priority

BSC6900

PS High PRI Service PRI

BSC6900

PSI1 Repetition Period

BSC6900

Support PSI Status Message

BSC6900

PS low PRI data path

BSC6900

PS low PRI data priority

BSC6900

PS Low PRI Service PRI

BSC6900

PS OtoU HO Receive Level Threshold

BSC6900

Mode Control

BSC6900

PS RACH Min. Access Level

BSC6900

PS Min.Access Level

BSC6900

PS CHR Switch

BSC6900

Max PS Resource REQ Num in Period

BSC6900

PS Resource REQ Statistical Period

BSC6900

DPSU 0 Configured

BSC6900

DPSU 1 Configured

BSC6900

DPSU 2 Configured

BSC6900

DPSU 2 Configured

BSC6900

DPSU 3 Configured

BSC6900

DPSU 4 Configured

BSC6900

DPSU 5 Configured

BSC6900

DPSU 6 Configured

BSC6900

DPSU 7 Configured

BSC6900

PS UtoO HO Receive Level Threshold

BSC6900

PSU Turning Off Enable

BSC6900

Self-healing Switch for OMU Process

BSC6900

Port Type

BSC6900

Port

BSC6900

Cell Reselect Penalty Time

BSC6900

Subnet Protocol Type

BSC6900

Port Type

BSC6900

Line code

BSC6900

Frame receive Structure

BSC6900

Frame send Structure

BSC6900

Frame Structure

BSC6900

HDLC Path Index In BTS

BSC6900

Port type

BSC6900

Power System Type

BSC6900

Certificate File Name

BSC6900

BTS Patch Version

BSC6900

Patch Version

BSC6900

PVC Utilization Report Period Timer

BSC6900

Private Key Password

BSC6900

Password

BSC6900

User Password

BSC6900

Minimum Password Length

BSC6900

Power Level

BSC6900

First Alarm Switch

BSC6900

Second Alarm Switch

BSC6900

Power Forecast Allowed

BSC6900

III Power Control Optimized Enable

BSC6900

Power Control Switch

BSC6900

Power Deviation

BSC6900

Power Deviation Indication

BSC6900

Location Group Power Switch

BSC6900

Power Class

BSC6900

Power-off Protect Start Time

BSC6900

Power Priority Allowed

BSC6900

Power Finetune

BSC6900

ANT_A ALD Power Switch

BSC6900

ANT_B ALD Power Switch

BSC6900

RET ALD Power Switch

BSC6900

Min DSCP of queue 0

BSC6900

Min DSCP of queue 1

BSC6900

Min DSCP of queue 2

BSC6900

Min DSCP of queue 3

BSC6900

Min DSCP of queue 4

BSC6900

Qsearch C Initial

BSC6900

MS Fast Moving HO Allowed

BSC6900

MS Fast-moving Watch Cells

BSC6900

MS Fast-moving Time Threshold

BSC6900

MS Fast-moving Valid Cells

BSC6900

Qsearch I

BSC6900

Filter Length for TCH Qual.

BSC6900

Filter Length for SDCCH Qual.

BSC6900

Support QoS Optimize

BSC6900

Qsearch P

BSC6900

Qsearch C

BSC6900

QTRU Signal Merge Avoid Switch

BSC6900

Qtru Down Power Inadequate Last Time

BSC6900

Qtru Down Power Inadequate Stat Time

BSC6900

Multi-Density TRX Power Sharing

BSC6900

Qualified Times for Off

BSC6900

Qualified Times for On

BSC6900

MAX Down Adj. PC Value by Qual.

BSC6900

Query Classmark after In-BSC HO Enabled

BSC6900

Quick Handover Enable

BSC6900

SubRack0 Auxiliary Equipment

BSC6900

SubRack0 Storage Battery Config Permit

BSC6900

SubRack0 Storage Battery Capacity

BSC6900

SubRack0 Storage Battery Coefficient

BSC6900

SubRack0 Storage Battery Type

BSC6900

SubRack1 Auxiliary Equipment

BSC6900

SubRack1 Storage Battery Config Permit

BSC6900

SubRack1 Storage Battery Capacity

BSC6900

SubRack1 Storage Battery Coefficient

BSC6900

SubRack1 Storage Battery Type

BSC6900

SubRack2 Auxiliary Equipment

BSC6900

SubRack2 Storage Battery Config Permit

BSC6900

SubRack2 Storage Battery Capacity

BSC6900

SubRack2 Storage Battery Coefficient

BSC6900

SubRack2 Storage Battery Type

BSC6900

RAC

BSC6900

Route Area

BSC6900

Routing Area

BSC6900

Route Area

BSC6900

Route Area

BSC6900

Route Area

BSC6900

CS RACH Min. Access Level

BSC6900

RACH Busy Threshold

BSC6900

Average RACH Load Timeslot Number

BSC6900

CS Min.Access Level

BSC6900

Routing Area Color Code

BSC6900

Allow MS to Access to Another Cell

BSC6900

Random Access Error Threshold

BSC6900

Accessorial Hysteresis of Cell Selection

BSC6900

Rate

BSC6900

AMR Rate Control Switch

BSC6900

Is RATSCCH Function Enabled

BSC6900

Raw MR Sample Ratio

BSC6900

Type of Rollback Point

BSC6900

Result Recording Type

BSC6900

Chain No.

BSC6900

First RXU Chain No.

BSC6900

Second RXU Chain No.

BSC6900

Receive Mode

BSC6900

Rate down coefficient [%]

BSC6900

Allow Reassign

BSC6900

Frequency Band of Reassign

BSC6900

ReceiveQualThrshAMRFR

BSC6900

ReceiveQualThrshAMRHR

BSC6900

RX_LEV Hysteresis

BSC6900

RX_LEV Threshold

BSC6900

RX_LEV for UO HO Allowed

BSC6900

Record Discarded Paging Msg

BSC6900

Decrease rate alarm recover threshold

BSC6900

RX_QUAL Threshold

BSC6900

RX_QUAL for UO HO Allowed

BSC6900

Backup

BSC6900

Interval to Reduce Transmission Bandwidth when Congested

BSC6900

Number of Transmission Bandwidth to Reduce when Congested

BSC6900

Port for LINE2

BSC6900

Back-up port for LINE2

BSC6900

Port for LINE1

BSC6900

Back-up port for LINE1

BSC6900

Switch of panel 2M BITS1

BSC6900

Switch of panel 2M BITS2

BSC6900

Use SGSN clock source

BSC6900

Region Information

BSC6900

ReHost Absolute Time

BSC6900

ReHostDelayTime

BSC6900

ReHost Type

BSC6900

Reinitialize Neighbour Cell Table

BSC6900

Associated Board CN

BSC6900

Extend Connection Configuration Enabled

BSC6900

Associated Board Function

BSC6900

Associated Board SN

BSC6900

Associated Board SRN

BSC6900

Cascading Tributary

BSC6900

Remark

BSC6900

Route use description

BSC6900

Remote NSVL ID

BSC6900

Repeat

BSC6900

Repeated Downlink FACCH

BSC6900

Repeated Downlink FACCH Threshold

BSC6900

Repeated SACCH

BSC6900

Reserved Alarm ID.

BSC6900

ResCheckAllowed

BSC6900

Cell Reselection Hysteresis

BSC6900

Cell Reselect Interval

BSC6900

Normal Cell Reselection Watch Period

BSC6900

Normal Cell Reselection Worsen Level Threshold

BSC6900

Number of Reserved Dynamic Channel

BSC6900

Reserved TCH Number for PA Turning On

BSC6900

BTS Reset Alarm Delay Switch

BSC6900

BTS Reset Alarm Delay Time

BSC6900

Reset Interval of Account Lock Counter

BSC6900

Reset Retry

BSC6900

BTS Reset Time

BSC6900

Reset Timer

BSC6900

Reason

BSC6900

Response on Out-BSC HO Req

BSC6900

Resume Broken Downloads Flag

BSC6900

Sub-protocol negotiate out time[S]

BSC6900

Sub-protocol negotiate out time[S]

BSC6900

Alarm Restore Type

BSC6900

Resume Timer

BSC6900

Reserved Channel Number

BSC6900

Max RC Power Reduction

BSC6900

Radio Resource Report Period

BSC6900

Execute Interval

BSC6900

Configure RFU by Slot

BSC6900

GPS or RGPS

BSC6900

RIM Support

BSC6900

Channel No.

BSC6900

Radio Link Timeout

BSC6900

Remote TC Subrack Ater Transmission Mode

BSC6900

RNC ID

BSC6900

Neighboring RNC Index

BSC6900

Neighboring RNC Index

BSC6900

Neighboring RNC Name

BSC6900

Root Certificate File Name

BSC6900

Route No.

BSC6900

Route Port No.

BSC6900

Report Downlink VQI Allowed

BSC6900

Cell Reselection MR Period in Packet Idle Mode

BSC6900

Cell Reselection MR Period in Packet Transfer Mode

BSC6900

Decrease rate alarm report threshold

BSC6900

Report Speech Quality

BSC6900

Filter Length for SDCCH REP_QUANT

BSC6900

Filter Length for TCH REP_QUANT

BSC6900

Rscgrp No.

BSC6900

Resource Management Mode

BSC6900

Resource management mode

BSC6900

RscPenaltyTimer

BSC6900

RSCP Offset

BSC6900

RSCP Threshold for Layer of 3G Cell

BSC6900

RSD alarm source

BSC6900

RSF alarm source

BSC6900

GPRS Reselection Offset

BSC6900

BTS RSL Average Down-bandwidth

BSC6900

RSL DSCP

BSC6900

RSL Priority

BSC6900

BTS RSL Average Up-bandwidth

BSC6900

RSL VlanId

BSC6900

RSL LAPD Window Size

BSC6900

Lock Reason

BSC6900

Relative Signal Strength Threshold

BSC6900

Reset file

BSC6900

Result File Name

BSC6900

Restart switch

BSC6900

Restart Timer

BSC6900

Max Channel Num Reserved for EC

BSC6900

Reserved Parameter 1

BSC6900

Reserved Parameter 10

BSC6900

Reserved Parameter 2

BSC6900

Reserved Parameter 3

BSC6900

Reserved Parameter 4

BSC6900

Reserved Parameter 5

BSC6900

Reserved Parameter 6

BSC6900

Reserved Parameter 7

BSC6900

Reserved Parameter 8

BSC6900

Reserved Parameter 9

BSC6900

Reserve Idle Channel Number

BSC6900

Revertive type

BSC6900

Routing Context

BSC6900

RTCP Bandwidth Usage

BSC6900

Enable RTCP

BSC6900

Destination Network Address

BSC6900

Destination Address Mask

BSC6900

Route Index

BSC6900

RTO alpha value

BSC6900

RTO beta value

BSC6900

RTO initial value

BSC6900

RTO max value

BSC6900

RTO min value

BSC6900

Measure Link Delay Switch

BSC6900

RTTI PDCH Multiplex Threshold

BSC6900

Route Type

BSC6900

Rate up step [kbps]

BSC6900

Rate up step adjust period [PLPRD]

BSC6900

R-Version No.

BSC6900

Backward Bandwidth

BSC6900

Backward Bandwidth

BSC6900

Minimum Receiving level for Access

BSC6900

Interfere HO Qual. Thresh Offset for AMR FR

BSC6900

Minum Access RXLEV

BSC6900

Rx_Level_Drop HO Allowed

BSC6900

Interfere HO Qual. Thresh 1 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 10 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 11 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 12 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 2 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 3 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 4 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 5 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 6 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 7 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 8 for Non-AMR FR

BSC6900

Interfere HO Qual. Thresh 9 for Non-AMR FR

BSC6900

RXU Chain No

BSC6900

RXU Chain No.

BSC6900

RXU Chain No.

BSC6900

RXU Index Type

BSC6900

RXU Index Type

BSC6900

RXU Name

BSC6900

RXU Name

BSC6900

RXU Name

BSC6900

RXU Chain Position

BSC6900

RXU Chain Position

BSC6900

RXU Board Position

BSC6900

RXU Board Type

BSC6900

S1 value setting switch

BSC6900

S1 Value

BSC6900

Special Analog Alarm Enabled

BSC6900

Special Analog Alarm Flag

BSC6900

Trunking MSC

BSC6900

SAIC Allowed

BSC6900

Power Control Threshold Adjust for SAIC

BSC6900

Power Control threshold Adjust for SAIC

BSC6900

Special Analog Alarm Enabled

BSC6900

Same Coverage Cell No

BSC6900

Same Coverage Cell Index Type

BSC6900

Same Coverage Cell Load Stat. Time

BSC6900

Same Coverage Cell Load Threshold

BSC6900

Same Coverage Cell Name

BSC6900

SACCH Multi-Frames

BSC6900

Special Alarm Switcher

BSC6900

Special Alarm Switch Enabled

BSC6900

Special Alarm Switch Valid Vol. Level

BSC6900

Energy Saving Support

BSC6900

Special Bool Alarm Flag

BSC6900

First BTS Index

BSC6900

First BTS Name

BSC6900

SCALE_ORDER

BSC6900

DSCP of STREAM[QoS]

BSC6900

Serving Cell Filter Length MR Number

BSC6900

First Cell Index

BSC6900

First Cell Name

BSC6900

Coding Scheme

BSC6900

Sub Channel No.

BSC6900

Command String

BSC6900

Scope Type

BSC6900

Subrack Communication Path Index

BSC6900

Scrambling Code or Cell Parameter Id

BSC6900

Start Serial No.

BSC6900

SCTP link No.

BSC6900

Start Date

BSC6900

Start Date

BSC6900

Start Date

BSC6900

Alarm Log Saved Time

BSC6900

SD Alarm Threshold

BSC6900

Start Date

BSC6900

Start date

BSC6900

SDCCHChannelNumber

BSC6900

Waiting for MR on SDCCH Switch

BSC6900

Duration for Waiting MR on SDCCH

BSC6900

DL Level Threshold for SDCCH Call Drop

BSC6900

DL Quality Threshold for SDCCH Call Drop

BSC6900

UL Level Threshold for SDCCH Call Drop

BSC6900

UL Quality Threshold for SDCCH Call Drop

BSC6900

SDCCH Dynamic Allocation Allowed

BSC6900

SD Enable

BSC6900

SD Quick HO

BSC6900

Shut Down Enabled

BSC6900

Min Interval for SDCCH Hos

BSC6900

SdMrCutNum

BSC6900

Penalty Time on Fast Moving HO

BSC6900

Penalty on Fast Moving HO

BSC6900

DSCP of Signaling

BSC6900

SDSF Priority

BSC6900

Shutdown Temperature

BSC6900

Sliding Time Window Alarm Disappear

BSC6900

Sliding Time Window Alarm Occurrence

BSC6900

Shutdown Voltage

BSC6900

3G Search PRIO

BSC6900

Self Version

BSC6900

Support Sent 2QUATER

BSC6900

Spt BSS Invoke Trace Rpt[end2end user trace]

BSC6900

Send Classmark ENQ Result to MSC Enabled

BSC6900

Sent Confusion Message to MSC

BSC6900

Send Downlink Message after Hanging up

BSC6900

Send FACCH Notification Priority

BSC6900

Send FACCH Paging Priority

BSC6900

BSC Auto Link Flag

BSC6900

Send System Information 2ter

BSC6900

Send System Information 5ter

BSC6900

Send 3G Class Flag

BSC6900

Separate Position

BSC6900

Separate Mode

BSC6900

The Command Port of FTP Server

BSC6900

The Source Date Port of FTP Server

BSC6900

Device Serial No.

BSC6900

FTP Server IP Address

BSC6900

Service mode

BSC6900

Service Type

BSC6900

Service Type

BSC6900

Service Name

BSC6900

Service Type

BSC6900

Diesel Engine Configure Enabled

BSC6900

ENV TEMP CFG Enabled

BSC6900

ENV TEMP CFG Enabled

BSC6900

Environment Humidity Configure Enabled

BSC6900

SFP Port No

BSC6900

Configure Capacity

BSC6900

SGSN Name

BSC6900

SGSN NRI Length

BSC6900

SGSN NullNRI Value

BSC6900

Allow SGSN Pool

BSC6900

Protocol Version Supported by SGSN

BSC6900

SGSN Management Status

BSC6900

Share in CPU Rate

BSC6900

Load Sharing Slot No.

BSC6900

Sharing Allow

BSC6900

Shield Flag

BSC6900

Shutdown TRX Start Time[T2]

BSC6900

SI 2ter Switch

BSC6900

SDCCH HO Allowed

BSC6900

Signal Strength Duration Times

BSC6900

Signalling link set index

BSC6900

Signalling link set index

BSC6900

Signaling link ID

BSC6900

Signaling Load Weight

BSC6900

Signaling Load Weight

BSC6900

Signal Service PRI

BSC6900

Signal Strength Observation Times

BSC6900

Filter Length for SDCCH Qual

BSC6900

Signalling link code

BSC6900

Filter Length for SDCCH Level

BSC6900

Interval Between Resource Request

BSC6900

Single Pass Exclude MSISDN Number 1

BSC6900

Single Pass Exclude MSISDN Number 10

BSC6900

Single Pass Exclude MSISDN Number 11

BSC6900

Single Pass Exclude MSISDN Number 12

BSC6900

Single Pass Exclude MSISDN Number 13

BSC6900

Single Pass Exclude MSISDN Number 14

BSC6900

Single Pass Exclude MSISDN Number 15

BSC6900

Single Pass Exclude MSISDN Number 16

BSC6900

Single Pass Exclude MSISDN Number 17

BSC6900

Single Pass Exclude MSISDN Number 18

BSC6900

Single Pass Exclude MSISDN Number 19

BSC6900

Single Pass Exclude MSISDN Number 2

BSC6900

Single Pass Exclude MSISDN Number 20

BSC6900

Single Pass Exclude MSISDN Number 3

BSC6900

Single Pass Exclude MSISDN Number 4

BSC6900

Single Pass Exclude MSISDN Number 5

BSC6900

Single Pass Exclude MSISDN Number 6

BSC6900

Single Pass Exclude MSISDN Number 7

BSC6900

Single Pass Exclude MSISDN Number 8

BSC6900

Single Pass Exclude MSISDN Number 9

BSC6900

Source IP address

BSC6900

Source IP address

BSC6900

Sites

BSC6900

Site Sync Zone

BSC6900

Clock Server IP Address 2

BSC6900

Sub-Location Group No.

BSC6900

Self Loop Type

BSC6900

Signalling route mask

BSC6900

Slave Service Active Delay

BSC6900

StartType

BSC6900

SMLC Index

BSC6900

SMLC Mode

BSC6900

Enable Smoke Alarm Reporting

BSC6900

Start month

BSC6900

Filter window

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No

BSC6900

BM Slot No

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Main Board Logic slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Port Slot No.

BSC6900

Slot No.

BSC6900

Slot No.

BSC6900

Send Mode

BSC6900

DRRU Sending Receiving Mode

BSC6900

DRFU Sending Receiving Mode

BSC6900

MRRU/GRRU Sending Receiving Mode

BSC6900

MRFU/GRFU Sending Receiving Mode

BSC6900

BTS3900E Sending Receiving Mode

BSC6900

Sync Period

BSC6900

OSP code[Whole Number]

BSC6900

OSP code bits

BSC6900

OSP code[Divided Number]

BSC6900

Start PCIC

BSC6900

Signal point data format

BSC6900

Special Access Control Class

BSC6900

Special Alarm Switch

BSC6900

Special Alarm Valid Level Configuration

BSC6900

One-Way Mute Alarm Reporting Period

BSC6900

Speech VER Send Flag in ASS CMP

BSC6900

Speech VER Send Flag in HO Perform

BSC6900

SpeechVerSend Flag in HO REQ ACK

BSC6900

HO_RQD Speech VER

BSC6900

Speech Version Mode 1

BSC6900

Speech Version Mode 2

BSC6900

Speech Version

BSC6900

ETHPORT SPEED

BSC6900

Penalty on MS Fast Moving HO

BSC6900

Penalty Time on Fast Moving HO

BSC6900

Support SPLIT_PG_CYCLE on CCCH

BSC6900

Support Cell Broadcast

BSC6900

Allow Common Measurement at Iur-g

BSC6900

Allow Info Exchange at Iur-g

BSC6900

Support In Inter-RAT Inter-cell PS Handover

BSC6900

Support Out Inter-RAT Inter-Cell PS Handover

BSC6900

Support NACC Resource Guarantee

BSC6900

Support Paging Message from Trunking MSC

BSC6900

Support Pb Lapd Check

BSC6900

Support Pb Resource Check

BSC6900

Support Pb Single Pass Check

BSC6900

Support PCIC Check

BSC6900

Support RAN Sharing

BSC6900

Support Reduced Latency Capability

BSC6900

RanSharing Support

BSC6900

Support State Firewall

BSC6900

OSP index

BSC6900

Is Support Normalized Data Configuration

BSC6900

Is Support SingleRAN Mode

BSC6900

Is Support SingleRAN Mode

BSC6900

Source Cell Index

BSC6900

Source Cell Name

BSC6900

Source Cell Index

BSC6900

Source Cell Name

BSC6900

Source Cell CI

BSC6900

Source File Name

BSC6900

Clock source priority

BSC6900

Clock source priority

BSC6900

Current HO CTRL Algorithm in Source Cell

BSC6900

Source IP Address

BSC6900

Source Cell LAC

BSC6900

Source Cell MCC

BSC6900

MEP ID

BSC6900

Source Cell MNC

BSC6900

Source port No.

BSC6900

Clock source type

BSC6900

Source timeslot mask

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

BM Subrack No

BSC6900

Subrack No

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Port Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack No.

BSC6900

Subrack 1 No

BSC6900

Subrack 2 No

BSC6900

Subrack name

BSC6900

Tributary No.

BSC6900

Subrack type

BSC6900

Sort Order

BSC6900

User Data Load Weight

BSC6900

User Data Load Weight

BSC6900

Service Priority Policy

BSC6900

Service Type

BSC6900

Penalty Level after BQ HO

BSC6900

CPU occupancy alarm clearance threshold

BSC6900

CPU occupancy alarm threshold

BSC6900

DSP occupancy alarm clearance threshold

BSC6900

DSP occupancy alarm threshold

BSC6900

Filter Length for TCH Level

BSC6900

Filter Length for SDCCH Level

BSC6900

Subsystem No.

BSC6900

Subsystem No.

BSC6900

Start Sync Serial No.

BSC6900

Penalty Level after TA HO

BSC6900

StartTime

BSC6900

Start Time

BSC6900

Start Time

BSC6900

Start Time

BSC6900

Start Time

BSC6900

Start Time

BSC6900

Start Time

BSC6900

Start Alarm ID

BSC6900

Prefer Variable Bitmap Code

BSC6900

CHAN REQ Arrival Control

BSC6900

Start CIC

BSC6900

Start CIC

BSC6900

Prohibit Power Saving Start Day

BSC6900

Heater Startup Temperature

BSC6900

Prohibit Power Saving Start Month

BSC6900

Paging Arrival Control

BSC6900

PS Resource REQ Arrival Control

BSC6900

Start Sub Timeslot No.

BSC6900

Fallback Start Time

BSC6900

Time When the Function Is Enabled

BSC6900

Start TS

BSC6900

Start TS

BSC6900

Start Timeslot No.

BSC6900

Smart Temperature Control

BSC6900

Smart Temperature Control

BSC6900

Start CIC

BSC6900

Out Port Cabinet No.

BSC6900

Start Date

BSC6900

Measurement Step

BSC6900

Satellite flag

BSC6900

Start Time

BSC6900

EICC Allowed

BSC6900

Stop Send SI 5/5bis/5ter after Encrypt

BSC6900

Fallback Stop Time

BSC6900

STP function switch

BSC6900

Out-BTS Port No.

BSC6900

Start Time

BSC6900

Out Port Slot No.

BSC6900

Out Port Subrack No.

BSC6900

Out-BTS Sub Timeslot No.

BSC6900

Start Time

BSC6900

Out-BTS Timeslot No.

BSC6900

BTS Type

BSC6900

ID of slave BSC in TC Pool

BSC6900

ID of slave BSC in TC Pool

BSC6900

Command Parameter

BSC6900

Max subframe length[byte]

BSC6900

Max Subframe Length

BSC6900

Subtask ID

BSC6900

Subnet No

BSC6900

Sublink Resources Preemption Switch

BSC6900

Sub Res Preempt Flag

BSC6900

Sub Timeslot No.

BSC6900

Sub-Version No.of TMU

BSC6900

Support Apply Used A Cic

BSC6900

Use Back-up port for LINE2

BSC6900

Use Back-up port for LINE1

BSC6900

Support Cell Broadcast Name

BSC6900

Support High Multislot Class

BSC6900

Support DTM

BSC6900

Support EDA

BSC6900

Support Enhanced DTM

BSC6900

Support FE/GE SPAN BTS Local Switch

BSC6900

Support TFO Codec Optimize

BSC6900

SupptCellList

BSC6900

S Value

BSC6900

Server IP

BSC6900

Server UDP Port

BSC6900

Switch

BSC6900

OMU Automatic Switchover Switch

BSC6900

Switch

BSC6900

Switch

BSC6900

Power Switch

BSC6900

Start week

BSC6900

Port switch

BSC6900

Self-healing Switch

BSC6900

Grace Protection Period Switch

BSC6900

Bfd Protocol Switch

BSC6900

Alarm Parameter Configuration Enabled

BSC6900

3ah Switch

BSC6900

Switch primary IP address flag

BSC6900

Switch back HB number

BSC6900

SwitchParameter1

BSC6900

SwitchParameter10

BSC6900

SwitchParameter2

BSC6900

SwitchParameter3

BSC6900

SwitchParameter4

BSC6900

SwitchParameter5

BSC6900

SwitchParameter6

BSC6900

SwitchParameter7

BSC6900

SwitchParameter8

BSC6900

SwitchParameter9

BSC6900

Switch Port

BSC6900

Set Enable/Disable

BSC6900

Start week sequence

BSC6900

BTS Symbol Offset

BSC6900

Sync case

BSC6900

Site Synchronization Method

BSC6900

Clock Synchronization Mode

BSC6900

Days of Inter Sync Period

BSC6900

Hours of Inter Sync Period

BSC6900

Minutes of Inter Sync Period

BSC6900

Contact mode of the manufacturer

BSC6900

System description

BSC6900

System Flux Threshold for Load HO

BSC6900

System Location

BSC6900

Send System Message 10 Allow

BSC6900

NE Name

BSC6900

System services

BSC6900

T1

BSC6900

Time1

BSC6900

Signalling route set test timer

BSC6900

Uninhibit ACK timer

BSC6900

Force uninhibit timer

BSC6900

Inhibition ACK timer

BSC6900

Link realignment timer

BSC6900

Time-control changeover timer

BSC6900

T2

BSC6900

Time2

BSC6900

T200

BSC6900

T200 FACCH/F

BSC6900

T200 FACCH/H

BSC6900

T200 SACCH TCH SAPI3

BSC6900

T200 SACCH SDCCH

BSC6900

T200 SACCH TCH SAPI0

BSC6900

T200 SDCCH

BSC6900

T200 SDCCH SAPI3

BSC6900

T203

BSC6900

Local inhibit test timer

BSC6900

Remote inhibit test timer

BSC6900

Changeover ACK timer

BSC6900

T3

BSC6900

Time3

BSC6900

T3105

BSC6900

T3115

BSC6900

T3168

BSC6900

T3192

BSC6900

T3212

BSC6900

Parameter of DTE [T391]

BSC6900

Time-control changeback timer

BSC6900

T4

BSC6900

Changeover ACK first attempt timer

BSC6900

T5

BSC6900

Changeover ACK second attempt timer

BSC6900

T6

BSC6900

T8

BSC6900

Transmission prohibited inhibition timer

BSC6900

Filter Length for TA

BSC6900

TA for UO HO Allowed

BSC6900

TA HO Allowed

BSC6900

TA Hysteresis

BSC6900

TA HO Valid Time

BSC6900

TA Threshold

BSC6900

Talker Info Interval

BSC6900

TA Filter Length for SDCCH Level

BSC6900

AISS Task Index

BSC6900

TA HO Watch Time

BSC6900

TA Threshold

BSC6900

T_AVG_T

BSC6900

T_AVG_W

BSC6900

Output Segment No

BSC6900

Output Segment No.

BSC6900

Try Switching Duration Time

BSC6900

Ring I Try Rotating Duration Time

BSC6900

Test code

BSC6900

Tc

BSC6900

Temperature Compensation Coefficient

BSC6900

TC CRC Allowed

BSC6900

TCH Rate Adjust Allow

BSC6900

TCH Traffic Busy Threshold

BSC6900

DL FER Threshold for TCH Call Drop

BSC6900

DL Level Threshold for TCH Call Drop

BSC6900

DL Quality Threshold for TCH Call Drop

BSC6900

UL FER Threshold for TCH Call Drop

BSC6900

UL Level Threshold for TCH Call Drop

BSC6900

UL Quality Threshold for TCH Call Drop

BSC6900

Min Interval for TCH Hos

BSC6900

TchMrCutNum

BSC6900

TCH Rate Modify

BSC6900

TCH Time Handover Period

BSC6900

TCH Time Handover Switch

BSC6900

Tch Traffic Busy Underlay Threshold

BSC6900

Tch Traffic Busy Overlay Threshold

BSC6900

Test code length

BSC6900

TC mode

BSC6900

Mute Detect Class1 Switch

BSC6900

Tail Cabinet No.

BSC6900

TC Port No

BSC6900

TC Pool ID

BSC6900

TC Slot No

BSC6900

TC Subrack No

BSC6900

The type of TC resource

BSC6900

TDD BA1 Input Tag

BSC6900

TDDBA2 Input Tag

BSC6900

TDD Reporting Offset

BSC6900

TDD Cell Reselect Diversity

BSC6900

TDD Reporting Threshold

BSC6900

Diversity

BSC6900

DL UARFAN

BSC6900

TDD MI System Information Optimized

BSC6900

TDD MI System INFO Broadcasting Prohibit

BSC6900

PS TDD RSCP Quality Threshold

BSC6900

Cell Parameter ID

BSC6900

Cell Parameter ID

BSC6900

TDD System Information Optimized Allowed

BSC6900

Sync Case

BSC6900

Congestion clear remain ratio

BSC6900

Congestion remain ratio

BSC6900

Subrack 1 TDM Port No

BSC6900

Subrack 2 TDM Port No

BSC6900

TEI

BSC6900

Enable Temperature Alarm Reporting

BSC6900

Upper Limit of Temperature Alarm

BSC6900

Lower Limit of Temperature Alarm

BSC6900

Upper ENV TEMP Alarm

BSC6900

Upper ENV TEMP Alarm

BSC6900

Lower ENV TEMP Alarm

BSC6900

Lower ENV TEMP Alarm

BSC6900

Coefficient of Temp Compensation

BSC6900

Cell Template Description

BSC6900

Cell Template Index

BSC6900

Cell Template Index

BSC6900

Cell Template Name

BSC6900

Temp Of High Temp. Load Power Off

BSC6900

Low Temperature Start Load Power Off Temp.

BSC6900

Low Temperature Start Load Poweroff Temp.

BSC6900

TER Indicator of System Information 3

BSC6900

Test Timer

BSC6900

Content of Message

BSC6900

TFO Option Switch

BSC6900

Test Frequency

BSC6900

Frame Start Time

BSC6900

Target OMU

BSC6900

TGW ID

BSC6900

TGW IP_TRANS IP address

BSC6900

TGW IP_TRANS IP Mask

BSC6900

TGW TRANS Slot No.

BSC6900

TGW Trans Subrack No.

BSC6900

Th

BSC6900

Volt Threshold for Off

BSC6900

Volt Threshold for On

BSC6900

THP1-ARP1 Priority Weight

BSC6900

THP1-ARP2 Priority Weight

BSC6900

THP1-ARP3 Priority Weight

BSC6900

THP2-ARP1 Priority Weight

BSC6900

THP2-ARP2 Priority Weight

BSC6900

THP2-ARP3 Priority Weight

BSC6900

THP3-ARP1 Priority Weight

BSC6900

THP3-ARP2 Priority Weight

BSC6900

THP3-ARP3 Priority Weight

BSC6900

Threshold type

BSC6900

Receive SGSN Config. Msg. Timer

BSC6900

Level Thresh for Assign BCCH Under TBCCH

BSC6900

Quality Thresh for Assign BCCH Under TBCCH

BSC6900

TIGHT BCCH HO Valid Time

BSC6900

Load Threshold for TIGHT BCCH HO

BSC6900

TIGHT BCCH HO Watch Time

BSC6900

RX_QUAL Threshold for TIGHT BCCH HO

BSC6900

TIGHT BCCH Switch

BSC6900

IBCA Tight Trx SDCCH Rxlev Threshold

BSC6900

IMSI Paging Timer

BSC6900

Time Limit

BSC6900

Time

BSC6900

Duration

BSC6900

Penalty Time after AMR TCHF-H HO Fail

BSC6900

Penalty Time after BQ HO

BSC6900

Penalty Time after OtoU HO Fail

BSC6900

Reply Time-Out[ms]

BSC6900

Reply Time-Out[ms]

BSC6900

Time Out

BSC6900

Time Out

BSC6900

Maximum Delay Time

BSC6900

Quick Handover Punish Time

BSC6900

Number of ping packets

BSC6900

Voltage Adjust Based Timeslots Allowed

BSC6900

Penalty Time after TA HO

BSC6900

Penalty Time after UtoO HO Fail

BSC6900

T11

BSC6900

Receive MSC Configuration Message Timer

BSC6900

Time Limit

BSC6900

TLLI

BSC6900

Tout Limit

BSC6900

Temperature Alarm Lower Threshold

BSC6900

Temperature Alarm Lower Threshold

BSC6900

Execute Time

BSC6900

Execute Time 1

BSC6900

Execute Time 2

BSC6900

Execute Time 3

BSC6900

Execute Time 4

BSC6900

Execute Time 5

BSC6900

TRMMAP ID

BSC6900

TRMMAP index

BSC6900

Time Length

BSC6900

Test Mode

BSC6900

Timer for Bad Quality DISC Statistic

BSC6900

Upper time threshold of raised fault

BSC6900

TMSI

BSC6900

Lower time threshold of raised fault

BSC6900

Signalling link test ACK timer

BSC6900

Signalling link repeat test timer

BSC6900

Data Table

BSC6900

Transmission Mode

BSC6900

Transmission Mode

BSC6900

AdjustMethod

BSC6900

Cell Reselect Temporary Offset

BSC6900

TOP Board Cabinet No.

BSC6900

TOP Board Slot No.

BSC6900

TOP Board Subrack No.

BSC6900

Log Type

BSC6900

Tail Port No.

BSC6900

Into-BSC HO REQ Queue Timer

BSC6900

Debug tracking control threshold

BSC6900

Debug tracking control threshold

BSC6900

Debug tracking restore threshold

BSC6900

Debug tracking restore threshold

BSC6900

Debug Flow control switch

BSC6900

DL Priority Decision Threshold

BSC6900

UL Priority Decision Threshold

BSC6900

Traffic mode

BSC6900

Transmission Mode

BSC6900

Load Transmitting Slot No.

BSC6900

Transport Type

BSC6900

Transport Type

BSC6900

Transport Type

BSC6900

Carrier Type

BSC6900

BTS Transmission Type

BSC6900

E1 Port 0 Set Optical Transmission Mode

BSC6900

E1 Port 1 Set Optical Transmission Mode

BSC6900

E1 Port 2 Set Optical Transmission Mode

BSC6900

E1 Port 3 Set Optical Transmission Mode

BSC6900

Trace Mode

BSC6900

Cell Reselection Forbidden Time

BSC6900

Load HO Threshold

BSC6900

Trunk Link No.

BSC6900

Trunk Link Slot No.

BSC6900

Trunk No.

BSC6900

User TRMMAP index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

TRM load threshold index

BSC6900

Transport Resource Mapping switch

BSC6900

The Trunk group No.

BSC6900

Trunk group No.

BSC6900

Trunk No.

BSC6900

TRX Aiding Function Control

BSC6900

Duration Second

BSC6900

Channel Hop Index

BSC6900

TRX ID

BSC6900

TRX ID

BSC6900

No.1 TRX ID

BSC6900

No.10 TRX ID

BSC6900

No.11 TRX ID

BSC6900

No.12 TRX ID

BSC6900

No.13 TRX ID

BSC6900

No.14 TRX ID

BSC6900

No.15 TRX ID

BSC6900

No.16 TRX ID

BSC6900

No.17 TRX ID

BSC6900

No.18 TRX ID

BSC6900

No.19 TRX ID

BSC6900

No.2 TRX ID

BSC6900

No.20 TRX ID

BSC6900

No.21 TRX ID

BSC6900

No.22 TRX ID

BSC6900

No.23 TRX ID

BSC6900

No.24 TRX ID

BSC6900

No.3 TRX ID

BSC6900

No.4 TRX ID

BSC6900

No.5 TRX ID

BSC6900

No.6 TRX ID

BSC6900

No.7 TRX ID

BSC6900

No.8 TRX ID

BSC6900

No.9 TRX ID

BSC6900

TRXID LST

BSC6900

TRX Index List

BSC6900

Channel MAIO

BSC6900

TRX No.

BSC6900

TRX Number

BSC6900

TRX Board Pass No.

BSC6900

Sub-Location Group TRX Board Pass No.

BSC6900

Allocation TRX Priority Allowed

BSC6900

TRX Board Type

BSC6900

Time Slot

BSC6900

Time Slot

BSC6900

time slot No.

BSC6900

Bearing Timeslot

BSC6900

Time Slot NO.

BSC6900

Bearing time slot

BSC6900

Bearing time slot

BSC6900

Bearing Time Slot

BSC6900

TSC

BSC6900

Idle TS Count

BSC6900

TSC Plan Enable

BSC6900

Time slot cross index

BSC6900

Duration * 10 minutes

BSC6900

Timeslot Index

BSC6900

Task Name

BSC6900

Timeslot Mask

BSC6900

TS Mask

BSC6900

Tail Slot No.

BSC6900

Timeslot No.

BSC6900

Timeslot Priority

BSC6900

Timeslot Power Reserve

BSC6900

Fast Flux Measurement TBF Timer

BSC6900

Fast Flux Detection Switch

BSC6900

Time Slot Rate

BSC6900

Tail Subrack No.

BSC6900

Test Mode

BSC6900

Test Timeslot

BSC6900

Test Type

BSC6900

Test Type

BSC6900

Allow Turning Off Time Slot

BSC6900

Topo Type

BSC6900

Time to Live

BSC6900

PKT TTL

BSC6900

Dyn. Turning Off Cell Busy Channel Num.

BSC6900

Dyn. Turning Off Cell Stop Time

BSC6900

Dyn. Turning Off Cell Start Time

BSC6900

Enable Turning Off Cell

BSC6900

Dyn. Turning On Cell Load Threshold

BSC6900

Temperature Alarm Upper Threshold

BSC6900

Temperature Alarm Upper Threshold

BSC6900

Observation Cell Channel Reservation Timer

BSC6900

Observation Cell TRX Reservation Timer

BSC6900

Serving Cell TCHF Reservation Timer

BSC6900

Information Collection Response Timer

BSC6900

MS Search Timer

BSC6900

BTS Reserved Resource Activation Timer

BSC6900

BTS SYNC_REPORT Timer

BSC6900

TX-integer

BSC6900

Assigned Power of Pass A Operators 1

BSC6900

Assigned Power of Pass A Operators 2

BSC6900

Assigned Power of Pass A Operators 3

BSC6900

Assigned Power of Pass A Operators 4

BSC6900

Assigned Power of Pass B Operators 1

BSC6900

Assigned Power of Pass B Operators 2

BSC6900

Assigned Power of Pass B Operators 3

BSC6900

Assigned Power of Pass B Operators 4

BSC6900

Forward Bandwidth

BSC6900

Forward Bandwidth

BSC6900

Interval of send[ms]

BSC6900

TX_INT

BSC6900

Subrack Type

BSC6900

Finish Type

BSC6900

Freq. Band

BSC6900

PCU Type

BSC6900

Freq. Band

BSC6900

Cabinet Type

BSC6900

Cell Type

BSC6900

Up0 Power Attenuation Factor

BSC6900

Up0 Tower-Top Amplifier Flag

BSC6900

Up0 Link No.

BSC6900

Up0 TRX Board Pass No.

BSC6900

Up0 TRX Slot No.

BSC6900

Up0 TRX Subrack No.

BSC6900

Up1 Power Attenuation Factor

BSC6900

Up1 Tower-Top Amplifier Flag

BSC6900

Up1 Link No.

BSC6900

Up1 TRX Board Pass No.

BSC6900

Up1 TRX Slot No.

BSC6900

Up1 TRX Subrack No.

BSC6900

CS Preferred Call Reestablish Priority

BSC6900

CS Preferred CS Emergency Call Priority

BSC6900

CS Preferred CS MOC Priority

BSC6900

CS Preferred CS MTC Priority

BSC6900

CS Preferred Into-BSC HO Priority

BSC6900

CS Preferred Intra-BSC HO Priority

BSC6900

CS Preferred Other Service Priority

BSC6900

CS Preferred PS Priority

BSC6900

CS Preferred Supplement Priority

BSC6900

CS Preferred VBS Priority

BSC6900

CS Preferred VGCS Priority

BSC6900

Controlling of CIC IE In BSS Map Messages

BSC6900

RAI Alarm Switch

BSC6900

PS Preferred Call Reestablish Service Priority

BSC6900

PS Preferred CS Emergency Call Service Priority

BSC6900

PS Preferred CS Original Call Service Priority

BSC6900

PS Preferred CS Terminated Call Service Priority

BSC6900

PS Preferred In Handover Service Priority

BSC6900

PS Preferred Intra Handover Service Priority

BSC6900

PS Preferred Other Service Priority

BSC6900

PS Preferred PS Service Priority

BSC6900

PS Preferred Supplement Service Priority

BSC6900

PS Preferred VBS Service Priority

BSC6900

PS Preferred VGCS Service Priority

BSC6900

Speech Ver Change Optimize in Handover

BSC6900

Receive UDP MUX Mode

BSC6900

Sender UDP MUX Mode

BSC6900

Local UDP Port No.

BSC6900

Remote UDP Port No.

BSC6900

Operator Level

BSC6900

Upper Humidity Threshold

BSC6900

UIC

BSC6900

Unit time[ms]

BSC6900

Upper Limit

BSC6900

Upper Limit

BSC6900

PwrCtrlULAdjPeriod

BSC6900

ULAFSRexQualHighThred

BSC6900

ULAFSRexQualLowThred

BSC6900

ULAHSRexQualHighThred

BSC6900

ULAHSRexQualLowThred

BSC6900

UL BQ HO Last Time

BSC6900

UL BQ HO Static Time

BSC6900

Fast UL Priority Decision Threshold

BSC6900

Timer for UL Data Forward

BSC6900

RRBP Frequency for GPRS Downlink TBF

BSC6900

Edge HO UL RX_LEV Threshold

BSC6900

RRBP Frequency for EGPRS Downlink TBF

BSC6900

ACK Frequency for EGPRS Uplink TBF

BSC6900

III UL Filter Adjust Factor

BSC6900

ULFSRexQualHighThred

BSC6900

ULFSRexQualLowThred

BSC6900

ULHSRexQualHighThred

BSC6900

ULHSRexQualLowThred

BSC6900

AMR UL Coding Rate adj.hyst1[F]

BSC6900

AMR UL Coding Rate adj.hyst2[F]

BSC6900

AMR UL Coding Rate adj.hyst3[F]

BSC6900

AMR UL Coding Rate adj.hyst1[H]

BSC6900

AMR UL Coding Rate adj.hyst2[H]

BSC6900

AMR UL Coding Rate adj.hyst3[H]

BSC6900

AMR UL Coding Rate adj.hyst1[WB]

BSC6900

AMR UL Coding Rate adj.hyst2[WB]

BSC6900

2G Cell UL Basic Congest Thred

BSC6900

Filter Length for UL RX_LEV

BSC6900

ULMAXDownStep

BSC6900

ULMAXUpStep

BSC6900

2G Cell UL Overload Congest Thred

BSC6900

UL MR. Number Predicted

BSC6900

UL Qual. Upper Threshold

BSC6900

UL Qual. Lower Threshold

BSC6900

Filter Length for UL Qual.

BSC6900

UL Qual. Bad Trig Threshold

BSC6900

UL Qual. Bad UpLEVDiff

BSC6900

UL Qual. Threshold

BSC6900

UL Qual. Limit for AMR FR

BSC6900

UL Qual. Limit for AMR HR

BSC6900

ULRexLevAdjustFactor

BSC6900

ULRexLevExponentFilterLen

BSC6900

ULRexLevHighThred

BSC6900

ULRexLevLowThred

BSC6900

ULRexLevSlideWindow

BSC6900

ULRexQualAdjustFactor

BSC6900

ULRexQualExponentFilterLen

BSC6900

ULRexQualSlideWindow

BSC6900

III UL RexLev Protect Factor

BSC6900

III UL RexQual Protect Factor

BSC6900

UL RX_LEV Upper Threshold

BSC6900

UL RX_LEV Lower Threshold

BSC6900

AMR UL Coding Rate adj.th1[F]

BSC6900

AMR UL Coding Rate adj.th2[F]

BSC6900

AMR UL Coding Rate adj.th3[F]

BSC6900

AMR UL Coding Rate adj.th1[H]

BSC6900

AMR UL Coding Rate adj.th2[H]

BSC6900

AMR UL Coding Rate adj.th3[H]

BSC6900

AMR UL Coding Rate adj.th1[WB]

BSC6900

AMR UL Coding Rate adj.th2[WB]

BSC6900

UL to OL HO Allowed

BSC6900

ACK Frequency for GPRS Uplink TBF

BSC6900

Um Interface Crosstalk Optimization Allowed

BSC6900

UmPenaltyTimer

BSC6900

Um Interface Tag

BSC6900

Support Balance

BSC6900

Unblock Retry

BSC6900

ANT_A ALD Under Current Occur Threshold

BSC6900

ANT_B ALD Under Current Occur Threshold

BSC6900

RET ALD Under Current Occur Threshold

BSC6900

ANT_A ALD Under Current Clear Threshold

BSC6900

ANT_B ALD Under Current Clear Threshold

BSC6900

RET ALD Under Current Clear Threshold

BSC6900

Up BTS Index

BSC6900

Dest Father BTS Index

BSC6900

UPBTS Index type

BSC6900

Dest Father Index Type

BSC6900

Up BTS Name

BSC6900

Dest Father BTS Name

BSC6900

Update

BSC6900

Uplink Default CS Type

BSC6900

Uplink Default MCS Type

BSC6900

Uplink Multiplex Threshold of Dynamic Channel Conversion

BSC6900

Uplink EGPRS2-A Default MCS Type

BSC6900

Uplink EGPRS2-A Fixed MCS Type

BSC6900

Inactive Period of Extended Uplink TBF

BSC6900

Uplink Fixed CS Type

BSC6900

Uplink Fixed MCS Type

BSC6900

Interf.of UL Qual. Threshold

BSC6900

Interf.of UL Level Threshold

BSC6900

Uplink Max Length

BSC6900

OML/ESL/EML LAPD Uplink Window Size

BSC6900

UL PC Allowed

BSC6900

Upper Class Transport Resource Group No.

BSC6900

The Upper logic port number

BSC6900

Duration of Uplink Received Level Differ

BSC6900

Smooth Factor of Uplink Received Level

BSC6900

Observe Time of UL RX Level Difference

BSC6900

Short Message Uplink Disabled

BSC6900

Release Delay of Non-extended Uplink TBF

BSC6900

Uplink TBF Threshold from CS2 to CS1

BSC6900

Uplink TBF Threshold from CS3 to CS2

BSC6900

Uplink TBF Threshold from CS4 to CS3

BSC6900

Uplink TBF Threshold from CS1 to CS2

BSC6900

Uplink TBF Threshold from CS2 to CS3

BSC6900

Uplink TBF Threshold from CS3 to CS4

BSC6900

Cell Urgent Reselection Allowed

BSC6900

User Query Type

BSC6900

Support USF Granularity 4 Switch

BSC6900

User Name of FTP Server

BSC6900

FTPServer User

BSC6900

Energy Saving Start Time[HH:MM]

BSC6900

Energy Saving End Time[HH:MM]

BSC6900

Upper Temperature Threshold

BSC6900

MaxRetry Time after UtoO Fail

BSC6900

Penalty Time of UtoO HO

BSC6900

UtoO HO Received Level Threshold

BSC6900

UtoO Traffic HO Allowed

BSC6900

Underlay HO Step Period

BSC6900

Underlay HO Step Level

BSC6900

Utran Cell Type

BSC6900

Vendor Code

BSC6900

Maximum Number of Channels for VGCS

BSC6900

Channel Allocation Strategy for VGCS

BSC6900

Reserved Number of Channels for VGCS

BSC6900

VIP Access CPU Rate

BSC6900

VIP Cell

BSC6900

VIP Priority

BSC6900

VIP Share in CPU Rate

BSC6900

VLANID Flag

BSC6900

Vlan Flag

BSC6900

VLANID Flag of First Local IP address

BSC6900

VLANID Flag of Second Local IP address

BSC6900

VLAN ID.

BSC6900

VLAN ID

BSC6900

VLAN ID

BSC6900

VLAN ID

BSC6900

VLAN ID of First Local IP address

BSC6900

VLAN ID of Second Local IP address

BSC6900

VLAN Priority

BSC6900

VLAN Priority

BSC6900

VLAN Switch

BSC6900

Speech Version

BSC6900

Enable Alarm Reporting for 24V Power

BSC6900

Upper Limit of Alarm for 24V Power

BSC6900

Lower Limit of Alarm for 24V Power

BSC6900

Enable Alarm Reporting for 48V Power

BSC6900

Upper Limit of Alarm for 48V Power

BSC6900

Lower Limit of Alarm for 48V Power

BSC6900

Standing Wave Alarm CFG Enabled

BSC6900

VSWR TRX Unadjusted Threshold

BSC6900

Serious VSW Alarm Filter Times

BSC6900

Standing Wave Radio Alarm Threshold

BSC6900

Serious VSW Alarm Threshold

BSC6900

VSWR TRX Error Threshold

BSC6900

V-Version No.

BSC6900

T3109

BSC6900

Wait for REL Indication AMR FR

BSC6900

T3109 for AMR HR

BSC6900

Timer of MS Location Response from MS

BSC6900

Timer of Reserved TCH for EMC

BSC6900

IBCA Wait SDCCH Idle Timer

BSC6900

Timer of MS Location Response from SMLC

BSC6900

Heating Equipment

BSC6900

Enable Water Alarm Reporting

BSC6900

Week Limit

BSC6900

WE Longitude

BSC6900

Humidification Equipment

BSC6900

Whether affect the port swapping

BSC6900

LAPD Window Adjust Switch

BSC6900

Week

BSC6900

Work mode

BSC6900

End Time of WLA Detection

BSC6900

Wireless Link Alarm Critical Permit

BSC6900

WLA Prompting Recover Period

BSC6900

Begin Time of WLA Detection

BSC6900

Wireless Link Alarm Flag

BSC6900

Work Area Flag

BSC6900

Working Standard

BSC6900

Work Mode

BSC6900

Work Mode

BSC6900

Work Mode

BSC6900

Window Size

BSC6900

Wait Time before OML Switch

BSC6900

Ring I Wait Time Before Switch

BSC6900

WTR Time[Sec]

BSC6900

TimeZone

BSC6900

MML Command

SET GCELLHOAD(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOAD(Optional)

ADD BTS(Optional)

SET GCELLCCCH(Optional)

SET BSCTMR(Optional)

SET BSCTMR(Optional)

SET BTSOTHPARA(Optional)

SET BTSOTHPARA(Optional)

SET BSSLS(Optional)

SET BTSFLEXABISPARA(Optional)

SET GCELLPSCHM(Optional)

SET BSCBASIC(Optional)

ADD AISSCFG(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLPSBASE(Optional)

SET GCELLPRACH(Optional)

SET GCELLCCBASIC(Optional)

SET GCELLCCBASIC(Mandatory)

SET GCELLHOIUO(Optional)

ADD BSCACCCTRLP(Mandatory)

SET GCELLPSOTHERPARA(Optional)

ADD BSCACCCTRLP(Optional)

ADD BSCACCCTRLP(Optional)

ADD BSCACCCTRLP(Optional) ADD PPPLNK(Optional) ADD MPGRP(Optional) ADD BTSPPPLNK(Optional) ADD BTSMPGRP(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPGRP(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLIDLEAD(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLSOFT(Optional)

ADD AISSCFG(Optional)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSAPMUBP(Optional) SET SET BTSFMUABP(Optional) GCELLSOFT(Optional) SET BTSAPMUBP(Optional) SET BTSDATUBP(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET BTSRXUBP(Optional) ADD EXTNCELL(Mandatory) COL BSCSYNCINFO(Mandatory) SET BTSEXCURSION(Mandatory) SET BSCSYNCOFF(Mandatory)

SET GCELLEGPRSPARA(Optional)

SET BTSAUTODLDACTINFO(Optional)

SET BTSAUTODLDACTINFO(Optional)

SET GCELLADMSTAT(Mandatory)

SET GTRXADMSTAT(Mandatory)

SET GTRXCHANADMSTAT(Mandatory)

ADD AISSCFG(Optional)

ADD AISSCFG(Optional)

ADD AISSCFG(Mandatory)

ADD AISSCFG(Optional)

ADD BTSALMMGMRULE(Mandatory)

SET BTSAUTODLDACTINFO(Optional)

SET BTSAUTODLDACTINFO(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET GCELLCCBASIC(Optional)

SET GCELLCCBASIC(Optional)

ADD GPS(Mandatory)

ADD GPS(Mandatory)

SET GCELLCCBASIC(Optional)

SET GCELLCCBASIC(Optional)

SET ALMPORT(Mandatory)

SET ALMBLKPARA(Mandatory) SET ALMLVL(Mandatory) SET ALMSHLD(Mandatory) SET BOXRPT(Mandatory)

ADD OBJALMSHLD(Optional)

SET ENVALMPARA(Mandatory)

SET BTSENVALMPORT(Optional)

ADD BTSOBJALMSHLD(Mandatory)

SET GCELLSOFT(Optional)

ADD OBJALMSHLD(Optional)

ADD BTSOBJALMSHLD(Mandatory)

SET OTHSOFTPARA(Mandatory)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCBASIC(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET BSCNSPARA(Optional)

SET BSCNSPARA(Optional)

ADD RSCGRP(Mandatory)

SET BSCPSSOFTPARA(Optional)

SET GCELLPSCHM(Optional)

SET GCELLCHMGBASIC(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLCHMGBASIC(Optional)

ADD AE1T1(Mandatory)

ADD PBE1T1(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

ADD BTSALMMGMRULE(Mandatory) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional)

SET BTSALMFLASHTHD(Mandatory)

ADD BTSALMMGMRULE(Mandatory)

SET BTSDGPSBP(Optional)

SET BTSDGPSBP(Optional)

SET BTSDGPSBP(Optional)

ADD BTSALMMGMRULE(Mandatory)

SET BTSALMFLASHTHD(Optional)

SET BTSALMFLASHTHD(Optional)

SET BTSALMFLASHTHD(Optional)

SET BTSALMFLASHTHD(Optional)

SET BTSDHEUBP(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional)

SET GCELLPSPWPARA(Optional)

SET GCELLLCS(Optional)

ADD GPS(Mandatory)

SET GCELLLCS(Optional)

ADD GPS(Mandatory)

EXP ALMLOG(Optional) SET ALMLVL(Mandatory) SET ALMSCRN(Mandatory) SET ENVALMPARA(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR3(Optional)

SET GCELLCCAMR(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCCAMR(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET OTHSOFTPARA(Optional)

SET AITFOTHPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET BTSANTANGLE(Mandatory) ADD ADJNODE(Mandatory) ADD IPPATH(Mandatory) ADD ADJMAP(Mandatory) ADD IPMUX(Mandatory) ADD IPPATHBIND(Mandatory)

SET ENVALMPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET TCPARA(Optional)

SET GCELLLCS(Optional) SET BTSDGPSBP(Optional) SET BTSUSCUBP(Optional) SET BTSDGPSBP(Optional) SET BTSUSCUBP(Optional)

ADD MPGRP(Optional)

SET BTSTHEFTALM(Optional) LOD RETANTCFG(Mandatory) SET BTSANTANGLE(Mandatory) SET RETANTENB(Mandatory)

ADD TRXBIND2PHYBRD(Mandatory)

ADD BTSBINDLOCGRP(Optional) ADD BTSANTFEEDERBRD(Mandatory) SET BTSANTFEEDERCONNECT(Optional)

ADD MTP3LNK(Mandatory)

ADD SCTPLNK(Mandatory)

ADD SEMILINK(Mandatory)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCBASIC(Optional) CMP BRDAREA(Optional) LOD PATCH(Optional) LOD BRD(Optional) SYN BRDAREA(Optional)

SET GTRXRLALM(Optional)

SET GTRXRLALM(Optional)

SET GTRXRLALM(Optional)

STR IPCHK(Optional)

STR IPCHK(Optional)

ADD MTP3LNK(Mandatory) ADD ATERSL(Optional) ADD ATERCONSL(Optional)

ADD MTP3LNK(Mandatory) EXP ALMLOG(Optional) STA ALMLOG(Optional)

SET ENVALMPARA(Optional)

SET GCELLHOAD(Optional)

SET GCELLCCBASIC(Optional)

SET GCELLCHMGAD(Optional) SET BTSAPMUBP(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional)

SET BTSRXUBP(Mandatory) SET BTSAPMUBP(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional)

SET BTSRXUBP(Mandatory) SET BTSAPMUBP(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional)

SET BTSRXUBP(Mandatory)

SET OTHSOFTPARA(Optional)

SET GCELLTMR(Optional)

SET BSCTMR(Optional)

SET BSCAITFTMR(Optional)

SET BSCAITFTMR(Optional)

SET BSCAITFTMR(Optional)

SET BSCTMR(Optional)

SET BSCTMR(Optional)

SET BSCAITFTMR(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional) ADD MTP3LNK(Mandatory) ADD ATERE1T1(Mandatory) SET OTHSOFTPARA(Optional) ADD ATERCONPATH(Optional) ADD ATERSL(Mandatory) ADD ATERCONSL(Mandatory) ADD SEMILINK(Mandatory)

SET BSSLS(Optional) ADD MTP3LNK(Mandatory) ADD ATERSL(Mandatory) ADD ATERCONSL(Mandatory)

ADD SEMILINK(Mandatory)

ADD ATEROML(Mandatory)

ADD ATEROML(Mandatory) ADD ATERSL(Optional) ADD ATERCONSL(Optional)

SET BSCBASIC(Mandatory)

STR BTSVSWRTST(Optional)

ADD MTP3LNK(Mandatory)

SET GCELLIDLEBASIC(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET E1T1LOP(Optional)

STR E1T1TST(Optional)

SET SSLAUTHMODE(Mandatory)

ADD PPPLNK(Mandatory)

ADD MPGRP(Mandatory) ADD BTSPPPLNK(Mandatory) ADD BTSMPGRP(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPGRP(Mandatory)

ADD PPPLNK(Mandatory)

ADD MPGRP(Mandatory) ADD BTSPPPLNK(Mandatory) ADD BTSMPGRP(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPGRP(Mandatory)

ADD PPPLNK(Mandatory)

ADD MPGRP(Mandatory) ADD BTSPPPLNK(Mandatory) ADD BTSMPGRP(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPGRP(Mandatory)

ADD PPPLNK(Optional)

ADD MPGRP(Optional) ADD BTSPPPLNK(Optional) ADD BTSMPGRP(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPGRP(Optional)

SET ETHPORT(Optional)

ADD BRD(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET OTHSOFTPARA(Optional)

SET BTSETHPORT(Optional)

SET BTSAUTODLDACTINFO(Optional)

LCK SCHTSK(Optional)

SET PWDPOLICY(Optional)

SET OPT(Optional)

SET BSCBASIC(Optional)

SET ALMPORT(Optional)

SET BTSENVALMPORT(Optional)

SET OPT(Optional)

SET OPT(Optional)

SET OPT(Optional)

SET OPT(Optional)

SET CLK(Optional)

SET CLK(Optional)

BKP LOGDB(Optional)

BKP DB(Optional)

SET GCELLSOFT(Optional)

SET BSCPSSOFTPARA(Optional)

ADD BTSESN(Optional)

STR IPCHK(Optional)

STR IPCHK(Optional)

SET BTSBAKPWR(Mandatory)

SET BTSBAKPWR(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLHOAD(Optional)

SET BTSRACKBC(Mandatory)

ADD AISSCFG(Mandatory)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET SCTPSRVPORT(Optional)

SET GTRXRLALM(Optional)

SET BTSAPMUBP(Optional)

ADD GCELL(Optional)

ADD GEXT2GCELL(Mandatory)

ADD GCELLQUICKSETUP(Optional)

ADD GEXT2GCELL(Mandatory)

ADD GCELLQUICKSETUP(Mandatory)

SET GCELLHOPQUICKSETUP(Mandatory)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSTCDSCPMAP(Optional) STR FRPORTLOOP(Mandatory) BLK BC(Mandatory) ADD BC(Mandatory) ADD NSVC(Mandatory)

SET BTSAPMUBP(Optional)

SET BTSAPMUBP(Optional)

SET BTSAPMUBP(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

ADD N7DPC(Mandatory)

SET GBSCREDGRP(Optional)

SET GCELLEGPRSPARA(Optional)

SET GCELLCCUTRANSYS(Optional) SET GCELLHOUTRANFDD(Optional) SET GCELLHOUTRANTDD(Optional)

SET GCELLHOBASIC(Optional)

ADD G2GNCELL(Optional)

ADD G2GNCELL(Optional)

STR IPCHK(Optional) ADD BTSBFD(Mandatory) ADD BTSIPRTBIND(Mandatory)

SET GTRXRLALM(Optional)

SET GCELLCCACCESS(Optional) SET BTSEXCURSION(Mandatory) SET BSCSYNCOFF(Mandatory)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET ALMBLKSW(Optional)

SET ALMBLKPARA(Optional)

SET ALMBLKSW(Optional)

SET ALMBLKSW(Optional)

SET BSCNSPARA(Optional)

SET BSCNSPARA(Optional)

ADD ATERCONPATH(Mandatory)

ADD ATERCONPATH(Mandatory)

ADD ATERCONPATH(Mandatory)

SET BSCTMR(Optional) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory)

SET BOXRPT(Mandatory)

SET BTSBREAKPOINT(Optional)

SET BTSBREAKPOINT(Optional)

SET GCELLHOBASIC(Optional)

ADD G2GNCELL(Optional)

ADD G2GNCELL(Optional)

ADD G2GNCELL(Optional)

STR BKP(Mandatory) SET FCSW(Mandatory) SET FCCPUTHD(Mandatory) SET FCMSGQTHD(Mandatory)

SET CPUTHD(Mandatory)

ADD BRD(Mandatory)

STR BTSLOG(Mandatory)

STR BTSVSWRTST(Optional) ADD BTSBRDCAP(Mandatory) ADD BTSRXUBRD(Optional)

LOD BTSSW(Mandatory) ADD BTSBRDCAP(Mandatory) ADD BTSRXUBRD(Optional)

SET DPUBRDTYPE(Mandatory)

ADD BRD(Optional)

SET ETHPORT(Mandatory)

ADD PPPLNK(Mandatory)

ADD MPGRP(Mandatory)

ADD MPLNK(Mandatory)

ADD BTSBRDCAP(Mandatory)

STR BTSLOG(Mandatory)

SET BTSRINGATTR(Optional)

SET GCELLSBC(Optional)

SET GCELLSBC(Optional)

BKP LOGDB(Optional)

SET GCELLIDLEBASIC(Optional)

ADD EXTBSC(Mandatory)

SET BSCDSTPA(Optional)

BLK ACIC(Mandatory) ADD AE1T1(Mandatory)

ADD GCBSADDR(Mandatory)

ADD AISSCFG(Optional)

ADD AISSCFG(Optional)

ADD ADJNODE(Mandatory) ADD GEXT2GCELL(Optional) ADD EXTBSC(Mandatory)

ADD AISSCFG(Optional)

ADD GCBSADDR(Mandatory) ADD BTSAUTOPLAN(Mandatory) SET BTSIP(Optional) IMP BTSIPPARA(Mandatory)

SET BSSLS(Optional)

ADD EXTBSC(Mandatory)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

ADD BTSMONITORTS(Mandatory)

ADD GCBSADDR(Mandatory)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

ADD BTSMONITORTS(Mandatory)

ADD BTSMONITORTS(Mandatory)

ADD BTSMONITORTS(Mandatory)

SET BSCAISS(Mandatory)

ADD ATERE1T1(Mandatory) ADD ATERSL(Mandatory) ADD SEMILINK(Mandatory)

SET BSCBASIC(Mandatory)

ADD BTSMONITORTS(Mandatory)

SET GCELLPSBASE(Optional)

SET GCELLHOCTRL(Optional)

ADD GCELL(Optional)

SET GCELLIDLEBASIC(Optional)

ADD GCELL(Optional)

ADD GCELL(Optional)

SET BSSLS(Optional)

ADD GCNNODE(Optional)

SET GCELLPSBASE(Optional)

SET CLK(Mandatory)

CON PATCH(Mandatory) LOD PATCH(Mandatory) LOD BRD(Mandatory) SET E1T1LOP(Mandatory) SET E1T1(Mandatory)

LOP E1T1(Mandatory)

STR E1T1TST(Mandatory)

SET OPT(Mandatory)

SET COPTLNK(Mandatory)

ADD IPLOGICPORT(Mandatory)

CHK E1T1CRS(Mandatory)

ADD BTSRETANT(Mandatory)

ADD BTSANTFEEDERBRD(Mandatory)

ADD BTSBRD(Mandatory)

ADD BTSRXUBRD(Mandatory)

ADD BTSTRXBRD(Mandatory)

SET BTSANTFEEDERCONNECT(Mandatory)

ADD ATERE1T1(Mandatory)

ADD ATERSL(Mandatory)

SET GCELLBASICPARA(Optional)

SET BTSOMLDETECT(Mandatory)

SET BTSIP(Optional)

IMP BTSIPPARA(Mandatory)

BTSLOADCTRL(Mandatory) SET BTSCTRL(Mandatory) CHG BTSPTUSHKTM(Mandatory) ADD BTSABISMUXFLOW(Mandatory) PINGBTSIPCLKPARA(Mandatory) BTSCFM(Mandatory) SET TRC BTSCFM(Mandatory) ADD BTSPPPLNK(Mandatory) OPR BTSMPGRP(Mandatory) BTSBRDPWR(Mandatory) ADD IMP BTSIPPARA(Mandatory) ADD BTSMPLNK(Mandatory) EXP BTSIPPARA(Mandatory) SET BTSIP(Mandatory) IMP BTSVLAN(Mandatory) SET BTSPINGSW(Mandatory) ADD BTS(Optional) EXP BTSBWPARA(Mandatory) BTSVLAN(Mandatory) SET IMP BTSDEVIP(Mandatory) ADD BTSBIND2HDLCPATH(Mandatory) EXP BTSDEVIP(Mandatory) ADD BTSIPRTBIND(Mandatory) SET BTSOTHPARA(Optional) IMP ADDBTSPPPLNK(Mandatory) BTSETHMD(Mandatory) EXP BTSPPPLNK(Mandatory) ADD BTSETHMA(Mandatory) IMP BTSMPGRP(Mandatory) ADD BTSETHLCMEP(Mandatory) EXP BTSMPGRP(Mandatory) ADD ADD BTSETHRMMEP(Mandatory) ADJNODE(Mandatory) IMP SET BTSMPLNK(Mandatory) BTSOMLDETECT(Mandatory) EXP BTSMPLNK(Mandatory) SET BTSFLEXABISPARA(Mandatory) IMP BTSIPRT(Mandatory) ADD BTSTOPCONFIG(Mandatory) EXP BTSIPRT(Mandatory) LOD RETANTCFG(Mandatory) SAV BTSCLKPARA(Mandatory) SET BTSANTANGLE(Mandatory) SET BTSRACKBC(Mandatory) SET BSCABISPRIMAP(Mandatory) SET BTSCLKPARA(Mandatory) SET BTSCAVFRQ(Mandatory) SET BTSPMUDEF(Mandatory) SET ADD BTSTMA(Mandatory) BTSABISHDLCPATH(Mandatory) SET RETANTENB(Mandatory) LOD BTSSW(Mandatory) STR BTSBATTTST(Mandatory) LOD BTSPATCH(Mandatory) STR BTSLOG(Mandatory) CON BTSPATCH(Mandatory) STR BTSRACKTEMPMON(Mandatory) STR BTSTST(Mandatory) STR RETANTSCAN(Mandatory) STR COL TRANSPERFTST(Mandatory) SYNCINFO(Mandatory) SWP BTSBRD(Mandatory) SWP BTSCLKCLTPT(Mandatory) TST BTSBRD(Mandatory) SET SET BTSANTANGLE(Mandatory) BTSENVALM(Mandatory) STR BTSVSWRTST(Mandatory) SWP BTSLOCGRP(Mandatory) SET ADD BTSLOADCTRL(Mandatory) BTSOP(Mandatory) CHG BTSPTUSHKTM(Mandatory) ADD PINGBTSAUTOPLAN(Mandatory) BTSCFM(Mandatory) SET BTSIP(Optional) TRC BTSCFM(Mandatory) IMP BTSIPPARA(Mandatory) OPR BTSBRDPWR(Mandatory) IMP BTSIPPARA(Mandatory) EXP BTSIPPARA(Mandatory) IMP SET BTSVLAN(Mandatory) BSSLS(Optional) EXP BTSVLAN(Mandatory) IMP BTSDEVIP(Mandatory) EXP BTSDEVIP(Mandatory) ADD BTSAUTOPLAN(Mandatory) IMP BTSPPPLNK(Mandatory) EXP BTSPPPLNK(Mandatory) IMP BTSMPGRP(Mandatory) EXP BTSMPGRP(Mandatory) SET GCELLHOCTRL(Optional) IMP BTSMPLNK(Mandatory) EXP BTSMPLNK(Mandatory) IMP BTSIPRT(Mandatory) EXP BTSIPRT(Mandatory)

ADD BTSABISHDLCPATH(Mandatory) LOD BTSSW(Mandatory) LOD BTSPATCH(Mandatory) CON BTSPATCH(Mandatory)

SET BTSPINGSW(Optional)

SET BTSLOCKBCCH(Mandatory)

SET GCELLPWR2(Optional)

SET GCELLSOFT(Optional)

LOD BTSSW(Mandatory)

SET BTSTRCMPR(Mandatory) ADD BTS(Mandatory) SET BTSALM(Mandatory) ADD BTSAUTOPLAN(Mandatory) SET BTSAUTOPLANCFG(Mandatory) LOD BTSPATCH(Mandatory) CON BTSPATCH(Mandatory)

ADD BTSBFD(Optional)

STR BTSTST(Mandatory)

SET BTSAPMUBP(Optional)

SET BTSRINGATTR(Optional)

ADD SCTPLNK(Optional) ADD PTPBVC(Mandatory) BLK PTPBVC(Mandatory)

ADD GCELLQUICKSETUP(Optional)

SET BSSGPPARA(Optional)

ADD IPLOGICPORT(Mandatory)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD IPLOGICPORT(Optional)

ADD RSCGRP(Mandatory)

ADD IPLOGICPORT(Optional)

SET GTRXRLALM(Optional) ADD NCELL(Mandatory) COL SYNCINFO(Mandatory)

SET GCELLRESELECTPARA(Optional)

SET GCELLRESELECTPARA(Optional)

ADD BTSCABINET(Optional)

SET BTSRACKBC(Mandatory)

ADD CAB(Mandatory)

SET GCELLBASICPARA(Optional)

SET BTSCLKPARA(Mandatory)

SET GCELLCCCH(Optional)

SET BTSAUTOPLANCFG(Optional)

ADD BTSBRD(Optional)

ADD IPPATH(Optional)

ADD IPLOGICPORT(Optional)

STR IPCHK(Optional)

SET GCELLIDLEBASIC(Optional)

ADD GCBSADDR(Mandatory)

ADD GCBSADDR(Mandatory)

ADD GCBSADDR(Optional)

ADD GCBSADDR(Mandatory)

SET BSCTMR(Optional)

SET GCELLIDLEBASIC(Optional)

ADD IPLOGICPORT(Optional)

SET BSCTMR(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOFITPEN(Optional)

SET BSCBASIC(Optional)

SET CERTFILE(Optional)

SET GCELLCCCH(Optional)

SET GCELLCCCH(Optional)

SET BSCPSTCDSCPMAP(Optional)

ADD ETHMA(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELL2GBA1(Mandatory)

SET GCELL2GBA1(Mandatory)

SET GCELLHOEDBPARA(Mandatory) SET GCELLHOEMG(Mandatory) SET GCELLHOFAST(Mandatory) SET GCELLHOFDDBA2(Mandatory) SET GCELLHOFITPEN(Mandatory) SET GCELLHOIUO(Mandatory) SET GCELLHOPTP(Mandatory) SET GCELLHOTDDBA2(Mandatory) GCELLHO2GBA2(Mandatory) SET GCELLHOUTRANFDD(Mandatory) SET GCELLHOUTRANTDD(Mandatory) SET GCELLPWR2(Mandatory) SET GCELLPWR3(Mandatory) SET GCELLHO2GBA2(Mandatory) SET GCELLDYNTURNOFF(Mandatory) SET GCELLPWRBASIC(Mandatory) SET GCELLCHMGAD(Mandatory) SET GCELLHOPQUICKSETUP(Mandatory) GCELLBASICPARA(Optional) SET GCELLMAIOPLAN(Mandatory) SET GCELLHOPANT(Mandatory) SET GCELLHOPANTQUICKSETUP(Mandatory) SET ADD GCELLCCUTRANSYS(Optional) CELLBIND2BTS(Mandatory) MOV BCCH(Mandatory) ADD GTRX(Mandatory) ADD PTPBVC(Mandatory) SET GCELLCCUTRANSYS(Optional) SET GCELLEGPRSPARA(Mandatory) SET GCELLPRACH(Mandatory) SET GCELLPRIVATEOPTPARA(Mandatory) SET SET GCELLSERVPARA(Optional) GCELLPSBASE(Mandatory) SET GCELLPSCHM(Mandatory) SET GCELLPSCS(Mandatory) SET SET GCELLPSI1(Mandatory) GCELLOTHEXT(Optional) SET GCELLPSOTHERPARA(Mandatory) SET GCELLPSPWPARA(Mandatory) SET MSTOCELL(Mandatory) SET PSCELLTODSP(Mandatory) BTSPMUBP(Optional) SET SET GCELLNC2PARA(Mandatory) SET GCELLNCRESELECTPARA(Mandatory) SET SET GCELLNWCTRLMSRPARA(Mandatory) BTSDPMUBP(Optional) SET GCELLRESELECTPARA(Mandatory) SET GCELLSERVPARA(Mandatory) SET GCELLSTANDARDOPTPARA(Mandatory) BTSPMUBP(Optional) SET GCELLGPRS(Mandatory) SET GPSCHRSCOPE(Mandatory) ADD BTSOBJALMSHLD(Mandatory) ADD GCELLQUICKSETUP(Mandatory) SET BTSDPMUBP(Optional) SET GCELLFREQSCAN(Mandatory) SET BTSANTANGLE(Mandatory) STR TRXBURSTTST(Mandatory) STR BTSRFTST(Mandatory)

SET GMRSCOPE(Mandatory)

SET GCELLHOINTERRATLDB(Mandatory)

ADD BTSRETANT(Mandatory)

ADD BTSAUTOPLAN(Optional)

SAV GCELLTEMPLATE(Mandatory)

SET GCELLHOPTP(Mandatory) SET GCELLHOTDDBA2(Mandatory) SET GCELLHOUTRANFDD(Mandatory) SET GCELLHOUTRANTDD(Mandatory) SET GCELLPWR2(Mandatory) SET GCELLPWR3(Mandatory) SET GCELLDYNTURNOFF(Mandatory) SET GCELLPWRBASIC(Mandatory) SET STR GCELLCHMGAD(Mandatory) NCS(Mandatory) SET GCELLHOPQUICKSETUP(Mandatory) SET GCELLMAIOPLAN(Mandatory) SET GCELLHOPANT(Mandatory) SET SET FHO(Mandatory) GCELLHOPANTQUICKSETUP(Mandatory) ADD CELLBIND2BTS(Mandatory) MOV BCCH(Mandatory) ADD GTRX(Mandatory) BTSRETANT(Mandatory) ADD PTPBVC(Mandatory) SET GCELLEGPRSPARA(Mandatory) SET GCELLPRACH(Mandatory) SET SET BTSANTANGLE(Mandatory) GCELLPRIVATEOPTPARA(Mandatory) SET GCELLPSBASE(Mandatory) SET GCELLPSCHM(Mandatory) SET ADD GCELLPSCS(Mandatory) GCELL(Mandatory) SET GCELLPSI1(Mandatory) SET GCELLPSOTHERPARA(Mandatory) SET GCELLPSPWPARA(Mandatory) ADD PSCELLTODSP(Mandatory) GEXT3GCELL(Optional) SET SET GCELLNC2PARA(Mandatory) SET GCELLNCRESELECTPARA(Mandatory) SET ADD GCELLNWCTRLMSRPARA(Mandatory) GSMSCB(Optional) SET GCELLRESELECTPARA(Mandatory) SET GCELLSERVPARA(Mandatory) SET GCELLSTANDARDOPTPARA(Mandatory) MSGSOFTPARA(Optional) SET GCELLGPRS(Mandatory) SET GPSCHRSCOPE(Mandatory) ADD BTSRETANT(Mandatory) ADD GCELLQUICKSETUP(Mandatory) SET GCELLCHMGBASIC(Optional) SET GCELLFREQSCAN(Mandatory) SET BTSANTANGLE(Mandatory) STR TRXBURSTTST(Mandatory) STR BTSRFTST(Mandatory)

SET GCELLHOINTERRATLDB(Mandatory) ADD BTSAUTOPLAN(Mandatory) SAV GCELLTEMPLATE(Mandatory)

ADD GSMSCB(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLSOFT(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLCCAD(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional)

SET GCELLOTHEXT(Optional) SET BTSFMUABP(Mandatory) SET SET BTSNFCBBP(Mandatory) GCELLOTHEXT(Optional) SET BTSPMUBP(Mandatory) SET BTSAPMUBP(Mandatory) SET BTSDATUBP(Mandatory) SET GTRXFC(Optional) BTSDEMUBP(Mandatory) SET BTSDHEUBP(Mandatory) SET BTSDOMUBP(Mandatory) SET SET BTSDPMUBP(Mandatory) CERTFILE(Mandatory) SET BTSDTMUBP(Mandatory) SET BTSPSUFP(Mandatory) SET BTSDDPUBP(Mandatory) SET BTSUSCUBP(Mandatory)

SET BTSIP(Optional)

IMP BTSIPPARA(Mandatory) IMP BTSVLAN(Mandatory) IMP SET BTSDEVIP(Mandatory) BTSAUTOPLANCFG(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPGRP(Mandatory) IMP BTSMPLNK(Mandatory) IMP BTSIPRT(Mandatory)

SET BTSCABPARA(Mandatory)

SET BTSPOWERTYPE(Mandatory)

ADD OP(Mandatory) ADD CCG(Mandatory) SET CCGN(Mandatory)

ADD OP(Optional) ADD ATERSL(Optional) ADD ATERCONSL(Optional)

ADD PBSL(Optional)

SET BTSAUTOPLANCFG(Optional)

SET CCGN(Optional)

SET BTSIDLETS(Mandatory)

ADD ATERSL(Optional)

ADD ATERCONSL(Optional)

ADD PBSL(Optional)

ADD G2GNCELL(Optional)

CBN BTSRXUCHAIN(Mandatory)

SET GCELLCHMGBASIC(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional) SET GCELLSBC(Optional) ADD GSMSCB(Mandatory)

SET GCELLCHMGAD(Optional)

SET AITFOTHPARA(Optional)

SET GCELLSOFT(Optional)

ADD IPPATH(Optional)

SET OTHSOFTPARA(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

STR IPCHK(Optional)

ADD IPPATHBIND(Mandatory)

SET BTSAIRCON(Optional)

SET BTSAIRCON(Optional)

ADD SCTPLNK(Optional)

ADD SCTPLNK(Optional)

ADD SCTPLNK(Optional)

STR IPCHK(Mandatory)

STR BTSTST(Mandatory)

SET BTSCHNFALLBACK(Mandatory) SET SET FHO(Mandatory) TCPLYVOICE(Mandatory) SET GTRXCHANHOP(Mandatory) SET GTRXCHAN(Mandatory) SET GTRXCHANADMSTAT(Mandatory) STR BTSTST(Mandatory)

STR BTSTST(Mandatory)

SET BTSCHNFALLBACK(Mandatory)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET GCELLCHMGAD(Optional)

SET GPSCHRSCOPE(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional) ADD GCELL(Mandatory) ADD GEXT2GCELL(Mandatory) ADD GEXT3GCELL(Mandatory) SET GTRXCHAN(Optional) SET FHO(Mandatory) ADD BTSAUTOPLAN(Mandatory) SET BTSAUTOPLANCFG(Optional) ADD GCELLQUICKSETUP(Mandatory)

SET BTSAUTOPLANCFG(Optional)

BLK ACIC(Mandatory)

BLK PBCIC(Mandatory)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

ADD IPLOGICPORT(Optional)

SET GCELLCHMGAD(Optional)

ADD DXXCONNECT(Mandatory)

ADD DXXCONNECT(Mandatory)

SET GCELLGPRS(Optional)

SET OTHSOFTPARA(Optional)

ADD MPGRP(Optional)

SET BTSCLKPARA(Mandatory)

SET BTSIPCLKPARA(Optional)

SET CLKTYPE(Mandatory)

SET BTSCLK(Mandatory)

SET BTSTHEFTALM(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional)

SET BTSTHEFTALM(Optional)

ADD TRXBIND2PHYBRD(Optional) SWP BTSRING(Optional) SWP BTSOMLLINK(Optional) SET BTSFMUABP(Optional) EXP LOG(Optional) SET BTSAPMUBP(Optional) SET BTSDATUBP(Optional) SET BTSDEMUBP(Optional) SET ADD BTSDHEUBP(Optional) CCG(Mandatory) SET BTSUSCUBP(Optional) SET BTSCABPARA(Mandatory) SET BTSPOWERTYPE(Mandatory) ADD BTSRXUBP(Optional) SUBCMD(Mandatory) SET ADD BTSRXU2LOCGRP(Mandatory) ADD BTSBINDLOCGRP(Mandatory) BTSBRD(Optional) ADD ADD BTSSFPMODE(Optional) CAB(Mandatory) ADD BTSCABINET(Mandatory) SET BTSFORBIDTS(Optional) LOD RETANTCFG(Optional) ADD BTSRXUBRD(Optional) SET BTSOMLTS(Optional) SET BTSENVALMPORT(Optional) SET BTSANTANGLE(Optional) BTSETHPORT(Optional) SET BTSOBJALMSHLD(Mandatory) ADD BTSCLKPARA(Optional) BTSPPPLNK(Optional) SET ADD BTSCAVFRQ(Optional) BTSMPLNK(Optional) SET BTSPMUDEF(Optional) ADD BTSETHMA(Optional) ADD BTSTMA(Optional) BTSBFD(Optional) SET ADD BTSETHLCMEP(Optional) ADD RETANTENB(Optional) BTSIPRTBIND(Optional) SET ADD BTSTOPCONFIG(Optional) STR BTSBATTTST(Optional) IMP BTSDEVIP(Optional) STR BTSTST(Mandatory) IMP BTSPPPLNK(Optional) STR RETANTSCAN(Optional) IMP BTSMPLNK(Optional) STR TRANSPERFTST(Optional) SWP BTSBRD(Optional) SET BTSENVALM(Optional) CHG BTSPTUSHKTM(Optional)

OPR BTSBRDPWR(Mandatory)

SET GBSCREDGRP(Optional)

ADD GCNNODE(Mandatory) ADD NSE(Mandatory) ADD SGSNNODE(Mandatory) ADD ADD NRIMSCMAP(Mandatory) NRISGSNMAP(Mandatory) SET MSGSOFTPARA(Mandatory) SET AITFOTHPARA(Mandatory) SET BSCAITFTMR(Mandatory) ADD GCNNODE(Mandatory)

CMP LICENSE(Optional)

SET GBSCREDGRP(Optional)

EXP ALMLOG(Optional)

SET BTSBAT(Mandatory)

SET BTSDPMUBP(Mandatory)

SET LOGLIMIT(Optional)

SET ALMBLKPARA(Optional)

SET ALMBLKPARA(Optional)

SET GCELLHOBASIC(Optional)

ADD GSMSCB(Mandatory)

SET BTSOUTPUT(Optional)

COL SYNCINFO(Mandatory)

SET GCELLPWRBASIC(Optional)

SET GCELLCCBASIC(Optional)

SET PWDPOLICY(Optional)

SET BTSBWPARA(Optional)

ADD GEXT2GCELL(Optional)

ADD BTSABISHDLCPATH(Mandatory)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

SET GCELLHOBASIC(Optional)

ADD DXXCONNECT(Mandatory)

ADD SUBRACK(Optional)

SET CONNTYPE(Mandatory)

ADD GIURGCONN(Mandatory)

SET GCELLHOCTRL(Optional)

SET GCELLHOAD(Optional)

PING IP(Optional)

PING MAC(Optional) PING BTSCFM(Optional)

STR BTSTST(Mandatory)

SET GTRXDEV(Optional)

ADD GCBSADDR(Mandatory)

SET BTSCRC4(Mandatory)

SET GCELLIDLEBASIC(Optional)

SET CERTFILE(Mandatory)

SET CERTFILE(Optional)

SET GCELLGSMR(Optional)

SET GCELLGSMR(Optional)

SET GCELLIDLEBASIC(Optional)

SET BSCBASIC(Optional)

ADD SCTPLNK(Optional)

SET GCSCHRCTRL(Optional)

SET GCSCHRCTRL(Optional)

SET GCSCHRCTRL(Optional)

SET GCSCHRCTRL(Optional)

ADD TRMFACTOR(Optional)

ADD TRMMAP(Optional)

ADD TRMMAP(Optional)

ADD TRMFACTOR(Optional)

ADD GCELL(Optional)

SET GCSCHRCTRL(Optional)

SET GCSCHRCTRL(Optional)

SET GCSCHRCTRL(Optional)

SET GCSCHRCTRL(Optional)

SET GCSCHRCTRL(Optional)

SET GCSCHRCTRL(Mandatory)

SET GCSCHRCTRL(Optional)

SET GTRXFC(Optional)

SET GCSCHRCTRL(Optional)

ADD TRMFACTOR(Optional)

SET GCSCHRCTRL(Optional)

ADD TRMMAP(Optional)

ADD TRMMAP(Optional)

ADD TRMFACTOR(Optional)

ADD GCELL(Optional)

SET SLFSLVSW(Optional)

ADD MTP3LNK(Optional)

ADD MTP3LNK(Optional)

ADD MTP3LNK(Optional)

ADD MTP3LNK(Optional)

ADD MTP3LNK(Optional)

ADD MTP3LNK(Optional)

ADD MTP3LNK(Optional)

ADD MTP3LNK(Optional)

ADD MTP3LNK(Optional)

SET FCCPUTHD(Optional)

SET FCMSGQTHD(Optional)

ADD AISSCFG(Mandatory)

SET GCELLPSBASE(Optional)

SET BTSLOADCTRL(Mandatory)

ADD BTSRETANT(Mandatory)

ADD BTSRETANT(Mandatory)

ADD BTSRETANT(Mandatory)

ADD BTSRETANT(Mandatory)

ADD RSCGRP(Mandatory)

SET BTSCTRL(Mandatory)

SET BTSCTRL(Mandatory)

SET CMCTRLSW(Mandatory)

SET MSGSOFTPARA(Optional)

SET BTSAUTODLDACTINFO(Mandatory)

SET GCSFILE(Optional)

UPD JTGCPLD(Mandatory)

SET GCELLHOFITPEN(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLOTHEXT(Optional)

ADD OP(Optional)

SET TIME(Optional)

ADD BSCDSTPADATE(Mandatory)

SET BTSAUTODLDACTINFO(Mandatory)

SET BTSDHEUBP(Optional)

ADD GCELL(Mandatory)

ADD GCELL(Mandatory)

ADD GCELL(Mandatory)

ADD GCELL(Mandatory)

SET BTSALMPORT(Mandatory)

SET BTSALMPORT(Mandatory)

SET BTSALMPORT(Mandatory)

SET BTSALMPORT(Mandatory)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSAPMUBP(Optional)

SET GCELLPSCHM(Optional)

SET GCELLTMR(Optional) ADD M3DE(Mandatory) ADD M3RT(Mandatory) ADD M3LKS(Mandatory)

ADD OP(Optional)

SET BTSOUTPUT(Optional)

PING IP(Mandatory)

TRC IPADDR(Mandatory)

ADD IPRTBIND(Mandatory) PING MAC(Mandatory) TRC MAC(Mandatory) PING BTSCFM(Mandatory) TRC BTSCFM(Mandatory)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSCONNECT(Mandatory)

ADD GIURGCONN(Mandatory)

ADD GIURGCONN(Mandatory)

ADD GIURGCONN(Mandatory)

MOV BCCH(Mandatory)

SET GCELLSOFT(Optional)

ADD BTSBFD(Optional)

SET BTSABISTROP(Mandatory)

ADD BTSRETANT(Mandatory)

ADD BTSRETANT(Mandatory) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory)

ADD DEVIP(Mandatory) ADD GEXT3GCELL(Mandatory) SET GCELLHOFDDBA2(Mandatory) SET GCELLHOTDDBA2(Mandatory)

SET BTSDFCUBP(Optional)

SET BTSDFCUBP(Optional)

ADD GCNNODE(Optional)

SET FTPSSRV(Mandatory)

ADD GPS(Optional)

ADD DHCPRLY(Mandatory)

ADD DHCPRLY(Mandatory)

SET BTSDPMUBP(Optional)

SET GCELLCHMGBASIC(Optional)

ADD SUBTSK(Mandatory)

ADD SUBTSK(Mandatory) DLD LICENSE(Mandatory) ULD LICENSE(Mandatory)

DLD RETANTCFG(Optional) DLD BTSPATCH(Optional) ULD BTSLOG(Optional) DLD BTSSW(Optional)

SET AITFOTHPARA(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLSOFT(Optional)

SET OTHSOFTPARA(Optional) ADD GEXT3GCELL(Mandatory) SET GCELLHOFDDBA2(Mandatory) SET GCELLHOTDDBA2(Mandatory)

SET GCELLBASICPARA(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLBASICPARA(Optional)

SET BTSRXUBP(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

ADD NSVC(Mandatory)

SET BSCPSSOFTPARA(Optional)

SET GCELLGPRS(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPSOTHERPARA(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLPWR2(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLHOEMG(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPRIVATEOPTPARA(Optional)

SET GCELLGSMR(Optional)

SET GCELLGSMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional) ADD BTSANTFEEDERBRD(Optional) SET BTSANTFEEDERCONNECT(Optional) ADD BTSANTFEEDERBRD(Optional) SET BTSANTFEEDERCONNECT(Optional)

SET BTSIPCLKPARA(Mandatory)

SET GCELLPSCS(Optional)

SET GCELLEGPRSPARA(Optional)

SET GCELLEGPRSPARA(Optional)

SET GCELLEGPRSPARA(Optional)

SET GCELLPSCS(Optional)

SET GCELLEGPRSPARA(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLCCAD(Optional)

SET GCELLPRIVATEOPTPARA(Optional)

SET GCELLPSCS(Optional)

SET GCELLPSCS(Optional)

SET GCELLPSCS(Optional)

SET GCELLPSCS(Optional)

SET GCELLPSCS(Optional)

SET GCELLPSCS(Optional)

ADD EMU(Optional)

SET GCELLPWRBASIC(Optional)

ADD N7DPC(Mandatory)

ADD N7DPC(Mandatory)

BLK ACIC(Mandatory)

ADD AE1T1(Optional)

ADD GCNNODE(Mandatory)

ADD N7DPC(Mandatory)

ADD N7DPC(Mandatory) ADD MTP3RT(Mandatory) ADD MTP3LKS(Mandatory) ADD M3DE(Mandatory) ADD GCNNODE(Mandatory) ADD GEXTSMLC(Mandatory)

ADD GNRNC(Mandatory)

ADD G2GNCELL(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

ADD PORTFLOWCTRLPARA(Optional)

SET BTSBAKPWR(Optional)

SET BTSBAKPWR(Optional)

SET BTSBAKPWR(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLPSBASE(Optional)

SET BTSOUTPUT(Optional)

ADD PPPLNK(Optional)

ADD MPLNK(Optional) ADD SCTPLNK(Optional) SET PHBMAP(Mandatory)

PING IP(Optional)

SET DSCPMAP(Mandatory) SET BTSVLAN(Optional) IMP BTSVLAN(Optional)

SET BSCPSSOFTPARA(Optional)

DLD TCFILE(Mandatory)

SET TCTYPE(Optional)

ADD OBJALMSHLD(Mandatory) SET TCPLYVOICE(Mandatory) SET TCPARA(Optional)

SET PSCELLTODSP(Mandatory)

SET BSCPSSOFTPARA(Optional)

SET TZ(Optional)

ULD BTSDEVFILE(Mandatory)

ADD IPRT(Mandatory)

ADD BTSBFD(Mandatory) ADD BTSIPRT(Mandatory) ADD BTSIPRTBIND(Mandatory) IMP BTSIPRT(Mandatory)

ADD IPRT(Mandatory) ADD BTSIPRT(Mandatory) ADD BTSIPRTBIND(Mandatory) IMP BTSIPRT(Mandatory)

ADD TSCROSS(Mandatory)

ADD TSCROSS(Mandatory)

SET GCELLCCBASIC(Optional)

SET GCELLGSMR(Optional)

ADD BTSANTFEEDERBRD(Mandatory)

SET BTSANTFEEDERCONNECT(Optional)

ADD BTSANTFEEDERBRD(Optional)

SET BTSANTFEEDERCONNECT(Optional)

ADD BTSANTFEEDERBRD(Mandatory)

SET BTSANTFEEDERCONNECT(Optional)

ADD BTSANTFEEDERBRD(Mandatory)

SET BTSANTFEEDERCONNECT(Optional)

SET GCELLSOFT(Optional)

SET BTSETHPORT(Optional)

STR BTSTST(Mandatory)

STR TRXBURSTTST(Mandatory)

STR BTSTST(Mandatory)

STR BTSTST(Mandatory)

SET GCELLPSCHM(Optional)

ADD AISSCFG(Optional)

ADD BTSCONNECT(Mandatory) ADD DXX(Mandatory) ADD DXXCONNECT(Mandatory) ADD DXXTSEXGRELATION(Mandatory)

ADD BTSCONNECT(Mandatory)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLCHMGBASIC(Optional)

STR TRANSPERFTST(Mandatory)

STR TRANSPERFTST(Mandatory)

ADD BTSABISHDLCPATH(Mandatory)

STR TRANSPERFTST(Mandatory)

SET COPTLNK(Optional)

SET BTSCLK(Mandatory)

ADD BTSTOPCONFIG(Mandatory)

SET BTSCLK(Mandatory)

ADD IPPATH(Mandatory)

ADD G3GNCELL(Optional)

ADD GEXT3GCELL(Optional)

SET GCELLCCBASIC(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional)

ADD SUBTSK(Optional)

EXP ALMLOG(Optional)

STA ALMLOG(Optional)

STR BTSLOG(Optional)

SET TZ(Mandatory)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLGPRS(Optional)

ADD G2GNCELL(Optional)

ADD G2GNCELL(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET BTSLOADCTRL(Mandatory)

SET GCELLPSBASE(Optional)

SET GCELLGPRS(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLNC2PARA(Optional)

SET TZ(Mandatory)

SET GCELLCCAD(Optional)

ADD MTP3LKS(Optional)

ADD MPGRP(Optional)

SET BSCABISPRIMAP(Optional)

SET GCELLCCBASIC(Optional)

SET GCELLGSMR(Optional)

SET OTHSOFTPARA(Optional)

SET BSCABISPRIMAP(Optional)

SET BSCSRVPRI(Optional)

SET BSCABISPRIMAP(Optional)

SET TZ(Mandatory)

ADD EMSIP(Mandatory)

SET BTSFALLBACK(Optional)

SET BTSTMA(Mandatory)

SET GCELLBASICPARA(Optional)

SET FTPSSRV(Optional)

SET FTPSCLT(Optional)

SET OTHSOFTPARA(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional)

BLK ACIC(Mandatory)

BLK PBCIC(Mandatory)

ADD BSCDSTPADATE(Mandatory)

SET BTSDHEUBP(Optional)

ADD BSCDSTPADATE(Mandatory)

SET BTSFORBIDTS(Optional)

SET BSCDSTPA(Optional)

BLK ATERE1T1(Mandatory)

BLK AE1T1(Mandatory)

SET BTSFORBIDTS(Mandatory)

SET SCHTSKSW(Mandatory)

ADD SUBTSK(Optional)

SET GCELLHOIUO(Optional)

SET GCELLPSOTHERPARA(Optional)

ADD GCELL(Mandatory)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET GCELLHOIUO(Optional)

SET GCELLCHMGBASIC(Optional)

ADD M3LE(Mandatory)

ADD M3DE(Mandatory)

SET GCELLHOIUO(Optional)

SET TCPARA(Optional)

EXP LOG(Optional)

SET GCELLCCBASIC(Optional) SET ETHPORT(Optional) ADD PPPLNK(Optional) ADD MPGRP(Optional) SET ETHPORT(Optional) ADD PPPLNK(Optional) ADD MPGRP(Optional)

SET BSCABISPRIMAP(Optional)

SET BSCABISPRIMAP(Optional)

SET BSCSRVPRI(Optional)

SET BSCABISPRIMAP(Optional)

EXP ALMLOG(Optional)

SET GCELLTMR(Optional)

SET AITFOTHPARA(Optional)

SET BTSRINGATTR(Optional)

SET TZ(Mandatory)

EXP LOG(Optional)

ADD SUBTSK(Mandatory)

RUN BATCHFILE(Optional)

COL LOG(Optional)

EXP ALMLOG(Optional)

STA ALMLOG(Optional)

ADD GSMSCB(Mandatory)

ADD OP(Mandatory)

STR BTSLOG(Optional)

EXP LOG(Optional)

ADD OP(Mandatory)

SET TZ(Mandatory)

SET TZ(Mandatory)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

SET GCELLSERVPARA(Optional)

SET GCELLSOFT(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPWRBASIC(Optional)

ADD GEXT2GCELL(Mandatory)

ADD GEXT2GCELL(Mandatory)

ADD GEXT3GCELL(Mandatory)

ADD GEXT3GCELL(Mandatory)

ADD EXTNCELL(Mandatory)

ADD EXTNCELL(Mandatory)

SET GCELLPSOTHERPARA(Optional)

SET BTSALM(Optional)

SET GCELLEXTMSRPARA(Optional)

SET GCELLEXTMSRPARA(Optional)

SET GCELLEXTMSRPARA(Optional)

ADD GCELL(Optional)

SET GCELLPSBASE(Optional)

SET GCELLGSMR(Optional)

SET GCELLGSMR(Optional)

SET GCELLGSMR(Optional)

SET BSCABISPRIMAP(Optional)

SET GCELLCHMGBASIC(Optional)

SET GCELLHOFITPEN(Optional)

SET FANSPEED(Optional)

SET FANSPEED(Optional)

SET FANSPEED(Optional)

SET FANSPEED(Optional)

SET FANSPEED(Mandatory)

SET FANSPEED(Mandatory)

LOD FAN(Mandatory)

SET GCELLBASICPARA(Optional)

SET BTSRINGATTR(Optional)

SET TCPARA(Optional)

SET ETHPORT(Optional)

SET BTSETHPORT(Optional)

SET GTRXFC(Optional)

SET ETHPORT(Mandatory)

ADD PPPLNK(Optional)

ADD MPGRP(Optional)

ADD IPLOGICPORT(Optional)

ADD PORTFLOWCTRLPARA(Mandatory)

ADD ETHTRK(Optional)

SET BSCABISPRIMAP(Mandatory)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSCONNECT(Optional)

SET GTRXFC(Optional)

ADD PPPLNK(Optional)

ADD MPLNK(Optional)

SET FCSW(Mandatory)

SET BTSAPMUBP(Optional)

SET GCELLIDLEFDDBA1(Mandatory)

SET GCELLHOFDDBA2(Mandatory)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLIDLEFDDBA1(Mandatory)

SET GCELLIDLEFDDBA1(Mandatory)

ADD GEXT3GCELL(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

ADD GEXT3GCELL(Optional)

SET GCELLIDLEFDDBA1(Mandatory)

SET FCCPUTHD(Optional)

SET GCELLSOFT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional) SET GCELLHOPTP(Optional) SET GCELLHOPQUICKSETUP(Mandatory)

EXP LOG(Optional)

ZIP FILE(Mandatory)

BKP LOGDB(Optional) EXP CFGMML(Optional) EXP GCELLTEMPLATE(Optional)

EXP ALMLOG(Optional)

SET GCELLNC2PARA(Optional)

EXP LOG(Optional)

SET GCELLPWR3(Optional)

SET BTSOUTPUT(Optional)

SET BTSFLEXABISPARA(Optional)

SET BTSALMFLASHTHD(Optional)

SET BTSALMFLASHTHD(Optional)

SET BTSALMFLASHTW(Optional)

SET BTSALMFLASHTW(Optional)

SET BTSALMFLASHTW(Optional)

ADD BTS(Optional)

ADD GCELL(Optional)

SET GCELLSOFT(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET ETHPORT(Optional)

ADD PPPLNK(Optional)

ADD MPGRP(Optional)

ADD IPLOGICPORT(Optional)

ADD ETHTRK(Optional)

SET BSCABISPRIMAP(Optional)

SET GCELLHOEMG(Optional)

SET GCELLHOEMG(Optional)

SET GCELLHOEMG(Optional)

SET GCELLHOEMG(Optional)

SET GCELLHOEMG(Optional)

SET GCELLHOEMG(Optional)

SET GCELLHOEMG(Optional)

SET GCELLHOEMG(Optional)

SET GCELLHOEMG(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLCCCH(Optional)

SET BTSFMUABP(Optional)

EXP ELABEL(Optional) DLD LICENSE(Mandatory) ULD LICENSE(Mandatory)

EXP DEVFILE(Optional) EXP CFGMML(Optional) BKP DB(Optional) EXP GCELLTEMPLATE(Optional)

CHK DATA2LIC(Optional) DLD RVK RETANTCFG(Mandatory) LICENSE(Optional) EXP BTSDEVFILE(Optional) LOD RETANTCFG(Mandatory) ULD BTSLOG(Mandatory) DLD BTSSW(Mandatory)

DLD BTSPATCH(Optional)

SET BSCPSSOFTPARA(Optional)

ADD GCNNODE(Optional)

SET TCPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSCONNECT(Mandatory)

ADD IPMUX(Optional)

SET BTSAUTOPLANCFG(Optional)

SET BTSAUTOPLANCFG(Optional)

SET BTSAUTOPLANCFG(Optional)

ADD MPGRP(Optional) SET BTSEXCURSION(Mandatory) SET BSCSYNCOFF(Mandatory)

SET GCELLOTHEXT(Optional)

SET GCELLBASICPARA(Optional)

EXP LOG(Mandatory)

ADD SUBTSK(Mandatory)

ADD GTRX(Mandatory) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional)

ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional)

ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional)

ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional) ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional)

ADD GCELLFREQ(Optional) ADD GCELLMAGRP(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

ADD BTSANTFEEDERBRD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLFREQSCAN(Optional)

SET GTRXDEV(Optional)

STR NCS(Mandatory)

SET GCELLSOFT(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLBASICPARA(Optional)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSCONNECT(Optional)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSCONNECT(Optional)

EXP LOG(Optional)

ADD ADJMAP(Mandatory)

ADD TRMFACTOR(Mandatory)

SET BSCABISPRIMAP(Mandatory)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET TCPARA(Optional)

SET GCELLPSPWPARA(Optional)

ADD AISSCFG(Optional)

ADD AISSCFG(Optional)

ADD AISSCFG(Mandatory)

ADD AISSCFG(Optional)

SET GCELLPSOTHERPARA(Optional)

SET BSCBASIC(Optional)

ADD GPS(Optional)

SET GCELLGSMR(Optional)

SET GCELLGSMR(Optional)

SET GLOBALROUTESW(Mandatory)

SET GCELLBASICPARA(Optional)

SET GCELLGPRS(Mandatory)

ADD GCELLQUICKSETUP(Optional)

SET GCELLRESELECTPARA(Optional)

SET GTRXCHAN(Optional)

SET GCELLSERVPARA(Optional)

SET GCELLNCRESELECTPARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLNCRESELECTPARA(Optional) SET BTSDGPSBP(Optional) SET BTSUSCUBP(Optional)

ADD GPS(Optional)

SET GCELLCHMGBASIC(Optional)

SET BTSCHNFALLBACK(Mandatory)

SET BTSCHNFALLBACK(Mandatory)

SET GBSCREDGRP(Mandatory)

SET GBSCREDGRP(Optional)

SET BTSFLEXABISPARA(Optional) ADD RSCGRP(Mandatory) SET BTSIP(Mandatory)

ADD RSCGRP(Mandatory)

SET GCELLSBC(Optional) ADD GSMSCB(Mandatory)

ADD TRMLOADTH(Optional)

SET BSCBASIC(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLPSOTHERPARA(Optional)

ADD ICMPGUARD(Mandatory)

ADD BTSAUTOPLAN(Optional)

SET BTSIP(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

ADD SCTPLNK(Optional)

ADD BTSRXUCHAIN(Mandatory)

ADD G2GNCELL(Optional)

ADD G2GNCELL(Optional)

SET BTSBAT(Optional)

SET BTSBAT(Optional)

SET BSCBASIC(Optional)

SET GCELLCHMGBASIC(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLCHMGBASIC(Optional)

SET BTSAPMUBP(Optional)

SET GCELLCHMGAD(Optional)

SET PWDPOLICY(Optional)

SET GCELLGPRS(Optional)

SET GCELLHOIUO(Optional)

ADD GCNOPERATOR(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET FHO(Mandatory)

SET FHO(Mandatory) SET GCELLHOBASIC(Optional) SET GCELLHOEMG(Optional) SET GCELLHOFITPEN(Optional) SET GCELLHOIUO(Optional)

SET GCELLHOFAST(Optional)

SET GCELLHOFAST(Optional)

SET GCELLHOFAST(Optional)

SET GCELLHOFAST(Optional)

ADD G3GNCELL(Optional)

ADD G3GNCELL(Optional)

SET GCELLHOUTRANFDD(Optional)

ADD G2GNCELL(Optional)

SET FHO(Mandatory) ADD GEXT2GCELL(Optional) SET GCELLHOFAST(Optional)

SET GCELLCHMGAD(Optional) SET GCELLHOUTRANFDD(Optional) SET GCELLHOUTRANTDD(Optional)

SET GCELLHOEDBPARA(Optional)

ADD GCELLMAGRP(Mandatory)

SET GCELLMAIOPLAN(Mandatory)

ADD GCELLMAGRP(Mandatory)

SET GCELLOTHBASIC(Optional) SET GCELLHOUTRANFDD(Optional) SET GCELLHOUTRANTDD(Optional)

SET OTHSOFTPARA(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Mandatory)

SET GTRXHOP(Optional) ADD GEXT2GCELL(Optional) SET GCELLHOFAST(Optional)

ADD AISSCFG(Optional) SET GCELLHOUTRANFDD(Optional) SET GCELLHOUTRANTDD(Optional)

SET MSGSOFTPARA(Optional)

ADD G3GNCELL(Optional)

ADD G3GNCELL(Optional)

ADD G2GNCELL(Optional)

ADD OPC(Optional)

SET BTSIP(Optional)

ADD GEXT2GCELL(Optional) SET GCELLHOBASIC(Optional)

SET GCELLHOFAST(Optional)

SET GCELLHOPANT(Optional)

SET GCELLHOPANTQUICKSETUP(Mandatory)

ADD BTSRXUCHAIN(Mandatory)

SET GCELLCHMGBASIC(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET GCELLCCCH(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLBASICPARA(Optional)

ADD GCELLMAGRP(Optional)

ADD BTSRXUCHAIN(Mandatory)

ADD GCELL(Optional)

ADD BTSRXUCHAIN(Mandatory)

ADD BTSBFD(Mandatory)

SET BTSDHEUBP(Optional)

SET BTSDHEUBP(Optional)

SET BTSAPMUBP(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSAIRCON(Optional)

SET SCCPTMR(Optional)

STR TRANSPERFTST(Mandatory)

STR TRANSPERFTST(Mandatory)

STR TRANSPERFTST(Mandatory)

SET SCCPTMR(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

ADD G2GNCELL(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

ADD G2GNCELL(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

ADD G2GNCELL(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLBASICPARA(Optional)

SET BTSAPMUBP(Optional)

ADD IPPATH(Optional)

SET BSCPSTCDSCPMAP(Optional)

SET BSCPSTCDSCPMAP(Optional)

SET BSCPSTCDSCPMAP(Optional) ADD SCHTSK(Mandatory) SET SCHTSKSW(Optional) ADD SUBTSK(Optional) ADD SUBCMD(Optional)

STR SCHTSK(Optional)

ADD BTSBRDCAP(Mandatory)

SET BTSDOMUBP(Mandatory) SET SET BTSFLEXABISPARA(Mandatory) BTSLOCKBCCH(Mandatory) SET BTSDPMUBP(Mandatory) ADD BTSTOPCONFIG(Mandatory) SET BTSDTMUBP(Mandatory) BTSLSW(Mandatory) SET LOD BTSSW(Mandatory) SET BTSTRANS(Mandatory) SET BTSDGPSBP(Mandatory) LOD RETANTCFG(Mandatory) SET SET BTSVLAN(Mandatory) BTSPSUFP(Mandatory) SAV BTSCLKPARA(Mandatory) MOV BCCH(Mandatory) SET BTSDDPUBP(Mandatory) SET ADD BTSRACKBC(Mandatory) GTRX(Mandatory) SET BTSUSCUBP(Mandatory) SET ADD BTSCLKPARA(Mandatory) BTSBFD(Mandatory) ADD BTSRETANT(Mandatory) SET SET BTSTHEFTALM(Mandatory) SET BTSCAVFRQ(Mandatory) BTSALMPORT(Mandatory) TCPARA(Optional) SET SET BTSSPTMODE(Mandatory) ADD BTSPMUDEF(Mandatory) BTSRXUCHAIN(Mandatory) SET SET BTSOUTPUT(Mandatory) CBN BTSTMA(Mandatory) BTSRXUCHAIN(Mandatory) SET SET RETANTENB(Mandatory) BTSOMLBACKUP(Mandatory) CHK BTS(Mandatory) STR BTSBATTTST(Mandatory) SET SET E1T1LOP(Optional) BTSFALLBACK(Mandatory) SET BTSBREAKPOINT(Mandatory) STR BTSLOG(Mandatory) SET SET BTSEXD(Mandatory) BTSCABPARA(Mandatory) STR BTSRACKTEMPMON(Mandatory) SET BTSCLK(Mandatory) SET BTSJBF(Mandatory) STR BTSTST(Mandatory) SET BTSABISTROP(Mandatory) SET BTSLAPDWS(Mandatory) GCELLCHMGBASIC(Optional) STR RETANTSCAN(Mandatory) SET BTSEXCURSION(Mandatory) BTSALM(Mandatory) SET BTSPOWERTYPE(Mandatory) STR TRANSPERFTST(Mandatory) ADD EXTNCELL(Mandatory) SET BTSRXUBP(Mandatory) BTSAIRCON(Mandatory) SET SWP BTSBRD(Mandatory) BSCSYNCOFF(Mandatory) SET BTSAUXEQP(Mandatory) SPT BTSRXUCHAIN(Mandatory) ADD PTPBVC(Mandatory) SWP BTSCLKCLTPT(Mandatory) BTSAISS(Mandatory) SET BTSBAT(Mandatory) SET BTSAUTODLDACTINFO(Mandatory) SET GCELLEGPRSPARA(Mandatory) TST BTSBRD(Mandatory) SET BTSCHNFALLBACK(Mandatory) SET BTSOTHPARA(Mandatory) SET GCELLPRACH(Mandatory) STR TRXBURSTTST(Mandatory) SWP BTSRING(Mandatory) SET BTSAUTOPLANCFG(Mandatory) ADD BTSESN(Mandatory) GCELLPRIVATEOPTPARA(Mandatory) SET BTSENVALM(Mandatory) SWP BTSOMLLINK(Mandatory) ADD BTSLOCGRP(Mandatory) SET BSCABISPRIMAP(Mandatory) SET GCELLPSBASE(Mandatory) STR BTSVSWRTST(Mandatory) ADD BTSIPRTBIND(Mandatory) ADD BTSRXU2LOCGRP(Mandatory) SET GCELLPSCHM(Mandatory) LOD BTSPATCH(Mandatory) EXP GCELLTEMPLATE(Mandatory) ADD BTSBINDLOCGRP(Mandatory) SET GCELLPSCS(Mandatory) CON BTSPATCH(Mandatory) SAV GCELLTEMPLATE(Mandatory) ADD GCELLPSI1(Mandatory) BTSANTFEEDERBRD(Mandatory) SET BTSLOADCTRL(Mandatory) IMP BTSVLAN(Mandatory) ADD BTSBRD(Mandatory) SET GCELLPSOTHERPARA(Mandatory) CHG BTSPTUSHKTM(Mandatory) ADD BTSCABINET(Mandatory) SET GCELLPSPWPARA(Mandatory) PING BTSCFM(Mandatory) ADD BTSRXUBRD(Mandatory) SET PSCELLTODSP(Mandatory) TRC BTSCFM(Mandatory) ADD BTSTRXBRD(Mandatory) ADD GCELLNC2PARA(Mandatory) G2GNCELL(Mandatory) SET OPR BTSBRDPWR(Mandatory) SET BTSENVALMPORT(Mandatory) SET BTSIPPARA(Mandatory) GCELLNCRESELECTPARA(Mandatory) IMP ADD BTSALMMGMRULE(Mandatory) SET GCELLNWCTRLMSRPARA(Mandatory) EXP BTSIPPARA(Mandatory) SET BTSANTFEEDERCONNECT(Mandatory) SET EXP BTSVLAN(Mandatory) SET GCELLRESELECTPARA(Mandatory) GCELLHOINTERRATLDB(Mandatory) ADD BTSOBJALMSHLD(Mandatory) SET GCELLSERVPARA(Mandatory) IMP BTSDEVIP(Mandatory) ADD BTSCONNECT(Mandatory) SET GCELLSTANDARDOPTPARA(Mandatory) EXP BTSDEVIP(Mandatory) ADD BTSMONITORTS(Mandatory) SET BTSPPPLNK(Mandatory) GCELLGPRS(Mandatory) IMP ADD BTSABISHDLCPATH(Mandatory) SET GPSCHRSCOPE(Mandatory) EXP ADD BTSPPPLNK(Mandatory) BTSABISMUXFLOW(Mandatory) IMP ADDBTSMPGRP(Mandatory) BTSBIND2HDLCPATH(Mandatory) EXP BTSMPGRP(Mandatory) SET GCELLFREQSCAN(Mandatory) IMP SWPBTSMPLNK(Mandatory) BTSLOCGRP(Mandatory) EXP BTSMPLNK(Mandatory) IMP BTSIPRT(Mandatory) EXP BTSIPRT(Mandatory) STR BTSRFTST(Mandatory)

ADD SEMILINK(Mandatory) SET MSTOCELL(Mandatory) TST SNDRSI(Mandatory) TST UPDMSRAC(Mandatory)

SET PSCELLTODSP(Mandatory)

ADD GCBSADDR(Optional) ADD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional) STR BTSLOG(Optional) ULD BTSLOG(Optional)

SET GCELLHOFAST(Optional) CHK INNSPCH(Mandatory) STR CALLRESLOP(Mandatory) ADD GCSCHRUSER(Mandatory)

SET GCELLTMR(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLPSOTHERPARA(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

ADD AISSCFG(Optional)

SET GCELLTMR(Optional) CHK INNSPCH(Mandatory) STR CALLRESLOP(Mandatory) ADD GCSCHRUSER(Mandatory) SET MSTOCELL(Mandatory) TST SNDRSI(Mandatory) TST UPDMSRAC(Mandatory) ADD GPSCHRUSER(Mandatory)

SET GCELLTMR(Optional)

ADD AISSCFG(Optional)

ADD AISSCFG(Optional)

SET GCELLLCS(Optional)

ADD BTSCONNECT(Optional)

SET BTSDOMUBP(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

ADD GNRNC(Mandatory)

ADD EMU(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GTRXDEV(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

ADD SEMILINK(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

ADD EXTNCELL(Mandatory)

ADD EXTNCELL(Mandatory)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

ADD SEMILINK(Mandatory)

ADD BTSCONNECT(Mandatory)

ADD DXXTSEXGRELATION(Mandatory)

SET GCELLLCS(Optional)

SET GCELLHOCTRL(Optional)

ADD SEMILINK(Mandatory)

ADD BTSCONNECT(Optional)

ADD SEMILINK(Mandatory)

ADD BTSCONNECT(Optional)

ADD GSMSCB(Mandatory)

ADD G2GNCELL(Optional)

SET GCELLSOFT(Optional)

ADD G2GNCELL(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

ADD AISSCFG(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOINTERRATLDB(Optional)

EXP LOG(Optional)

STR ETHOAMLOOPTST(Optional)

SET GCELLEXTMSRPARA(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLTMR(Optional)

SET GCELLTMR(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLTMR(Optional)

ADD GNRNC(Mandatory)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLHOINTERRATLDB(Optional)

ADD SEMILINK(Mandatory)

ADD DXXTSEXGRELATION(Mandatory)

ADD SUBTSK(Optional)

SET ASWPARA(Mandatory)

SET GCELLCCUTRANSYS(Optional)

ADD XPUVLAN(Mandatory) EXP LOG(Optional) ADD SNTPSRVINFO(Mandatory) DLD LICENSE(Mandatory) ULD LICENSE(Mandatory)

ADD NSVLLOCAL(Mandatory)

ADD NSVLREMOTE(Mandatory)

SET BTSETHPORT(Optional) DLD RETANTCFG(Mandatory) IMP BTSDEVIP(Optional) ULD BTSDEVFILE(Mandatory) DLD BTSPATCH(Mandatory) ULD BTSLOG(Mandatory) DLD BTSSW(Mandatory)

ADD IPPATH(Mandatory)

ADD DEVIP(Mandatory)

ADD ETHIP(Mandatory)

ADD ICMPGUARD(Mandatory)

ADD VLANID(Mandatory)

ADD ETHTRKIP(Mandatory)

ADD SGSNROUTEINFO(Mandatory)

ADD SGSN(Mandatory)

SET BTSIPCLKPARA(Mandatory)

ADD SGSN(Optional)

SET BTSIPCLKPARA(Mandatory)

ADD SGSN(Optional) SET ADD BTSETHPORT(Optional) SGSN(Optional) ADD BTSPPPLNK(Optional) ADD BTSMPGRP(Optional) IMP BTSPPPLNK(Optional) SET BTSETHPORT(Optional) IMP BTSMPGRP(Optional) ADD BTSPPPLNK(Optional) ADD BTSMPGRP(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPGRP(Optional)

ADD PPPLNK(Optional)

ADD MPGRP(Optional)

ADD ETHIP(Mandatory)

ADD ETHTRKIP(Mandatory)

ADD IPMUX(Optional)

ADD BTS(Optional) ADD BTSAUTOPLAN(Optional) IMP BTSIPPARA(Mandatory)

SET BTSDHEUBP(Optional)

ADD AISSCFG(Mandatory)

ADD G2GNCELL(Optional)

SET BTSIPCLKPARA(Mandatory)

SET BTSIPCLKPARA(Mandatory)

ADD BTS(Optional)

ADD BTSRXUBRD(Optional)

ADD GEXT2GCELL(Optional)

ADD RSCGRP(Mandatory)

ADD GEXT2GCELL(Optional)

ADD GTRX(Optional)

SET BSCBASIC(Mandatory)

ADD BTSLOCGRP(Mandatory)

ADD GEXT2GCELL(Optional)

ADD NSE(Optional)

ADD IPMUX(Mandatory)

ADD AISSCFG(Mandatory)

SET BTSENVALM(Mandatory)

SET BTSOTHPARA(Optional)

SET BTSLSW(Optional)

SET BSCBASIC(Optional)

ADD BRD(Mandatory)

ADD SUBRACK(Optional)

SET BTSDHEUBP(Optional) SET GCELLIDLEFDDBA1(Mandatory) SET SET GCELLIDLETDDBA1(Mandatory) BTSPSUFP(Optional) SET GCELL2GBA1(Mandatory) SET GCELLHO2GBA2(Mandatory) SET GCELLHOFDDBA2(Mandatory) SET GCELLHOTDDBA2(Mandatory)

SET GCELLREV(Mandatory)

SET GCELLIDLEFDDBA1(Mandatory) SET GCELLIDLETDDBA1(Mandatory) SET GCELL2GBA1(Mandatory) SET GCELLHO2GBA2(Mandatory) SET GCELLHOFDDBA2(Mandatory) SET GCELLHOTDDBA2(Mandatory)

SET GCELLREV(Mandatory) ADD IPPATH(Mandatory) ADD ADJMAP(Mandatory) ADD TRMMAP(Mandatory) ADD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory)

SET GTRXIUO(Mandatory)

SET GCELLPSCHM(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

ADD GCELL(Optional)

SET OPT(Optional)

SET OPT(Mandatory)

SET OPT(Optional)

SET OPT(Optional)

SET OPT(Optional)

SET OPT(Optional)

SET OPT(Mandatory)

SET OPT(Optional)

SET OPT(Optional)

SET OPT(Optional)

SET COPTLNK(Optional)

SET COPTLNK(Optional)

SET COPTLNK(Optional)

SET COPTLNK(Optional)

SET COPTLNK(Optional) SET OPT(Optional) SET COPTLNK(Optional)

SET BTSJBF(Mandatory)

SET BTSOTHPARA(Optional)

SET OTHSOFTPARA(Optional)

SET MSP(Optional)

SET GCELLHOAD(Optional) ADD GCELL(Mandatory) ADD ADD GEXT2GCELL(Mandatory) PPPLNK(Optional) ADD ADD GEXT3GCELL(Mandatory) MPLNK(Optional) SET FHO(Mandatory) ADD BTSAUTOPLAN(Mandatory) SET BTSAUTOPLANCFG(Optional) ADD GCELLQUICKSETUP(Mandatory)

SET BTSAUTOPLANCFG(Optional)

ADD ETHTRK(Mandatory)

SET GCELLLCS(Mandatory)

SET GCELLLCS(Mandatory)

SET GCELLLCS(Mandatory)

SET GCELLLCS(Mandatory)

SET GCELLLCS(Mandatory)

SET GCELLLCS(Mandatory)

ADD GPS(Mandatory)

ADD GPS(Mandatory)

ADD IPLOGICPORT(Optional)

ADD IPLOGICPORT(Optional)

ADD IPLOGICPORT(Optional)

ADD IPLOGICPORT(Optional)

ADD IPLOGICPORT(Optional)

SET GCELLBASICPARA(Optional)

ADD GEXT2GCELL(Optional)

SET GCELLHOAD(Optional)

ADD GEXTSMLC(Optional)

ADD GEXTSMLC(Optional)

SET LDR(Optional)

SET LDR(Optional)

SET LDR(Optional) ADD M3LE(Mandatory) ADD M3DE(Mandatory)

EXP LOG(Optional)

COL LOG(Optional)

SET ALMML(Mandatory)

ADD ETHMD(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

ADD G2GNCELL(Optional)

ADD G2GNCELL(Optional)

ADD BRD(Optional) CON PATCH(Optional) LOD PATCH(Optional) LOD BRD(Optional) ADD PPPLNK(Mandatory) ADD MPGRP(Mandatory)

ADD BRD(Optional)

ADD PBSL(Optional)

SET BTSEXD(Optional)

SET LICALMTHD(Mandatory)

SET LICALMTHD(Mandatory)

LOP LAPDLNK(Mandatory)

EXP GCELLTEMPLATE(Optional)

ADD MTP3LNK(Optional)

SET ALMPORT(Optional)

SET BTSENVALMPORT(Optional)

SET E1T1LOP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET OPT(Optional)

ADD SEMILINK(Optional)

ADD M3LNK(Optional)

ADD MTP3LKS(Optional)

ADD M3LKS(Optional) ADD GEXT2GCELL(Optional) ADD GEXT3GCELL(Optional) SET GCELLHOAD(Optional)

ADD GCNOPERATOR(Optional)

SET BSCPSSOFTPARA(Optional)

SET BTSPMUBP(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOBASIC(Optional)

ADD GEXT2GCELL(Optional)

ADD GEXT3GCELL(Optional)

ADD G2GNCELL(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOAD(Optional)

SET BTSDPMUBP(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET BSCABISPRIMAP(Optional)

SET GBSCREDGRP(Mandatory)

ADD PPPLNK(Mandatory)

ADD MPGRP(Mandatory) ADD BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory) ADD BTSMPGRP(Mandatory) IMP BTSMPGRP(Mandatory)

ADD NSVLLOCAL(Mandatory)

ADD SGSNROUTEINFO(Mandatory) ADD BTSLOCGRP(Mandatory) ADD BTSRXU2LOCGRP(Mandatory) SWP BTSLOCGRP(Mandatory)

ADD BTSOBJALMSHLD(Mandatory) EXP ALMLOG(Optional) STA ALMLOG(Optional)

ADD SCTPLNK(Mandatory)

ADD SCTPLNK(Optional)

SET OPLOCK(Mandatory)

ADD SCTPLNK(Mandatory)

SET LODCTRL(Mandatory) LOD BTSSW(Optional) LOD BTSPATCH(Optional)

SET FCCPUTHD(Optional)

SET FCMSGQTHD(Optional)

ADD SCTPLNK(Mandatory)

ADD SCTPLNK(Mandatory)

ADD SCTPLNK(Mandatory)

SET FCCPUTHD(Optional)

SET FCMSGQTHD(Optional)

SET FCSW(Optional)

COL LOG(Mandatory) STR BTSLOG(Mandatory) ULD BTSLOG(Mandatory)

SET GCELLLCS(Mandatory)

SET GCELLLCS(Mandatory)

SET GCELLLCS(Mandatory)

SET GCELLLCS(Mandatory)

SET GCELLLCS(Mandatory)

SET GCELLLCS(Mandatory)

ADD GPS(Mandatory)

ADD GPS(Mandatory)

STR BTSTST(Optional)

STR FRPORTLOOP(Mandatory)

SET E1T1(Optional)

LOP LAPDLNK(Mandatory)

SET GCELLCHMGAD(Optional)

STR CALLRESLOP(Mandatory)

STR CALLRESLOP(Mandatory)

SET E1T1LOP(Mandatory)

SET OPTLOP(Mandatory)

STR CALLRESLOP(Optional)

ADD IPLOGICPORT(Optional)

SET GCELLSOFT(Optional)

SET BTSFLEXABISPARA(Optional)

SET GCELLOTHBASIC(Optional)

SET GCELLCHMGAD(Optional)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional)

STR TRANSPERFTST(Mandatory)

ADD IPPATH(Mandatory)

ADD IPLOGICPORT(Optional)

SET BTSIP(Mandatory)

ADD IPPATH(Mandatory)

ADD IPLOGICPORT(Mandatory)

SET GCELLEGPRSPARA(Optional)

SET BTSAPMUBP(Optional)

SET BTSAPMUBP(Optional)

SET LDR(Optional)

EXP LOG(Optional) EXP BTSIPPARA(Optional) EXP BTSVLAN(Optional) EXP CMP BTSDEVIP(Optional) TBLDATA(Optional) EXP BTSPPPLNK(Optional) EXP BTSMPGRP(Optional) EXP BTSMPLNK(Optional) EXP BTSIPRT(Optional)

LOD BRD(Optional)

SET LOGLIMIT(Mandatory)

EXP LOG(Mandatory)

SET BTSDHEUBP(Optional)

SET BTSEXD(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET DSPLVDSMODE(Mandatory)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSAPMUBP(Optional)

SET SCTPSRVPORT(Optional)

ADD XPUVLAN(Mandatory)

SET BTSETHPORT(Optional)

SET BTSETHPORT(Optional)

SET GCELLSOFT(Optional) ADD ETHMA(Mandatory) ADD ETHMEP(Mandatory) PING MAC(Mandatory) TRC MAC(Mandatory)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

ADD BTSESN(Mandatory)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSBINDLOCGRP(Mandatory)

ADD BTS(Optional)

SET BTSAUTODLDACTINFO(Mandatory)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET GCELLMAIOPLAN(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional) ADD ETHMA(Mandatory) PING BTSCFM(Mandatory) TRC BTSCFM(Mandatory)

ADD BTSETHMA(Mandatory) ADD BTSETHLCMEP(Mandatory) ADD BTSETHRMMEP(Mandatory)

ADD PPPLNK(Mandatory)

ADD MPGRP(Mandatory) ADD ETHIP(Mandatory) ADD EMSIP(Mandatory)

ADD ICMPGUARD(Mandatory) ADD IPRTBIND(Mandatory) ADD ETHTRKIP(Mandatory)

ADD GCBSADDR(Mandatory) SET BTSETHPORT(Optional) IMP BTSDEVIP(Optional) ADD BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory) ADD BTSMPGRP(Mandatory) IMP BTSMPGRP(Mandatory)

ADD BTSAUTOPLAN(Mandatory)

SET BTSIPCLKPARA(Mandatory)

SET GCELLPWR2(Optional)

ADD SCTPLNK(Optional)

ADD IPLOGICPORT(Optional)

SET GCELLHOAD(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET BTSBAKPWR(Optional) ADD BTSAUTOPLAN(Mandatory) SET BTSAUTOPLANCFG(Optional)

SET BTSAUTOPLANCFG(Optional)

ADD IPMUX(Optional)

SET OTHSOFTPARA(Optional)

ADD PPPLNK(Optional)

ADD MPGRP(Optional)

SET PWDPOLICY(Optional)

SET ALMCAPACITY(Optional)

SET BTSDPMUBP(Optional)

ADD SCTPLNK(Optional)

SET OTHSOFTPARA(Optional)

SET GTRXBASE(Optional)

SET GCELLPSCHM(Optional)

SET BSCPSSOFTPARA(Optional)

SET PWDPOLICY(Optional)

SET BTSPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET GCELLHOAD(Optional)

SET GCELLPRACH(Optional)

SET GCELLPRACH(Optional)

SET GCELLPRACH(Optional)

SET GCELLPRACH(Optional)

ADD PPPLNK(Optional)

ADD MPGRP(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLCCAD(Optional)

SET GCELLCCAD(Optional)

SET GCELLCCAD(Optional)

STR POSAVE(Optional)

SET GTRXBASE(Optional)

TRC IPADDR(Optional)

SET GCELLPWR2(Optional)

SET PWDPOLICY(Optional)

ADD IPRTBIND(Mandatory)

STR IPCHK(Mandatory)

SET GCELLCCBASIC(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOFITPEN(Optional)

COL SYNCINFO(Mandatory) ADD GCNOPERATOR(Mandatory) ADD GCELL(Mandatory) ADD GEXT2GCELL(Mandatory) ADD GEXT3GCELL(Mandatory) COL SYNCINFO(Mandatory) SET FHO(Mandatory) ADD BTSAUTOPLAN(Mandatory) SET BTSAUTOPLANCFG(Optional) ADD GCELLQUICKSETUP(Mandatory)

SET BTSAUTOPLANCFG(Optional)

ADD MPGRP(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD NCELL(Mandatory) COL SYNCINFO(Mandatory) ADD NCELL(Mandatory) COL SYNCINFO(Mandatory)

SET BTSFMUABP(Optional) SET BTSAPMUBP(Optional) SET BTSDATUBP(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional)

SET GCELLCHMGAD(Optional)

SET BTSPSUFP(Optional) ADD ETHMD(Mandatory) ADD ETHMA(Mandatory)

ADD BTSETHMD(Optional) ADD ETHMD(Mandatory) PING BTSCFM(Mandatory) TRC BTSCFM(Mandatory) ADD BTSETHMD(Mandatory) ADD BTSETHMA(Mandatory) ADD BTSETHLCMEP(Mandatory) ADD BTSETHRMMEP(Mandatory)

SET GCELLPSI1(Optional)

ADD GNRNC(Mandatory)

SET GCELLCCUTRANSYS(Optional)

ADD ETHMEP(Mandatory) ADD BTSETHLCMEP(Mandatory) ADD BTSETHRMMEP(Mandatory)

ADD ETHMEP(Mandatory)

ADD MPGRP(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional)

SET GCELLNC2PARA(Optional)

ADD IPLOGICPORT(Optional)

ADD GEXT3GCELL(Optional)

ADD G2GNCELL(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET GCELLHOCTRL(Optional)

SET GCELLCHMGBASIC(Optional)

ADD GEXT3GCELL(Optional)

STR IPCHK(Optional)

ADD BTSBFD(Optional)

STR IPCHK(Optional)

ADD BTSBFD(Optional)

STR ETHMIRRORPORT(Mandatory)

STR ETHMIRRORPORT(Mandatory) ADD GCNOPERATOR(Mandatory) ADD GCELL(Mandatory) ADD GEXT2GCELL(Mandatory) ADD GEXT3GCELL(Mandatory) STR ETHMIRRORPORT(Mandatory) SET FHO(Mandatory) ADD BTSAUTOPLAN(Mandatory) SET BTSAUTOPLANCFG(Optional) ADD GCELLQUICKSETUP(Mandatory)

SET BTSAUTOPLANCFG(Optional)

SET BSCFCPARA(Optional)

SET CLKMODE(Mandatory)

ADD SCTPLNK(Mandatory)

SET QUICKCFG(Mandatory) SWP MBSCMODE(Mandatory) CHK MODEDATA(Mandatory)

SET GCSFILE(Mandatory)

SET MSP(Optional)

STR IPCHK(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

SET BTSDATUBP(Optional)

STR BTSRACKTEMPMON(Mandatory)

STR BTSRACKTEMPMON(Mandatory)

SET BTSAUTODLDACTINFO(Mandatory)

SET GCELLHOFAST(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD MPGRP(Mandatory) ADD MPLNK(Mandatory)

ADD IPLOGICPORT(Optional) ADD BTSMPGRP(Mandatory) ADD BTSMPLNK(Mandatory) IMP BTSMPGRP(Mandatory) IMP BTSMPLNK(Mandatory) SET ADD BTSFMUABP(Optional) BTS(Optional) SET BTSAPMUBP(Optional) SET BTSDATUBP(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional) ADD BTSMPGRP(Optional) IMP BTSMPGRP(Optional)

ADD MPGRP(Optional)

SET MPUBIND(Mandatory) ADD BRD(Mandatory) SET MPUBIND(Mandatory) ADD BRD(Mandatory)

SET GCELLPWR2(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLPWR3(Optional)

SET GCELLHOCTRL(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET GMRSCOPE(Mandatory)

SET GMRCTRL(Mandatory) ADD BTSPPPLNK(Optional) ADD BTSMPLNK(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPLNK(Optional)

ADD AISSCFG(Optional)

SET GCELLSOFT(Optional)

ADD GCNNODE(Optional)

ADD GCNOPERATOR(Mandatory)

ADD GCNOPERATOR(Optional)

ADD GCNOPERATOR(Optional)

ADD GCNNODE(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLTMR(Optional) CHK INNSPCH(Mandatory) STR CALLRESLOP(Mandatory) ADD GCSCHRUSER(Mandatory)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET BSSLS(Optional)

SET GCELLHOFAST(Optional)

SET GCELLCCBASIC(Optional)

SET MSPCMD(Mandatory)

SET GCELLPSCHM(Optional) SET SET BTSFMUABP(Optional) GCELLPSCHM(Optional) SET BTSAPMUBP(Optional) SET BTSDATUBP(Optional) SET BTSDEMUBP(Optional) SET BTSDHEUBP(Optional)

ADD GEXT2GCELL(Optional)

SET GCELLNC2PARA(Optional)

SET BSSGPPARA(Optional)

SET GBSCREDGRP(Optional)

SET GCELLSERVPARA(Optional)

SET SLFSLVSW(Optional)

SET BSCFCPARA(Optional)

CHK E1T1CRS(Mandatory)

ADD MTP3LNK(Mandatory)

ADD GPS(Optional)

ADD SCTPLNK(Optional)

SET ETHPORT(Optional)

SET BTSETHPORT(Optional)

SET BTSBAT(Optional)

SET GCELLSERVPARA(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

ADD PPPLNK(Optional)

ADD MPGRP(Optional)

ADD IPMUX(Mandatory)

SET BTSCABPARA(Optional)

STR IPCHK(Optional)

SET BTSRINGATTR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLSTANDARDOPTPARA(Optional)

SET GCELLSTANDARDOPTPARA(Optional)

SET GCELLSTANDARDOPTPARA(Optional)

ADD BC(Optional)

ADD BC(Optional)

ADD BC(Optional)

SET GCELLGPRS(Optional)

ADD OPC(Mandatory)

ADD N7DPC(Mandatory)

ADD MTP3RT(Mandatory)

ADD MTP3LKS(Mandatory)

ADD MTP3LNK(Mandatory)

ADD ADJNODE(Mandatory)

ADD M3LE(Mandatory)

ADD M3DE(Mandatory)

ADD M3RT(Mandatory)

ADD M3LKS(Mandatory)

ADD M3LNK(Mandatory)

ADD PCU(Mandatory)

SET GCELLCHMGAD(Optional)

SET GCELLPSPWPARA(Optional)

SET GCELLBASICPARA(Optional)

ADD GIBCAPNCGRP(Mandatory)

ADD GIBCAPNCGRP(Mandatory)

ADD GIBCAPNCGRP(Mandatory)

ADD GIBCAPNCGRP(Mandatory)

ADD G2GNCELL(Mandatory)

ADD G2GNCELL(Mandatory)

ADD G3GNCELL(Mandatory)

ADD G3GNCELL(Mandatory)

SET BTSAUTOPLANCFG(Optional)

ADD G2GNCELL(Mandatory)

ADD G2GNCELL(Mandatory)

ADD G2GNCELL(Mandatory)

ADD G2GNCELL(Mandatory)

SET GCELLGPRS(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLGPRS(Optional) ADD GCELL(Optional) ADD GEXT2GCELL(Mandatory)

ADD GCELLQUICKSETUP(Optional)

SET GCELLIDLEBASIC(Optional)

SET GCELLEXTMSRPARA(Optional)

SET GCELLHOFAST(Optional)

SET GCELLHOFITPEN(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLGSMR(Optional)

SET GCELLGSMR(Optional)

SET GCELLPSBASE(Optional)

ADD N7DPC(Optional)

ADD XPUVLAN(Mandatory)

SET GCELLHOCTRL(Optional)

ADD OMUIPRT(Mandatory)

ADD IPRT(Mandatory)

ADD IPRTBIND(Mandatory) ADD BTSIPRT(Mandatory) ADD BTSIPRTBIND(Mandatory) IMP BTSIPRT(Mandatory)

ADD OPC(Mandatory)

DLD TCFILE(Mandatory)

SET GCELLPSBASE(Optional)

SET BTSALMPORT(Mandatory)

SET BTSALMPORT(Mandatory)

SET BTSALMPORT(Mandatory)

SET BTSALMPORT(Mandatory)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET PWRPARA(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOBASIC(Optional)

ADD ADJNODE(Mandatory)

SET GCELLHOEMG(Optional)

SET GCELLHOEMG(Optional)

SET GCELLHOEMG(Optional)

SET BTSPMUBP(Optional)

SET GCELLPWR3(Optional)

SET GCELLNWCTRLMSRPARA(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET GCELLNC2PARA(Optional)

SET BTSCABPARA(Optional)

SET OTHSOFTPARA(Optional)

SET GTRXRLALM(Optional)

SET BTSFALLBACK(Optional)

TRC IPADDR(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOFITPEN(Optional)

ADD NRIMSCMAP(Mandatory)

ADD NRISGSNMAP(Mandatory) ADD NSE(Mandatory) ADD NSVC(Mandatory) SET OTHSOFTPARA(Optional) ADD NSVLLOCAL(Mandatory) ADD NSVLREMOTE(Mandatory) ADD PTPBVC(Mandatory) BLK PTPBVC(Mandatory)

ADD GCELLQUICKSETUP(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLLCS(Optional)

ADD NSVC(Mandatory) ADD NSVC(Mandatory) BLK NSVC(Mandatory)

SET BTSDHEUBP(Optional)

SET BTSDHEUBP(Optional)

SET GCELLGSMR(Optional)

SET ETHPORT(Optional)

ADD PPPLNK(Optional)

ADD MPGRP(Optional)

ADD IPLOGICPORT(Optional)

ADD ETHTRK(Optional)

SET QUEUEMAP(Mandatory)

SET QUEUEMAP(Optional)

SET BTSANTANGLE(Mandatory)

STR TRXBURSTTST(Mandatory)

ADD GCSCHRUSER(Optional)

ADD GPSCHRUSER(Optional)

ADD OBJALMSHLD(Mandatory)

ADD BTSOBJALMSHLD(Mandatory)

SET FHO(Mandatory)

SET GCELLPSOTHERPARA(Optional)

SET GCELLHOIUO(Optional)

SET BTSOMLBACKUP(Optional)

SET BTSOMLDETECT(Mandatory)

SET OTHSOFTPARA(Optional)

SET BSCABISPRIMAP(Optional)

SET BTSBWPARA(Mandatory)

SET BTSBWPARA(Mandatory)

SET BSCABISPRIMAP(Optional)

SET BSCSRVPRI(Optional)

SET BSCABISPRIMAP(Optional)

SET BTSLAPDWS(Optional)

ADD EMSIP(Optional)

ADD EMSIP(Optional)

EXP LOG(Optional) ADD OP(Mandatory) ULK USR(Mandatory) ADD BTSOP(Mandatory)

ADD GCELLOSPMAP(Mandatory)

ADD GCELLQUICKSETUP(Mandatory) BLK ACIC(Mandatory) ADD AE1T1(Mandatory)

ADD GCNOPERATOR(Mandatory)

ADD GCNOPERATOR(Mandatory)

ADD GCBSADDR(Mandatory)

UPD JTGCPLD(Mandatory)

BLK ACIC(Mandatory)

BLK ATERE1T1(Mandatory) ADD GCNNODE(Mandatory) ADD GCNOPERATOR(Mandatory) BLK AE1T1(Mandatory) ADD GCELL(Optional) ADD GEXTSMLC(Mandatory) ADD GEXT2GCELL(Optional) ADD GEXT3GCELL(Optional) BLK PBCIC(Mandatory) ADD NSE(Mandatory) ADD SGSNNODE(Mandatory) ADD NRISGSNMAP(Mandatory) ADD PCU(Mandatory)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET GTRXDEV(Optional)

SET OPT(Optional)

SWP BTSBRD(Mandatory)

SET BTSFORBIDTS(Mandatory)

ADD GNRNC(Mandatory)

ADD BTSTOPCONFIG(Mandatory) CON PATCH(Optional) LOD PATCH(Optional)

ADD GCELLQUICKSETUP(Optional)

SET BTSOTHPARA(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLTMR(Optional)

SET GCELLTMR(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOEDBPARA(Optional)

SET GTRXDEV(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLHOEDBPARA(Optional)

ADD SEMILINK(Optional)

ADD SEMILINK(Mandatory)

ADD DXXTSEXGRELATION(Mandatory)

ADD DXXTSEXGRELATION(Mandatory)

SET BTSDTMUBP(Optional)

SET BTSDTMUBP(Optional)

SET BTSDTMUBP(Optional)

SET BTSDTMUBP(Optional)

ADD BTSLOCGRP(Mandatory)

ADD BTSLOCGRP(Mandatory)

ADD BTSLOCGRP(Optional)

SET GCELLHOEDBPARA(Optional)

SET GCELLSOFT(Optional)

ADD SEMILINK(Mandatory)

ADD ABISLOADSHARE(Mandatory)

ADD SEMILINK(Mandatory)

SET GCELLHOINTERRATLDB(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

ADD GNRNC(Optional)

ADD SEMILINK(Mandatory)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET GCELLCCCH(Optional)

SET BTSCABPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BTSOTHPARA(Optional)

SET GCELLPSOTHERPARA(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLCCBASIC(Optional)

SET GCELLPSBASE(Optional)

SET GCELLPSBASE(Optional)

SET GCELLPSBASE(Optional)

SET GTRXDEV(Optional)

SET BTSAUTODLDACTINFO(Mandatory)

SET BTSAUTODLDACTINFO(Mandatory)

ADD IPPATH(Optional)

ADD IPPATH(Mandatory) ADD IPMUX(Mandatory) ADD IPPATHBIND(Mandatory)

SET GCELLPWRBASIC(Optional)

SET GCELLHOBASIC(Optional)

ADD IPPATH(Optional) CON PATCH(Optional) LOD PATCH(Optional)

SET GCELLPSPWPARA(Optional)

SET GCELLHOBASIC(Optional)

ADD G2GNCELL(Optional)

ADD G2GNCELL(Optional)

ADD G2GNCELL(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPSPWPARA(Optional)

BLK PBCIC(Mandatory)

ADD PCU(Mandatory)

ADD PBE1T1(Mandatory)

SET GCELLGPRS(Mandatory)

SET BTSFLEXABISPARA(Optional)

SET GCELLPSCHM(Optional)

SET GCELLSOFT(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

ADD M3LKS(Optional)

SET GBSCREDGRP(Mandatory)

SET BTSIP(Mandatory)

SET BTSIP(Mandatory)

SET BTSIP(Mandatory)

SET BTSIP(Mandatory)

ADD PPPLNK(Mandatory)

ADD MPGRP(Mandatory)

STR IPCHK(Mandatory) ADD BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory)

ADD BTSMPGRP(Mandatory) IMP BTSMPGRP(Mandatory)

ADD SCTPLNK(Mandatory)

ADD SCTPLNK(Optional)

ADD IPPATH(Mandatory)

ADD IPPATH(Optional)

ADD SCTPLNK(Mandatory)

SET BTSLOADCTRL(Mandatory)

SET GCELLHOCTRL(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLHOFITPEN(Optional)

ADD IPPATH(Optional)

STR NCS(Mandatory)

ADD PPPLNK(Optional)

ADD MPGRP(Optional) ADD BTSPPPLNK(Optional) ADD BTSMPGRP(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPGRP(Optional)

ADD NSE(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET PHBMAP(Mandatory)

ADD IPMUX(Mandatory)

SET GCELLIDLEBASIC(Optional)

SET CERTFILE(Optional)

STR ETHOAMLOOPTST(Optional)

STR ETHOAMLOOPTST(Optional)

STR FRPORTLOOP(Mandatory)

ADD BTSABISMUXFLOW(Optional)

SET GCELLGPRS(Optional)

PING IP(Optional) PING MAC(Optional) PING BTSCFM(Optional)

SET GCELLPRACH(Optional)

SET GTRXDEV(Optional)

SET GCELLPRACH(Optional)

SET GCELLPRACH(Optional)

SET GTRXDEV(Optional)

SET GCELLPRACH(Optional)

SET GTRXDEV(Optional)

ADD IPLOGICPORT(Optional)

ADD IPLOGICPORT(Optional)

SET TCPLYVOICE(Mandatory)

SET TCPLYVOICE(Mandatory)

SET TCPLYVOICE(Optional)

SET FCCPUTHD(Optional)

SET FCMSGQTHD(Optional)

SET GCELLSOFT(Mandatory)

SET GCELLSOFT(Mandatory)

SET GCELLSOFT(Optional)

SET FCCPUTHD(Optional)

SET FCMSGQTHD(Optional)

SET FCSW(Optional)

SET SCUPORT(Optional)

SET ALMPORT(Mandatory)

SET XPUPORT(Optional)

ADD ATERE1T1(Mandatory) ADD AE1T1(Mandatory) BLK AE1T1(Mandatory)

BLK ATERE1T1(Mandatory)

ADD PBE1T1(Mandatory)

ADD OBJALMSHLD(Mandatory) SET MSPCMD(Mandatory) SET MSP(Mandatory)

SET E1T1LOP(Optional) LOP E1T1(Optional) SET E1T1(Optional)

STR E1T1TST(Optional)

SET OPTLOP(Mandatory)

SWP ETHPORT(Mandatory)

SET OPT(Optional)

SET COPTLNK(Optional)

SET ETHPORT(Optional) ADD ETHREDPORT(Mandatory) ADD ETHIP(Mandatory) ADD ETHMEP(Mandatory)

ADD IPLOGICPORT(Optional) STR IPCHK(Optional) STR ETHOAMLOOPTST(Mandatory)

STR FRPORTLOOP(Optional)

CHK E1T1CRS(Mandatory)

ADD BC(Mandatory)

ADD PBSL(Mandatory)

ADD BTSAUTOPLAN(Mandatory) SET BTSENVALMPORT(Mandatory) SET ADD BTSFORBIDTS(Mandatory) BTSOBJALMSHLD(Mandatory) ADD BTSPPPLNK(Mandatory) ADD BTSMPLNK(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPLNK(Mandatory)

SET BTSOMLTS(Mandatory)

ADD BTSCONNECT(Mandatory) SET BTSETHPORT(Mandatory) IMP BTSDEVIP(Mandatory)

ADD BTSETHLCMEP(Mandatory)

STR BTSTST(Optional)

SET GCELLPSOTHERPARA(Optional)

SET GCELLPSOTHERPARA(Optional)

SET GCELLPSOTHERPARA(Optional)

SET GCELLPSOTHERPARA(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

ADD ROLLBACKPOINT(Optional) BEG ROLLBACK(Mandatory) BEG FORWARD(Mandatory) ADD ROLLBACKPOINT(Mandatory)

ADD FTPSCLTDPORT(Mandatory)

SWP BTSRING(Optional)

SWP BTSOMLLINK(Optional)

ADD DXXCONNECT(Mandatory)

ADD DXX(Optional)

ADD PORTFLOWCTRLPARA(Mandatory)

SET XPUPORT(Mandatory)

ADD ETHMEP(Mandatory)

ADD BTSTOPCONFIG(Mandatory)

SET GCELLCCUTRANSYS(Optional) LOD BTSPATCH(Mandatory) CON BTSPATCH(Mandatory)

SET BTSAPMUBP(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

SET BTSPMUBP(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLBASICPARA(Optional)

SET BTSPMUBP(Optional)

SET BTSPOWERTYPE(Optional)

SET GTRXDEV(Optional)

SET GTRXDEV(Optional) ADD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) ADD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional)

ADD PPPLNK(Optional)

ADD MPLNK(Optional)

ADD IPLOGICPORT(Optional) ADD BTSPPPLNK(Mandatory) ADD BTSMPLNK(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPLNK(Mandatory) ADD PPPLNK(Optional) ADD MPGRP(Optional)

ADD PORTFLOWCTRLPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLCCAD(Optional)

SET GMRCTRL(Optional) ADD BTSIPRT(Optional) IMP BTSIPRT(Optional)

SET GCELLPSBASE(Optional)

SET BSCFCPARA(Optional)

SET GCELLHOCTRL(Optional)

SET FCCPUTHD(Optional)

SET FCMSGQTHD(Optional)

SET FCCPUTHD(Optional)

SET FCMSGQTHD(Optional)

SET FCSW(Optional)

SET GCELLBASICPARA(Optional)

ADD GEXT2GCELL(Optional)

SET BTSFLEXABISPARA(Optional)

SET GCELLSERVPARA(Optional) ADD MTP3RT(Optional) ADD M3RT(Optional) ADD MTP3LNK(Optional) ADD M3LNK(Optional)

ADD IPRT(Mandatory)

SET BTSOTHPARA(Mandatory)

SET BTSOTHPARA(Mandatory)

SET BTSOTHPARA(Mandatory)

SET CERTFILE(Optional)

SET BTSOTHPARA(Optional)

ADD N7DPC(Optional)

ADD BC(Optional)

SET BTSABISTROP(Optional)

SET GCELLDYNTURNOFF(Optional)

SET BSCDSTPA(Optional) SET E1T1(Optional) CHK E1T1CRS(Mandatory)

SET OPT(Optional)

SET COPTLNK(Mandatory)

SET GPSCHRCTRL(Optional)

SET GPSCHRCTRL(Optional)

SET GPSCHRCTRL(Optional)

SET GPSCHRCTRL(Optional)

SET GPSCHRCTRL(Optional)

ADD TRMFACTOR(Optional)

ADD TRMFACTOR(Optional)

ADD NSE(Optional)

ADD TRMMAP(Optional)

ADD TRMMAP(Optional)

ADD GCELL(Optional)

SET GCELLPSI1(Optional)

SET GCELLPSI1(Optional)

ADD TRMMAP(Optional)

ADD TRMMAP(Optional)

ADD GCELL(Optional)

SET GCELLHOIUO(Optional)

SET GPSCHRCTRL(Optional)

SET GCELLCCACCESS(Optional)

ADD BTSLOCGRP(Optional)

SET GPSCHRCTRL(Mandatory)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET GCELLHOIUO(Optional)

SET BTSOTHPARA(Optional)

SET SLFSLVSW(Optional)

SET ALMPORT(Mandatory)

ADD SNTPSRVINFO(Mandatory)

SET GCELLIDLEAD(Optional)

ADD NSE(Mandatory)

SET BTSENVALMPORT(Optional)

SET E1T1(Optional)

SET E1T1(Optional)

SET E1T1(Optional)

SET E1T1(Optional) ADD BTSABISHDLCPATH(Mandatory) ADD BTSBIND2HDLCPATH(Mandatory) ADD GTRXBIND2HDLCPATH(Mandatory)

SET ETHPORT(Mandatory)

SET BTSAPMUBP(Optional)

SET CERTFILE(Optional)

SET BTSAUTODLDACTINFO(Optional) LOD BTSPATCH(Mandatory) CON BTSPATCH(Mandatory)

SET BSCPSSOFTPARA(Optional)

SET CERTFILE(Mandatory) ADD OP(Mandatory) DLD LICENSE(Mandatory) DLD ULD RETANTCFG(Mandatory) LICENSE(Mandatory) ULD BTSDEVFILE(Mandatory) DLD BTSPATCH(Mandatory) ULD BTSLOG(Mandatory) DLD BTSSW(Mandatory)

SET PWDPOLICY(Optional)

STR BTSTST(Mandatory)

SET PWRALMSW(Optional)

SET PWRALMSW(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLCCACCESS(Optional)

SET GCELLCCACCESS(Optional)

SET GCELLSOFT(Optional)

ADD BTSBRDCAP(Mandatory) ADD BTSRXUBRD(Optional)

SET BTSBAKPWR(Optional)

SET GCELLCHMGAD(Optional)

SET GTRXDEV(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET QUEUEMAP(Optional)

SET QUEUEMAP(Optional)

SET QUEUEMAP(Optional)

SET QUEUEMAP(Optional)

SET QUEUEMAP(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOAD(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLPSOTHERPARA(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLSOFT(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET BTSAIRCON(Optional)

SET BTSAIRCON(Optional)

SET GCELLPWR2(Optional)

SET GCELLSOFT(Optional)

SET GCELLHOBASIC(Optional)

SET BTSAUXEQP(Optional)

SET BTSBAT(Optional)

SET BTSBAT(Mandatory)

SET BTSBAT(Mandatory)

SET BTSBAT(Mandatory)

SET BTSAUXEQP(Optional)

SET BTSBAT(Optional)

SET BTSBAT(Mandatory)

SET BTSBAT(Mandatory)

SET BTSBAT(Mandatory)

SET BTSAUXEQP(Optional)

SET BTSBAT(Optional)

SET BTSBAT(Mandatory)

SET BTSBAT(Mandatory)

SET BTSBAT(Mandatory)

ADD GEXT2GCELL(Optional)

ADD GEXT3GCELL(Optional)

SET GCELLGPRS(Optional)

SET BTSAUTOPLANCFG(Optional)

ADD GCELLQUICKSETUP(Optional)

SET BTSAUTOPLANCFG(Optional)

SET GCELLCCACCESS(Optional)

SET GCELLCCBASIC(Optional)

SET GCELLCCCH(Optional)

ADD BTSLOCGRP(Optional)

SET GCELLPSBASE(Optional)

SET GCELLRESELECTPARA(Optional)

SET GCELLCCACCESS(Optional)

SET GCELLRESELECTPARA(Optional)

SET BTSETHPORT(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GMRCTRL(Optional)

BEG FORWARD(Mandatory)

RUN BATCHFILE(Optional) ADD BTSRXUCHAIN(Mandatory) SET BTSBREAKPOINT(Mandatory) SPT BTSRXUCHAIN(Mandatory)

CBN BTSRXUCHAIN(Mandatory)

CBN BTSRXUCHAIN(Mandatory)

SET GTRXDEV(Optional)

ADD IPLOGICPORT(Optional)

SET GCELLCCBASIC(Optional)

SET GCELLCCAD(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET OTHSOFTPARA(Optional)

ADD IPLOGICPORT(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

ADD BRD(Mandatory)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET CLK(Optional)

SET CLK(Optional)

SET CLK(Optional)

SET CLK(Optional)

SET CLK(Optional)

SET CLK(Optional)

SET CLK(Optional)

SET BTSLSW(Optional)

SET GREDGRPPRIMHOSTPOLICY(Mandatory)

SET GREDGRPPRIMHOSTPOLICY(Mandatory)

SET GREDGRPPRIMHOSTPOLICY(Mandatory)

ADD AISSCFG(Mandatory)

SET BTSRXUBP(Mandatory)

SET BTSDFCUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Mandatory)

SET BTSRXUBP(Mandatory)

SET BTSDFCUBP(Optional) ADD TRMMAP(Optional) ADD TRMFACTOR(Mandatory)

ADD IPRT(Mandatory)

ADD NSVLREMOTE(Mandatory)

ADD GSMSCB(Mandatory)

SET GCELLCCBASIC(Optional)

SET GCELLCCBASIC(Optional)

SET GCELLCCBASIC(Optional)

SET BTSENVALMPORT(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLNC2PARA(Optional)

SET GCELLPSCHM(Optional)

SET GCELLOTHEXT(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET PWDPOLICY(Optional)

SET BSCNSPARA(Optional)

SET BTSOTHPARA(Optional)

SET BSCNSPARA(Optional)

TST SNDRSI(Mandatory)

SET OTHSOFTPARA(Optional) DLD LICENSE(Optional) ULD LICENSE(Optional)

ADD PPPLNK(Optional)

ADD MPLNK(Optional) EXP ALMLOG(Optional) STA ALMLOG(Optional)

ADD GNRNC(Optional)

SET GCELLCHMGBASIC(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLCCCH(Optional)

ADD SUBTSK(Optional)

ADD BTS(Optional)

SET BTSDGPSBP(Optional)

ADD NSE(Optional)

SET E1T1LOP(Optional)

SET GCELLCCBASIC(Optional)

SET BSCBASIC(Optional)

ADD GEXT3GCELL(Mandatory)

ADD GEXT3GCELL(Optional) ADD GNRNC(Mandatory) ADD GIURGCONN(Mandatory)

ADD GNRNC(Mandatory)

SET CERTFILE(Optional)

ADD SGSNROUTEINFO(Mandatory)

ADD SGSNROUTEINFO(Mandatory)

SET GCELLSOFT(Optional)

SET GCELLNWCTRLMSRPARA(Optional)

SET GCELLNWCTRLMSRPARA(Optional)

ADD IPLOGICPORT(Optional)

SET GCELLOTHBASIC(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOFITPEN(Optional)

ADD IPPATH(Mandatory)

ADD RSCGRP(Mandatory)

ADD IPLOGICPORT(Optional)

SET GCELLHOFITPEN(Optional)

ADD G3GNCELL(Optional)

ADD GEXT3GCELL(Optional)

SET OPT(Optional)

SET OPT(Optional)

SET GCELLNCRESELECTPARA(Optional)

SET BTSBWPARA(Mandatory)

SET BSCABISPRIMAP(Optional)

SET BSCABISPRIMAP(Optional)

SET BTSBWPARA(Mandatory)

SET BSCABISPRIMAP(Optional)

SET BTSLAPDWS(Optional)

LCK CMCTRL(Mandatory)

SET OTHSOFTPARA(Optional)

UPD JTGCPLD(Mandatory)

RUN BATCHFILE(Optional)

ADD OPC(Optional) ADD BTSPPPLNK(Optional) ADD BTSMPLNK(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPLNK(Optional)

SET GCELLCHMGBASIC(Optional)

SET TRANSPATCHPARA(Optional)

SET TRANSPATCHPARA(Optional)

SET TRANSPATCHPARA(Optional)

SET TRANSPATCHPARA(Optional)

SET TRANSPATCHPARA(Optional)

SET TRANSPATCHPARA(Optional)

SET TRANSPATCHPARA(Optional)

SET TRANSPATCHPARA(Optional)

SET TRANSPATCHPARA(Optional)

SET TRANSPATCHPARA(Optional)

SET BSCDSTPA(Optional)

SET MSP(Optional) ADD M3LE(Optional) ADD M3DE(Optional)

ADD GCNNODE(Optional)

ADD GCNNODE(Optional)

ADD OMUIPRT(Mandatory)

ADD OMUIPRT(Mandatory) ADD BTSIPRT(Optional) IMP BTSIPRT(Mandatory)

ADD SCTPLNK(Optional)

ADD SCTPLNK(Optional)

ADD SCTPLNK(Optional)

ADD SCTPLNK(Optional)

ADD SCTPLNK(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLPSCHM(Optional) ADD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory)

ADD IPLOGICPORT(Optional)

ADD IPLOGICPORT(Optional)

SET BTSAUTODLDACTINFO(Mandatory)

ADD IPPATH(Mandatory)

ADD RSCGRP(Mandatory)

SET GCELLSERVPARA(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

ADD TRXBIND2PHYBRD(Mandatory)

SET BTSRXUBP(Mandatory)

ADD BTSRXUBRD(Mandatory)

ADD TRXBIND2PHYBRD(Mandatory)

SET BTSRXUBP(Mandatory)

ADD TRXBIND2PHYBRD(Mandatory)

SET BTSRXUBP(Mandatory)

ADD BTSRXUBRD(Mandatory)

ADD TRXBIND2PHYBRD(Mandatory)

SET BTSRXUBP(Mandatory)

ADD BTSRXUBRD(Mandatory)

SET BTSRXUBP(Mandatory)

SET OPT(Optional)

SET OPT(Optional)

SET BTSDEMUBP(Optional)

SET BTSAPMUBP(Optional)

ADD GCNNODE(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR3(Optional)

SET BTSDPMUBP(Optional)

SET GCELLDYNTURNOFF(Mandatory)

SET GCELLDYNTURNOFF(Mandatory)

SET GCELLDYNTURNOFF(Optional)

SET GCELLDYNTURNOFF(Optional)

SET GCELLDYNTURNOFF(Mandatory)

SET GCELLCCBASIC(Optional)

SET BTSDPMUBP(Optional)

SET BTSDEMUBP(Optional)

SET BTSDEMUBP(Optional)

SET BTSDOMUBP(Optional)

SET BTSAPMUBP(Optional)

COL SYNCINFO(Mandatory)

COL SYNCINFO(Mandatory)

SET GCELLCCUTRANSYS(Optional)

SET BSCPSTCDSCPMAP(Optional)

SET GCELLHOFAST(Optional) ADD NCELL(Mandatory) COL SYNCINFO(Mandatory) ADD NCELL(Mandatory) COL SYNCINFO(Mandatory) SET GCELLSBC(Optional) ADD GSMSCB(Mandatory)

STR BTSTST(Optional) ADD SUBTSK(Mandatory) ADD SUBCMD(Mandatory)

SET GMRSCOPE(Mandatory)

ADD SRCONPATH(Optional) ADD GEXT3GCELL(Mandatory) SET GCELLHOFDDBA2(Mandatory) EXP ALMLOG(Optional) STA ALMLOG(Optional) ADD SCTPLNK(Mandatory) ADD M3LNK(Mandatory)

ADD SUBTSK(Mandatory)

EXP ALMLOG(Optional)

STA ALMLOG(Optional)

SET ALMCAPACITY(Optional)

SET MSP(Optional)

STR BTSLOG(Optional)

SET TZ(Mandatory)

ADD GCELLQUICKSETUP(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOAD(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLBASICPARA(Optional)

SET MSP(Optional)

SET GCELLSOFT(Optional)

SET GTRXDEV(Optional)

SET GCELLHOCTRL(Optional)

SET GCELLPWR3(Optional)

ADD GEXT2GCELL(Optional)

ADD GEXT2GCELL(Optional)

SET BSCPSTCDSCPMAP(Optional)

SET MSP(Optional)

SET BTSAPMUBP(Optional)

ADD BTSALMMGMRULE(Mandatory)

ADD BTSALMMGMRULE(Mandatory)

SET BTSAPMUBP(Optional)

SET GCELLCCUTRANSYS(Optional)

SET BTSLOADCTRL(Mandatory)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Mandatory)

SET GCELLSOFT(Optional)

SET AITFOTHPARA(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLGSMR(Optional)

SET GCELLGSMR(Optional)

SET BTSOTHPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SPT BTSRXUCHAIN(Mandatory)

ADD BTS(Optional)

SET FTPSSRV(Mandatory)

SET FTPSSRV(Mandatory)

ADD BTSRETANT(Mandatory)

ADD FTPSCLTDPORT(Mandatory)

SET BSCBASIC(Optional)

ADD BTS(Optional)

ADD BTSAUTOPLAN(Mandatory)

EXP LOG(Optional)

SET BTSVLAN(Mandatory) IMP BTSVLAN(Mandatory) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional) SET BTSAPMUBP(Optional) SET BTSDPMUBP(Optional)

ADD BTSSFPMODE(Mandatory)

ADD SGSNNODE(Optional)

ADD SGSN(Mandatory)

ADD GCNOPERATOR(Mandatory)

ADD GCNOPERATOR(Optional)

ADD GCNOPERATOR(Optional)

SET GCELLPSBASE(Optional)

ADD SGSNNODE(Optional)

SET BSCFCPARA(Optional)

ADD ABISLOADSHARE(Mandatory)

SET BTSSHARING(Optional)

SET ALMSHLD(Mandatory)

SET BTSBAKPWR(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLHOBASIC(Optional)

ADD AISSCFG(Optional) ADD MTP3RT(Mandatory) ADD MTP3LKS(Mandatory) ADD MTP3LNK(Mandatory) ADD M3RT(Mandatory) ADD M3LKS(Mandatory) ADD M3LNK(Mandatory)

ADD M3LNK(Mandatory)

ADD NSVLLOCAL(Optional)

ADD NSVLREMOTE(Optional)

SET BSCSRVPRI(Optional)

ADD AISSCFG(Optional)

SET GCELLHOFITPEN(Optional)

ADD MTP3LNK(Mandatory)

SET GCELLHOFITPEN(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

SET BSCBASIC(Optional)

PING IP(Mandatory)

TRC IPADDR(Optional)

COL LOG(Optional)

SET BTSAISS(Mandatory)

SET BTSIPCLKPARA(Mandatory)

ADD BTSBINDLOCGRP(Mandatory)

STR TRANSPERFTST(Mandatory)

ADD N7DPC(Optional)

SET GBSCREDGRP(Optional) SWP BRD(Mandatory) STR BKP(Mandatory) CMP BRDAREA(Optional) SET TZ(Mandatory) ULD RSTINFO(Mandatory) SET CLK(Mandatory) UPD JTGCPLD(Mandatory) SET ADD XPUPORT(Mandatory) GEXTSMLC(Mandatory) ADD XPUVLAN(Mandatory) SET MPUBIND(Mandatory) SET DPUBRDTYPE(Mandatory) ADD GEXTSMLC(Mandatory) SET TCTYPE(Mandatory) ADD BRD(Mandatory) LOD BRD(Optional) SYN ADD BRDAREA(Optional) EMU(Optional) CMP TBLDATA(Mandatory) SET MSPCMD(Mandatory) SET MSP(Mandatory) SET TZ(Mandatory) BFDPROTOSW(Mandatory) STR FRPORTLOOP(Mandatory) ADD BC(Mandatory) SET FCCPUTHD(Optional) ADD NSVC(Mandatory) SET FCMSGQTHD(Optional) ADD NSVLLOCAL(Mandatory) SET PSCELLTODSP(Mandatory) SET DSPLVDSMODE(Mandatory) ADD BTSAUTOPLAN(Mandatory)

SET E1T1LOP(Mandatory) LOP E1T1(Mandatory) STR E1T1TST(Mandatory) SET OPTLOP(Mandatory) PING IP(Mandatory) TRC IPADDR(Mandatory) SET QUEUEMAP(Mandatory) SET E1T1(Mandatory) DLD ADD TCFILE(Mandatory) TSCROSS(Mandatory) ADD ADD DEVIP(Mandatory) TRXBIND2PHYBRD(Mandatory) ADD IPRT(Mandatory) MTP3LNK(Optional) SWP BTSRING(Optional) SET ADD OPT(Mandatory) SCTPLNK(Mandatory) SWP BTSOMLLINK(Optional) SET SET COPTLNK(Mandatory) BTSFMUABP(Mandatory) SET SET ETHPORT(Mandatory) BTSNFCBBP(Mandatory) ADD PPPLNK(Mandatory) SET BTSPMUBP(Mandatory) ADD M3LNK(Mandatory) ADD BTSAPMUBP(Mandatory) MPGRP(Mandatory) SET ADD BTSDATUBP(Mandatory) MPLNK(Mandatory) SET PHBMAP(Mandatory) ADD ETHIP(Mandatory) SET ADD BTSDEMUBP(Mandatory) ATERE1T1(Mandatory) ADD IPLOGICPORT(Mandatory) SET ADD BTSDFCUBP(Mandatory) AE1T1(Mandatory) ADD ICMPGUARD(Mandatory) SET BTSDHEUBP(Mandatory) STR BTSDOMUBP(Mandatory) IPCHK(Mandatory) SET ADD BTSDPMUBP(Mandatory) VLANID(Mandatory) SET BLK ADD IPPATHBIND(Mandatory) SET ATERE1T1(Mandatory) BTSDTMUBP(Mandatory) ADD IPRTBIND(Mandatory) SET BTSDGPSBP(Mandatory) ADD ETHMD(Mandatory) SET BTSDDPUBP(Mandatory) BLK AE1T1(Mandatory) ADD SET BTSUSCUBP(Mandatory) ADD ETHMA(Mandatory) PBE1T1(Mandatory) ADD BTSRXUBP(Mandatory) ETHMEP(Mandatory) SET PING MAC(Mandatory) ADD BTSRXU2LOCGRP(Mandatory) EXP ALMLOG(Optional) STR ETHOAMLOOPTST(Mandatory) ADD BTSBINDLOCGRP(Mandatory) STA TRC MAC(Mandatory) ADD ALMLOG(Optional) BTSANTFEEDERBRD(Mandatory) ADD BTSBRD(Mandatory) ETHTRK(Mandatory) ADD ADD BTSRXUBRD(Optional) ETHTRKLNK(Mandatory) ADD ADD ADD BTSTRXBRD(Mandatory) ADD ETHTRKIP(Mandatory) OBJALMSHLD(Optional) STR ETHMIRRORPORT(Mandatory) SET BTSENVALMPORT(Mandatory) BLK SET BC(Mandatory) BTSANTFEEDERCONNECT(Mandatory) CHK BTSOBJALMSHLD(Mandatory) E1T1CRS(Mandatory) ADD SET BTSIP(Mandatory) LOD RETANTCFG(Mandatory) SET BTSANTANGLE(Mandatory) SET SWPBTSCLKPARA(Mandatory) ETHPORT(Mandatory) SET ADD BTSCAVFRQ(Mandatory) ETHREDPORT(Mandatory) SET BTSPMUDEF(Mandatory) ADD BTSTMA(Mandatory) GCBSADDR(Mandatory) SET TCPLYVOICE(Mandatory) SET RETANTENB(Mandatory) SET TCPARA(Mandatory) STR BTSBATTTST(Mandatory) STR BTSTST(Mandatory) STR RETANTSCAN(Mandatory) STR ADD TRANSPERFTST(Optional) GIURGCONN(Mandatory) SWP BTSBRD(Mandatory) SET BTSENVALM(Mandatory) CHG BTSPTUSHKTM(Mandatory) IMP BTSDEVIP(Optional) ADD BTSBFD(Optional) ADD BTSIPRTBIND(Optional) ADD BTSSFPMODE(Optional) SET BTSFORBIDTS(Optional) SET BTSOMLTS(Optional) ADD NSE(Mandatory) SET BTSETHPORT(Optional) ADD BTSPPPLNK(Optional) ADD BTSMPLNK(Optional) ADD ADD BTSETHMA(Optional) PBSL(Mandatory) ADD BTSETHLCMEP(Optional) ADD BTSTOPCONFIG(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPLNK(Optional)

ADD BTSCONNECT(Mandatory)

OPR BTSBRDPWR(Mandatory)

SET GTRXDEV(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET SNTPCLTPARA(Mandatory)

ADD OPC(Optional)

ADD OPC(Mandatory)

ADD OPC(Optional)

ADD PBE1T1(Mandatory) ADD OPC(Optional) ADD N7DPC(Optional)

SET GCELLCCBASIC(Optional)

SET BTSFMUABP(Optional)

SET BTSFMUABP(Optional)

SET BSCBASIC(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET MSGSOFTPARA(Optional)

SET BTSCHNFALLBACK(Mandatory)

SET BTSCHNFALLBACK(Mandatory)

SET BTSCHNFALLBACK(Mandatory)

SET ETHPORT(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOAD(Optional)

SET GCELLPSBASE(Optional)

ADD GCNOPERATOR(Optional)

ADD GNRNC(Optional)

ADD GNRNC(Optional)

SET GCELLGPRS(Optional)

SET GCELLGPRS(Optional)

SET BSCPSSOFTPARA(Optional)

ADD GCNNODE(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET BSCBASIC(Optional)

SET GCELLGPRS(Optional)

SET BTSRXUBP(Optional)

SET FTPSCLT(Optional) ADD OPC(Mandatory) ADD N7DPC(Mandatory) ADD M3LE(Mandatory)

ADD BTS(Mandatory)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSCABINET(Optional) ADD G2GNCELL(Mandatory) ADD GIBCAPNCGRP(Mandatory) ADD G2GNCELL(Mandatory) ADD GIBCAPNCGRP(Mandatory)

ADD G3GNCELL(Mandatory)

SET MPUBIND(Mandatory) LOD FAN(Optional) SET DPUBRDTYPE(Mandatory) SET TCTYPE(Mandatory) ADD BRD(Mandatory) LOD BRD(Optional) CMP BRDVER(Optional) SYN ADD BRDAREA(Optional) G3GNCELL(Mandatory) COL FAMLOG(Mandatory) CMP LICENSE(Optional) FMT DATA(Optional) ADD CMP G2GNCELL(Mandatory) TBLDATA(Mandatory) SET CFGDATAINEFFECTIVE(Mandatory) SET CFGDATAEFFECTIVE(Optional) SET RUN MSPCMD(Mandatory) BATCHFILE(Mandatory) SET E1T1LOP(Mandatory) LOP E1T1(Mandatory) STR E1T1TST(Mandatory) CLKMODE(Mandatory) SET OPTLOP(Mandatory) PING IP(Mandatory) TRC IPADDR(Mandatory) SWP ETHPORT(Mandatory) ADD CLKSRC(Mandatory) SET QUEUEMAP(Mandatory) SET E1T1(Mandatory) SET MSP(Mandatory) ADD TSCROSS(Mandatory) G2GNCELL(Optional) ADD DEVIP(Mandatory) ADD IPRT(Mandatory) SET OPT(Mandatory) ADD BTSBFD(Mandatory) SET COPTLNK(Mandatory) SET ETHPORT(Mandatory) ADD ETHREDPORT(Mandatory) ADD PPPLNK(Mandatory) G2GNCELL(Mandatory) ADD MPGRP(Mandatory) ADD MPLNK(Mandatory) ADD ETHIP(Mandatory) ADD ADD G2GNCELL(Mandatory) IPLOGICPORT(Mandatory) ADD ICMPGUARD(Mandatory) STR PINGIPCHK(Mandatory) MAC(Mandatory) ADD VLANID(Mandatory) TRC MAC(Mandatory) ADD IPPATHBIND(Mandatory) ADD IPRTBIND(Mandatory) ADD ETHMA(Mandatory) ADD ETHMEP(Mandatory) G2GNCELL(Mandatory) ADD PING MAC(Mandatory) STR ETHOAMLOOPTST(Mandatory) TRC ADD MAC(Mandatory) TSCROSS(Mandatory) SET BFDPROTOSW(Mandatory) STR FRPORTLOOP(Mandatory) BLK BC(Mandatory) ADD CLKSRC(Mandatory) SET TRANSPATCHPARA(Mandatory) CHK E1T1CRS(Mandatory) ADD BC(Mandatory) ADD ADD NSVC(Mandatory) TSCROSS(Mandatory) ADD NSVLLOCAL(Mandatory) SET PSCELLTODSP(Mandatory) SET DSPLVDSMODE(Mandatory) ADD BTSAUTOPLAN(Mandatory) ADD SUBRACK(Mandatory) SET CLK(Mandatory) ADD MTP3LNK(Optional) ADD SCTPLNK(Mandatory)

SET BTSPMUBP(Mandatory) SET BTSAPMUBP(Mandatory) ADD RSCGRP(Mandatory) SET BTSDATUBP(Mandatory) SET PHBMAP(Mandatory) SET BTSDEMUBP(Mandatory) ADD ATERE1T1(Mandatory) SET BTSDFCUBP(Mandatory) ADD AE1T1(Mandatory) SET BTSDHEUBP(Mandatory) BLK AE1T1(Mandatory) SET BTSDOMUBP(Mandatory) ADD ABISLOADSHARE(Mandatory) SET BTSDPMUBP(Mandatory) ADD PBE1T1(Mandatory) SET BTSDTMUBP(Mandatory) SET BTSDGPSBP(Mandatory) SET BTSDDPUBP(Mandatory) SET ADD BTSUSCUBP(Mandatory) M3LNK(Mandatory) SET BTSRXUBP(Mandatory) ADD BTSRXU2LOCGRP(Mandatory) ADD BTSBINDLOCGRP(Mandatory) BLK ADD ATERE1T1(Mandatory) BTSANTFEEDERBRD(Mandatory) ADD BTSBRD(Mandatory) ADD BTSRXUBRD(Optional) ADD BTSTRXBRD(Mandatory) COL LOG(Optional) SET BTSENVALMPORT(Mandatory) EXP ALMLOG(Optional) SET BTSANTFEEDERCONNECT(Mandatory) STA ALMLOG(Optional) ADD BTSOBJALMSHLD(Mandatory) ADD ETHMD(Mandatory) ADD RETANTCFG(Mandatory) OBJALMSHLD(Mandatory) LOD ADD ETHTRK(Mandatory) SET BTSANTANGLE(Mandatory) ADD ETHTRKLNK(Mandatory) SET ADD BTSCLKPARA(Mandatory) ETHTRKIP(Mandatory) SET STR BTSCAVFRQ(Mandatory) ETHMIRRORPORT(Mandatory) SET BTSPMUDEF(Mandatory) ADD BTSTMA(Mandatory) GCBSADDR(Mandatory) SET TCPLYVOICE(Mandatory) SET RETANTENB(Mandatory) SET TCPARA(Mandatory) STR BTSBATTTST(Mandatory) STR BTSTST(Mandatory) STR RETANTSCAN(Mandatory) STR ADD TRANSPERFTST(Optional) GIURGCONN(Mandatory) SWP BTSBRD(Mandatory) SET BTSENVALM(Mandatory) CHG BTSPTUSHKTM(Mandatory) IMP BTSDEVIP(Optional) ADD BTSBFD(Optional) ADD BTSIPRTBIND(Optional) ADD BTSSFPMODE(Optional) SET BTSFORBIDTS(Optional) SET BTSOMLTS(Optional) ADD BTSETHPORT(Optional) NSE(Mandatory) SET ADD BTSPPPLNK(Optional) ADD BTSMPLNK(Optional) ADD ADD BTSETHMA(Optional) PBSL(Mandatory) ADD BTSETHLCMEP(Optional) ADD BTSTOPCONFIG(Optional) IMP BTSPPPLNK(Optional) IMP BTSMPLNK(Optional)

ADD BTSCONNECT(Mandatory)

OPR BTSBRDPWR(Mandatory)

ADD SRCONPATH(Mandatory)

ADD SRCONPATH(Mandatory)

ADD SUBRACK(Mandatory)

SET BTSTMA(Mandatory)

SET CLK(Mandatory)

EXP ALMLOG(Optional)

ADD NSVLLOCAL(Optional)

ADD NSVLREMOTE(Optional)

SET BTSPSUFP(Optional)

ADD BTSABISMUXFLOW(Mandatory)

SET GCELLHOFITPEN(Optional)

SET CPUTHD(Optional)

SET CPUTHD(Optional)

SET CPUTHD(Optional)

SET CPUTHD(Optional)

SET GCELLCHMGAD(Optional) STR BKP(Optional) SET GCELLCHMGAD(Optional) ULD RSTINFO(Mandatory) ADD XPUVLAN(Mandatory) LOD BRD(Optional) CMP TBLDATA(Mandatory)

ADD GIURGCONN(Mandatory)

EXP ALMLOG(Optional)

SET GCELLHOFITPEN(Optional)

SET TZ(Mandatory)

EXP LOG(Optional)

ADD SUBTSK(Mandatory)

COL LOG(Optional)

EXP ALMLOG(Optional)

STA ALMLOG(Optional)

ADD GSMSCB(Mandatory) EXP ALMLOG(Optional) STA ALMLOG(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

BLK ACIC(Mandatory)

BLK PBCIC(Mandatory)

ADD BSCDSTPADATE(Mandatory)

SET BTSDHEUBP(Optional)

ADD BSCDSTPADATE(Mandatory)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

SET BTSFORBIDTS(Optional)

SET BTSFALLBACK(Optional)

SET BSCDSTPA(Optional)

BLK ATERE1T1(Mandatory)

BLK AE1T1(Mandatory)

SET BTSFORBIDTS(Mandatory)

SET BTSFMUABP(Optional)

SET BTSNFCBBP(Optional)

ADD AE1T1(Mandatory)

ADD BTSMONITORTS(Optional)

ADD OP(Mandatory)

STR NCS(Mandatory)

ADD MTP3LNK(Optional)

STR BTSLOG(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET BTSFALLBACK(Optional)

ADD N7DPC(Optional)

ADD BTSMONITORTS(Mandatory)

SET GCELLFREQSCAN(Optional)

ADD BTSMONITORTS(Optional)

ADD BTSMONITORTS(Optional)

ADD BTSMONITORTS(Mandatory)

ADD OP(Mandatory)

ADD BTSMONITORTS(Mandatory)

SET BTSAUTODLDACTINFO(Optional)

BLK ACIC(Mandatory)

ADD AE1T1(Mandatory)

STR BTSLOG(Optional)

ADD IPMUX(Optional)

ADD BTSABISMUXFLOW(Optional) ADD SUBTSK(Mandatory) ADD SUBCMD(Mandatory)

SET SUBNET(Mandatory)

SET GCELLSOFT(Optional)

SET BTSFLEXABISPARA(Optional)

SET BTSOMLTS(Mandatory)

SET BTSAUTODLDACTINFO(Mandatory)

SET OTHSOFTPARA(Optional)

SET CLK(Optional)

SET CLK(Optional)

SET GCELLSBC(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLGPRS(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLGPRS(Optional)

SET BSSLS(Optional)

SET BSCBASIC(Optional)

ADD GNRNC(Optional)

SET GCELLPRACH(Optional)

ADD NSE(Mandatory)

ADD NSE(Mandatory)

SET ALMPORT(Optional)

SET ASWPARA(Mandatory)

SET OBJAUTHSW(Mandatory)

SET BTSENVALMPORT(Mandatory)

OPR BTSBRDPWR(Mandatory)

SET TZ(Mandatory)

SET SCUPORT(Mandatory)

SET SLFSLVSW(Mandatory)

SET LICENSECTRL(Mandatory)

SET BFDPROTOSW(Mandatory)

SET BTSALMPORT(Mandatory)

SET BTSETHPORT(Optional)

ADD SCTPLNK(Optional)

ADD SCTPLNK(Optional)

SET SS7PATCHSWITCH(Optional)

SET SS7PATCHSWITCH(Optional)

SET SS7PATCHSWITCH(Optional)

SET SS7PATCHSWITCH(Optional)

SET SS7PATCHSWITCH(Optional)

SET SS7PATCHSWITCH(Optional)

SET SS7PATCHSWITCH(Optional)

SET SS7PATCHSWITCH(Optional)

SET SS7PATCHSWITCH(Optional)

SET SS7PATCHSWITCH(Optional)

ADD BTSSFPMODE(Optional)

SET OPSW(Mandatory)

SET TZ(Mandatory)

SET BTSAISS(Optional)

ADD GEXT3GCELL(Mandatory)

SET BTSOTHPARA(Optional)

SET BTSIPCLKPARA(Mandatory)

SET BTSIPCLKPARA(Optional)

SET BTSIPCLKPARA(Optional)

SET BTSIPCLKPARA(Optional)

SET SYS(Optional)

SET SYS(Optional)

SET GCELLHOAD(Optional)

SET SYS(Optional)

SET BSCBASIC(Optional)

SET SYS(Optional)

SET SYS(Optional)

SET BSSGPPARA(Optional)

CHG BTSPTUSHKTM(Optional)

SET MTP3TMR(Optional)

SET MTP3TMR(Optional)

SET MTP3TMR(Optional)

SET MTP3TMR(Optional)

SET MTP3TMR(Optional)

SET MTP3TMR(Optional)

SET BSSGPPARA(Optional)

CHG BTSPTUSHKTM(Optional)

SET BTSRINGATTR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET GCELLCCTMR(Optional)

SET BTSRINGATTR(Optional)

SET MTP3TMR(Optional)

SET MTP3TMR(Optional)

SET MTP3TMR(Optional)

SET BSSGPPARA(Optional)

CHG BTSPTUSHKTM(Optional)

SET GCELLHOAD(Optional)

SET GCELLGSMR(Optional)

SET GCELLPSBASE(Optional)

SET GCELLPSBASE(Optional)

SET GCELLIDLEBASIC(Optional)

ADD BC(Optional)

SET MTP3TMR(Optional)

SET BSSGPPARA(Optional)

SET MTP3TMR(Optional)

SET BSSGPPARA(Optional)

SET MTP3TMR(Optional)

SET BSSGPPARA(Optional)

SET BSSGPPARA(Optional)

SET MTP3TMR(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOIUO(Optional)

ADD G2GNCELL(Optional)

SET GCELLHOEMG(Optional)

SET GCELLGSMR(Optional) ADD AISSCFG(Mandatory) ADD NCELL(Mandatory) SET GCELLHOFITPEN(Optional) COL SYNCINFO(Mandatory) SET BTSEXCURSION(Mandatory) SET BSCSYNCOFF(Mandatory) COL BSCSYNCINFO(Mandatory)

ADD G2GNCELL(Optional)

SET GCELLHOIUO(Optional)

SET GCELLPSPWPARA(Optional)

SET GCELLPSPWPARA(Optional)

EXP DEVFILE(Optional)

EXP BTSDEVFILE(Optional)

SET BTSOMLBACKUP(Optional)

SET BTSRINGATTR(Optional)

ADD MTP3LNK(Optional)

SET BSSGPPARA(Optional)

SET BTSAPMUBP(Optional)

SET BSCBASIC(Optional)

SET GTRXDEV(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLOTHEXT(Optional)

SET GCELLHOCTRL(Optional)

SET GCELLPWR3(Optional)

SET OTHSOFTPARA(Optional)

SET GCELLSOFT(Optional)

SET GCELLSOFT(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

ADD MTP3LNK(Optional)

ADD MTP3LNK(Mandatory)

SET GCELLSOFT(Optional) ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory)

ADD ATERCONPATH(Mandatory)

SET BSCBASIC(Mandatory)

ADD ATERCONPATH(Mandatory)

ADD ATERCONPATH(Mandatory)

SET TCTYPE(Mandatory)

SET GCELLIDLETDDBA1(Mandatory)

SET GCELLHOTDDBA2(Mandatory)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

SET GCELLIDLETDDBA1(Mandatory)

SET GCELLIDLETDDBA1(Mandatory)

SET GCELLCCUTRANSYS(Optional)

SET GCELLCCUTRANSYS(Optional)

ADD GEXT3GCELL(Optional)

SET GCELLIDLETDDBA1(Mandatory)

SET GCELLHOTDDBA2(Mandatory)

SET GCELLCCUTRANSYS(Optional) SET GCELLIDLETDDBA1(Mandatory) SET GCELLHOTDDBA2(Mandatory)

ADD TRMLOADTH(Optional)

ADD TRMLOADTH(Optional)

ADD SRCONPATH(Mandatory)

ADD SRCONPATH(Mandatory)

ADD PBSL(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET BTSDPMUBP(Optional)

SAV GCELLTEMPLATE(Optional)

EXP GCELLTEMPLATE(Mandatory) ADD GCELL(Optional) SAV GCELLTEMPLATE(Optional) ADD BTSAUTOPLAN(Optional) EXP GCELLTEMPLATE(Mandatory) SAV GCELLTEMPLATE(Mandatory) ADD GCELLQUICKSETUP(Optional)

SET BTSAPMUBP(Optional)

SET BTSAPMUBP(Optional)

SET BTSDPMUBP(Optional)

SET OTHSOFTPARA(Optional)

SET BSCNSPARA(Optional)

ADD GSMSCB(Mandatory)

SET TCPARA(Optional)

STR BTSVSWRTST(Optional)

SET GCELLOTHEXT(Optional)

SWP OMUAREA(Mandatory)

ADD TGWIP(Mandatory)

ADD TGWIP(Mandatory)

ADD TGWIP(Mandatory)

ADD TGWIP(Mandatory)

ADD TGWIP(Mandatory)

SET BSSGPPARA(Optional)

SET BTSAIRCON(Optional)

SET BTSAIRCON(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

SET GCELLPSCHM(Optional)

ADD TRMLOADTH(Mandatory)

SET BSCTMR(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOAD(Optional)

SET GCELLHOBASIC(Optional)

SET GCELLHOAD(Optional)

SET GCELLCHMGBASIC(Optional)

SET GCELLCHMGAD(Optional)

ADD GCNOPERATOR(Optional)

ADD OP(Optional)

SET TIME(Optional)

SET GCELLFREQSCAN(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOIUO(Optional)

PING IP(Optional)

TRC IPADDR(Optional) PING MAC(Optional) PING BTSCFM(Optional)

TRC MAC(Optional) TRC BTSCFM(Optional)

ADD BTSABISMUXFLOW(Optional) ADD GEXT2GCELL(Optional) SET GCELLHOFAST(Optional)

PING IP(Optional)

SET GCELLBASICPARA(Optional)

SET GCELLHOFITPEN(Optional)

SET GCELLHOIUO(Optional)

SET GCELLTMR(Optional)

ADD GCNOPERATOR(Optional)

SET LOGLIMIT(Optional) SET MSTOCELL(Mandatory) TST SNDRSI(Mandatory) TST UPDMSRAC(Mandatory)

SET BTSDHEUBP(Optional)

SET BTSAPMUBP(Optional)

SET BTSDHEUBP(Optional)

ADD SUBTSK(Mandatory)

ADD SUBTSK(Mandatory)

ADD SUBTSK(Optional)

ADD SUBTSK(Optional)

ADD SUBTSK(Optional)

ADD SUBTSK(Optional)

ADD TRMMAP(Mandatory)

ADD ADJMAP(Mandatory)

STR FRPORTLOOP(Mandatory)

STR BTSVSWRTST(Optional)

SET GCELLSOFT(Optional)

SET ALMBLKPARA(Optional) CHK INNSPCH(Mandatory) STR CALLRESLOP(Mandatory) ADD GCSCHRUSER(Mandatory)

SET ALMBLKPARA(Optional)

SET MTP3TMR(Optional)

SET MTP3TMR(Optional)

CMP TBLDATA(Optional) ADD ATERSL(Optional) ADD ATERCONSL(Optional)

ADD PBE1T1(Optional)

SET TZ(Mandatory)

SET GCELLIDLEAD(Optional)

ADD BTSTOPCONFIG(Optional)

ADD BTSTOPCONFIG(Mandatory)

ADD BTSTOPCONFIG(Optional)

COL FAMLOG(Mandatory) ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory)

SET GCELLTMR(Optional)

SET FCCPUTHD(Optional)

SET FCMSGQTHD(Optional)

SET FCCPUTHD(Optional)

SET FCMSGQTHD(Optional)

SET FCSW(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

ADD M3LKS(Optional)

SET BTSTRANS(Mandatory)

ADD ABISLOADSHARE(Mandatory)

ADD IPPATH(Optional)

ADD TRMMAP(Optional)

ADD TRMLOADTH(Mandatory)

SET BSCABISPRIMAP(Mandatory)

SET BTSBWPARA(Mandatory)

SET BTSDOMUBP(Optional)

SET BTSDOMUBP(Optional)

SET BTSDOMUBP(Optional)

SET BTSDOMUBP(Optional)

SET BTSCLKPARA(Mandatory)

SET GCELLRESELECTPARA(Optional)

SET GCELLHOAD(Optional)

ADD ETHTRKLNK(Mandatory)

ADD ETHTRKLNK(Mandatory) ADD ETHTRK(Mandatory) ADD ETHTRKLNK(Mandatory) ADD ETHTRKIP(Mandatory)

SET BSCABISPRIMAP(Mandatory)

ADD IPPATH(Optional)

ADD RSCGRP(Optional)

ADD TRMLOADTH(Mandatory)

ADD PPPLNK(Optional)

ADD MPGRP(Optional)

ADD IPLOGICPORT(Optional)

SET BSCABISPRIMAP(Mandatory)

SET BSCABISPRIMAP(Optional)

ADD IPLOGICPORT(Optional)

STR IPCHK(Optional) SET FHO(Mandatory) ADD GTRXCHANHOP(Mandatory) ETHMEP(Mandatory) SET SET GTRXHOP(Mandatory) SET GTRXBASE(Mandatory) SET SET GTRXCHAN(Mandatory) GCELLCCACCESS(Optional) SET GTRXFC(Mandatory) SET GTRXIUO(Mandatory) SET GTRXADMSTAT(Mandatory) STR BTSTST(Mandatory) SET GTRXCHANADMSTAT(Mandatory) ADD GTRX(Mandatory) ADD TRXBIND2PHYBRD(Mandatory) SET SET GTRXRLALM(Mandatory) GTRXCHANHOP(Optional) SET GTRXDEV(Mandatory) ADD GTRXBIND2HDLCPATH(Mandatory) STR BTSTST(Mandatory) STR TRXBURSTTST(Mandatory)

ADD BTSBINDLOCGRP(Mandatory)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional)

ADD GCELLHOPANTGRP(Optional) SET GCELLHOPQUICKSETUP(Optional) SET GCELLHOPANTQUICKSETUP(Optional)

STR TRXPERFTST(Mandatory)

SET GTRXCHANHOP(Optional)

ADD GTRX(Optional) ADD BTSBRDCAP(Mandatory) ADD BTSRXUBRD(Optional)

ADD TRXBIND2PHYBRD(Mandatory)

ADD BTSBINDLOCGRP(Mandatory)

SET GCELLCHMGAD(Optional)

ADD TRXBIND2PHYBRD(Mandatory)

BLK ATERE1T1(Mandatory)

BLK AE1T1(Mandatory) LOP E1T1(Mandatory) STR E1T1TST(Optional)

ADD BC(Mandatory)

SET BTSOMLTS(Mandatory)

ADD PPPLNK(Mandatory)

ADD MPLNK(Mandatory) ADD BTSPPPLNK(Mandatory) ADD BTSMPLNK(Mandatory) IMP BTSPPPLNK(Mandatory) IMP BTSMPLNK(Mandatory)

ADD GCELLMAGRP(Optional)

SET BTSIDLETS(Mandatory)

SET GCELLSOFT(Optional)

ADD TSCROSS(Optional)

STR TRANSPERFTST(Mandatory) ADD ADD SCHTSK(Mandatory) BTSMONITORTS(Optional) SET SCHTSKSW(Optional) ADD SUBTSK(Optional) ADD SUBCMD(Optional) STR SCHTSK(Optional)

ADD ATEROML(Mandatory) ADD BTSABISHDLCPATH(Mandatory) ADD BTSTOPCONFIG(Mandatory) ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory)

ADD PBSL(Mandatory)

SET GTRXCHAN(Optional)

SET GTRXDEV(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

ADD BTSMONITORTS(Mandatory) ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory)

STR BTSTST(Mandatory)

STR TRANSPERFTST(Mandatory)

STR BTSBATTTST(Mandatory)

STR BTSRFTST(Mandatory)

SET BSCDSTPA(Optional)

ADD BTSRXUCHAIN(Mandatory)

PING IP(Optional) TRC MAC(Optional) TRC BTSCFM(Optional)

SET GCELLDYNTURNOFF(Optional)

SET GCELLDYNTURNOFF(Optional)

SET GCELLDYNTURNOFF(Optional)

SET GCELLDYNTURNOFF(Mandatory)

SET GCELLDYNTURNOFF(Optional)

SET BTSAPMUBP(Optional)

SET BTSDHEUBP(Optional)

ADD AISSCFG(Optional)

ADD AISSCFG(Optional)

ADD AISSCFG(Optional)

ADD AISSCFG(Optional)

ADD AISSCFG(Optional)

ADD AISSCFG(Optional)

ADD AISSCFG(Optional)

SET GCELLIDLEBASIC(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

ADD IPPATH(Mandatory)

ADD RSCGRP(Mandatory)

PING IP(Optional)

SET GCELLPRACH(Optional)

ADD SUBRACK(Mandatory)

RUN BATCHFILE(Mandatory)

ADD GCELL(Mandatory)

SET BSCPCUTYPE(Mandatory)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSCABINET(Optional)

ADD GCELLQUICKSETUP(Mandatory)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET BTSANTFEEDERCONNECT(Optional)

SET CSABISCONGCTRL(Optional)

SET CSABISCONGCTRL(Optional)

SET CSABISCONGCTRL(Optional)

SET CSABISCONGCTRL(Optional)

SET CSABISCONGCTRL(Optional)

SET CSABISCONGCTRL(Optional)

SET CSABISCONGCTRL(Optional)

SET CSABISCONGCTRL(Optional)

SET CSABISCONGCTRL(Optional)

SET CSABISCONGCTRL(Optional)

SET CSABISCONGCTRL(Optional)

SET MSGSOFTPARA(Optional)

SET OTHSOFTPARA(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET PSPREFABISCONGCTRL(Optional)

SET AITFOTHPARA(Optional)

ADD IPMUX(Mandatory)

ADD IPMUX(Mandatory)

ADD NSVLLOCAL(Mandatory)

ADD NSVLREMOTE(Mandatory)

ADD OP(Optional)

SET BTSEXD(Optional)

SET GCELLGSMR(Optional)

STR E1T1TST(Optional)

SET ALMPORT(Optional)

SET BTSENVALMPORT(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

ADD G2GNCELL(Optional)

ADD G2GNCELL(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLTMR(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLHOBASIC(Optional)

SET BSCPSSOFTPARA(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLHOINTERRATLDB(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLPWR2(Optional)

SET GCELLHOEMG(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLAMRQUL(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWR3(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLPWRBASIC(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLCCAMR(Optional)

SET GCELLHOIUO(Optional)

SET BSCPSSOFTPARA(Optional)

SET GCELLSOFT(Optional)

SET GCELLHOFITPEN(Optional)

SET BSCBASIC(Optional)

SET E1T1(Optional)

SET BSCNSPARA(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

SET BTSRXUBP(Optional)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSCONNECT(Mandatory)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSCONNECT(Mandatory)

ADD BTSAUTOPLAN(Mandatory)

ADD BTSCONNECT(Mandatory)

ADD GSMSCB(Mandatory)

SET GCELLPSCS(Optional)

SET GCELLEGPRSPARA(Optional)

SET GCELLPSCHM(Optional)

SET GCELLEGPRSPARA(Optional)

SET GCELLEGPRSPARA(Optional)

SET GCELLPRIVATEOPTPARA(Optional)

SET GCELLPSCS(Optional)

SET GCELLEGPRSPARA(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET BTSFALLBACK(Optional)

SET BTSLAPDWS(Optional)

SET GCELLBASICPARA(Optional)

ADD RSCGRP(Mandatory)

ADD IPLOGICPORT(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCHMGAD(Optional)

SET GCELLCCAD(Optional)

SET GCELLPRIVATEOPTPARA(Optional)

SET GCELLPSCS(Optional)

SET GCELLPSCS(Optional)

SET GCELLPSCS(Optional)

SET GCELLPSCS(Optional)

SET GCELLPSCS(Optional)

SET GCELLPSCS(Optional)

SET GCELLNC2PARA(Optional) CHK INNSPCH(Mandatory) STR CALLRESLOP(Mandatory) ADD GCSCHRUSER(Mandatory)

SET BSCPSSOFTPARA(Optional) DLD LICENSE(Mandatory) ULD LICENSE(Mandatory)

DLD RETANTCFG(Mandatory) ULD BTSDEVFILE(Mandatory) DLD BTSPATCH(Mandatory) ULD BTSLOG(Mandatory) DLD BTSSW(Mandatory)

SET BTSDOMUBP(Mandatory)

SET BTSDOMUBP(Mandatory)

SET BTSEXD(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

SET GCELLHOIUO(Optional)

ADD GEXT3GCELL(Mandatory)

ADD BTSRETANT(Mandatory)

SET GCELLGSMR(Optional)

SET GCELLGSMR(Optional)

SET GCELLGSMR(Optional)

SET BSCFCPARA(Optional)

ADD GCELL(Optional)

SET BSCFCPARA(Optional)

SET BSCFCPARA(Optional)

ADD IPPATH(Optional)

SET BSCABISPRIMAP(Optional)

ADD SCTPLNK(Optional)

ADD SCTPLNK(Optional) ADD IPPATH(Mandatory) ADD VLANID(Mandatory)

ADD ETHMA(Mandatory) SET BTSVLAN(Optional) IMP BTSVLAN(Optional)

ADD BTSETHMA(Mandatory)

ADD SCTPLNK(Mandatory)

ADD SCTPLNK(Mandatory)

SET DSCPMAP(Optional) SET BTSVLAN(Optional) IMP BTSVLAN(Optional) SET BTSVLAN(Optional) IMP BTSVLAN(Optional)

SET GCELLCCACCESS(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

ADD EMU(Optional)

SET BTSDFCUBP(Optional)

SET GCELLOTHEXT(Optional) SET BTSDFCUBP(Optional) SET BTSDDPUBP(Optional) SET BTSDFCUBP(Optional) SET BTSDDPUBP(Optional) SET BTSDFCUBP(Optional) SET BTSDDPUBP(Optional)

SET GCELLOTHEXT(Optional)

SET BTSAUTODLDACTINFO(Mandatory)

SET GCELLTMR(Optional)

SET GCELLTMR(Optional)

SET GCELLTMR(Optional)

ADD GEXTSMLC(Optional)

SET GCELLTMR(Optional)

SET GCELLCHMGAD(Optional)

ADD GEXTSMLC(Optional)

SET BTSOUTPUT(Optional)

ADD EMU(Optional)

ADD OP(Optional)

SET GCELLLCS(Optional)

SET BTSOUTPUT(Optional)

STR IPCHK(Optional)

SET OTHSOFTPARA(Optional)

ADD OP(Mandatory)

ADD M3LKS(Optional)

SET GTRXRLALM(Optional)

SET GTRXRLALM(Optional)

SET GTRXRLALM(Optional)

SET GTRXRLALM(Optional)

SET GTRXRLALM(Mandatory)

FMT DATA(Optional)

SET BTSRXUBP(Optional)

ADD SUBRACK(Mandatory)

SET E1T1(Optional)

ADD BTS(Optional) ADD ATERSL(Optional) ADD ATERCONSL(Optional)

SET BTSOMLBACKUP(Optional)

SET BTSRINGATTR(Optional)

SET MSP(Optional)

SET TZ(Optional)

Downlink quality level threshold for the MS to be assigned with a channel of the better cell.

Uplink quality level threshold for the MS to be assigned with a channel of the better cell.

The maximum duration for the BSC to select the best cell according to MRs in the MS assigning procedure. The BSC assigns t

Whether to enable the BTS to support bypass function. HDLC BTS and IP BTS do not support this parameter.

Whether to permit Abis flow control. The flow control function helps in better call management. If congestion occurs, the system lightens its load by rejecting some s

Used along with "Abis Flow Control Timer 2" to control the change in cell flow control levels.When the flow control level in the c When immediate assignment fails, the BSC6900 starts T1 and T2.

Used along with "Abis Flow Control Timer 1" to control the change in cell flow control levels.When the flow control level in the c When immediate assignment fails, the BSC6900 starts T1 and T2.

This parameter controls the strategy for idle timeslot selection and optimization by the PS channels.

This parameter controls whether the strategy for timeslot configuration and optimization is started. When this parameter is set t in the transport pool of a site.

Threshold for enabling the BTS local switching. When the congestion rate at the Abis interface exceeds this threshold, the BTS

This parameter specifies whether to enable the Abis resource adjustment TCHH function. It specifies whether the TCHH is preferentially allocated to the MS by the BSC6900, when Abis resources are insufficient. If the Abis resource load is greater than "Flex Abis Prior Choose Load Thred" or "Fix Abis Prior Choose Abis Load Thred" when

Interval between detection of the Abis timeslot being in idle state and releasing of the Abis timeslot. When channels are idle, th the channels are idle. Before the timer expires, if new service request is received and the Abis timeslot is occupied, then the tim When "Number of Dynamic Channel Pre-Converted" is greater than 0, the Abis timeslots are not released after the static PDCH

Phase tag for GSM protocols that the Abis interface supports

Duration available for the BTS to collect the AB after the TRX or channel is activated. Mean opinion score (threshold) for judging an abnormal call. The BTS computes the MOS of a call periodically and reports the abnormal and records the abnormity in the call history record (CHR). To prevent the impact of a decimal fraction, set this parameter to the product of 50 and the actual MOS. Access pulse type of the PRACH, uplink PTCCH and packet control acknowledge message of the MS. 8bit: 8 bit pulse access mode; 11bit: 11 bit pulse access mode.

Access control class of the MS

When the cell supports Repeated This parameter specifies whether the access control function is enabled in a cell. When the fu Control Policy.

This parameter specifies the index of the access control policy that is used in a cell.

Subcell preferred during the incoming inter-BSC handover to the concentric cell. In the case of incoming inter-BSC handover to

This parameter specifies the index of an access control (ACC) policy. It is used to identify an ACC policy.

Whether the initial service is uplink, downlink or neutral

This parameter is used to specify the starting point of the ACC sliding window in an access control policy.

This parameter is used to specify the ACC sliding window size in an access control policy. MSs of the ACC access classes that

This parameter is used to specify the sliding speed of the ACC sliding window in an access control policy.

Whether to compress the address and control fields. If this parameter is set to ENABLE, the address and control area compres

A flag bit indicates Whether to support the compression of the address and control fields.

This parameter specifies whether to receive the CS paging request from A interface when the MS uses a PS service. This para to the PS domain . Used for notifying MSs where to retrieve relevant parameters during cell reselection. The default value of this parameter is 0 in system message 3 and, has no special significance. In system message 4, if the value of this parameter is 0, it means that the MSs must retrieve the PI parameters and other param from the remaining bytes of system message 7 or 8.

Active coding set (ACS)[F], indicates a set of full-rate coding rates currently available for calls. The AMR is a set of multiple spe

Active coding set (ACS)[H], indicates set of half-rate coding rates currently available for calls. The AMR is a set of multiple spee

Active coding set (ACS)[WB], indicates a set of wide-band coding rates currently available for calls. The AMR is a set of multipl

Whether to activate the function of L2 re-establishment. If this function is activated, the BSC starts the attempt of L2 re-establis

Valid duration of the reserved TRX or timeslot

AC voltage alarm lower threshold. When the input AC voltage is lower than the value of this parameter, an alarm indicating the In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

The BTS reports an alarm if the AC voltage exceeds the value of this parameter.

The BTS reports an alarm if the AC voltage is lower than the value of this parameter.

The BTS reports an alarm if the AC voltage exceeds the value of the AC voltage alarm upper threshold. When the input AC vol In multi-mode scenario, the value of this parameter must be the same as the value of the parameter in other modes.

Whether to hand over an MS to another channel during an intra-cell handover through the assignment process

Communication address of the CBUS3 on the bus 485. The configuration of this parameter must be consistent with the actual p

Interval for requesting the bandwidth for the secondary link when the system is not in congestion state Whether to requested enable each ACtime RRUforexternal alarm port's customer definition switch. Bandwidth each the secondary link when the system is not in congestion state "0" indicates that the external alarm port's customer definition switch is disabled and this port is not defined by customor but by vendor, and "1" indicates that the external alarm port's customer definition switch is enabled. It does not take effect to DC RRU, whose external alarm ports are always defined by customer.

The destination signaling point (DSP) of the adjacent BSC must be an Iur-g DSP.

Whether to adjust the BTS offset manually or automatically Mode of dynamically adjusting the EGPRS uplink encoding scheme. Value 0 indicates dynamic adjustment of EGPRS uplink coding scheme is not supported; value 1 indicates that the uplink coding scheme is adjusted according to downlink quality measurements reported by MS; value 2 indicates that the uplink coding scheme is adjusted according to uplink quality measurements reported by BTS.

This parameter specifies whether to enable automatic auto-loading and auto-activation of the BTS software. If this parameter is or BSC starts checking res. If this parameter is set to Yes, the BTS software fails to be forcibly loaded and activated. If this para

This parameter specifies the automatic load mode of the BTS software. If this parameter is set to common download, common besides the OML/EML. This may affect the services in the cell. If this parameter is set to quick download(reserve BCCH Trx tra

Administrative state of a cell

Administrative state of the TRX

Administrative state of the channel

End time for adjusting the offset time

Cell load threshold for adjusting the offset time. If the load threshold is exceeded, the offset time is not adjusted.

Offset Time Adjustment Switch

Start time for adjusting the offset time

This parameter the software version 1 that is automatically loaded and activated. The version of the BTS software sto Advanced alarmspecifies management rule type BTS3000V100R008C11SPC003. This parameter can be set to only a BTS software version or a cold patch version. You can use either of the following methods Method 1: If the BTS software or the cold patch is downloaded to the OMU through the MML command DLD BTSSW, you can This parameter the software 2 that is automatically loadedtoand software the stored the OM Method 2: If the specifies BTS software version version or the cold patch is not downloaded theactivated. OMU, youThe canBTS decompress BTSonsoftware BTS3000V100R008C11SPC003. This parameter can be set to only a BTS software version or a cold patch version. You can use either of the following methods Method 1: If the BTS software or the cold patch is downloaded to the OMU through the MML command DLD BTSSW, you can Method 2: If the BTS software version or the cold patch is not downloaded to the OMU, you can decompress the BTS software

If the echo path is traced, the echo is judged and controlled according to the trace result of the echo path parameters. Otherwis

This parameter is used for echo judgment and control when the echo parameters are not traced.

If the local input voltage is lower than the value of this parameter and the remote end transmits the voice signal, the AEC functi

Extra delay due to the transmission line. This parameter should be set according to the actual conditions and is applicable to sa

This parameter is used to determine whether there are speech signals at the local end. If the local SNR is lower than the value

This parameter indicates whether the acoustic echo cancellation (AEC) functional switch is on or off.

Threshold for detecting the AEC performance

Time for detecting the AEC performance

Counter for radio link failures during an AMR full rate call. See the description of "Radio Link Timeout" in "SET GCELLCCBASIC

Number of SACCH multiframes during an AMR full rate call. See the description of "SACCH Multi-Frames" in "SET GCELLCCB

GPS receiver ID

GPS receiver type.

Counter for radio link failures during an AMR half rate call. See the description of "Radio Link Timeout" in "SET GCELLCCBASI

Number of SACCH multiframes during an AMR half rate call. See the description of "SACCH Multi-Frames" in "SET GCELLCC

Alarm ID

Alarm ID

Identifier of the alarm. This parameter uniquely identifies an alarm.

Identifier of the alarm. This parameter uniquely identifies an alarm.

Identifier of the alarm. This parameter uniquely identifies an alarm.

Alarm ID

Alarm ID

Delay time for mutual-aid detection on a cell after the cell is initialized. When the cell initialization has just finished, the cell is in

Type of alarm selection

Alarm selection mode

Whether to trace A-interface messages during end-to-end user tracing. The end-to-end tracing is conducted throughout the net

Whether to allow flow control for the location update services during the A interface flow control

whether to allow flow control for the mobile-originated services during the A interface flow control

Whether to allow flow control for the mobile-terminated services during the A interface flow control

Whether to allow flow control for the other services including emergency call, call re-establish, and LMU services during the A in

Whether to enable the A interface flow control mechanism in the BSC6900

Flow control method used by the BSC6900. Flow control method at the Abis interface: When receiving a channel request mess begins flow control according to the flow control level of the A interface and releases part of the call.

Rate of discarded services in level 1 of the A interface flow control

Rate of discarded services in level 2 of the A interface flow control

Rate of discarded services in level 3 of the A interface flow control

Rate of discarded services in level 4 of the A interface flow control

Rate of discarded services in level 5 of the A interface flow control

Rate of discarded services in level 6 of the A interface flow control

CSD(Circuit Switched Data) service redundancy level, which is configured to decrease the data loss rate during transmission in

Fixed gain value in fixed gain mode

Target level in fixed level mode

This parameter restrains the maximum gain to the input signal. It is valid only when "ALC Mode" is "FIXEDLEVEL" or "ADAPTIV

Maximum target level in adaptive ALC mode

Mimumum target level in adaptive ALC mode

ALC level control mode

Whether to enable the adaptive level control (ALC) function

Retry times after the timer for the reply from the peer expires during the NSVC live test. If the reply is not received after the sys

Duration of the timer to wait for the reply from the peer during the NSVC live test

Specifies the bandwidth occupied when the " transmission resource group type " is IP and the " bandwidth mode " is HALF_DU

Whether to reassign the TBF for a different Trx

When this parameter is set to ON, the GMM/SM signaling service is assigned only one PDCH; otherwise, the GMM/SM signalin

Maximum ratio of the number of AMR half rate channels to the total number of channels in a cell. When the resource allocation equal to the value of this parameter. When the resource allocation principle is not determined by the BSC, radio resource alloca Total number of channels = number of half rate channels + number of full rate channels x 2

Whether to allow EDA multiplex. "Not Allow": the TBF of the EDA cannot be multiplexed with other TBR; "Allow": the TBF of the

Number of allowed measure report missed. If the number of allowed measure report missed exceeds this value, the previous m

Maximum ratio of the number of half rate channels to the total number of channels in a cell. When the resource allocation princ value of this parameter. When the resource allocation principle is not determined by the BSC, radio resource allocation does no Total number of channels = number of half rate channels + number of full rate channels x 2

Value ALLCIC indicates that all E1/T1 timeslots on the A interface must be set with the start CIC. Value ALLNULL indicates tha

Value ALLCIC indicates that all E1/T1 timeslots on the PB interface must be set with the start CIC. Value ALLNULL indicates th

If the feed current of the TMA on tributary 0 is smaller than the value of this parameter, the TMA Low Temperature alarm is trigg

If the feed current of the TMA on tributary 1 is smaller than the value of this parameter, the TMA Low Temperature alarm is trigg

If the feed current of the TMA on tributary 2 is smaller than the value of this parameter, the TMA Low Temperature alarm is trigg

If the feed current of the TMA on tributary 3 is smaller than the value of this parameter, the TMA Low Temperature alarm is trigg

If the feed current of the TMA on tributary 4 is smaller than the value of this parameter, the TMA Low Temperature alarm is trigg

If the feed current of the TMA on tributary 5 is smaller than the value of this parameter, the TMA Low Temperature alarm is trigg

Accumulated alarm clearance failure duration.Threshold for the accumulated duration in which the alarm persists. If the accumu Whether the configuration of alarm parameters is allowed. In multi-mode scenario, the value of this parameter must be the same as the value of the parameter in other modes.

ID of the intermittent alarm.

Alarm ID

If the input current of the antenna feeder is smaller than the value of this parameter, an alarm related to the GPS antenna is rep

If the input current of the antenna feeder is greater than the value of this parameter and "GPS or RGPS" is set to "GPS", an ala

If the input current of the antenna feeder is greater than the value of this parameter and "GPS or RGPS" is set to "RGPS", an a

Accumulated alarm occurrence duration.Threshold for the accumulated duration in which the alarm persists. If the accumulated

Alarm Occur Accumulative Time refers to the percentage of the alarm occurrence accumulative time to "Flash Statis Alarm Rais that Alarm Occur Accumulative Time = "Flash Statis Alarm Raise Time Window" x 60%. If the parameter value is 0, no statistics

Alarm Clear Accumulative Time refers to the percentage of the alarm clearance accumulative time to "Flash Statis Alarm Clear Clear Accumulative Time = "Flash Statis Alarm Clear Time Window" x 30%. If the parameter value is 0, no statistics is collected

If the number of alarm flashes exceeds the value of this parameter within the time specified by "Flash Statis Alarm Raise Time

If the number of alarm flashes is smaller than the value of this parameter within the time specified by "Flash Statis Alarm Clear

Whether the configuration of alarm parameters is allowed. The value "YES" indicates that the configuration is allowed, and the

Type of the alarm. The alarm can be a fault alarm or an event alarm.

It is used to perform open loop power control. Alpha parameter is used by the MS to calculate the output power PCH of the upli

Decimal part of the antenna altitude

Height of the specified GSP receiver antenna

Integer part of the antenna altitude

Height of the specified GSP receiver antenna

Alarm severity. One or more severities can be selected. By default, all severities are selected.

Alarm severity. One or more severities can be selected. By default, all severities are selected.

Whether to supply power to the TMA on tributary 0

Whether to supply power to the TMA on tributary 1

Whether to supply power to the TMA on tributary 2

Whether to supply power to the TMA on tributary 3

Whether to supply power to the TMA on tributary 4

Whether to supply power to the TMA on tributary 5

Maximum degree by which the BSC can control the power of the AMR BTS dynamically

Whether to enable the III power control algorithm for AMR calls. If enabled, power control is performed on AMR calls.

Whether to enable the adaptive adjustment function of AMR downlink threshold. After this function is enabled, the BTS estimate the target voice quality, it indicates that the current AMR handover threshold may not be the best for the current radio condition

Number of measurement reports sampled for averaging downlink AMR signal strength. A single measurement report may not r Number of downlink AMR measurement reports that the BSC predicts. The BSC takes a while to confirm the power control effe real-time radio environment. As a result, the power control is late. To prevent late power control to a certain degree, the power control algorithm involves a measurement report prediction filter. T This parameter specifies the number N.

Quality level threshold for decreasing downlink AMR signal power. If the BTS transmits AMR signals at a quality level less than does not adjust the transmit power.

Quality level threshold for increasing downlink AMR signal power. If the BTS transmits AMR signals at a quality level greater th does not adjust the transmit power.

Number of measurement reports sampled for averaging downlink AMR signal quality. A single measurement report may not ref

During downlink power control, if the downlink receive quality level is equal to or greater than this threshold, "AMR DL RX_LEV

During downlink power control, if the downlink receive quality level is equal to or greater than "AMR DL Qual Bad Trig Threshol Upper threshold for downlink AMR signal strength. If the downlink received AMR signal level is greater than this threshold, a power decrease is computed. Then, the power is dec Power decrease = downlink received signal level - ("AMR DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold The maximum power adjustment step allowed by the quality zone is chosen from "AMR MAX Down Adj. Value Qual. Zone 0", "

Lower threshold for downlink AMR signal strength. If the downlink received AMR signal level is less than this threshold, a power increase is computed. Then, the power is increase Power increase = ("AMR DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold")/2 - downlink received signal le

Whether to enable the algorithm for the load-based AMR handover between full rate and half rate

With "F-H Ho Period" and the duration for triggering handover from full rate to half rate, this parameter determines the current A ATCB offset = (duration for triggering handover from full rate to half rate/"F-H Ho Period" + 1) x "AMR F-H Ho ATCB Adjust Ste

ATCB threshold for the AMR handover from full rate to half rate. If the ATCB of an AMR full rate call is equal to or greater than

With "F-H Ho Period" and the duration for triggering handover from full rate to half rate, this parameter determines the current p Path loss offset = (duration for triggering handover from full rate to half rate/"F-H Ho Period" + 1) x "AMR F-H Ho Pathloss Adju

Path loss threshold for the AMR handover from full rate to half rate. If the path loss of an AMR full rate call is equal to or less th

Quality threshold for the AMR handover from full rate to half rate. If the uplink and downlink receive quality levels of an AMR ful

Load threshold for the AMR handover from full rate to half rate. If the cell load is greater than this threshold, the AMR full rate c

ATCB threshold for the AMR handover from half rate to full rate. If the ATCB of an AMR half rate call is less than this threshold,

Path loss threshold for the AMR handover from half rate to full rate. If the path loss of an AMR half rate call is greater than this

Whether to enable the algorithm for the uplink and downlink receive quality based AMR handover from half rate to full rate

Quality threshold for the AMR handover from half rate to full rate. If the receive quality level of an AMR half rate call is greater th

Load threshold for the AMR handover from half rate to full rate. If the cell load is less than this threshold, the AMR half rate call

Maximum step by which the power can be increased according to received signal quality

Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 0. Huawei power control algorithm generation II classifies the received signal quality into three quality zones. The maximum step b

Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 1. Huawei power control algorithm generation II classifies the received signal quality into three quality zones. The maximum step b

Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 2. Huawei power control algorithm generation II classifies the received signal quality into three quality zones. The maximum step b

Whether enable the compensation ofbe AMR measurement reports in Huawei power control algorithm generation II Maximumtostep by which the power can increased according to received signal level If this parameter is set to YES, Huawei power control algorithm generation II puts a currently received measurement report into the algorithm compensates the received signal level in a history measurement report after measurement report interpolation. Before making a power control decision, the BSC samples and weights the received signal level and quality in several history m algorithm needs to compensate the received signal level and quality in the history measurement reports where the transmit pow

Minimum interval between two consecutive AMR power control commands

Maximum step by which the power can be decreased according to received signal quality

Number of levels by which the BTS increases the power of an SACCH frame. This parameter is used for SACCH power control

Whether to enable the BSC to assign AMR half rate channels preferentially according to the channel types allowed by the MSC

Load threshold for assigning half rate channels preferentially. If the current TCH seizure ratio of the cell is greater than this thre

Whether to enable the adaptive adjustment function of AMR uplink threshold. After this function is enabled, the BTS estimates target voice quality, it indicates that the current AMR handover threshold may not be the best for the current radio conditions. In

Number of measurement reports sampled for averaging uplink AMR signal strength. A single measurement report may not refle Number of uplink AMR measurement reports that the BSC predicts. The BSC takes a while to confirm the power control effect o real-time radio environment. As a result, the power control is late. To prevent late power control to a certain degree, the power control algorithm involves a measurement report prediction filter. T This parameter specifies the number N.

Quality level threshold for decreasing the power of an uplink AMR call. If the MS transmits AMR signals at a quality level less th does not adjust the transmit power.

Quality level threshold for increasing the power of an uplink AMR call. If the MS transmits AMR signals at a quality level greater does not adjust the transmit power.

Number of measurement reports sampled for averaging uplink AMR signal quality. A single measurement report may not reflec

During uplink power control, if the uplink receive quality level is equal to or greater than this threshold, "AMR UL RX_LEV Uppe

During uplink power control, if the uplink receive quality level is equal to or greater than "AMR UL Qual. Bad Trig Threshold", "A Upper threshold for uplink AMR signal strength If the uplink received AMR signal level is greater than this threshold, a power decrease is computed. Then, the power is decrea Power decrease = uplink received signal level - ("AMR UL RX_LEV Upper Threshold" + "AMR UL RX_LEV Lower Threshold")/2 The maximum power adjustment step allowed by the quality zone is chosen from "AMR MAX Down Adj. Value Qual. Zone 0", "

Lower threshold for uplink AMR signal strength. If the uplink received AMR signal level is less than this threshold, a power increase is computed. Then, the power is increased Power increase = ("AMR UL RX_LEV Upper Threshold" + "AMR UL RX_LEV Lower Threshold")/2 - uplink received signal level

Maximum number of retransmissions of the A-interface circuit reset message. When an A-interface circuit of the BSC is reset, t the A-interface circuit reset message. This parameter specifies the maximum number of retransmissions of the A-interface circu

Maximum number of times of resending a reset message at the A interface. When the BSC6900 is reset, the BSC6900 sends a expires again and the times of resending the reset message are less than the value of this parameter, the BSC6900 continues

Maximum gain to the signals from the remote end. If the parameter is set to a small value, the target SNR may be restrained wh

Whether to enable the adaptive noise cancel (ANC) function

The system adjusts the remote input so that the ratio of the remote signal to the local noise is above the value of this paramete

Tilt angle of the RET antenna, it is accurate to one place of decimal, for example, the tilt can be 7.7 degree.

Uniquely identifies an adjacent node

Adjacent node identifier of this IP path

New name of the alarm

ANR mode

This parameter determines the noise depression degree. A large absolute value of this parameter corresponds to a strong depr

ANR target noise level

Whether to enable the adaptive noise restrain (ANR) function

Size of the azimuth angle of the cell antenna

Length of the feeder cable. The GPS satellite card is connected to the antenna through feeder cables. The transmission delay o

Power supply switch of the GPS antenna feeder

E1T1 anti-error switch.

Whether to enable the BTS to clear the burglar alarm automatically

Number of the antenna

Number of the antenna feeder channel mapped to the RXU

Antenna pass No. of the RXU of a sub-location group. The parameter is configured only when the MRRU or GRRU is used in th

Antenna pass number of the downlink tributary

Number of a port on the A interface board

Upper layer application type of the SCTP link. The upper layer application type of A and LB interface is M3UA. In the BSC disa

Application type of the semi-permanent link

Update frequency of the value N (packet drop interval), indicating that the packet drop interval is updated after N packets are tr

Upper length threshold of the TBF buffer queue. If the length of the TBF buffer queue exceeds this threshold, whether the pack

Congestion threshold of the TBF buffer queue. If the congestion level in the TBF buffer queue exceeds this threshold, whether

Initial value of the interval (indicated by N) at which the packets in the TBF buffer queue are discarded. The value N indicates th certain period. The smaller the value N, the greater the number of discarded packets.

Lower threshold of the interval for discarding the packets in the TBF buffer queue, that is, the minimum value of N (packet drop

Upper threshold of the interval for discarding the packets in the TBF buffer queue, that is, the maximum value of N (packet drop

AQM switch

Target threshold of the TBF buffer queue

Local area code, for example, 021 for Shanghai

Area flag

Area flag

Threshold for reporting the recovery alarm for the abnormal release alarm. If the percentage of the abnormal channel releases

Release statistics base for subchannels. This parameter indicates the number of times that a subchannel is activated. In a time If the percentage of the abnormal channel releases in the latest S channel releases exceeds the Abnormal Warn Threshold, the If the percentage of the abnormal channel releases in the latest S channel releases is equal to or less than the Abnormal Relea

Threshold for reporting the abnormal release alarm. In a timeslot, the release statistics base, B, multiplied by the number of cha

Retransmission times upon ARP timeout. When the ARP request times exceeds the retransmission time without a response, th

ARP packet timeout time

Number of the slot where the A interface board is located

Number of the slot where the A interface board is located

Number of the subrack where the A interface board is located

Network management type of the alarm. By default, all network management types are selected.

Network management type of the alarm. By default, all network management types are selected.

Switch for assigning the channel of a better cell to the MS during MS access.

When this parameter is set to ENABLE, if the cell supports direct retry and the current cell load is equal to or larger than the val current call applies for channels in its own cells. If the application fails, it continues with the direct retry procedure.

Offset relative to the level threshold for determining whether to assign a channel in the overlaid subcell

Number of the cabinet where the associated RXU board is installed. This parameter is valid for DRRU, MRRU, GRRU, or BTS3 DTCU.

Number of the cabinet where the associated RXU board is installed. This parameter is valid for DRRU, MRRU, GRRU, or BTS3 DTCU.

Number of the slot where the associated RXU board is installed.

Number of the slot where the associated RXU board is installed.

Number of the subrack where the associated RXU board is installed.

Number of the subrack where the associated RXU board is installed.

Absolute level threshold for automatic optimization of neighbor cells and frequencies. The measurement results in measuremen incremented by one.

After the BSC6900 delivers an assignment command, the T3107 timer starts. If the BSC6900 receives an assignment complete

Timer for waiting for a single A-interface circuit blocking or unblocking answer. The BSC6900 starts this T1 timer after sending a single A-interface circuit blocking or unblocking message. If the BSC6900 doe MSC. If the timer expires for the second time, the BSC6900 reports an alarm for BSC circuit blocking or unblocking failure.

MSC reset protection timer, that is, interval between the time when the BSC6900 receives an MSC reset message and the time

T17 timer. When receiving an MSC overload message or a single point congestion message for the first time, the BSC6900 inc

T18 timer. When receiving an MSC overload message or a single point congestion message for the first time, the BSC6900 inc Timer for waiting for an A-interface circuit reset answer. The BSC6900 starts this timer after sending an A-interface circuit reset message. When this timer expires for the first time, the

Timer for waiting for an A-interface circuit group blocking or unblocking answer. After sending a CIC group blocking/unblocking blocking/unblocking message. If no response is received before the second expiry of T20, the system reports the BSC Unable

Timer for waiting for an A-interface reset answer

Whether to enable the ATCB handover algorithm for the concentric cell. According to the neighbor cell signal, the ATCB hando interference, to improve the conversation quality, and to achieve aggressive frequency reuse in the overlaid subcell.

Hysteresis in the distance between the boundary of the overlaid subcell and the boundary of the underlaid subcell. This parame is SS(s) and that the signal strength of the neighbor cell is SS(n). If SS(s) - SS(n) < "Distance Between Boudaries of Subcells" Distance between the boundary of the overlaid subcell and the boundary of the underlaid subcell. This parameter specifies the underlaid subcells are determined according to the relative value between the signal strength of the serving cell and the signal underlaid subcell. If SS(s) - SS(n) > "Distance Between Boudaries of Subcells", the MS is in the coverage of the overlaid subce In the tight BCCH handover algorithm, this parameter specifies the difference between the coverage of the TRX that carries the

Whether to enable the BSC to use a 8 kbit/s timeslot to transmit 8 kbit/s data at the Ater interface

Whether to enable the BSC to assign half rate channels preferentially when the Ater interface is congested

Threshold for considering the Ater interface, if congested, the BSC determines whether to assign full or half rate channels prefe

Index of an Ater connection path

Threshold for enabling the BSC local switching. When the congestion rate at the Ater interface exceeds this threshold, the func

Ater interface timeslot mask

Whether to configure the Ater OML link used for the TC subrack for the port. If it is actually configured and you specify that it is

Ater maintenance link index

Ater connection path index,The index is set through the ADD ATERCONPATH command.

Indentifies an Ater signaling channel

Transport mode of the Ater interface. The Ater interface can be in TDM or in IP transport mode.

Number of the RF port on the RF front-end board of the BTS. The number is unique in a board.

A interface timeslot mask

Attach-detach Allowed (ATT). If this parameter is set to YES, when an MS is powered off, the network does not process any ca

TMA attenuation factor of antenna tributary 1

TMA attenuation factor of antenna tributary 2

It specifies the loopback duration.

It specifies the test duration.

SSL authentication mode of the peer certificate

Validation mode of the PPP or MP link negotiation

Validation mode of the PPP or MP link negotiation

Validation mode of the PPP or MLPPP link negotiation

Username to validate, for the PPP or MP link negotiation

Username to validate, for the PPP or MP link negotiation

Username to validate, for the PPP or MLPPP link negotiation

Password to validate, upon PPP or MP link negotiation

Password to validate, upon PPP or MP link negotiation

Password to validate, upon PPP or MLPPP link negotiation

Type of validation protocol for the PPP or MP link negotiation

Type of validation protocol for the PPP or MP link negotiation

Whether thevalidation self-negotiation mode is adopted Type of the protocol for the PPP or MLPPP link negotiation 1. When the FG2 board is used and the port type is GE, the self-negotiation mode must be adopted. 2. If the self-negotiation mode is adopted, the FE port rate, working mode and flow control mode must be in accordance with th of the peer. Otherwise, transmission failure must be incurred. 3. If the self-negotiation mode is adopted on the local system, the peer must use the self-negotiation mode.

Whether inter-subrack path can be added automatically

Whether to allow automatic adjustment for the uplink threshold and hysteresis of full rate AMR call rates

Whether to allow automatic adjustment for the uplink threshold and hysteresis of half rate AMR call rates

Whether to enable the BSC to obtain BTS logs automatically

Whether to enable the auto-negotiation mode

The parameter specifies the work mode for the automatic download and activation of the BTS software. BTS Software Auto DL

Auto unlock switch

Duration of time after which the locked user is unlocked automatically

optical adaptation type between high-order path and multiplex section.

Phase tag for GSM protocols supported by the A interface. The value of this parameter is chosen according to the A interface p

Alarm level for a digital port

Alarm level. It is valid for the digital port.

Threshold of B1 and B2 signal degrade. This parameter specifies the generation threshold and the recovery threshold of the B1

Threshold of B1 and B2 signal failure. This parameter specifies the generation threshold and the recovery threshold of the B1B

Threshold of B3 signal degrade. This parameter specifies the generation threshold and the recovery threshold of the B3 signal

Threshold of B3 signal failure. This parameter specifies the generation threshold and the recovery threshold of the B3 signal fa

Switch of backplane LINE1

Switch of backplane LINE2

Directory for saving the backup file

Path (complete path) of the backup file

Quality threshold for determining that a call is disconnected because of poor quality. If the uplink quality or downlink quality in th due to poor quality. This parameter can be used to calculate the number of call disconnections due to poor quality.

Whether the downlink TBF can be established in advance. Downlink TBF establishment in advance indicates that the downlink

Bar code 2 of the interface board of the BTS. This parameter is the electronic serial number of the standby PTU board. An elec

IP address of the backup port

Mask of the backup port

This parameter specifies the method of saving the BTS backup power. When this parameter is set to "Turn off TRX", the BSC preferentially shuts down some TRXs when the BTS experiences a pow

This parameter specifies the backup power saving policy of the BTS. When this parameter is set to "Cover Priority", the BTS shuts down some TRXs, waits for a certain period of time, and then dec TRXs. When this parameter is set to "Saving Priority", the BTS shuts down some TRXs and meanwhile decreases the power o

Whether the cells at the 1900 frequency support high frequency 1900

Whether the cells at the 850 frequency support high frequency 1900

Whether the cells at the 900 frequency support high frequency 1900

Duration in which intra-cell handover is forbidden after the number of consecutive intra-cell handovers reaches the maximum. In

List of bar codes of all the cabinets in the BTS

Number of the BTS temperature sensor corresponding a battery group. You can choose sensor 1 (Battery1Temp) or sensor 2 (Ba The reference must support the Um interface to software synchronization. If you choose sensor 1, the system automatically uses sensor 1 to control the temperature of the battery group and performs te The system handling principles are the same if you choose sensor 2. For the EPS4815 boards, this parameter can only be configured as "Battery1Temp". In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Number of the temperature sensor corresponding to a battery group. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Battery capacity. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether the configuration of external battery is allowed. The value "YES" indicates that the external battery can be configured, In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Allowed percentage of the battery discharging. After the AC power supply is cut and the power of the battery is discharged by t

Battery type. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Number of the BBAP service listening port

Reference difference between uplink and downlink levels. This parameter works with "Up Down Balance Floating Range" to co

Battery capacity. The battery capacity should be set according to the vendor specification. If it is improperly configured, the batt In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Base station color code (BCC) of a cell, provided by the network planning department. It is used for differentiating the neighbor

Base station color code (BCC) of a cell, provided by the network planning department. It is used for differentiating the neighbor

BTS color code. It uniquely identifies different BTSs that are adjacent and use the same TRX.

BCCH frequency of the cell

Frequency of the BCCH TRX

Frequency hopping mode of the TRX that carries the BCCH

Threshold for reporting the BC congestion alarm. When the BC congestion level exceeds the threshold, the BC congestion alar

Threshold for clearing the BC congestion alarm. When the BC congestion level is below the threshold, the BC congestion alarm

DSCP corresponding to the background service

Identifies one BC at the Gb interface board. The BCID's value range of PEUa board is 0~255 and that of POUc board is 0~511

Current limit coefficient of the battery. The maximum charging current equals the value of "Battery Current Limiting Coefficient" In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Boost-Charging Voltage. See the vendor specification for the setting of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether the configuration of external battery is allowed. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

ARP1 priority in the BE service. ARP1 priority weight determines the number of the budget blocks and the block scheduling prio

ARP2 priority in the BE service. ARP2 priority weight determines the number of the budget blocks and the block scheduling prio

ARP3 priority in the BE service. ARP3 priority weight determines the number of the budget blocks and the block scheduling prio DSP bearer type. MTP3: indicates that the lower layer bearer is the MTP3 used in ATM/TDM scenario; M3UA: indicates that the lower layer bearer is the M3UA used in IP scenario; MTP3_M3UA: indicates that the lower layer bearer is the MTP3 and M3UA used in ATM/TDM/IP scenario.

Time interval for sending a handshake message between BSC6900s. The parameter checks whether the communication amon

Average period for sending the measurement report over the EGPRS channel

Number of UTRAN TDD cells that should be included in measurement report

This parameter specifies whether to allow 3G better cell handover algorithm.

Whether to enable the algorithm for the handover to a better cell

According to the P/N rule, if the conditions for the handover to a better cell due to interference are met for P seconds within N s This parameter specifies the number P.

According to the P/N rule, if the conditions for the handover to a better cell due to interference are met for P seconds within N s This parameter specifies the number N.

Timeout times of the BFD packet. If several consecutive BFD packets are not received, the BFD session is set to the DOWN st

BFD Session No.

Allowed fluctuation of the difference between uplink and downlink levels relative to the reference difference. If the difference be For example, assume that the Up Down Balance Basic Difference is set to 8 and that the Up Down Balance Floating Range is s uplink and downlink levels is between -22 and 38, the uplink and downlink are considered balanced.

Mutual-aid changeback policy of baseband frequency hopping (FH). If multiple TRXs in a baseband FH group are faulty and ch long as any of the faulty TRXs recovers, it is changed back at once and added to the FH group.

Bit offset in the frame of the BTS clock

ARP1 priority in the Background service. ARP1 priority weight determines the number of the budget blocks and the block sched

ARP2 priority in the Background service. ARP2 priority weight determines the number of the budget blocks and the block sched

ARP3 priority in the Background service. ARP3 priority weight determines the number of the budget blocks and the block sched

Base Station Controller alarm blink filter switch

Alarm blink filter threshold. When the interval between the generation and clearance of an alarm is equal to or smaller than the

Measurement period of filtered Base Station Controller alarms

Switch controlling whether to perform statistics of Base Station Controller alarms

Retry times after the peer response timer expires during NSVC blocking

Duration of the peer response timer during NSVC blocking

Number of the port in the BM subrack where one end of the ATER connection channel is located

Number of the slot in the BM subrack where one end of the ATER connection channel is located

Number of the BM subrack where one end of the ATER connection channel is located

Duration of the flow control protection timer enabled during the flow control between the TCS and the MPS/EPS subracks

Whether to use the device IP address as the local IP address. When this parameter is set to "YES", the device IP address is u local IP address of the PPP link.

Whether to report the alarm to the alarm box

Position of break point 1 in an RXU chain. The number of break points must not be greater than the number of RXU boards in t

Position of break point 2 in an RXU chain. The number of break points must not be greater than the number of RXU boards in t

Whether to enable the bad quality (BQ) handover algorithm. Whether to trigger BQ handover depends on the uplink and downli degradation) include too low signal power and channel interference.

According to the P/N rule, if the conditions for emergency BQ handover are met in P of N measurement reports, the handover i This parameter specifies the number P.

If ("downlink level of the neighbor cell after filtering" - "downlink level of the serving cell (after power control compensation)") > (

According to the P/N rule, if the conditions for emergency BQ handover are met in P of N measurement reports, the handover i This parameter specifies the number N.

Classes of boards classified according to function modules

Classes of boards classified according to function modules

Classes of boards classified according to function modules

Classes of boards classified according to function modules

Number of the board

Number of the RF front-end board in the BTS

The upper threshold of the total receive bandwidth of all the TRXs bound to the board, for example, when this value is 250, it m

Software type of the BTS board

The upper threshold of the total send bandwidth of all the TRXs bound to send pass of board, for example, when this value is 1

Type of the board

Type of the board

Board type

Board type

Board type

Board type

Type of the new RXU board.

Type of the board. The type can be TMU/DTMU, DTRU, DPTU, QTRU, MRRU, GRRU, BTS3900B, MRFU, GRFU, BTS3900E,

To avoid intermittent blinking, the switchover cannot be performed over a certain period of time when the OML is disconnected.

Contents of a cell broadcast message

Time interval for a cell broadcast message

Backup mode of the log. If "ENTIRE" is selected, all logs in the current database are backed up. If "INCREMENTAL" is selected

BS-AG-BLKS-RES, indicating the number of the CCCH message blocks reserved for the AGCH. After the CCCHs are configure

DPC of the external BSC, which is used for inter-BSC communication. This parameter can be represented in decimal, hexadec precede this parameter value with B'.

This parameter specifies whether to enable the TRX Intelligent Shutdown feature.

It indicates whether the A interface E1/T1 is the primary BSC6900 or secondary BSC6900.

Gateway IP address of the BSC6900. When the BSC provides the function of simple cell broadcast, the BSC6900 sends cell br

End time for collecting the inter-BSC offset information

Start time for collecting the inter-BSC offset information

Uniquely identifies a BSC in the TC pool

ID of the BSC that controls the external 2G neighbor cell

Period for fine tuning the BTS clock between BSCs

IP address of the BSC6900. If the connection mode of the BSC6900 and the CBC is to lead cables out of the PIU, the value of If the connection mode is to lead cables out of the XPU panel, the value of this parameter must be the same as the preset IP ad

IP address of an interface board on the BSC6900 side Conditions for enabling the function of BSC local switching. UNCONDITIONALSTART: The function of BSC local switching is enabled without restriction. ATERCONGESTS: The function of BSC local switching is enabled when the congestion rate of the Ater interface exceeds the v PREFIXNUMBER: The function of BSC local switching is enabled when the leading digits of the calling or called MSISDN are th

Unique name of the external BSC

Whether to allow high-priority calls to preempt the radio resources of low-priority calls when radio resources are insufficient.

Whether to allow the call during an intra-BSC emergency handover to preempt the radio resources of low-priority calls in the tar

In-BSC6900 port No. of the monitoring timeslot

Port number used for the communication between the BSC6900 and the CBC

Whether to allow the eMLPP priorities to be classified into two types: high priority and normal priority. If this parameter is set to YES, then during the resource preemption, the priorities of all the services are compared, and the res If this parameter is set to NO, then during the resource preemption, all the services with an eMLPP priority greater than 2 are co

Whether to allow calls to queue for radio resources when radio resources are insufficient.

Whether to allow the service during an intra-BSC emergency handover to queue for radio resources in the target cell.

Reserved parameter 1 that is effective at the BSC level

Reserved parameter 10 that is effective at the BSC level

Reserved parameter 11 that is effective at the BSC level

Reserved parameter 12 that is effective at the BSC level

Reserved parameter 13 that is effective at the BSC level

Reserved parameter 14 that is effective at the BSC level

Reserved parameter 15 that is effective at the BSC level

Reserved parameter 16 that is effective at the BSC level

Reserved parameter 17 that is effective at the BSC level

Reserved parameter 18 that is effective at the BSC level

Reserved parameter 19 that is effective at the BSC level

Reserved parameter 2 that is effective at the BSC level

Reserved parameter 20 that is effective at the BSC level

Reserved parameter 21 that is effective at the BSC level

Reserved parameter 22 that is effective at the BSC level

Reserved parameter 23 that is effective at the BSC level

Reserved parameter 24 that is effective at the BSC level

Reserved parameter 25 that is effective at the BSC level

Reserved parameter 26 that is effective at the BSC level

Reserved parameter 27 that is effective at the BSC level

Reserved parameter 28 that is effective at the BSC level

Reserved parameter 29 that is effective at the BSC level

Reserved parameter 3 that is effective at the BSC level

Reserved parameter 4 that is effective at the BSC level

Reserved parameter 5 that is effective at the BSC level

Reserved parameter 6 that is effective at the BSC level

Reserved parameter 7 that is effective at the BSC level

Reserved parameter 8 that is effective at the BSC level

Reserved parameter 9 that is effective at the BSC level

In-BSC6900 slot No. of the monitoring timeslot

In-BSC6900 subrack No. of the monitoring timeslot

In-BSC6900 sub-timeslot No. of the monitoring timeslot. If the added monitoring timeslot works at 64 kbit/s, the sub-timeslots ar numbered from 0, 2, 4, or 6. If the added monitoring timeslot works at 8 kbit/s, the sub-timeslots are numbered from any value a

When the BTS clock is adjusted, the offset is added to obtain better network performance.

ID of the BSC at the other end of the link. In non-TC pool scenario, this parameter specifies the ID of the primary BSC. In TC po

ID of slave BSC in TC Pool

In-BSC6900 timeslot No. of the monitoring timeslot

This parameter is used to set the parameter BS_CV_MAX for MS countdown. This parameter is used for the MS to calculate th started. If the MS receives the packet uplink acknowledge before the timer T3198 expires, the MS updates the receiving state o and retransmits the data bloc.

Whether to enable the BTS to transfer BTS/MS power class to the BSC

Number in a cycle on a paging sub-channel. In fact, this parameter specifies the number of paging sub-channels Number of of multiframes PAGCH blocks In an actual network, an MS does not listen to other paging sub-channels but its belonging paging sub-channel only. Refer to G paging sub-channel. In this case, the mean uptime of the MS battery can be prolonged. Refer to the computing mode of paging of the system lowers. Based on the principle of ensuring that overload does not occur to paging channels, you must set this par A paging message in a location area must be sent in all the cells within this location area at the same time. Therefore, the capa

Number of PBCCH blocks

Number of PRACH blocks

Type of the BSS local with the cooperation of the MSC. General strategy of theswitching BSS local switching, which includes the BSC local switching and the BTS local switching. The two funct NONSUPPORT: When performing local switching, the BSS need not determine whether the MSC allows an MS to be involved BASIC: Assignment request messages and handover request messages sent by the MSC contain a flag indicating whether to a ENHANCED: Assignment request messages and handover request messages sent by the MSC contain a flag indicating wheth enabled or stopped message to the MSC.

Whether to support the paging function of the CS domain of the A interface. Yes: the MS can be called upon paging request on Paging Co-ordination Switch" in "SET BSCPSSOFTPARA" is set to "Open".

Type of the board

Type of the board

Type of the board

Board type

Board type

Board type

Board type

Board type

Board type

Board type Type of the board that controls the RET antenna. 1. DATU: It may represent the DATU or the DATM and is applicable to the BTS3012, BTS3012AE, BTS3012_II, BTS3006C, an 2. GATM: It is applicable to the BTS3900 GSM, BTS3900A GSM, BTS3036, and BTS3036A. 3. RXU:DRRU,MRRU,MRFU,GRRU,GRFU,BTS3900E support the RET antenna connect directly.

Type of the newly added antenna board

Type of the newly added board

Type of the newly added RXU board

Type of the board

Type of the board

The configuration flag specifies the operation is on the BM or TC. Identifies the BM subrack or TC subrack of the BSC. When this parameter is set to "CFGBM", a BM signaling link is added. When this parameter is set to "GFGTC", a TC signaling link is added.

This parameter specifies whether to enable the TRX Working Voltage Adjustment feature. When this parameter is set to YES, t

Bard code of BTS BBU board.

Communication type of a BTS

Communication type of a BTS

Peer equipment type of the BTS. This parameter indicates whether to connect the BTS to the BSC6900 or cascade the BTS to

BTS detection switch. If the parameter is set to "CLOSE", the function of detecting the BTS is disabled. If the parameter is set t packet carrying the VLANID to the BTS.

BTS index of the adjacent node to be added. The parameter is valid only when Adjacent node type is set to Abis.

Index of the BTS, uniquely identifying a BTS in a BSC6900.

Index of the BTS running the command

Number of the BTS connected to the BSC. The number is unique in a BSC

List of BTS indexes. You can specify multiple BTSs,separated by "&" and "&&". For example, "1&2&3&4&5" or "1&&5".

Whether to collect offset information by BTS index or BTS name

Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.

Base station index, 65535 indicate all base stations.

IP address of a BTS. When "BTS Com Type" is set to "LOGICIP", the value of the parameter is the IP address of the BTS. Whe the local IP address of the BTS PPP link or BTS MLPPP group. Conditions for enabling the function of BTS local switching. UNCONDITIONALSTART: The function of BTS local switching is enabled without restriction. ABISCONGESTS: The function of BTS local switching is enabled when the congestion rate of the Abis interface exceeds the v PREFIXNUMBER: The function of BTS local switching is enabled when the leading digits of the calling or called MSISDN are th

Subnet mask of BTS.

Whether to enable the BTS to preprocess measurement reports. This parameter determines where to conduct power control.

Name of the BTS, uniquely identifying a BTS in a BSC6900. This parameter cannot contain , ; = " ' more than two (include two)

Connect BSC BTS Name.It is unique in one BSC.This parameter cannot contain ? | : < > " @ # ! % ^ & * . [ ] / \ \\ '.

List of BTS names. You can specify multiple BTSs, separated by "&". For example, "Name1&Name2".

If the parameter is set to "ON", all the Ping packets are sent. If the parameter is set to "OFF", all the Ping packets are discarded.

This parameter specifies whether the BSC is allowed to shut down the BCCH TRX that is configured as "Shut Down Enabled" t When this parameter is set to Yes, the BSC shuts down all the TRXs that are configured as "Shut Down Enabled", including th after receiving a power failure message from the BTS.

Maximum degree by which the BSC can control the power of the BTS dynamically

Whether to specify "Power Control threshold Adjust for SAIC" in the MML command "SET GCELLPWR3"

Software version number of the BTS

Transmission compression ratio of a BTS. 1. Modifying the settings of "Transfers Compress Rate" may change the bandwidth r greater the "Transfers Compress Rate" is, the smaller the compression rate is and the greater the required bandwidth is. 3. The

Type of the BTS

Type of the BTS

Type of the BTS

Time for which the BTS waits to restore a BFD session

Type of TRX loopback test

Battery type. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

If the OML is not established at one port after a period of time, the OML switches to another port and tries to connect to this por

Whether to enable the data binding function

Identifies a unique PTP BVC with NSE

The BSSGP virtual connection identifier. It is used to identify multiple BVCs that multiplexes the NS-VC.

Duration of BVC flow control timer F. A cell sends the flow control message at the interval specified by this timer.

Switch for adjusting the dynamical bandwidth of the logical port. If this switch is turned on, the system adjusts the dynamical ba port. For details about the IPPM, see the description of the command "ACT IPPM".

If the available backward bandwidth is less than or equal to this value, the backward congestion alarm is emitted and backward

If the available backward bandwidth is greater than this value, the backward congestion alarm is cleared and backward conges

If the ratio of available backward bandwidth is greater than this value, the backward congestion alarm is cleared and backward

If the ratio of available backward bandwidth is less than or equal to this value, the backward congestion alarm is emitted and ba

If the available backward bandwidth is greater than this value, the backward overload congestion alarm is cleared and backwar

If the ratio of available backward bandwidth is greater than this value, the backward overload congestion alarm is cleared and b

If the available backward bandwidth is less than or equal to this value, the backward overload congestion alarm is emitted and

If the ratio of available backward bandwidth is less than or equal to this value, the backward overload congestion alarm is emitt

Ratio of reserved backward bandwidth for handover user

Reserved backward bandwidth for handover user

Maximum ratio of the estimated bottleneck bandwidth

Bandwidth mode

Threshold of bandwidth change based on the load control algorithm. When the system detects that the change of the available

Threshold for reporting the uplink-downlink imbalance alarm. If the percentage of the uplink-downlink imbalance measurement

Index type. The value can be BYIDX or BYNAME.

Whether the reselection hysteresis parameter is applied to the C31 criterion

Whether GPRS cell reselection offset is used for C32 calculation during cell reselection. If this parameter is set to 1, then only t

Descriptive information of the BTS cabinet

List of all the cabinet numbers in the BTS

Whether the added cabinet is a remote cabinet

Whether to allow call re-establishment. Burst interference or blind spots due to high buildings may lead to a radio link failure. If

Calibration value of the clock

Whether an MS uses the calculated value as the final receive level value. The calculated receive level value is the measured re

Whether to enable the capacity and coverage of the BTS to be automatically optimized according to the actual situation of the i

Card Frequency Attribute

Whether to indicate that the IP Path is carried on the IP logic port or resource group. NULL indicate the IP Path is carried on the

Bearer type of the logical port Used together with "Cell Bar Qualify" to decide the priority status of a cell. Refer to GSM Rec. 04.08. Cell Cell Bar Access Port Bar typeQualify of the SBFD/ARP bearerCell selection priority Cell reselection priority NO NO Normal Normal NO YES Prohibited Prohibited YES NO Low Normal YES YES Low Normal

Uniquely identifying a cell broadcast center (CBC) CBC interface parameter. The value of this parameter must be translated into a binary numeral. The following describe each bi Bit 0: phase flag Bit 1: message IP address of a type CBCflag Bit 2: cell list flag Bit 3: whether to carry a recovery indication Bit 4: whether to carry a cell ID Bit 5: whether to carry a recovery indication during resetting

Port number at the CBC side in the communication with the BSC6900

Used together with "Cell Bar Access" to decide the priority status of a cell. See GSM Rec. 0408. This parameter does not affec Cell Bar Qualify Cell Bar Access Cell selection CellIf reselection priority Duration of no cell broadcast message at the Cbpriority interface. the BSC6900 does not receive any message from the CBC during NO NO Normal Normal NO YES Prohibited Prohibited YES NO Low Normal YES YES Low Normal

Maximum burst size (MBS)

Timer interval for sending handshake messages. According to the value of this parameter, the BSC6900 regularly sends the CB

Number of enhanced measurement reports (EMRs) sampled for averaging the CV_BEP on the SDCCH. Averaging the CV_BE

Number of enhanced measurement reports (EMRs) sampled for averaging the CV_BEP on the TCH. Averaging the CV_BEP in

Country code, for example, 86 for China Whether to enable the certificate chain DISABLE: indicating that the certificate chain is disabled ENABLE: indicating that the certificate chain is enabled

Time interval for sending overload messages, used for the BTS to notify the BSC6900 of the load over a specific CCCH timeslo

This parameter is used by the BTS to inform the BSC of the load on a CCCH timeslot, that is, the load of the access requests o exceeds the value of this parameter, the BTS periodically sends the CCCH overload message to the BSC. The interval for send

DSCP corresponding to the session service

Transmission period of the CCM packet in the MA

Offset of the reportretry of the cells at the 1800 MHz of frequency. Before are sequenced according to Threshold of measurement forbidding directed for cells. When the value "Assignment Cellcells Load Judge Enable"byinpriority, "SET GCELLCCBAS The values of this parameter correspond to the following decibel values: retry. 0: 0 dB Threshold of the measurement report of the cells at the 1800 MHz frequency. When the receive level value in the measuremen 1: 6 dB The values of this parameter correspond to the following decibel values: ... 0: 0 dB 7: 42 dB 1: 6 dB ... 6: 36 dB 7: positive infinity

BCCH frequency of a 2G neighbor cell that MSs can measure in idle mode. Recording the BCCH frequencies of 2G neighbor c

Whether to generate the 2G BA1 table automatically according to neighbor cell relations or to input the 2G BA1 table manually.

BCCH frequency of a 2G neighbor cell that MSs can measure in dedicated mode. Recording the BCCH frequencies of 2G neig

This parameter indicate whether to generate the 2G BA2 table automatically according to neighbor cell relations or to input the

Offset applied the receivelevel levelofofthe a GSM900 cell in in 8PSK. the measurement report before prioritizing frequency bands. Bef Timeslot powertoattenuation EDGE TRX The attenuation level ranges from 0 cells to 50,by each of which correspo The values of this parameter correspond to the following decibel values: When the EDGE TRX sends signals in 8PSK, the transmit power must be lower than the mean power in GMSK. 0: 0 dB 1: 6 dB Threshold of the measurement report of the cells at the 900 MHz frequency. The measurement report is valid only when the rec ... 0: 0 dB 7: 42 dB 1: 6 dB ... 6: 36 dB 7: positive infinity

Whether the cell can be added to the reselected candidate cell list. If this parameter is set to "NoPermit", the cell cannot be res

If the coverage type of a cell is outdoor coverage, the BTS detects whether the standing wave alarm is generated only when th If the coverage type of a cell is indoor coverage, the BTS detects whether the standing wave radio alarm is generated only whe

Even charging voltage of the battery. The battery is charged at the voltage as specified by this parameter.

Even charging voltage of the battery. The battery is charged at the voltage as specified by this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Float charging voltage of the battery. The battery is charged at the voltage as specified by this parameter.

Float charging voltage of the battery. The battery is charged at the voltage as specified by this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Index of a cell, uniquely identifying a cell in a BSC6900

ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC.

Index of a cell, uniquely identifying a cell in a BSC

Index of a cell, uniquely identifying a cell in a BSC6900

Index of a cell, uniquely identifying a cell in a BSC6900

Cell Index

List of the user-defined neighbor cells to be measured. This parameter is represented as a character string where the IDs of the The BSC supports up to 50 cells.

Index type of a cell when this command is executed

Index type of the cell

Index type of the cell. BYNAME: query by cell name; BYID: query by cell index.

This parameter specifies whether a cell is the OL subcell or the UL subcell. This parameter is applied to the enhanced dualband

Layer of the cell. If the layer of the cell is lower, it is more likely that a handover to the cell will be triggered.

List of cell indexes. All cell indexes are combined as a character string, separated by "&". For example, 1&2&5.

Whether an assignment complete message contains a cell list. According to GSM Rec. 08.08, during a channel assignment, an assignment complete message contains a cell list only when th For the MSCs of some vendors, however, assignment complete messages must contain cell lists. To meet such a requirement,

Maximum number of SDCCHs in the cell. Before converting a TCH into an SDCCH, the BSC compares the number of SDCCHs SDCCH.

Name of a cell, uniquely identifying a cell in a BSC6900

Name of a cell, uniquely identifying a cell in a BSC

Name of a cell, uniquely identifying a cell in a BSC6900

List of cell names. All cell names are combined as a character string, separated by "&". For example, cell1&cell2&cell5. The ce ? | : < > " @ # ! % ^ & * . [ ] / \ \\ '

Power of each passage on the MRRU in the cell. When multiple operators are configured on an MRRU, the parameter specifies

Threshold of the downlink receive level of an over-coverage cell. If the downlink level of a cell is higher than the value of this pa

Threshold of the TA of an over-coverage cell. If the downlink level of a cell is higher than the value of this parameter and the tim

Maximum number of reported paging overload messages in the cell. If the BSC allows the flow control on the re-paging messag

Whether to allow the power-off of the battery. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Battery power-off voltage. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

This parameter specifies whether a 2G cell or 3G cell is selected in the inter-RAT cell reselection procedure.

The number of times that the downlink transmission quality of the MS is lower than the transmission quality threshold of the MS of received measurement reports on the downlink transmission quality (Packet Downlink Ack/Nack message) is greater than or

Information about the cell scenario. It needs to be sent to the BTS. Based on the information, the BTS optimizes the allocation

This parameter specifies whether to allow a mobile phone to preferentially camp on a 3G cell after a call is terminated in the ar

The BTS reports an alarm if the temperature of battery group 1 exceeds the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

The BTS reports an alarm if the temperature of battery group 1 is lower than the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Upper limit of the temperature measured by the temperature sensor of the battery group 1. If the measured value is greater tha In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Lower limit of the temperature measured by the temperature sensor of the battery group 1. If the measured value is smaller tha In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to allow the configuration of parameters related to the temperature compensation of the battery group In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Threshold of the downlink receive level of an weak-coverage cell. If the downlink level of a cell is lower than the value of this pa

Threshold of the TA of an weak-coverage cell. If the downlink level of a cell is lower than the value of this parameter and the tim Threshold for stopping LAPD link congestion control. This parameter cannot be set too small. If this parameter is set too small, small. If the difference is too small, congestion control may be started frequently on signaling links.

Name of the certificate chain file

Whether to allow the configuration of alarm parameters. The value "YES" indicates that the configuration is allowed, and the va In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Indicates whether the IP path is carried on the IP logic port or the resource group.

BTS configuration modes include auto plan mode and normal mode. In auto plan mode, the user can enable the auto planning algorithms and auto optimization algorithms according to the BTS typ

Configure switch.

Whether to enable the board parameters to be configured. If this parameter is set to "YES", the user can set board parameters

Whether to enable the board parameters to be configured. If this parameter is set to "YES", the user can set the cabinet power

Confirm password. The confirm password is required to ensure that a correct password is entered.

Customized command group to be processed

This parameter is valid only when the operator belongs to the custom level.

Congestion end threshold. If the congestion end threshold is large, the congestion control ends earlier. As a result, the congest

Congestion end threshold. If the congestion end threshold is large, the congestion control ends earlier. As a result, the congest

If the parameter is set to 1, it indicates that the CGI and RAC data is generated through automatic planning. If the parameter is

Name of the command group. You can define the name.

Number of the cabinet group where the idle timeslot is located.

Congestion start threshold. If congestion start threshold is set to a large value, there will be a time lag in the congestion control unstable. The congestion control will start frequently.

Congestion start threshold. If congestion start threshold is set to a large value, there will be a time lag in the congestion control unstable. The congestion control will start frequently.

Congestion start threshold. If congestion start threshold is set to a large value, there will be a time lag in the congestion control unstable. The congestion control would start frequently.

This parameter indicates the geographical relationship between the neighboring cell and the serving cell. In the BSC6900, if dir

Combination type of chains. "CHAINTORING" indicates that one chain changes to a ring, and "COMBINECHAINS" indicates th

Channel assignment priority of the cell If this parameter is set to CAPABILITY, the factors are listed as follows in a descending order of priority: capacity factors, qualit If this parameter is set to QUALITY, the factors are listed as follows in a descending order of priority: quality factors, capacity fa If this parameter is set to PSRELATIVELY, the factors are listed as follows in a descending order of priority: capacity factors, PS If this parameter is set to PSABSOLUTELY, the factors are listed as follows in a descending order of priority: PS cooperation fa

This parameter specifies the proportion of available PDCHs in a cell. When the proportion of available PDCHs in the cell is lowe

This parameter determines whether to activate the function of monitoring the failure of logical channels in a cell. When this func

This parameter specifies the proportion of available TCHs in a cell. When the proportion of available TCHs in the cell is lower th

Channel number of a simple cell broadcast message. This is a key parameter for adding a simple cell broadcast message. You

Whether to measure the channel interference during channel assignment. If this parameter is set to NO, the BSC does not mea

When the value of this parameter is YES, if the assignment request message sent by the MSC contains the channel rate type i rate type into the selection of full rate only or half rate only when decoding the assignment request message.

This parameter is used to check whether the Abis timeslot for the PDCH is faulty. When the out-of-synchronization period of the

Number of ping check timeouts. The parameter indicates the number of timeout record failures.

Whether to enable the BSC to check automatically whether a BTS is connected to a proper E1 port in the EIUa. If a BTS is con Alarm mode ofon thethe ANT_A tributary of an RXU board. There are three alarm modes. Alarm mode 1 has only one type of alarms configurations BSC side. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the norm Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse curren When the parameter is set to 1, "ANT_A ALD Current Minor Alarm Occur Th", "ANT_A ALD Current Minor Alarm Clear Th", "A Alarm mode of the ANT_B tributary of an RXUbe board. There are three modes. mode 1 hasALD onlyCurrent one type of alarms ALD Cur-Minor Alarm N-Cur Duration" cannot configured. When thealarm parameter is Alarm set to 3, "ANT_A Minor Alarm Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the norm Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse curren When the parameter is set to 1, "ANT_B ALD Current Minor Alarm Occur Th", "ANT_B ALD Current Minor Alarm Clear Th", "B ALD Cur-Minor Alarm N-Cur Duration" cannot be configured. When the parameter is set to 3, "ANT_B ALD Current Minor Alarm

Detection index. The index is a unique value ranging from 0 to 511 if it is not specified.

Detection index

Total number of times that the BTS checks whether to switch off the air conditioner

Total number of times that the BTS checks whether to switch on the air conditioner

Whether to perform checksum when receiving message

Whether to perform checksum when sending message

Checksum arithmetic type. According to the RFC4960, the ALDER32 algorithm is not applicable to the SCTP checksum. The C

Type of the detection that is performed between the BSC and the gateway.

Duration

Number of the channel in the TRX

Timeslot for playing sound

Number of the channel in the TRX

Type of channel loopback test

Channel type of the timeslot on the TRX. The channel type of timeslot 0 must not be set, because the combined BCCH is confi

Whether an assignment complete message contains the information element of Chosen Channel

Whether a handover perform message contains the information element of Chosen Channel

Whether an HO REQ ACK message contains the information element of Chosen Channel

Whether an encryption complete message contains the information element of Chosen Encryption Algorithm

Whether a handover performed message contains the information element of Chosen Encryption Algorithm

Whether an assignment complete message contains the information element of Chosen Encryption Algorithm

Whether an HO REQ ACK message contains the information element of Chosen Encryption Algorithm

Whether to allow a multi-density TRX board, that uses the dynamic power sharing algorithm to assign channels, to assign a cha power sharing algorithm to assign channels cannot assign a channel to an MS when the remaining power on the multi-density T to an MS when the remaining power on the multi-density TRX board is less than the power required by the MS.

Combined BCCH+7TCH Main BCCH+SDCCH/8+6TCH Main BCCH+2SDCCH/8+5TCH Main BCCH+SDCCH/8+extended BCCH (BCH)+5TCH This indicates whether to collect CHR logs for a specified object. Mainparameter BCCH+SDCCH/8+extended BCCH (BCH)+TCH+extended BCCH (BCH)+3TCH

The BCCHs in a cell need to be configured according to the number of channels in the cell and the paging capacity in the locat Maximum number of allowable CS domain channel request messages within the value of "CHAN REQ Statistical Period" The main and combined BCCHs shall always be configured in timeslot 0. An extended BCCH can be configured only in timeslo the CCCH parameter in the system message data needs to be configured as two uncombined CCCHs.

Average of allowable PS domain channel request messages withinchannel the value of "CHAN REQ Statistical Period" cell b To enablenumber cell broadcast in a cell, add a CBCH to the cell during the radio configuration. In the case of SDCCH/8 BCCH_CBCH. With the same effect, the SDCCH/8 and SDCCH/4 cell broadcast services serve different network planning requ

Statistic period of the arrival rate of channel request messages. Within the preset value of this parameter, the BSC6900 counts The configurations for half-ratechannel networking differmessages from the data other networking. BSCdata begins to discard subsequent request until configurations the current timeforreaches a new "CHAN REQ Statistical Per

In the case of half-rate networking, each TRX maintains high RSL traffic. Therefore, the LAPD signaling link multiplexing ratio a

In the case of half-rate networking, each E1 supports up to 13 TRXs. If the LAPD signaling links are unmultiplexed, each E1 su

Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identification Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.

Cell identity code. The cell is a radio coverage area that is identified by the BTS identity code and global cell identity code.

Indicates the A interface CIC. When operation mode is set to OPC index, DPC group index, BSC ID, or CIC, the parameter is m Indicates the Pb interface CIC. If the search object mode is set to search by the specified No., the parameter is mandatory. The parameter supports multiple values.

The TC DSP compares neighboring speech frame samples after the CIC downlink one-way mute detection is enabled. When th occurs for the current call.

This parameter indicates the period of completing a CIC downlink one-way mute detection of each port.

This parameter determines whether the CIC downlink one-way mute detection is enabled.

This parameter indicates the proportion of one-way mute CICs in all available CICs over a port.

If one-way mute frames occur for the duration greater than "CIC Downlink One-Way Mute Detection Duration", then it is regard

Whether an assignment failure message contains the information element of Circuit Pool

Whether an HO FAIL message contains the the information element of Circuit Pool

Whether an assignment failure message contains the the information element of Circuit Pool List

Whether an HO FAIL message contains the the information element of Circuit Pool List

Whether an assignment complete message contains the information element of Circuit Pool

Whether an HO REQ ACK message contains the information element of Circuit Pool

Bandwidth of the logical port

This parameter specifies the estimated carrier-to-interference ratio of a new call. It is used for the Huawei power control algorith

Slot number of the BSC6900 board that is connecteds to the BTS

Subrack number of the BSC6900 board that is connected to the DXX

Whether the cell supports the MS with the DTM multi-timeslot capability of class 11

Whether to enable the BSC to include the 3G classmark information element in the Classmark Request message that the BSC

Error clear threshold.

Clock mode

Clock mode of the BTS. Type the clockisprotocol for the IP the clock server If this of parameter set to INT_CLK, BTS does not track any external clock. The internal high precision clock works in free-ru If this parameter is set to TRCBSC_CLK, the BTS tracks the clock signals received from the BSC. If this parameter is set to EXCLK, the BTS tracks the clock signals received from the external input clock. If this of parameter set to IP_TIME, the BTS shakes hands through the IP network with the IP clock server for synchronization. Type the clockisboard If this parameter is set to IP_TRANSFER, the BTS extracts the clock from an E1 when there is not an IP clock after the BTS up If this parameter is set to TRCGPS_CLK, the BTS extracts the clock through the DGPS from the GPS. If this parameter is set to UM_CLK, the BTS keeps pace with the signals broadcast on the downlink main BCCH of a neighborin If this parameter is set to PEER_CLK, the multimode BTS(GSM) keeps pace with the signals that the other mode offer.

Delay for which the BTS waits to run the burglar alarm clearance command after reporting the burglar alarm

Whether the alarm to be queried is cleared. You can select "cleared" or "uncleared", or both of them. By default, both of them a

Interval at which the BTS runs the burglar alarm clearance command automatically

Name of the command to be queried. You can select one or more commands.

You can select one or more commands.

Sequence number of the command string of the scheduled subtask.

Number of the cabinet

Number of the cabinet

Number of the cabinet

Number of the cabinet where the port is located

Number of the cabinet

Number of the cabinet.

Time delay in the detection of core network interface failure. Within the preset value of this parameter, the BSC6900 continuous

Used to uniquely identify an MSC

Uniquely identifies a node of SGSN, with the specified operator name

Index of an MSC. It is used in storing and querying the MSC attributes

Index of the operator

Policy of the BSC6900 for judging whether the interface status of the core network is normal. If the value is NONE, the BSC690

Number of returned alarm records. By default, all records can be returned in each query.

Type of the cabinet. The slot and subrack arrangements in a cabinet vary according to the cabinet type.

Type of the BTS cabinet where the DMPU is installed

Maximum number of records allowed in the operation log

Assume that this threshold is not 0. When the accumulated number of alarm blink times exceeds the threshold, the alarm is rep

Assume that this threshold is not 0. When the number of alarm blink times is smaller than the threshold, the alarm is reported. F

Whether to adjust the candidate cell queue to give priority to intra-BSC/MSC handover Number of a simple cell broadcast message. You can run "DSP GSMSCB" to query and obtain the information. The value of this parameter cannot be 0. This parameter, "Geography Scope", and "Update" uniquely decide a cell broadcast message.

Whether to start the refrigeration equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to collect offset information by the BTS or cell

Combined loss used to estimate the downlink power during assignment

Level of common access control, used for load control, allowing or forbidding the access of some users of common access leve

Complexity of the password

BTS compress rate.

Whether the BSC that controls the external cell and the local BSC belong to the same MSC

Index type of the BTS connected to BSC

If the duration for buffering the data in queue 0 is less than or equals to the value of this parameter, flow control is canceled.

If the duration for buffering the data in queue 1 is less than or equals to the value of this parameter, flow control is canceled.

If the duration for buffering the data in queue 2 is less than or equals to the value of this parameter, flow control is canceled.

If the duration for buffering the data in queue 3 is less than or equals to the value of this parameter, flow control is canceled.

If the duration for buffering the data in queue 4 is less than or equals to the value of this parameter, flow control is canceled.

If the duration for buffering the data in queue 5 is less than or equals to the value of this parameter, flow control is canceled.

If the duration for buffering the data in queue 0 is more than or equals to the value of this parameter, flow control is triggered.

If the duration for buffering the data in queue 1 is more than or equals to the value of this parameter, flow control is triggered.

If the duration for buffering the data in queue 2 is more than or equals to the value of this parameter, flow control is triggered.

If the duration for buffering the data in queue 3 is more than or equals to or equals to the value of this parameter, flow control is

If the duration for buffering the data in queue 4 is more than or equals to the value of this parameter, flow control is triggered.

If the duration for buffering the data in queue 5 is more than or equals to the value of this parameter, flow control is triggered. Whether to enable the concentric cell handover algorithm. The concentric cell handover helps to achieve wide coverage in the handover from the underlaid subcell to the overlaid subcell and handover from the overlaid subcell to the underlaid subcell.

Number of the port through which the DXX is connected to the BSC6900

Whether to connect the power monitoring board

Type of the connection between the NE and EMS or LMT. The connection can be a plain connection or SSL encryption connec

Whether the Iur-g common connection is established between the BSC and a co-BSC6900 RNC or an external RNC.

Minimum interval between the two consecutive handover decisions of an MS. The BSC cannot make a handover decision durin To avoid frequent handover events in the cell, the BSC starts a timer after delivering a handover command to an MS. The BSC

The twice intra-cell handover events during this interval are considered consecutive handover events.

Whether to perform the PING operation continuously. When the continuous PING operation is performed, the system sends the

Transmitted packets

Duration for starting the CPRI Loop test

This parameter specifies whether to allow the BSC6900 to enable or disable the power amplifier of a TRX based on the traffic v

CPU number on a board

Whether to enable the BTS to support CRC4 check

Cell reselection hysteresis. This is one of the parameters used for deciding whether to reselect cells in different location areas.

Name of the certificate revocation list file Whether to enable the certificate revocation list DISABLE: indicating that the certificate revocation list is disabled ENABLE: indicating that the certificate revocation list is enabled

Time interval for the BTS resending a channel release message

Number of times the BTS resends a channel release message Cell Reselect Offset (CRO), indicating a correction of the C2. Proper setting of this parameter can reduce the number of handover times, helpful for assigning an MS to a better cell. In a spe Generally, do not set the CRO to a value larger than 25 dB. The CRO with a too large value will cause uncertain states in a net supporting the protocol of GSM Phase 2 or a later version.

Threshold of the time for crosstalk detection. Within the threshold, if the call flag continuously appearing in the code stream is d host board records in a log the information about the current call, including the information about the Abis interface, Ater interfa

The field indicates whether the cross-connect path is available. When the cross-path is available, a maximum of four IP paths e between the second local IP address and the first peer IP address, and the IP path between the second local IP address and th and the IP path between the second local IP address and the second peer IP address.

Output range of the supplementary information contained in the CHR in common user mode. Multiple options can be selected a

Rate threshold of bad speech quality in common user mode.

Whether MR is contained in the CHRs in specified user mode

Whether the information about the specified abnormal call end is contained in the CHRs in common user mode.

GSM CS data service downlink factor

CS data path

CS data priority

GSM CS data service uplink factor Priority of the CS data service. The parameter is used for BSC6900 flow control. The smaller the value of this parameter, the higher the priority.

Whether handover information is contained in the CHRs in common user mode

Whether the MR before call release is contained in the CHRs in common user mode.

Whether the MR before handover is contained in the CHRs in common user mode.

CHR output mode. In common user mode, the CHRs of all the MSs specified by "CHR Output Range" are output. In specified u These two modes can co-exist and they do not affect each other.

Area in which CHRs need to be output in common user mode. If this parameter is set to "Output All Records "in Cells, you need

Whether to output the call history record (CHR)

Type of signaling contained in CHRs

Threshold for starting LAPD link congestion control. This parameter cannot be set too high. If this parameter is set too high, the frequently on the signaling link.

Type of the service whose CHR need to be output

GSM CS voice service downlink factor

Whether speech information is contained in the CHRs in specified user mode.

CS voice path

CS voice priority

GSM CS voice service uplink factor Priority of a speech service in the CS domain. The parameter is used for BSC6900 flow control. The smaller the value of this parameter, the higher the priority.

Self-healing switch for the Ethernet adapter traffic monitoring

Timer alignment ready. Timer T1 is started after the MTP2 link enters the Aligned Ready state. If one end of the MTP2 link rece broken. This parameter only applies to the 64 kbit/s links. For the 2 Mbit/s links, the value of this timer is always 150000.

Timer not aligned. Timer T2 is started at the time that the MTP2 link is set up and begins to transmit the SIO message. If one e setup fails. This parameter only applies to the 64 kbit/s links. For the 2 Mbit/s links, the value of this timer is always 130000.

Timer aligned. Timer T3 is started at the time that the MTP2 link enters the aligned state and starts to transmit SIN (normal alig state. In other cases, T3 expires, and the MTP2 link setup fails. This parameter only applies to the 64 kbit/s links. For the 2 Mbi

Timer emergency proving. The two ends of the MTP2 link exchange messages after entering the emergency verification state. The link verification can be performed for five times to prevent the possibility of accidentally high error rate. If the error rate reac

Timer normal proving. The two ends of the MTP2 link exchange messages after entering the normal verification state. Each end verification can be performed for five times to prevent the possibility of accidentally high error rate. If the error rate reaches the

Timer sending SIB. If one end of the MTP2 link detects congestion, it sends SIB indications to the peer end at an interval speci

Timer remote congestion. A link is considered broken when the remote congestion duration exceeds the value specified by time

Timer excessive delay acknowledgement. A link is considered broken if one end of the link does not receive a verification mess 2000.

Timer interval of resending FISU. Timer T9 specifies the interval at which the BSC sends the FISU frames. That is, the BSC se always 10.

Critical threshold of CPU usage. When the CPU usage in "Fast judgement window" reaches or exceeds the threshold, all active

Critical threshold of packet queue usage. When the packet queue usage reaches or exceeds the threshold, all active flow contr

DPC of the control BSC

Format of the control acknowledge message of the MS. Four access bursts are used to obtain timing advance without sending

Control Flag

Number of the cabinet which controls RET antenna.

ControlPort No. of RET antenna. The number of RET antenna which connect to same feed tributary cannot be more than 6.For

Number of the slot where the board controlling the RET antenna is located. For SingleRAN BTSs, the valid value ranges from 0

Number of the subrack where the BTS board is located

Slot number of the MPU Subsystem for the centralized management of the resources

Number of the BSC6900 slot where the XPU of the control plane is located

Number of the BSC6900 subrack where the XPU of the control plane is located

Configuration rollback control switch that is used to specify whether to support the configuration rollback function

Whether an HO_RQD message contains the Current Channel

C-version number of the BTS software

Period of new file generation.

This is the data file for upgrading board. The data file names of different boards are different.

Number of measurement reports sampled for averaging the signal quality on a speech/data channel. Averaging the signal qual

Number of measurement reports sampled for averaging the signal strength on a speech/data channel. Averaging the signal stre

Data service supported by the BSC6900. You can set this parameter according to actual requirements.

Whether to limit the operation date of the operator

Date

Unique number of the date range during which to disable the BSC from shutting down the TRX dynamically

Date when the TMU board software is released

Temperature error allowed when the temperature control system adjusts the temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether the primary BCCH is configured on the inner or extra part of an intelligent underlay-overlay (IUO) cell

Index of a same group cell in an enhanced dual band network

Name of a same group cell in an enhanced dual band network

Index type of a same group cell in an enhanced dual band network

DC Lowvoltage Alarm Cabinet No.

DC Lowvoltage Alarm Port No.

DC Lowvoltage Alarm Slot No.

DC Lowvoltage Alarm Subrack No.

DC voltage alarm lower threshold. When the busbar output voltage is lower than the value of this parameter, an alarm indicatin In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

The BTS reports an alarm if the DC voltage exceeds the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

The BTS reports an alarm if the DC voltage is lower than the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

DC voltage alarm upper threshold. When the busbar output voltage is higher than the value of this parameter, an alarm indicati In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

This parameter specifies the default pre-converted PDCHs in the dynamic transferable channel pool. When this parameter is greater than 0, three sub-links are bound to the static PDCH and pre-converted PDCH in a cell by defau The pre-converted PDCH can be preempted. You can set "Number of Reserved Dynamic Channel" as required when you expe

Timer for delaying a connection release. This parameter is used for delaying the channel deactivation after the active signaling expires, the BSC6900 stops the timer and sends the BTS an RF CHAN REL message.

The destination entity number uniquely identifies a destination entity.

Description of the operator account

Whether to start the anti-theft equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Destination IP address

Destination IP address

Destination IP address

Identifies a maintenance point in the maintenance group

Type of the object the BTS is connected to

Type of the object the BTS is connected to. Value range: BTS, BSC6900, and DXX

Slot No. of the subsystem where the Iur-g common connection is established to the co-BSC6900 RNC

Subrack No. of the subsystem where the Iur-g common connection is established to the co-BSC6900 RNC

No. of the subsystem where the Iur-g common connection is established to the co-BSC6900 RNC

ID of the TRX that carries the destination main BCCH

Interval for sending test TRAU frames in the period of class-2 mute detection.Test TRAU frame is sent at the specified interval

Maximum number of periods in which the local end does not receive BFD packets from the peer end. If the number of periods i

Switch for Abis Timeslot Detection

Name of the RET antenna

Number of the RET antenna.

Device IP address of the interface board used by the PPP link.

Device IP Address Type

Downlink frequency of the external 3G cell

Number of the slot where the DFCB is installed

Number of the subrack where the DFCB is installed The default DPC corresponds to the CN of the primary operator. When only one DPC is configured, this parameter must be set to "YES", indicating that all the calls for the operator are accesse When multiple DPCs are configured, this parameter also determines the DPC that allows the generation of ESN. In this case, th For the CN of a secondary operator, this parameter must be set to "YES" when only one DPC is configured. This indicates that

Whether to use the customized port DEFAULTPORT: indicating that the FTP server uses the default port 21 as a command port and port 20 as a data port to provid CUSTOMPORT: indicating that the FTP server uses the customized port to provide FTP services

Period for reporting differential GPS data

This parameter indicates the IP Address of DHCP Relay Gateway.

DHCP Relay ID

Whether to enable the diesel engine save switch

Whether to allow an MS to report the classmark and whether to hand over the MS from the SDCCH in the frequency band for th

Day in the month on which the command can be executed.

Day in the week on which the command can be executed.

The relative path in the working path of the FTP user in the FTP server

Directory of the software to be downloaded

Whether the BSC sends an Assignment Fail message with the cause value of directed retry to the MSC before the BSC initiate

Whether to enable a directed retry. The directed retry is to hand over an MS to a neighboring cell in the same procedure as the congestion. If the directed retry always occurs in some areas of a network, consider adjusting the sector and TRX configuration

Whether a cell is a repeater. With simpler functions than a BTS, a repeater is a coverage extension device of a BTS. It is applie Because the BTS coverage increases, however, the total traffic improves accordingly. The setting of this parameter has effects on handovers. Repeaters use the asynchronous transfer mode (ATM) due to a greate

Timer to control the duration in which the BSC prevents the handover of an MS from which the BSC receives the Disconnect m cannot be disconnected. To protect from such a disconnection failure, the BSC does not hand over the MS within the duration o

Whether to activate transmit diversity on the common channel of a 3G cell

Delay of transmit diversity when 16QAM is used. Generally, the parameter is applicable to general fading environments. The tra coding may be adversely affected. To avoid the preceding cases, the delay of transmit diversity must be configurable and can b invalid value 255.

Delay of transmit diversity when 32QAM is used. Generally, the parameter is applicable to general fading environments. The tra coding may be adversely affected. To avoid the preceding cases, the delay of transmit diversity must be configurable and can b invalid value 255.

Delay of transmit diversity when 8PSK is used. Generally, the parameter is applicable to general fading environments. The tran coding may be adversely affected. Therefore, the time delay of transmit diversity must be configurable and can be separately s

Whether to support transmitting diversity or four diversity receiving

Minimum interval between two consecutive downlink power control commands

If the downlink receive quality level of an AMR full rate call is greater than this parameter, the call needs to undergo Huawei pow

If the downlink receive quality level of an AMR full rate call is smaller than this parameter, the call needs to undergo Huawei po

If the downlink receive quality level of an AMR half rate call is greater than this parameter, the call needs to undergo Huawei po

If the downlink receive quality level of an AMR half rate call is smaller than this parameter, the call needs to undergo Huawei po

ID of the data link connection of the NSVC. It is an interworking parameter which must be consistent on the BSC and the peer.

If the ratio of downlink flux to uplink flux is greater than or equal to the threshold during the fast flux measurement, the downlink

Whether the cell supports DLDC

Threshold for downlink edge handover. If the downlink receive level remains less than this threshold for a period of time, the ed interference, and adjacent channel interference may occur when this threshold is set improperly. In addition, to ensure uplink-d

Filter adjustment factor for downlink power control. Setting this parameter high helps to smooth the filtered values and to reduce

Upper quality threshold for Huawei power control generation III on a full rate call. If the downlink receive quality level of a full ra

Lower quality threshold for Huawei power control generation III on a full rate call. If the downlink receive quality level of a full ra

Expanded size of the GPRS RLC window. This parameter is used to expand the size of the GRPS RLC window. The expanded

Upper quality threshold for Huawei power control generation III on a half rate call. If the downlink receive quality level of a half r

Lower quality threshold for Huawei power control generation III on a half rate call. If the downlink receive quality level of a half r

Adjustment hysteresis 1 of AMR downlink coding rate (full rate). According to a certain algorithm and the radio quality indication which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can coding rates.

Adjustment hysteresis 2 of AMR downlink coding rate (full rate). According to a certain algorithm and the radio quality indication which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can coding rates.

Adjustment hysteresis 3 of AMR downlink coding rate (full rate). According to a certain algorithm and the radio quality indication which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can coding rates.

Adjustment hysteresis 1 of AMR downlink coding rate (half rate). According to a certain algorithm and the radio quality indicatio which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can coding rates.

Adjustment hysteresis 2 of AMR downlink coding rate (half rate). According to a certain algorithm and the radio quality indicatio which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can coding rates.

Adjustment hysteresis 3 of AMR downlink coding rate (half rate). According to a certain algorithm and the radio quality indicatio which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can coding rates.

Adjustment hysteresis 1 of AMR downlink coding rate (wide band). According to a certain algorithm and the radio quality indica which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can coding rates.

Adjustment hysteresis 2 of AMR downlink coding rate (wide band). According to a certain algorithm and the radio quality indica which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can coding rates.

Threshold for determining whether downlink interference exists. If the downlink level is equal to or greater than "Interf.of DL Lev dBm.

Threshold for determining whether downlink interference exists. If the downlink level is equal to or greater than "Interf.of DL Lev

When the downlink load of a cell is larger than the value of this parameter and is smaller than "2G Cell DL Overload Congest T

Number of measurement reports sampled for averaging downlink signal strength. A single measurement report may not reflect

Lower voice quality threshold associated with the automatic adjustment of the AMR downlink handover threshold. The value of

Target value of the voice quality automatically adjusted through the downlink threshold of AMR handover

Upper voice quality threshold associated with the automatic adjustment of the AMR handover downlink threshold.

Factor of downlink threshold adjustment. It indicates the linear relation between the threshold adjustment value and the logarith

Maximum step by which to decrease downlink power according to signal strength

Maximum step by which to increase downlink power according to signal strength

When the downlink load of a cell is greater than the value, the downlink of the cell is in the overload congestion status. Number of downlink measurement reports that the BSC predicts. The BSC takes a while to confirm the power control effect of a time radio environment. As a result, the power control is late. To prevent late power control to a certain degree, the power control algorithm involves a measurement report prediction filter. T This parameter specifies the number N.

Quality level threshold for decreasing downlink signal power. If the BTS transmits signals at a quality level less than this thresho

Quality level threshold for increasing downlink signal power. If the BTS transmits signals at a quality level greater than this thres

Number of measurement reports sampled for averaging downlink signal quality. A single measurement report may not reflect th

During downlink power control, if the downlink receive quality level is equal to or greater than "DL Qual, bad Trig Threshold", "D

During downlink power control, if the downlink receive quality level is equal to or greater than "DL Qual, bad Trig Threshold", "D

Downlink quality threshold for emergency handover. This parameter is represented as the product of 10 and a quality level that

Downlink quality limit for emergency handover in an AMR full rate call. The value of this parameter corresponds to the quality le

Downlink quality limit for emergency handover in an AMR half rate call. The value of this parameter corresponds to the quality l

This parameter specifies the downlink signal strength factor multiplied by 10 during the calculation of the downlink power contro

Length of the exponential filter for downlink signal strength. A single measurement report may not reflect the actual network situ

Upper receive level threshold for downlink power control. If the downlink receive level is greater than this threshold, the power o

Lower receive level threshold for downlink power control. If the downlink receive level is smaller than this threshold, the power o

Length of the slide window filter for downlink signal strength. A single measurement report may not reflect the actual network si

This parameter specifies the downlink quality level factor multiplied by 10 during the calculation of the downlink power control s

Length of the exponential filter for downlink signal quality. A single measurement report may not reflect the actual network situa

Length of the slide window filter for downlink signal quality. A single measurement report may not reflect the actual network situ

A power control step cannot exceed the step computed according to "III DL RexLev Protect Factor" and "III DL RexQual Protec

A power control step cannot exceed the step computed according to "III DL RexLev Protect Factor" and "III DL RexQual Protec Upper threshold for downlink signal strength If the downlink received signal level is greater than this threshold, a power decrease is computed. Then, the power is decrease Power decrease = downlink received signal level - ("DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold")/2 The maximum power adjustment step allowed by the quality zone is chosen from "MAX Down Adj.Value Qual.Zone 0", "MAX D Lower threshold for downlink signal strength If the downlink received signal level is less than this threshold, a power increase is computed. Then, the power is increased by Power increase = ("DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold")/2 - downlink received signal level

Time interval between sending of the Packet Uplink Ack/Nack message and setup of the DL TBF. After receiving the Packet Up CCCH, the MS fails to respond to the downlink assignment message. Therefore, a delay is required for establishing DL TBF, to message properly.

Interval for resending downlink test messages

Number of times of the BSC6900 resending downlink test messages after the downlink test function is enabled. If the BSC6900

Adjustment threshold 1 of AMR downlink coding rate (full rate). According to a certain algorithm and the RQI in the call measure interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analog

Adjustment threshold 2 of AMR downlink coding rate (full rate). According to a certain algorithm and the RQI in the call measure interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analog

Adjustment threshold 3 of AMR downlink coding rate (full rate). The adjustment thresholds and the hysteresis of coding rate mu (n + 1) + AMR Coding Rate adj.hyst (n + 1)], n = 1 or 2.

Adjustment threshold 1 of AMR downlink coding rate (half rate). According to a certain algorithm and the RQI in the call measur interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analog

Adjustment threshold 2 of AMR downlink coding rate (half rate). According to a certain algorithm and the RQI in the call measur interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analog

Adjustment threshold 3 of AMR downlink coding rate (half rate). According to a certain algorithm and the RQI in the call measur interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analog

Adjustment threshold 1 of AMR downlink coding rate (wide band). According to a certain algorithm and the RQI in the call meas interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analog

Adjustment threshold 2 of AMR downlink coding rate (wide band). According to a certain algorithm and the RQI in the call meas interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analog

MDU board number when the antenna pass of downlink tributary A is selected

MDU board number when the antenna pass of downlink tributary B is selected

Clock domain required by the slave side in the 1588V2 protocol. This parameter is valid when the 1588CLK type is configured.

Coding scheme of the default GPRS downlink. Dynamic adjustment coding: the coding scheme used during initial access trans

Default coding scheme of the downlink EDGE link. If the downlink adopts the dynamic adjustment coding scheme, this paramet

Default coding scheme used on the downlink EGPRS2-A link. If the downlink uses the dynamic coding scheme, this parameter

Fixed coding scheme that is used on the downlink EGPRS2-A link. If the downlink uses the fixed coding scheme, this paramete

Adjustment mode of the downlink GPRS link coding scheme. If the fixed coding scheme is used, this parameter is set to a value

Coding scheme of the downlink EDGE link. If the downlink uses the fixed coding scheme, this parameter is set to a value rangin

Whether to allow BTS power control

Whether to prohibit sending point-to-point short messages. If necessary, this parameter is used for controlling whether to send Delay of releasing the downlink TBF. After the last downlink RLC data block is transmitted on the network side and all the trans block is retransmitted continuously so that the downlink TBF is not released. During the downlink delay release, if the upper lay delay releasing to downlink transmitting. In addition, the MS must respond to the Packet Downlink Ack/Nack message through Downlink Ack/Nack with the channel request description. If this parameter is set to 0, the release delay of downlink TBF is disab

Retransmission threshold when the coding mode of the downlink TBF is changed from CS2 to CS1. When the downlink TBF re

Retransmission threshold when the coding mode of the TBF is changed from CS3 to CS2. When the TBF retransmission rate is

Retransmission threshold when the coding mode of the downlink TBF is changed from CS4 to CS3. When the downlink TBF Re

Retransmission threshold when the coding mode of the downlink TBF is changed from CS1 to CS2. When the TBF retransmiss

Retransmission threshold when the coding mode of the TBF is changed from CS2 to CS3. When the downlink TBF retransmiss

Retransmission threshold when the coding mode of the downlink TBF is changed from CS3 to CS4. When the downlink TBF re

Door status alarm switch

Dual-antenna gain used to estimate the downlink power during assignment

As an integer, the DSP code can be expressed by a decimal digit or a hexadecimal digit. If the DSP code is expressed by a hex

DSP code expressed in the format of segments 8-8-8

As a key field for identifying the block of A interface CIC status, it indicates the DPC group index of the circuit ID of the A interfa

Index of the DPC group. see "ADD GCNNODE" command.

Index of a DPC group. When multiple DPCs or one DPC serves as a logical entity, this logical entity is called a DPC group. DSP Whentype. the MSC pool function is activated, the user plane resources on the A interface are shared among the MSCs in the pool, STP: indicates the signaling transfer point. A: indicates the signaling point of the A interface control signaling plane. IUR_G: indicates the signaling point of the base station controller that is connected to the BSC. LB: indicates the signaling point of the LB interface.

The DSP index uniquely identifies a DSP.

Iur-g DPC index of a neighboring RNC

Maximum signal level difference between the neighbor cell and the serving cell for triggering directed retry

Whether to optimize the call drops resulting from Abis territorial link fault. The value 0 means "optimize" and 1 means "not optim

Whether to optimize the call drops resulting from connection failure (handover access failure). The value 0 means "optimize" an

Whether to optimize the call drops resulting from connection failure, operation and maintenance (OM) intervention. The value 0

Whether to optimize the call drops resulting from a connection failure except for handover access failure, OM intervention, radio into the statistics of call drops.

Whether to optimize the call drops resulting from connection failure (radio link failure). The value 0 means "optimize" and 1 mea

Whether to optimize the call drops resulting from connection failure (unavailability of radio resources). The value 0 means "optim

Whether to optimize the call drops resulting from equipment fault. The value 0 means "optimize" and 1 means "not optimize". If

Whether to optimize the call drops resulting from error indication (unsolicited DM response). The value 0 means "optimize" and

Whether to optimize the call drops resulting from error indication (sequence error). The value 0 means "optimize" and 1 means

Whether to optimize the call drops resulting from error indication (T200 timeout). The value 0 means "optimize" and 1 means "n

Whether to optimize the call drops resulting from forced handover failure. The value 0 means "optimize" and 1 means "not optim

Whether to optimize the call drops resulting from incoming-BSC handover timeout. The value 0 means "optimize" and 1 means

Whether to optimize the call drops resulting from outgoing internal inter-cell handover timeout. The value 0 means "optimize" an

Whether to optimize the call drops resulting from intra-cell handover timeout. The value 0 means "optimize" and 1 means "not o

Whether to optimize the call drops resulting from no MS measurement reports for a long time. The value 0 means "optimize" an

Whether to optimize the call drops resulting from outgoing-BSC handover timeout. The value 0 means "optimize" and 1 means

Whether to optimize the call drops resulting from release indications. The value 0 means "optimize" and 1 means "not optimize"

Whether to optimize the call drops resulting from resource check. The value 0 means "optimize" and 1 means "not optimize". If

If the duration for buffering the data in queue 0 is more than or equals to the value of this parameter, the subsequent packets a

If the duration for buffering the data in queue 1 is more than or equals to the value of this parameter, the subsequent packets a

If the duration for buffering the data in queue 2 is more than or equals to the value of this parameter, the subsequent packets a

If the duration for buffering the data in queue 3 is more than or equals to the value of this parameter, the subsequent packets a

If the duration for buffering the data in queue 4 is more than or equals to the value of this parameter, the subsequent packets a

If the duration for buffering the data in queue 5 is more than or equals to the value of this parameter, the subsequent packets a

This parameter specifies the interval at which the power of a TRX is continually decreased.

This parameter specifies the delay time before decreasing the power of the TRXs.

This parameter specifies the step by which the power of a TRX is decreased at a time.

Whether to support the discontinuous reception mechanism (DRX). To reduce the power consumption, the DRX is introduced in Duration of the timer entering the DRX mode. DRX is the to parameter in the broadcast It indicates BSCs supporting the for DRX must send scheduling messages MSs so that thecell MSs can use message. the DRX function. Thenon-continuo period occu period when the MS is in non-DRX mode, the MS monitors all the CCCH blocks and the BSC stores the context of the MS. The message to be broadcasted and the position of each broadcast message in the scheduling period. MS. Normally, this value is greater than that of DRX_TIMER_MAX. Therefore, the value of DRX_TIMER_MAX is used. 0: switch to the DRX mode immediately; 1: switch to the DRX mode in one second. Value n indicates that the MS enters the DRX mode n seconds later.

Whether to start the dehumidification equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Number of the E1T1 port for bearing the PPP link

Number of the E1T1 port for bearing the PPP link

The DSCP is a field of the IP data packet. It is used to assign the differentiated service to the communication networks. The DS

Service code of the PING command, used to identify the PING command

Differentiated service code is used to identify the service priority of the user.

DSCP to be contained in the header of an IP packet. According to this parameter, the router provides differentiated services for

Duration for recovering all the DSPs. This timer is started when the first DSP is recovered. When all the DSPs of the local subra

Number of the DSP. If you do not specify this parameter, all DSPs are specified. Meanings:DSP No. Value range:0~21 Content:none Recommended value(default value):none

Number of the DSP where the alarm is generated

Number of the DSP in the DPU board

Target DSP number

This parameter specifies the value of the timer set to wait the fault recovery before the cell redistribution on the DSP. When a fa expires.

Whether daylight saving time has to be used

Name of the destination file

Destination IP address

Destination IP address of BFD Session.

Destination IP address

Subnet mask

Subnet mask of BTS Route.

Destination of timeslot cross

Target timeslot mask

Threshold of the load in the target cell for the directed retry. Only a cell whose load is lower than or equal to this threshold can b

Type of the DRX supporting the VGCS service. An MS reads the NCH only when a new notification message of group call arriv

Downlink TRX index number of the newly added board

Index number of the downlink tributary

TRX board pass number connected with the downlink tributary

TRX board pass number connected with the downlink tributary

Number of the slot where the TRX board that connects to downlink tributary is located

Number of the slot where the TRX board that connects to downlink tributary is located

Number of the subrack where the TRX board that connects to downlink tributary is located

Number of the subrack where the TRX board that connects to downlink tributary is located

Whether a BTS randomizes the dummy bits in all the signaling messages that the BTS sends to an MS. That is, dummy bits are

The duplex mode of FE port is duplex or half-duplex.

Duration for starting the BTS test

Duration for starting the TRX idle timeslot test

Duration for starting the BTS test

Duration for starting the TRX idle timeslot test

Downlink multiplex threshold of dynamic channel conversion. When the subscriber number on the channel reaches the value (t Multiplex Threshold" for triggering converting dynamic channel in time and reducing PDCH multiplex.

An MS can be used to test the Um interface software synchronization only when the DL signal strength after the power control

Number of a DXX. It is unique in one BSC6900 and uniquely identifies a DXX.

Number of a DXX. It is unique in one BSC6900 and uniquely identifies a DXX.

Number of the upper DXX port

Time to wait for releasing the dynamic channel after the TBF on the dynamic channel is released. When all the TBFs on the cha channel is still occupied and timer is stopped; otherwise, the dynamic channel is released after the timer expired. Mode of preempting the dynamic channel for the CS domain and PS domain. Only the channel configured in the TCH/F mode c "Preempt all dynamic TCHFs" indicates the circuit domain can preempt all the dynamic channels. "No preempt of CCHs" indicates the circuit domain can preempt all the dynamic channels except the CCHs. "No preempt of service TCHF" indicates the circuit domain cannot preempt all the dynamic channels of bearer services.

Number of full-rate TCHs reserved for the CS domain. This parameter is valid only when "Level of Preempting Dynamic Chann

This parameter specifies whether to allow the BSC6900 to enable the TRX Intelligent Shutdown feature on a cell.

Whether to enable the cell to support dynamic transmit diversity or dynamic PBT

Duration for the test in E1 mode

Number of the E1 port. For the BTS3012, BTS3012AE, BTS3012 II and the UTRP board in SingleRAN BTSs, the number can b

Number of the E1 port on the BTS connected to the BSC.

Type of the transmission board

E1/T1 port number

Number of the E1/T1 port from which the BTS extracts the transport clock. This parameter is valid only when the clock type is s

Number of the port extended by the backboard TOP communication mechanism of the BTS. The TOP relation can be configure indicates the number of the E1/T1 port on the backplane of the primary BBU and the range 24-27 indicates the number of the E

Type of the E1/T1 from which the BTS extracts the transport clock. This parameter is valid only when the clock type is set to IP

Peer IP address to be checked. The input address (CHKIPADDR) must be the address (regardless of the network segment add

As a performance counter for 3G cells, Ec/No indicates the ratio of the energy per received chip to the spectral noise power de If the Ec/No of a 3G neighbor cell is greater than "HOECNOTH3G" plus this parameter, the neighbor cell is listed in the candida

Threshold for determining the layer of the 3G neighbor cell. If the Ec/No of the 3G neighbor cell is less than this threshold, the n

The early classmark sending control (ECSC) parameter specifies whether the MSs in a cell use early classmark sending. After information. The CM3 (classmark 3) information contains the frequency band support capability of the MS (used for the future

End serial number of the alarm record

Date when the scheduled task is stopped

End date of the alarm record. By default, the end date is 2037-12-31.

End date of the alarm record. By default, the end date is 2037-12-31.

End date If the current system flow control level is greater than this parameter, the handover between the underlaid and overlaid subcells system flux level is the current flux control level of the system. End date of the daylight saving time 0-11: There are 12 flow control levels. Where, 0 indicates the lowest level and 11 indicates the highest level.

According to the P/N rule,over if thethe conditions forthreshold the handover between the subcells of anon enhanced dual-frequency network are The handover performed maximum may have tremendous impacts the system. Thus, this parameter shom This parameter specifies the number P. Discard Begin Threshold) x 100]/10+1 (round-down for division operation). If the valu Discard All Threshold - Inner Flow Control range is from 0 to 11.

According to the P/N rule, if the conditions for the handover between the subcells of an enhanced dual-frequency network are m 2) Flow control threshold for the CPU N. to start to discard the channel access messages and paging messages: 80% This parameter specifies the number . Flow control threshold for the CPU to discard all channel access messages and paging messages: 100%

. CPU usage smaller than 80% corresponds to level 0. CPU usage equal to or greater than CPU flow control threshold 80% cor

Whether the current cell supports EDGE

According to the P/N rule, if a neighbor cell meets the conditions for selecting the neighbor cell for edge handover in P of N me This parameter specifies the number P.

According to the P/N rule, if a neighbor cell meets the conditions for selecting the neighbor cell for edge handover in P of N me This parameter specifies the number N.

According to the P/N rule, if the conditions for edge handover are met in P of N measurement reports, the handover is triggered This parameter specifies the number P.

According to the P/N rule, if the conditions for edge handover are met for P seconds within N seconds, the handover is triggere This parameter specifies the number P.

According to the P/N rule, if the conditions for edge handover are met in P of N measurement reports, the handover is triggered This parameter specifies the number N.

According to the P/N rule, if the conditions for edge handover are met for P seconds within N seconds, the handover is triggere This parameter specifies the number N.

Effect Immediately Flag(reserve)

Whether to support the 11-bit EGPRS access request

Whether the current cell supports EGPRS2-A

Used for EDGE 8PSK transmission quality statistics. If MEAN_BEP is less than or equals to this threshold, the transmission qu

Used for EDGE GMSK transmission quality statistics. If MEAN_BEP is less than or equals to this threshold, the transmission qu

Type of the end date. "WEEK" indicates that the end date is a weekday. "DATE" indicates that the end date is a month day. "D

Priority level of an emergency call. If this parameter is set to 15, the functions of reserving TCHs for emergency calls and preem be used for TCH preemption. The value 1 means the highest priority and 14 means the lowest.

Whether to verify the centralized signaling link in the case of the link establishment. ON: emergency verification, that is, the ver signaling link can be ensured. You are advised to use the normal verification. That is, the emergency verification switch is set to

Error emit threshold.

Differentiated service code of the specified EML

Whether to allow the function of enhanced multi-level precedence and preemption (eMLPP). With the eMLPP function enabled, when preemption occurs, the MS with the lowest priority initiates a handover, and the MS with a higher priority seizes the idle c The eMLPP has up to seven priorities: A, B, 0, 1, 2, 3, and 4. The two highest priorities A and B are internally reserved for loca With the support of the MSC, HLR, and mobile terminal (containing a SIM card), the eMLPP function can be perfectly implemen

Indicating whether the eMLPP function is enabled in a cell and indicating the eMLPP priority of the cell. From high to low, the p

Whether to include the eMLPP Priority information element in the Paging Command message over the Abis interface when "All

Service priority of the specified EML

Service priority of the extension maintenance link (EML).0 is the highest priority.

Specified EML Vlan Id

Month on which DST ends

IP address of the NE management system

Whether to enable the fallback function for the BTS

Whether to enable the power supply of the TMA

Encryption algorithm supported by the BSS side Encryption mode used when the NE serves as the FTP client AUTO: indicating that the FTP client automatically selects the encryption mode PLAINTEXT: indicating that the plain text mode is used forcibly. ENCRYPTED: indicating that the encrypted mode is used forcibly. Encryption mode supported when the NE serves as the FTP server AUTO: indicating that the FTP client automatically selects the encryption mode PLAINTEXT: indicating that the plain text mode is used forcibly. ENCRYPTED: indicating that the encrypted mode is used forcibly.

Whether to enable end-to-end user tracing for the BSC. If this parameter is set to YES, the BSC starts end-to-end user tracing

End number of the alarm record

It indicates the end CIC of the A interface CIC segment. When operation mode is set to OPC index, DPC group index, BSC ID,

It indicates the end CIC of the Pb interface CIC segment. If the search object mode is set to search by the specified range, the

This parameter specifies the end date of a period during which the TRX Intelligent Shutdown feature is disabled.

If the ambient temperature reaches the value of this parameter, the heater is shut down. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

This parameter specifies the end month of a period during which the TRX Intelligent Shutdown feature is disabled.

Number of the end sub-timeslot

This parameter specifies the time for dynamically disabling the TRX Intelligent Shutdown feature each day.

It indicates the end CIC of the Ater interface CIC segment.

It indicates the end CIC of the A interface CIC segment. When Operation mode is set to subrack No., slot No., port No., or CIC,

Number of the end timeslot

Status of the scheduled task. This parameter determines whether to start the scheduled task.

Status of the scheduled subtask to be added

If the load of the underlaid subcell is greater than this threshold, certain calls in the underlaid subcell are handed over to the ov

Whether to support PS downlink MAC back pressures in GSM. When the buffer is overflowed, the L2 transmission rate is limite blocks may occur. When "User Plane DL Flow Ctrl Switch" is set to "ON", the LDR needs to be disabled through the "SET LDR Whether to enable the enhanced concentric cell algorithm in a concentric cell. If a cell supports the enhanced concentric cell function, when an overlaid-to-underlaid handover or an underlaid-to-overlaid han decide whether to trigger an enhanced concentric cell handover. If the cell does not support the enhanced concentric cell function, the MS compares the actual receive level value with the thres

If all the calls in the overlaid subcell are handed over to the underlaid subcell when the channel seizure ratio of the underlaid su based handover algorithm is used to hand over the calls from the overlaid subcell to the underlaid cell level by level. This parameter specifies the period of the handover at each hierarchy level.

Signal level step for the hierarchical load-based handover from the overlaid subcell to the underlaid subcell

If the load of the underlaid subcell is less than this threshold, certain calls in the overlaid subcell are handed over to the underla

When this parameter is set to "ON", if there are no available Abis transmission resources, a high-priority user can preempt the t

When this parameter is set to "ON", if there are no available Abis transmission resources, the BSC6900 starts the queuing proc

If the load of the underlaid subcell is greater than this threshold, the period of the load-based handover from the underlaid subc

Whether to enable the cell to centralize two busy half rate TCHs in different timeslots into one timeslot through handover and th

Type of the M3UA local entity. For details about the ASP and IPSP, see RFC4666. M3UA_ASP: suggested to use when there is a signaling transfer point (STP) between the local entity and the destination entity Type of the destination details, RFC4666. M3UA_IPSP: suggestedentity. to useFor when theresee is no signaling transfer point (STP) between the local entity and the destination enti M3UA_ASP: suggested to use when there is a signaling transfer point (STP) between the local entity and the destination entity M3UA_IPSP: suggested to use when there is no signaling transfer point (STP) between the local entity and the destination enti M3UA_SS7SP: suggested to use when the destination entity is a narrowband signaling point M3UA_SP: represents all types of the destination entity

Initial signal level used to compute the handover zone for an MS during the hierarchical load-based handover from the underlai

Whether to enable the enhanced packet loss concealment (EPLC) function

Return code of the command. If this parameter is specified, only the corresponding record is displayed. If this parameter is not

Whether to disable emergency calls. For the MSs of access levels 0 to 9, if the value of this parameter is NO, emergency calls

Error-frame alarm threshold

Error-frame detect switch

Differentiated service code of the specified ESL

Service priority of the ESL

Priority of a service running over an extended signaling link (ESL). ESLs are used for more reliably transmitting important signa

Specified ESL Vlan Id

End synchronization number of the alarm record

Timer for the BSC waiting for an Establish Indication message after sending an Immediate Assignment message. If T3101 expi

Whether to add the TA value to a complete layer-3 message to provide the LCS function on the A interface

When the OML is switched to a port where the connection is successfully established, the switchover cannot be performed ove

End time of DST

The operation time of the log record is prior to this time. If this parameter is not specified, the end time is not limited.

Time when the scheduled subtask is stopped. If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you shou

Execution mode of the commands 1. ONE_BY_ONE: indicating that the commands are executed one by one according to the execution sequence. Only one com 2. PARALLEL: indicating that multiple commands are executed in parallel. Multiple commands can be executed once.

The operation time of the log record is prior to this time. If this parameter is not specified, the end time is not limited.

End time of the alarm record. By default, the end time is 23:59:59.

End time of the alarm record. By default, the end time is 23:59:59.

End date and time of a broadcast message. This is a key parameter for identifying a simple cell broadcast message. You can u

End date of the user operation. Input format: YYYY&MM&DD

End time

Type of the log to be queried. The result is displayed by the specified type.

End time of the user operation. The input format of this parameter is HH&MM&SS.

Weekday on which DST ends

Sequence of the end week of DST

Upper limit of extended output analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of this param

Lower limit of extended output analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of this param

Sensor type of extended analog signal 1

Maximum measurement range of extended analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit

Minimum measurement range of extended analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit o

Upper limit of extended output analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of this param

Lower limit of extended output analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of this param

Sensor type of extended analog signal 2

Maximum measurement range of extended analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit

Minimum measurement range of extended analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit o

Upper limit of extended output analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of this param

Lower limit of extended output analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of this param

Sensor type of extended analog signal 3

Maximum measurement range of extended analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit

Minimum measurement range of extended analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit o

Upper limit of extended output analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of this param

Lower limit of extended output analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of this param

Sensor type of extended analog signal 4

Maximum measurement range of extended analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit

Minimum measurement range of extended analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit o

Whether it is a SoLSA exclusive access cell. If it is a SoLSA exclusive access cell, only the MS subscribing the Localised Servi

Threshold for the rate of the number of bad frames to the total number of TRAU frames. If the bad frame rate exceeds this thre

Received signal strength at an MS expected in power forecast, which helps to compute the initial transmit power of the BTS

Received signal strength at the BTS expected in power forecast, which helps to compute the initial transmit power of an MS

ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC6900. The cells in the BSC are numbered sequentially.

Name of the cell

ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC. The cells in the BSC are numbered sequentially.

Name of the cell

Index of the cell in the adjacent BSC

Name of the cell in the adjacent BSC

Whether to support the downlink throughput enhancement function of the dual timeslot cell. When this switch is turned on, the s

Whether to enable alarm extension input for the BTS

Whether the network requires an MS to send an extension measurement report

Type of an extension Time interval betweenmeasurement two extensionreport. measurement reports There are three types of extension measurement reports: type 1, type 2, and type 3. Type 1: No matter whether the BSIC was decoded, the MS sends the network a measurement report on the six strongest TRXs Type 2: The MS sends the network a measurement report on the six strongest TRXs. For the six carriers, the BSIC must be de Type 3: The MS does not need to decode the BSIC for the TRXs that the measurement report concerns. The measurement rep

Whether a cell is an extension cell. A double-timeslot extension cell regards an additional TDMA frame as access delay extension. In theory, the supported TA valu

Whether to send the Dummy message during the deactivated period of the extended uplink TBF

Interval of sending a paging message or notification message on the FACCH. Messages on the FACCH are sent in the mode o paging or notification message on the FACCH for the purpose of reducing the impact on the voice quality.

Whether to allow sending notification messages on the FACCH. If the value of this parameter is YES, an MS engaged in a poin

Whether to allow sending paging messages on the FACCH. If the value of this parameter is YES, an MS can receive a paging

Activation factor switch

If this parameter is set to ON, the BSC assigns the channels in the TRXs of the cell in a polling manner. Therefore, each TRX h

Penalty signal level imposed on a target cell to which the handover fails due to congestion or poor radio quality. This penalty he

Continuous speed adjustment

Discrete speed adjustment

Duty ratio-based speed adjustment

Fan adjustment mode

Type of the fan

Fan adjustment mode

Type of the fan box After a channel request message is received, the type of the channel needs to be specified. In this case, if the threshold of the assigned.

Ring II function switch. The parameter should be set to "YES" when the ring II function is enabled.

Whether to enable the memory self-check and self-healing function

Whether to send and process the flow control frame on the physical layer. The setting of this parameter must be negotiated wit

If the parameter is set to "YES", it indicates that some data packets are discarded to ensure the basic functions of the BTS are

Threshold for stopping RSL flow control. If the occupancy of the LAPD queue is less than this threshold, the BSC6900 stops flo

Flow control parameter index

Flow control parameter index

Flow control parameter index

Flow control parameter index

Flow control parameter index

Flow control parameter index

Flow control parameter index

Cabinet No. of the parent BTS

Cabinet No. for the port of the father BTS

Threshold for starting RSL flow control. If the occupancy of the LAPD queue is greater than this threshold, the BSC6900 starts

CRC verification mode of PPP link.

CRC verification mode of MP link.

Flow control switch. Other switches are valid only when "Flow control switch" is "ON".

Float charging voltage. Float charging compensates the discharged capacity of the battery so that the battery can be charged t In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Input mode of the BA lists. AUTO: In this mode, the system fills in the BA1 and BA2 lists according to neighboring relations of cells. MANU: In this mode, you can maintain the BA tables by yourself. If the neighboring relations of cells are changed, for example, Offset of a FDD cell report. When the priority of a 3G cell is sequenced, the value of this parameter be added to the receive level of the 3G cell in the meas The of this parameter correspond to the following decibel values: This values parameter indicate Threshold of a FDD cell whether report. to generate the FDD BA2 table automatically according to neighbor cell relations or to input th 0: 0 dB When 1: 6 dBthe receive level value in the measurement report of a 3G cell exceeds the value of this parameter, the measurement rep The ... values of this parameter correspond to the following decibel values: 0: 7: 0 42dB dB 1: 6 dB ... 6: 36 dB 7: positive infinity

This parameter specifies one of the parameters for FDD cell reselection. A FDD cell becomes a candidate cell if all the following conditions are met for five consecutive seconds: Diversity indication of aFDD 3G cell cell.>This parameter indicates the serving transmitcell diversity mode on the common channel in a cell 1.Receive level of the Average receive level ofwhether the current + "FDD Q offset"; The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive lev 2. Ec/No of the FDD cell > "FDD Qmin" - "FDD Qmin Offset"; 3. Receivefrequency level of the FDD cell Downlink number that>an"RSCP MS in Threshold"; the connected mode retrieves from the 3G neighboring cell list. The numbers are sen If multiple FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level. See 3GPP TSs 45.008 and 25.304. The values of this parameter correspond to the following decibel values: Minimum 0: -20 dB,Ec/No of the 3G FDD cell candidate 1: -6 parameter dB, This specifies one of the thresholds of the signal level for 3G cell reselection. 2: FDD -18 dB, A cell becomes a candidate cell if all the following conditions are met for five consecutive seconds: 3: -8 dB, of level 1.Receive of the FDD cellthat >for Average receive thereselection. current serving Number UTRAN FDD cells should included in of measurement report cell + "FDD Q offset"; Offset of the minimum threshold Ec/Nobe during alevel FDD cell 4: -16 dB, The FDD cell meets the following condition in the case of any neighboring cell:consecutive Receive level of the FDD cell > Receive lev A cell becomes a candidate cell if all the following conditions are met 2G for five seconds: 5: FDD -10 dB, 2. Ec/No of the FDD cell > "FDD Qmin" "FDD Qmin Offset"; 1.Receive of the FDD cell > Average receive level of the current serving cell + "FDD Q offset"; 6: Receive -14 dB, level 3. level of the cell > condition "RSCP Threshold"; The FDD cell meets theFDD following in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive lev 7:multiple -12 dB.level If FDD cells meet the preceding conditions, the MSthe reselects the cell with the strongest receive Minimum threshold of UTRAN cell -reselection. cell reselection decision from a GSM celllevel. to a FDD cell, this para 2. Ec/No of the FDD cell > "FDD Qmin" "FDD QminDuring Offset"; See 3GPP TSs 45.008 and 25.304. conditions are met for five consecutive seconds: 3. Receive level of the FDD cell > "RSCP Threshold"; The valuesFDD of this correspond toreceive the following decibel values: 1.Receive level of parameter themeet FDDthe cell > Average level the current serving cell +the "FDD Q offset"; If multiple cells preceding conditions, the of MS reselects the cell with strongest receive level. 0: (always select a cell if acceptable) The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive lev See 3GPP TSs 45.008 and 25.304. 1: Ec/No -28 dB,of the FDD cell > "FDD Qmin" - "FDD Qmin Offset"; 2. 2: Receive -24 dB, level of the FDD cell > "RSCP Threshold"; 3. ...multiple FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level. If 15: dB. TSs 45.008 and 25.304. See28 3GPP The values of this parameter correspond to the following decibel values: 0 = -114 dBm, 1 = -112 dBm, specifies whether Ec/No or RSCP is used for the measurement report on a FDD cell. Ec/No stands for the sign This parameter 2 = -110 dBm, ... 14 = -86 dBm, 15 = -84 dBm.

Minimum RSCP of the 3G FDD cell candidate

Scrambling code of a 3G cell, used for distinguishing MSs or cells. Scrambling codes are used after spreading. Therefore, the b On the uplink, the scrambling function is used for differentiating MSs. On the downlink, the function is used for differentiating ce

Number of CPU usage sampling times for fast judgment. The value of this parameter must be of half size of "Filter window" or s

Whether the BTS reports the frame erase ratio in a measurement report or preprocessed measurement report

If the FER carried in the measurement report (MR) received is lower than or equal to "FER threshold 1", the value of "FER 0 an Level N" is incremented by one.

If the FER carried in the MR received is greater than "FER threshold 2" but meanwhile lower than "FER threshold 3", the value

If the FER carried in the MR received is greater than "FER threshold 3" but meanwhile lower than "FER threshold 4", the value

If the FER carried in the MR received is greater than "FER threshold 4" but meanwhile lower than "FER threshold 5", the value

If the FER carried in the MR received is greater than "FER threshold 5" but meanwhile lower than "FER threshold 6", the value

If the FER carried in the MR received is greater than "FER threshold 6" but meanwhile lower than "FER threshold 7", the value

If the FER carried in the MR received is greater than "FER threshold 7", the value of "FER 7 and Quality Level N" is incremente

This parameter specifies the frequency hopping mode of a cell. When this parameter is set to "NO_FH", all the TRXs of the cell hopping on the cell. When this parameter is set to "RF_FH", the cell is in RF frequency hopping mode. In this case, there can b frequency hopping, some cells on the cell must join in RF frequency hopping, and some cells on the cell must not join in freque

The name of the file cannot contain the path and suffix. The suffix is automatically added. The name of the file is composed of E

Path of the target file

Name of the backup file. The file name is composed of English letters, numerals, and common symbols, and the characters (@

Path to save the exported file. The path must be a valid path on the OMU server. If the OMU runs the LINUX system, the input If the relative path is used, the root directory is same as that of the OMU installation directory. That is, if the OMU software is in

Type of the alarm log file to be exported

Maximum number of former values when the receive level of the serving cell or the receive level of the neighbor cell is filtered.

Execution result. If you select "FALSE", only the records of failed operations are displayed. If you select "TRUE", only the records of successful o

Whether to enable 0.2 dB downlink power control. This power control function improves the power control precision.

Whether to start the fire-extinguishing equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

This parameter specifies the static Abis resource load threshold. If the static Abis resource load is less than the static Abis reso

Time threshold for delaying the report of a clear alarm. If the alarm recurs within the time specified by this parameter after it is c

Time threshold for delaying the report of an alarm. If the alarm is cleared within the time specified by this parameter, the alarm

Whether to enable the filtering of the intermittent alarms. If the value of this parameter is "DISABLE", "Flash Statis Alarm Raise

Time window for observing the clearance of the intermittent alarms. In this time window, the BTS statistical alarm is cleared if th

Time window for observing the intermittent alarms generated during the statistical period. In this time window, the BTS statistica

Service timeslot assignment mode for the BTS. If this parameter is set to FIX_16K_ABIS, the BSC6900 assigns a fixed Abis tra utilization. If this parameter is set to SEMI_ABIS, the BTS to which a TCH belongs assigns a fixed Abis transmission timeslot to not support this parameter.

Whether to enable the function of Flex mobile allocation index offset (MAIO). In the tight frequency reuse case of the GSM syst or co-channel interference between channels can be reduced partially.

Whether to enable the function of the Flex training sequence code (TSC). If the value of this parameter is ON and the BTS sup

Period of collecting the traffic statistics

Fast flux measurement period. The ratio of the uplink flux to the downlink flux is calculated at the interval specified by this param

Port flow control switch

Link flow control switch

Link flow control switch

Logical port flow control switch

Port flow control switch

One of theport nineflow parameters (filter parameters A1 to A8 and filter parameter B) used to configure the filter for determining wheth Specified control switch C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the r One of the (filter parameters A1 allowed to A8 and filterlevel parameter B) used to configure the filter for determining wheth Setting the nine filter parameters helps to configure the maximum signal drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the r One of the (filter parameters A1 allowed to A8 and filterlevel parameter B) used to configure the filter for determining wheth Setting the nine filter parameters helps to configure the maximum signal drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the r One of the (filter parameters A1 allowed to A8 and filterlevel parameter B) used to configure the filter for determining wheth Setting the nine filter parameters helps to configure the maximum signal drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the r One of the (filter parameters A1 allowed to A8 and filterlevel parameter B) used to configure the filter for determining wheth Setting the nine filter parameters helps to configure the maximum signal drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the r One of the (filter parameters A1 allowed to A8 and filterlevel parameter B) used to configure the filter for determining wheth Setting the nine filter parameters helps to configure the maximum signal drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the r One of the (filter parameters A1 allowed to A8 and filterlevel parameter B) used to configure the filter for determining wheth Setting the nine filter parameters helps to configure the maximum signal drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the r One of the (filter parameters A1 allowed to A8 and filterlevel parameter B) used to configure the filter for determining wheth Setting the nine filter parameters helps to configure the maximum signal drop degree. C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the r Setting the filter helps to configure the maximum allowed signal level drop degree.

Trend of the received signal level of the cell during a period. This parameter helps to configure the filter for determining whethe

Maximum transmit power level of MSs. onetransfers of the cell message this parameter is used This parameter determines whether theAs BSC thereselection LLC PDUsparameters in the bufferintosystem the target cell or3,discards these LLC PDUt In a GSM900 cell, the maximum power control level of an MS ranges from 0 to 19, corresponding respectively to the following v minimum transmit power supported by an MS is level 19 (corresponding to 5 dBm). Other transmit power levels are reserved fo In a GSM1800 or GSM1900 cell, the maximum power control level of an MS ranges from 0 to 31, corresponding respectively to is level 0 (corresponding to 30 dBm). The minimum transmit power supported by an MS is level 15 (corresponding to 0 dBm). O

Type of the FMUA board

Name of the electronic label file

Name of the file

Name of the file

Name of the file. The following special characters are not allowed in the file name: \, /, :, *, ?, ", <, >, |, (, ), &, and $.

Name of the specified file. By default, the file is in the OMU active-area path \ftp\license folder.

File name of the software to be downloaded

File name of the software to be downloaded.The file name must be with the extension of *.zip.If you do not enter the file name,

Switch specifying whether to allow the downlink EGPRS TBF and the uplink GPRS TBF to share the same channel. On: allow t

Length of the timer for determining the intermittent disconnection of the SS7 link to the DPC. When the time of SS7 link disconn any operation.

Time limit for restraining the noise level

Whether the forced phase-2 access is allowed for the MSs

Whether to forcibly enable the EFR function. When this parameter is set to YES, if both the MS and the BSC6900 support the e

Whether an MS is forced to send a Handover Access message, which is indicated by an information element in the handover c

Port No. of the father BTS connected with the BTS

Number of the port for the destination father BTS

Maximum time of delay for multiplexing. This parameter is used for the system to send the multiplexed data. If the time for buffe

Whether to generate the frequency and BSIC by using the automatic optimization algorithm

If this switch is on, it indicates that the frequency and BSIC are generated automatically. If this switch is off, it indicates that the

If this switch is on, it indicates that the frequency and BSIC are generated automatically. If this switch is off, it indicates that the

MP segment size,the length of packet should be bigger or equel with it.

Frame offset of the BTS clock

Frame offset. The frame offset technology arranges the frame numbers of different cells under the same BTS to be different fro the cell is not offset. If the value is 255, this parameter is not sent. If the parameter is set to a value except for 0 and 255, the ha Based on different requirements, you can set different time points for the scheduled task. according to the value of this parameter. Seven time modes are available: 1. ONTIME: When this parameter is set to "ONTIME", the command is executed once only at the specified time point. 2. DAILY_T: When this parameter is set to "DAILY_T", the command is executed every day. You can also set up to five time p Whether the downlink discontinuous (DTX) function is enabled for full rate (FR) function is also 3. DAILY_C: When this parameter istransmission set to "DAILY_C", the command is executed every day.calls. You This can set the start timerestricte and en 30 minutes. 4. WEEKLY_T: When this parameter is set to "WEEKLY_T", the command is executed every week. You can set the day in wh 5. WEEKLY_C: thislog parameter is set"ONTIME" to "WEEKLY_C", is executed every week. You can setindicates the day in wh Time mode used When when the is exported. indicatesthe thecommand time between two exact time. "RELATIVE_T" the execution interval is one week and the default time interval is 30 minutes. 6. MONTHLY_T: When this parameter is set to "MONTHLY_T", the command is executed every month. You can set the day i 7. MONTHLY_C: When this parameter is set to "MONTHLY_C", the command is executed every month. You can set the day default execution interval is one month and the default time interval is 30 minutes.

Frequency of the TRX

Frequency 1

Frequency 10

Frequency 11

Frequency 12

Frequency 13

Frequency 14

Frequency 15

Frequency 16

Frequency 17

Frequency 18

Frequency 19

Frequency 2

Frequency 20

Frequency 21

Frequency 22

Frequency 23

Frequency 24

Frequency 25

Frequency 26

Frequency 27

Frequency 28

Frequency 29

Frequency 3

Frequency 30

Frequency 31

Frequency 32

Frequency 33

Frequency 34

Frequency 35

Frequency 36

Frequency 37

Frequency 38

Frequency 39

Frequency 4

Frequency 40

Frequency 41

Frequency 42

Frequency 43

Frequency 44

Frequency 45

Frequency 46

Frequency 47

Frequency 48

Frequency 49

Frequency 5

Frequency 50

Frequency 51

Frequency 52

Frequency 53

Frequency 54

Frequency 55

Frequency 56

Frequency 57

Frequency 58

Frequency 59

Frequency 6

Frequency 60

Frequency 61

Frequency 62

Frequency 63

Frequency 64

Frequency 7

Frequency 8

Frequency 9

Whether to enable the automatic frequency correction algorithm. This parameter is used for the fast-moving handover algorithm

Frequency correction parameter. Used for the fast-moving handover algorithm, the value of this parameter must be translated i error ratio (BER). The BSC6900 sends this parameter to the BTS, which adjusts the frequency of an MS according to the value of this parameter

Frequency band types of the board This parameter is only applicable to the DDPU/DFCU/DFCB/DCOM/DDPM/DCBM. The frequency band types for the DTRU, QTRU, DRRU, DRFU, GRRU, MRRU, GRFU, and MRFU cannot be configured and th

Threshold for load sharing in the 900 MHz frequency band. Assume that an MS supports multiple sub-bands in the 900 MHz fre load is greater than this threshold, the BSC assigns channels according to the priority levels of the P-GSM, E-GSM, and R-GSM channels in the TRXs of the R-GSM sub-band preferentially.

List of frequency bands

Frequency multiplexing mode in the TRX. To enable a loose frequency multiplexing mode such as 4x3 multiplexing, set this par

List of the frequencies to be measured. This parameter is represented as a character string where the IDs of the TRXs to be me

Type of a scanning result in the period from the start of a frequency scanning task to the reporting of the scanning result. Frequency scanning refers to the scanning of an uplink receive level of a cell frequency. The scanning result reflects the streng

Whether to enable the edge handover algorithm. When an MS makes a call at the edge of a cell, the call may drop if the receiv downlink signal level of the serving cell is less than "Edge HO DL RX_LEV Threshold", the edge handover is triggered.

Whether the uplink DTX function is enabled for FR calls. For details, see GSM Rec. 05.08. Uplink DTX is not restricted by the M

Slot No. of the father BTS

Slot No. for the port of the father BTS

Subrack No. of the father BTS

Subrack No. for the port of the father BTS

Type of the file used for saving exported logs

Activation factor table index

Activation factor table index

Activation factor table index

ATCB difference between the overlaid and underlaid subcells

Duration of the handover from full rate to half rate. If the cell load is greater than the preset threshold, the calls that meet the co

According to the P/N rule, if the conditions for the handover from full rate to half rate are met for P seconds within N seconds, th This parameter specifies the number P.

Path loss difference between the overlaid and underlaid subcells

Period of the handover from full rate to half rate. If the cell load is greater than the preset threshold, the calls that meet the cond

According to the P/N rule, if the conditions for the handover from full rate to half rate are met for P seconds within N seconds, th This parameter specifies the number N.

If the available forward bandwidth is less than or equal to this value, the forward congestion alarm is emitted and forward conge

If the available forward bandwidth is greater than this value, the forward congestion alarm is cleared and forward congestion co

If the ratio of available forward bandwidth is greater than this value, the forward congestion alarm is cleared and forward conge

If the ratio of available forward bandwidth is less than or equal to this value, the forward congestion alarm is emitted and forwar

If the available forward bandwidth is greater than this value, the forward overload congestion alarm is cleared and forward over

If the ratio of available forward bandwidth is greater than this value, the forward overload congestion alarm is cleared and forwa

If the available forward bandwidth is less than or equal to this value, the forward overload congestion alarm is emitted and forw

If the ratio of available forward bandwidth is less than or equal to this value, the forward overload congestion alarm is emitted a

Ratio of reserved forward bandwidth for handover user

Reserved forward bandwidth for handover user

If the load balance between a 2G cell and a 3G cell is greater than the threshold, load balance is triggered.

Coefficient used to modulate the load level of a 2G system so that the load level of the 2G system can be compared with that o

G711 Mode. A/U law configuration, 0-A law (default), 1-U law

Expected signal receiving strength on the BTS side when GPRS dynamic power control is implemented

End time for collecting the offset information

Cell load threshold for collecting the offset information. If the load threshold is exceeded, the offset information is not collected.

Whether to collect the offset information

Start time for collecting the offset information

Obtains the QoS parameter from the Aggregate BSS QoS Profile (ABQP) of packet flow context (PFC) when the MS and the n

This parameter specifies whether to enable the VGCS/VBS check function. If the BSS works abnormally, the BTS may periodic

Format of the geographic coordinates. The values include "DEG" and "SEC".

Whether the assignment of channels in overlaid subcells is enabled for the VGCS service in the case of underlaid subcell cong

Whether direct preemption of the channels of other services is enabled for the VGCS service. If the value of this parameter is N

Global routing management switch. If this switch is turned on, the IP addresses in the controlled range cannot be in the same n

Delay of transmit diversity when GMSK is used. Generally, the parameter is applicable to general fading environments. In this c delay may have negative impacts on some codes of the EDGE service. Therefore, the delay of transmit diversity must be config

Whether the current cell supports GPRS

Whether the currently cell supports the GPRS

Hysteresis value of the cell in the same routing area. When the MS in the ready state reselects a cell, if the original cell and the EGPRS priority can typelead of the cell reselection to channel increase of signaling traffic, inefficient use of radio resources, decrease of MS data transmission rat If this parameter is set to the EDGE MSs cannot usethe thisvalue channel. cell. The difference of theGPRS, signal level must be greater than of the cell reselection hysteresis parameter. Otherwise, th If this parameter is set to EGPRSNORCH, the GPRS and EDGE MSs can use this channel at the same priority. If this parameter is set to EGPRSPRICH, the EDGE MSs have the priority to use this channel. If this parameter is set to EGPRSSPECH, only the EDGE MSs can use this channel. If this parameter is set to NONGPRS, this parameter becomes invalid.

Threshold of hierarchical cell structure (HCS) signal strength. The MS calculates the C31 according to the signal strength and i

Timer used when the MS calculates the C2 (used to evaluate the channel quality during cell reselection). The time information i

Used for the GPRS transmission quality statistics. When the transmission quality threshold is exceeded, the transmission qualit

This parameter is used to prevent repeated cell reselection of a fast moving MS. The MS does not select this cell when the dura

Synchronization clock adopted when two satellite cards are used together. GPS:Trace GPS only. GLONASS:Trace GLONASS

Period for reporting GPS data

Whether to allow hierarchical access and to reserve resources for high-priority MSs

Number of the VGCS call that the BTS originates in the timeslot in the TRX in fallback mode. This parameter is represented in d

Number of the VGCS call that the BTS originates in the timeslot in the TRX in fallback mode. This parameter is represented in d

Index of the BSC Node Redundancy Group. It identifies a BSC redundancy group. The BSC node redundancy is a function thro A interface are faulty, the other BSC in this group takes over the voice and data services. In this manner, the reliability and robu

Name of the BSC Node Redundancy Group

Maximum number of secondary links that are released in batches when the Abis resource preemption occurs on the Abis interf

Transport resource group number

Type of the transport resource group

Geographical coverage of a simple cell broadcast message. You can run "DSP GSMSCB" to query and obtain the information. This parameter, "Code", and "Update" uniquely specify a cell broadcast message.

Ratio of bandwidth occupied by the CS service in the GSM

Number of neighboring cells that meet the following conditions: If "MBR" is indicated in a system message, the MS reports the n parameter. Standard priority for GSM CS(Circuit Switched) high-priprity MSs. 15 is the highest priority. These neighboring cells must meet the following requirements: 1. The receive levels of the neighboring cells must be higher than "900 Reporting Threshold" or "1800 Reporting Threshold". 2. The BSIC of a neighboring cell must be valid. 3. The signals of the neighboring cells must be the strongest among all the neighboring cells at the same frequency band.

Whether to support the cell reselection from the GSM network to the TD network in the packet transmission mode

Packet type against the ICMP attack

When the BTS is accessed from the public network, the BTS security network IP address must be configured.

IP address of the BTS security gateway. This parameter needs to be configured when the BTS connects to the BSC6900 throu

Whether to support CS half rate data services

ATCB difference between the overlaid and underlaid subcells

Duration of the handover from half rate to full rate. If the cell load is less than the preset threshold, the calls that meet the condi

According to the P/N rule, if the conditions for the handover from half rate to full rate are met for P seconds within N seconds, th This parameter specifies the number P.

Path loss difference between the overlaid and underlaid subcells

According to the P/N rule, if the conditions for the handover from half rate to full rate are met for P seconds within N seconds, th This parameter specifies the number N.

Whether the tower-top amplifier is installed on antenna tributary 1.

Whether the tower-top amplifier is installed on antenna tributary 2.

Heartbeat interval when the SCTP server is idle

Number of the cabinet where the main board of the RXU chain or ring is located.

According to the P/N rule, if the conditions for the handover to a different micro cell due to fast movement are met in P of N me This parameter specifies the number P.

According to the P/N rule, if the conditions for the handover to a different micro cell due to fast movement are met in P of N me This parameter specifies the number N.

Threshold for interrupting the power supply to the TRXs. If the BTS works with the battery power supply, when the battery volta

Threshold for interrupting the power supply to the TMU. If the BTS works with the battery power supply, when the battery voltag Type of a high frequency type supported by the BSC6900, Frequencies on DCS1800: 512-885 Frequencies on PCS1900: 512-810

Full rate TCHs are assigned preferentially to the MSs with priority levels equal to or less than this threshold, except when the M

This parameter specifies whether the MS with priority level 1 directly releases the preempted call. When this parameter is set to

Whether to enable the priority-based channel assignment algorithm

Whether to enable load power-off against high temperature

Whether to consider history priority records during channel assignment. If this parameter is set to YES, the history priority records are considered. If this parameter is set to NO, the history priority reco

Maximum History Password Numbers.

Whether a channel thewith overlaid or underlaid subcell in the case of the intra-BSC incoming handover to the concent Whether to theassign cell supports theinMS the DTM multi-timeslot capability If this parameter is set to SysOpt, the measured BCCH of the target cell is included in the intra-BSC inter-cell handover request If this parameter is set to OSubcell, a channel in the overlaid subcell is assigned preferentially. If this parameter is set to USubcell, a channel in the underlaid subcell is assigned preferentially. If this parameter is set to NoPrefer, a channel is assigned simply according to channel assignment algorithms.

Whether to allow handover between different operators. If the BSC6900 supports RAN sharing, MSs in a cell of this operator ca

If the downlink received signal level of a neighbor cell is greater than "Min DL Level on Candidate Cell" plus "Min Access Level

If the uplink received signal level of a neighbor cell is greater than "Min UL Level on Candidate Cell" plus "Min Access Level Of

Type of indexing the target cell

Unique name of the target cell

Whether to use handover algorithm generation 1 or 2 currently

Handover direction forcast switch. When this parameter is set to YES, the BSC6900 can forecast the handover direction of the

This parameter indicates P in the P/N rule for MS handover direction forcast. P/N rule: Among N handovers, the MS is handed over to Class B chain neighboring cell for successively P times, then the BSC

This parameter indicates N in the P/N rule for MS handover direction forcast. P/N rule: Among N handovers, the MS is handed over to Class B chain neighboring cell for successively P times, then the BSC

Fast handover can be triggered only when the downlink level of the serving cell is less than this parameter.

According to the P/N rule, if the conditions for the handover to a better 3G cell are met for P seconds within N seconds, the han This parameter specifies the number P.

According to the P/N rule, if the conditions for the handover to a better 3G cell are met for P seconds within N seconds, the han This parameter specifies the number P.

The 3G better cell handover can be triggered only when the Ec/No of a neighboring 3G cell is greater than this threshold for a

According to the P/N rule, if the conditions for fast handover are met in P of N measurement reports, the handover is triggered. This parameter specifies the number P.

Type of handover in terms of connection transfer between channels or between cells

Fast handover can be triggered only when the path loss difference between the serving cell and a neighbor cell on the chain is

If the cell is an enhanced concentric cell, this parameter with the current downlink received signal level and "UtoO HO Received If the cell is an ordinary concentric cell, this parameter with the current downlink received signal level, "RX_LEV Threshold", an

This parameter specifies whether a 2G cell or to a 3G cell is preferentially selected as the target cell for handover. When this parameter is set to Pre_3G_Cell, the BSC preferenti neighboring 3G cell as the handover target cell if the receive level of the neighboring 2G cell that ranks the first in the candida

An MS cannot be handed over from the underlaid subcell to the overlaid subcell in this duration after the MS is handed over fro

Index of the frequency hopping data, used for a TRX to locate the frequency hopping sequence

Logical number of the MA group

Implementation mode of frequency hopping

Whether to enable power boost before handover. When the receive level of an MS drops rapidly, a handover occurs. In this case, the BSC6900 cannot adjust the transmit power to the maximum before the BSC6900 sends a handover command to the MS. In addition, the transmit power of the BTS is not a

If the receive level of the neighboring 2G cell that ranks the first in the candidate cell list is equal to or smaller than this thresho

If this parameter is set to ON, the channel on a single frequency of an MA group is allocated to an MS with the non-FH attribute

Hoping sequence number (HSN) of a hopping antenna group. If the value of this parameter is 0, the services over a TRX are a a pseudo-random manner, that is a disciplinary random manner.

TRX index that a hopping antenna index corresponds to. A hopping antenna enables signals of multiple TRXs to switch betwee

Frequency hopping mode of the TRX. Frequency hopping assists in interference averaging and frequency diversity. If this parameter is set to RF_FH, the TX and RX parts of the TRX take part in the frequency hopping. In this case, the number frequency hopping. The baseband signals are switched for the frequency-hopping transmission. The RX part, however, takes p

To avoid ping-pong handover, the received signal of the original serving cell is decreased by "Quick handover punish value" in

Time for reserving the handover reference for one of the two BSCs that collect the offset information

The 3G better cell handover is triggered only when the RSCP of a neighboring 3G cell is greater than this threshold for a perio

Whether an HO REQ ACK message contains the information element Speech Version during an SDCCH handover. If a signali

According to the P/N rule, if the conditions for the handover to a better 3G cell are met in P of N measurement reports, the hand This parameter specifies the number N.

According to the P/N rule, if the conditions for the handover to a better 3G cell are met in P of N measurement reports, the hand This parameter specifies the number N.

According to the P/N rule, if the conditions for fast handover are met in P of N measurement reports, the handover is triggered. This parameter specifies the number N.

Indicates the host type of the signalling point. When the BSC node redundancy feature is enabled, the primary BSC and the secondary BSC each must be configured with a "SLAVEHOST". When the BSC node redundancy feature is disabled, the host type of the signaling point of the BSC is set to "S

Host type of an IP BTS

Handover threshold during the handovers between cells on different layers or of different priorities. This value is used to suppre Inter-layer handover threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis"; Inter-layer handover threshold of a neighboring cell = "Inter-layer HO Threshold" + "Adjacent Cell Inter-layer HO Hysteresis" - 6

Fast handover can be triggered only when the uplink signal level of the serving cell is less than this parameter. Whether to enable the TRX to support antenna hopping In a GSM cell, the BCCH broadcasts the frequency, frame number, system information, and paging group. If an MS is in an unf To avoid such a problem, the antenna hopping function is involved. With this function, the messages transmitted in the main TR for dual-frequency BTSs. If this parameter is set to NONE, the BTS does not support antenna hopping. Whether to enable the TRX to support antenna hopping In a GSM cell, the BCCH broadcasts the frequency, frame number, system information, and paging group. If an MS is in an unf To avoid such as problem, the antenna hopping function is involved. With this function, the messages transmitted in the main T for dual-frequency BTSs.

The number of the optical port of the main board in the RXU chain or ring.

Maximum priority level of an MS that can use reserved channel resources. If the priority level of an MS is greater than this para

Whether to enable the configuration of power system parameters. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Load power-off voltage threshold. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

This parameter determines whether the BSC6900 supports new establishment causes of an MS in the initial access request. Th

Whether the downlink DTX function is enabled for half rate (HR) calls. This function is also restricted by the DTX switch in the M

Whether to enable the BSC to assign half or full rate channels to MSs according to the channel seizure ratio in the overlaid and

Whether the uplink DTX function is enabled for HR calls. For details, see GSM Rec. 05.08. Uplink DTX is not restricted by the M

Hopping sequence number (HSN), indicating 64 types of frequency hopping sequences. If this parameter is set to 0, the freque If this parameter is set to a value from 1 to 63, the frequency hopping is performed in a pseudo-random manner, that is a discip

Number of the slot where the main board of the RXU chain or ring is located. The slot No. is unique in the same BTS.

Whether dynamic use of HSNs is enabled. If the functions of frequency hopping and Flex MAIO are enabled in a cell and the va

Number of the subrack where the main board of the RXU chain or ring is located. The subrack No. is unique in the same BTS.

Bidirectional Forwarding Detection Hop Type.

If the ambient temperature is higher than "High Temperature Critical Point", the temperature control system controls the differen In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

If the outlet temperature is higher than "High Temperature Critical Point" and the difference between the outlet temperature and In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable battery power-off against high temperature.

Humidity alarm switch

Upper limit of humidity. When the humidity exceeds the upper limit, a humidity alarm is reported.

Lower limit of humidity. When the humidity is lower than the lower limit, a humidity alarm is reported.

When the ambient humidity of the APMU is greater than the value of this parameter, the BTS reports an overhigh ambient hum In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

When the ambient humidity is greater than the value of this parameter, the BTS reports an overhigh ambient humidity alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

When the ambient humidity of the APMU is less than the value of this parameter, the BTS reports an overlow ambient humidity In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

When the ambient humidity is less than the value of this parameter, the BTS reports an overlow ambient humidity alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Delay for which the BTS waits to switch on the air conditioner

This timer is started after a connection is established successfully. If a detection message is not received when this timer expire

Duration in IASU mode

Port number in IASU mode. For the BTS3002C, the port number cannot be set to "E1PORT3".

Type of the transmission board in IASU mode

This timer is started after a connection is established successfully. When this timer expires, a detection message will be sent to

Minimum C/I ratio that IBCA AMR FR services allow. An idle channel can be assigned to such a service only when the C/I ratio a value less than this threshold.

Minimum C/I ratio that IBCA AMR HR services allow. An idle channel can be assigned to such a service only when the C/I ratio a value less than this threshold.

Whether to enable the IBCA algorithm

Length of the timer for a new call to wait for the measurement report (MR) on the signaling channel when dynamic measuremen

Number of measurement reports sampled for averaging path loss. A single measurement report may not reflect the actual netw

When the IBCA algorithm is enabled, this parameter is used to calculate the actual soft blocking threshold of an existing call. Th

When the IBCA algorithm is enabled, this parameter is used to calculate the target CIR of an existing call. The formula is as foll

Difference between uplink and downlink path losses, which is used to estimate the downlink path loss of a call when the downli "IBCA Downlink Path Loss Offset" = combined loss of BTS + hierarchical dual-antenna gain of BTS (3 dB)

Whether to measure the IBCA neighbor cells of the serving cell dynamically. If the dynamic measurement is enabled, when a c operate. Thus, the call measures and reports only these frequencies to the BSC6900.

Length of the timer for a call to measure the path loss in the neighboring cell with strong interference of the target cell. The call parameter is set to 0, dynamic measurement of the BA2 list is not enabled in the emergency handover, and the parameter "Wa

Whether the IBCA flexible TSC function is enabled. When this parameter is set to NO, the flexible TSC function is disabled and

Whether the IBCA forced BTS synchronization is allowed. When this parameter is set to YES, the synchronization procedure is performed as required. Note that the synchronization status of the IBCA neighboring cells is determined by the internal software neighboring cells are considered to be out of synchronization. Minimum C/I ratio that IBCA FR/EFR services allow. An idle channel can be assigned to such a service only when the C/I ratio a value less than this threshold.

Length of the timer for a call to wait for other valid MRs after receiving the first valid MR of the target cell if dynamic measureme

Minimum C/I ratio that IBCA HR services allow. An idle channel can be assigned to such a service only when the C/I ratio of the value less than this threshold.

In the ICDM matrix algorithm, the signal strength (0-63) is divided into 10 levels. The signal strength that is smaller than or equa

Whether to enable the ICDM algorithm for the cell. The ICDM algorithm helps to improve the precision in estimating the path lo

Period of information exchange between the BSC boards. The information helps to estimate the C/I ratio for the IBCA algorithm

Adds a specified offset to the downlink target receive level when power control algorithm III is used to calculate the initial transm

Adds a specified offset to the uplink target receive level when power control algorithm III is used to calculate the initial transmit

Adds a specified offset to the downlink target receive quality when power control algorithm III is used to calculate the initial tran

Adds a specified offset to the uplink target receive quality when power control algorithm III is used to calculate the initial transm In an IUO cell (or a CoBCCH cell), the path loss of an MS to the serving cell or a neighboring cell measured on the underlay is Path loss difference due to different frequency selectivity. This value is calculated based on the IUO level values measured by

Determines the MAIO selection method for each timeslot. The Optimal MAIO policy selects the optimal MAIO being evaluated,

The IBCA interference evaluation process only considers the interference of the strongest N existing calls on the newly-establis

Indicates whether this neighboring cell is the IBCA neighboring cell of the serving cell. That is, when a cell is configured as the

Estimates the receive level of the unmeasured IBCA neighboring cells. When a consecutive "IBCA Non Measurement Ncell Sta used to estimate the receive level of the unmeasured IBCA neighboring cells. The estimated value is "IBCA Pathloss Est of No "IBCA RxLev Offset".

When the IBCA algorithm is enabled, this parameter is used to calculate the target CIR of a new call. The formula is as follows:

Length of the timer for a call to measure the path loss in the neighboring cell with strong interference of the target cell. The call parameter is set to 0, dynamic measurement of the BA2 list is not enabled in the normal handover, and the parameter "Wait Tim

Estimates the receive level of the unmeasured IBCA neighboring cells. When a consecutive "IBCA Non Measurement Ncell Sta used to estimate the receive level of the unmeasured IBCA neighboring cells. The estimated value is "IBCA Pathloss Est of No "IBCA RxLev Offset".

When the IBCA algorithm is enabled and the HSN is not 0, the IBCA priority and the SDCCH/PDCH priority are divided by this

Specifies a period during which the inter-BSC information exchange must be completed. The information is mainly used by IBC

When the path loss of an MS to a neighboring cell cannot be measured based on the existing measurement results, it is estima

Considers the influence of history path loss information during the calculation of the ICDM algorithm path loss. The smaller the

Estimates the receive level of the unmeasured IBCA neighboring cells. When a consecutive "IBCA Non Measurement Ncell Sta used to estimate the receive level of the unmeasured IBCA neighboring cells. The estimated value is "IBCA Pathloss Est of No "IBCA RxLev Offset".

Use this parameter when the path loss of an MS to serving cells cannot be measured based on the existing measurement resu

MSs that support SAIC can tolerate a lower carrier-to-interference ratio. This variable indicates the downward adjustment step o

Whether to deny the access of a call when none of the MAIO evaluation results meets the C/I ratio requirement of the call durin

Whether the handover of the calls on the single channels is allowed (single channels are the two half-rate sub-channels on a tim allowed; if this parameter is set to OFF, the handover of the calls on the single channels is not allowed. This parameter is valid

Whether a MAIO meets the access requirement. When the C/I ratio of a MAIO is higher than this threshold, the MAIO can be a

Whether to enable the IBCA algorithm for the overlay and underlay of an IUO cell

Whether a single IBCA MS can dynamically measure the neighboring cells. When this parameter is set to YES, the neighboring parameter is set to YES, it is recommended that "Direct Retry" be set to NO.

The lowest C/I ratio that can be tolerated by IBCA WAMR FR. The C/I ratio of an idle channel must be larger than this paramete This parameter is used to enable the Intelligent Combiner Bypass (ICB) function on the BCCH TRX of a cell. This parameter specifies whether to allow the cell to enable the ICB function. When this parameter is set to YES, the TCHs on

Whether to enable the intelligent control of the diesel engine. If this parameter is set to ENABLE, the PMU will control the diese

ICMP packet length. It is the total length of the ICMP packet containing the IP header.

DSCP corresponding to the interaction service with the THP level of PRIORITY1

DSCP corresponding to the interaction service with the THP level of PRIORITY2

DSCP corresponding to the interaction service with the THP level of PRIORITY3

Number of the scheduled task

Number of the scheduled task

Index

This parameter indicates the idle code of the A interface. It is used for the interconnection of the A interfaces.

IDLE code

When the number of idle SDCCH channels in a cell is smaller than this parameter, the system searches for available TCHs and

Index type

BTS index type

Type of an index

Index type

Type of an index

Subscribers can specify the cell according to the index or the name.

Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.

Index type. BYNAME: query by name; BYID: query by index.

Index of the semipermanent link

Support the index based on the TLLI and IMSI mode

Index type, supporting the index based on the cell and BSC mode.

Whether the handshake mechanism is enabled at the Cb interface. Currently, the BSC6900 and the CBC communications thro normal.

Number of the outgoing interface of a link

Whether to set the middle frequency offset to positive offset or minus offset

Indication offset in the middle frequency offset configuration

Whether to report the progress. "NO" indicates that the progress is not reported. "YES" indicates that the progress is reported.

Number of invalid measurement reports allowed when the BSC6900 filters the measurement reports. When the number of rece

Value of an IMEI

Timer for the BSC6900 waiting for a CC message after sending a CR message. If the timer expires, the seized SDCCH is relea

The channel activation and immediate assignment messages are sent at the same time to accelerate the signaling processing,

This parameter specifies whether to support the takeover of the packet immediate assignment by the BTS. It is relative to the u through the resources allocated by the BSC. When receiving the immediate assignment message, the MS can send the data b

Whether to allow immediate TCH assignment. If this parameter is set to YES, the BSC can assign a TCH immediately when the

Maximum time delay in resending an immediate assignment message. Within the period specified by this parameter, an immed

Maximum number of retransmissions of an immediate assignment message. When the value of this parameter is reached, the

Whether the BSC6900 sends immediate assignment retransmission parameters to the BTS

Whether to assign channels according to the access_delay value in channel request messages during immediate channel assig

When the access_delay value in the channel request message is smaller than this parameter, the overlay channels are assigne

Whether to adjust the offset time immediately after the BTS is reset

Timer carried by the Wait Indication information element when the BSC6900 sends an immediate assignment reject message t After the MS receives the immediate assignment reject message, the MS reattempts to access the network after the timer expir

Value of an IMSI

International mobile subscriber identity of the MS. IMSI containing the number 0 to 9.

Timer for the BSC6900 waiting for a handover complete message after sending a handover request acknowledgment message

Threshold for fine tuning the BTS clock. If the offset of the BTS clock is smaller than the threshold, no fine tuning is performed.

Fine tuning period in the BSC

Included angle formed by the major lobe azimuths of the antennas in two cells under one BTS. A major lobe azimuth is measur

Number of the in-port cabinet on a BTS

Whether to separate E1 from other optical fibers for the use of other devices. If this parameter is set to YES, other BTSs can co

The triggering of intra-cell F-H handovers must meet the P/N criteria, that is, when the condition for intra-cell F-H handovers is m

The triggering of intra-cell F-H handovers must meet the P/N criteria, that is, when the condition for intra-cell F-H handovers is m

Information exchange content to be supported

Infrared alarm switch

For an AMR call, if the currently occupied channel is a full rate channel and the Radio Quality Indication (RQI) is always higher

For an AMR call, if the currently occupied channel is a half rate channel and the Radio Quality Indication (RQI) is always lower

Power overload threshold for triggering incoming handover to the TRX under the prerequisite that the power amplifier of the TR

Initial coding mode used for full rate AMR calls. The four values 0, 1, 2, and 3 of this parameter respectively represent the lowe

Initial coding mode used for half rate AMR calls. The four values 0, 1, 2, and 3 of this parameter respectively represent the lowe

Initial coding mode used for broadband AMR calls. The three values 0, 1 and 2 of this parameter respectively represent the low

Specifies the timeslot mask in BSC6900

Whether to assign channel requests in the overlay subcell to the underlay subcell according to "UL Subcell Lower Load Thresh

Whether to allow underlay-to-overlay edge handovers

Index of the cell in the BSC

Name of the cell in the BSC

Whether to allow underlay-to-overlay load handovers

Overlay-to-underlay load handovers are performed by levels. This parameter indicates the duration of each level.

Level step during overlay-to-underlay hierarchical load handovers

In an enhanced dual-band network, if the load of the overlay subcell is higher than this parameter, the system cannot initiate an

Incoming BSC6900 port number

Number of a BTS port

In-port number of a DXX

Mode of inputting the latitude and longitude of a cell location

Whether to allow inter-BSC SDCCH handovers

Incoming BSC6900 slot number

Number of the in-port slot on a BTS

Incoming BSC6900 subrack number

Number of the in-port subrack on a BTS

Time interval for sending a simple cell broadcast message

Hysteresis value during the handovers between cells on different layers or of different priorities. This value is used to suppress

Type of an interference band statistics algorithm used when the frequency scanning function is enabled. The interference band

Reduces ping-pong handovers between cells on a same layer. This parameter is invalid when cells are on different layers.

Specifies an interval between two consecutive interference handovers

The triggering of interference handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the con

The triggering of interference handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the con

Whether to allow the interference handover algorithm. Interference handovers are triggered when the receive level is higher tha

Whether to consider interference priorities during channel assignment Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on ea these levels are called interference band thresholds. The BTS determines the current interference level based on these thresho indication message to determine whether to perform a handover. The interference band statistics result provides reference for t Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on ea these levels are called interference band thresholds. The BTS determines the current interference level based on these thresho indication message to determine whether to perform a handover. The interference band statistics result provides reference for t Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on ea these levels are called interference band thresholds. The BTS determines the current interference level based on these thresho indication message to determine whether to perform a handover. The interference band statistics result provides reference for t Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on ea these levels are called interference band thresholds. The BTS determines the current interference level based on these thresho indication message to determine whether to perform a handover. The interference band statistics result provides reference for t Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on ea these levels are called interference band thresholds. The BTS determines the current interference level based on these thresho indication message to determine whether to perform a handover. The interference band statistics result provides reference for t Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on ea these levels are called interference band thresholds. The BTS determines the current interference level based on these thresho indication message to determine whether to perform a handover. The interference band statistics result provides reference for t

Value of the timer for synchronization between BSCs. If a BSC fails to synchronize with the control BSC before the timer expire

Period during which interference levels are averaged. The interference levels on idle channels are averaged before the BTS se 08.08, 08.58, and 12.21.

This parameter specifies whether the reselection from 2G cells to 3G cells is allowed.

Threshold for setting the flag of accepting inter-RAT CS service handover of a 2G cell

This parameter specifies whether the handover from 3G cells to 2G cells is allowed.

Whether to reserve resources for the incoming BSC handover on the Iur-g interface

Width of load band [EcNo] during the inter-RAT hierarchical load-based handover

Initial EcNo value of the inter-RAT load-based handover band

Step of changing the EcNo value during the inter-RAT hierarchical load-based handover

Width of load band [RSCP] during the inter-RAT hierarchical load-based handover

Initial RSCP value of the inter-RAT load-based handover band

Step of changing the RSCP value during the inter-RAT hierarchical load-based handover

This parameter specifies whether the handover from 2G cells to 3G cells is allowed. When this parameter is set to Service-based, the inter-RAT handover is triggered on the basis of the service distribution. In this basis of the load balance. In this case, the target cell is selected according to the traffic load on the target cell and the load dif the service-based algorithm or the load-based algorithm according to the traffic load on the cell. When this parameter is set to OFF, no inter-RAT service handover or inter-RAT load handover

Time span before the command is executed. The logs generated within the time span are to be exported.

Interval for sending packets to test Ethernet OAM loop

Frequency index of the interference measurement in type 3 of an extension measurement report

Lower threshold of the overlay level during underlay-to-overlay handovers. When the receive level of an MS is higher than this

The timer is used to set the time when the BSC6900 waits for an Internal Handover Command message after a Internal Hando

Timer started after the BSC6900 delivers a handover command in an intra-BSC inter-cell handover. If the BSC6900 receives a

Whether to allow AMR handovers. This parameter has no impact on dynamic non-AMR F-H handovers.

This parameter specifies whether the intra-cell handover is enabled. Note: A forced intra-cell handover is not subject to this par

Timer started after the BSC6900 delivers a handover command in an intra-BSC intra-cell handover. If the BSC6900 receives a

Whether it is an RNC under the same MBIC in GU mode

Minimum Ec/No value of a 3G cell during the load-based GSM-to-UMTS handover

When the load of a cell is greater than or equal to Load HO Threshold, all the calls in the serving cell send handover requests s control the number of calls to be handed over at each level. This parameter specifies the duration for performing the load-based

Minimum RSCP value of a 3G cell during the load-based GSM-to-UMTS handover

Incoming BSC6900 start timeslot number

Number of a DXX In-timeslot

Interval for executing the scheduled subtask. If the time mode is set to "DAILY_C", "WEEKLY_C", or "MONTHLY_C", you shou

Automatic switchover interval. This parameter needs to be set only when "OMU automatic switchover switch" is set to "ON". Th

Whether a measurement report can contain the information about a cell with an invalid BSIC. The cell with an invalid BSIC is an

IP address

IP address of the server

IP address of the local NSVL

IP address of the remote NSVL

IP address of a BTS port. It cannot be the same as any IP address configured in the BSC6900.

IP address of the FTP server. When the FTPServer.exe file is downloaded through the FTP Tool button on the LMT, the addres

The local IP address must be the configured IP address (including the IP address and port address of the interface board).

IP address of the board

Local IP address of the Ethernet port

Source IP address of the packet for preventing the ICMP attack

IP address of the next hop

Local IP address of the aggregation group

IP address of the router

First IP address of the SGSN

It must be the valid address of the A, B, or C type and cannot be the broadcast address or network address.

Second IP address of the SGSN

It must be the valid address of the A, B, or C type and cannot be the broadcast address or network address.

Third IP address of the SGSN

Fourth IP address of the SGSN

When the number of error frames on the IP layer reaches the value of this parameter, the frame error alarm is generated.

When the number of error frames on the IP layer decreases to the value of this parameter, the frame error alarm is cleared.

Whether to compress the packet headers

Whether to compress the IP header of a MP group

IP address index of the Ethernet port

IP address index of the aggregation group

IP packet multiplex index

Type of the physical IP transmission medium

Type of IP physical transmission cable medium, E1 or FE/GE.

Whether to enable the heater. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether the BSC is a reference BSC

Whether the cell is a chain neighboring cell. The parameter is used in the quick handover algorithm. Quick handover aims to inc urban backbone road, a selected route, or a high-speed railroad. The target cell must be a chain neighboring cell.

Whether to support clock server redundancy configuration

Whether to support clock server redundancy configuration

Whether to enable the BTS to support ring networking. IP BTS does not support this parameter.

If this parameter is set to "YES", the check threshold for a specific board is used. In this case, the following paramters are invol

A service support attribute of a cell, that is, whether an external GSM cell supports EDGE

Whether to indicate the first class transport resource group

A service support attribute of a cell, that is, whether an external GSM cell supports GPRS

Whether to enable the TRX to carry the main BCCH in the cell

Whether a BSC in the TC pool is the primary BSC

Whether this location group is the main location group. If the value is Yes, this location group is the main location group. If the v

A service support attribute of a cell, that is, whether an external GSM cell supports NC2

Configuration mode of the IP subnetwork. Static configuration: fixed local NSVL and remote NSVL parameters through manual

Whether it is QOSPATH

Whether the Um interface software synchronization between BSCs is supported

Whether multiple DEMUs are configured

ISSUPERBTS

Whether to enable the BTS to support local switching If the BTS supports local switching, when the calling and called MSs are both within the BTS or BTS group, the voice signals ar are released and saved.

Whether to support the TC pool function. The TC Pool feature is implemented by connecting the maim processing subracks (M the shared TC resources form a TC Pool. The TC Pool feature is applicable to only the BSC6900s whose "Service mode " is se Whether it is a TC board.If the board is for the TC subrack, set the parameter to YES. If the board is not for the TC subrack, set the parameter to NO.

Whether the subrack is a remote main TC subrack

Whether to control the temperature difference between the air inlet and air outlet and that between the air outlet and ambient by In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to configure the transmission cabinet. The BTS uses this parameter to calculate the number of TRXs to be shut down.

Number of a row to be changed in a BA list

Reserved parameter for cells. There are 30 parameters of this type, which can be used as new parameters in later versions.

Used for parameter control

Value of a reserved parameter for cells

Type of the adjacent node

Type of the interface. This is determined by the type of the protocol currently used by the BTS. Point-to-Point Protocol (PPP) is

Concentric cell attributes of TRX. If the cell where a TRX is located is configured as a concentric cell, set this parameter to OVE

Conversion policy of the dynamic channel of the concentric cell

The triggering of concentric circle handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the

Whether a cell is a normal cell, concentric cell, or enhanced dual band network cell. In a concentric the coverage of different TRXsthe form circles of different radiuses. The triggering ofcell, concentric circle areas handovers must meet P/Nconcentric criteria, that is, when P out of N measurement reports meet the Owing to different coverage areas of the overlaid and underlaid parts, the two parts can be logically regarded as two cells. With part cannot cover. The underlaid part covers the overlaid part, and thus the underlaid part can also share some traffic. An enhanced dual band network is amelioration to the existing dual band network. In such a network, two cells physically with a the algorithm of enhanced dual band network.

Switch for the J0 tracing mark mismatching alarm

Byte display format of J0

Expected receiving value of J0. J0 byte, also called the trace byte of the regenerator section on the optical port (RTIM), is one o

Sending value of J0. J0 byte, also called the trace byte of the regenerator section on the optical port (RTIM), is one of the optic

J0 type

Switch for the J1 tracing mark mismatching alarm

Byte display format of J1

Expected receiving value of J1. J1 byte, also called the trace byte of the high-order path on the optical port, is one of the optica

Sending value of J1. J1 byte, also called the trace byte of the high-order path on the optical port, is one of the optical port interc

J1 type

Switch for the J2 tracing mark mismatching alarm

Byte display format of J2

Byte length of J2

Expected receiving value of J2

Sending value of J2

A zero or a space used to fill in the J byte of the optical port based on the J byte of the peer equipment. If the J bytes are incon

Whether to enable the LAPD Jitter Buffer algorithm. This algorithm adds a buffering adaptation layer under the LAPD layer at th In this way, the frame disorder is avoided.

Default receive delay of the PS Jitter Buffer on the BTS. A greater value of this parameter indicates a longer end-to-end delay f

Whether the LAPD Jitter Buffer is enabled on the BSC side

Determines whether the last three bits of K2 indicates the single end and the dual end

K offset used in K sequencing. To reduce ping-pong handovers, the system performs K sorting based on the downlink receive l

Duration of the PPP/MP link keep-alive timer

Location area code (LAC). MSs can freely move in the local location area with no need of location update. Reasonable local all Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.

Location area code (LAC). The MS can move within the local location area without location update. The reasonable classificatio

Aggregation mode. When this parameter is set to static aggregation, the LACP protocol is activated; otherwise, the LACP proto

Decimal value when the latitude where a cell is located is indicated in the format of degree

Decimal value when the longitude where a cell is located is indicated in the format of degree

Integer value when the latitude where a cell is located is indicated in the format of degree

Value of the minute part when the latitude is indicated in the format of degree_minute_second

Decimal value of the second part when the latitude is indicated in the format of degree_minute_second

Integer value of the second part when the latitude is indicated in the format of degree_minute_second

Longitude of the GPS receiver antenna

Longitude of the GPS receiver antenna

Delay statistics period. This parameter indicates the period to collect the statistics information about the link transmission delay

Number of delay adjustment suspension periods. This parameter specifies the delay statistics periods in which the bandwidth is adjustment at the logical port.

Bandwidth reduction delay threshold. This parameter is used to trigger the function of bandwidth reduction at the logical port wh

Average delay reduction filtering index

Average delay increase filtering index

Layer where a cell is located. The network designed by Huawei has four layers: Umbrella (layer 4), Macro (layer 3), Micro (laye

A network basically consists of four layers, namely, Umbrella, Macro, Micro, and Pico. Cell priorities influence the sorting of neig priority level. If you assign different layers and priorities to a 1800-M cell and a 900-M cell, PBGT handovers from the 1800-M c

When the load of the serving cell reaches the threshold, the inter-layer handover algorithm takes effect. Through configuration

Timer of increasing the Lb flow control level when the BSC receives an SMLC congestion indication. If the BSC receives anothe

Timer of decreasing the Lb flow control level. If no SMLC congestion indication is received within the valid period of the timer, th

Fourth action taken for load control

First action taken for load control

Second action taken for load control

The local entity number uniquely identifies a local entity.

Level of the log

Log level to be collected.

Alarm mask switch

Class of the maintenance domain

Whether to support the reporting of the main diversity level

Logical function type of the board OAM:Operation And Maintenance Process Whether to allow inter-layer andprocess inter-level handovers. The inter-layer and inter-level handover algorithm is achieved through th TDM_Switching:TDM switching GCP:All the GCP subsystems are configured as cells CPUS act as the control processing subsystems GSMto BSC Hysteresis value during the handovers between ontodifferent layers or ofplane different priorities. This value for is used suppress RGCP:Subsystem 0 of RGCP is configured as the MPU subsystem to act as the resource management subsystem. The other Inter-layer handover threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis"; MCP: Mathematics Process, which includes Interference Channel Allocation Inter-layer handoverComputing threshold of a neighboring cell = "Inter-layer HO Based threshold" + "Adjacent Cell(IBCA) Inter-layer HO Hysteresis" - 64 GTC:GSM BSC TC Process GPCU:GSM BSC PCU Process IP:GOUc/IP IP over GE Optical interface,GOUa/IP IP over GE Optical interface,PEUa/IP IP over E1/T1/J1 interface,FG2c/IP IP The triggeringFrame of inter-layer handovers must meet the P/N criteria, that is, when the condition for inter-layer handovers is met fo FR:PEUa/FR Relay over E1/T1/J1 interface HDLC:PEUa/HDLC Packet over E1/T1/J1 interface TDM:POUc/TDM channelized Optical STM-1/OC-3 interface GbIP:FG2a/GbIP GSM BSChandovers Gb IP interface The triggering of inter-layer must meet the P/N criteria, that is, when the condition for inter-layer handovers is met fo Abis_TDM:EIUa/Abis_TDM E1/T1 circuit Interface for Abis,OIUa/Abis_TDM channelized Optical STM-1 Interface for Abis Ater_TDM:EIUa/Ater_TDM E1/T1 circuit Interface for Ater,OIUa/Ater_TDM channelized Optical STM-1 Interface for Ater Pb_T A_TDM:EIUa/A_TDM E1/T1 circuit Interface for A OIUa/A_TDM channelized Optical STM-1 Interface for A SAU:Service Aware Uint

Logical function type of the board

Logical function type

Application type of the POUc_TDM board

The Logical Index of PB signaling link

Lower humidity threshold for the environment alarm box to report an alarm indicating that the ambient humidity is too low. If the In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding paramete

The occur threshold of 20258 alarm,you can set it from 90% to 99%

The recover threshold of 20258 alarm,you can set it from 90% to 99%

Key field used to identify one LAPD link

Type of the parameters to be displayed when a cell template is queried. The value "DIFFERENCE" indicates that the paramete

Rate type of the designated link

Lower limit for triggering an alarm

Lower limit of an alarm. It is valid for the analog port.

The loopback channel number when the port loopback mode is set to single channel local loopback

Upper threshold of the low noise amplifier. When the working voltage of the low noise amplifier attenuator in the RXU board is s

Lower threshold of the low noise amplifier. When the working voltage of the low noise amplifier attenuator in the RXU board is g

Optical interface tributary numbering method. This parameter indicates the sequence of tributaries in an SDH frame.

Rate of the semipermanent link

Initial bearing tag of the M3UA link. This parameter can be set to either active mode or standby mode. For details about the rele

Link load sharing. In the value, the number of 1s (represented by n) determines the maximum number (2^n) of links for the load for the load sharing. The AND operation between this value and " signaling route mask " in the N7DPC is equal to 0.

Signaling link mask corresponding to the M3UA link set. It is used for the M3UA link load sharing. It is valid only when the work indicates that up to one link is used for the load sharing, B0001 and B1000 indicate that up to two links are used for the load sh

If the load of a cell is lower than the value of this parameter, the cell can admit the users handed over from other cells with high

Type of load balancing algorithm of the MSC Pool. Generally, the BSC6900 chooses an MSC according to the obtained networ

Intervals that the BSC broadcasts a cell's traffic load to its neighbor cells. The uplink load and downlink load indicate the traffic number of downlink TBFs carried on all PDCHs in a cell / total number of PDCHs in a cell x ("PDCH Downlink Multiplex Thresho

Load current shunt coefficient

This parameter specifies whether to use the load handover or the enhanced load handover.

This parameter specifies whether a traffic load-sharing handover is enabled. The load handover helps to reduce cell congestion primary measure to adjust abnormal traffic burst in partial areas. If load handovers occur frequently in a partial area, the cell an

Indicates that if a 2G neighboring cell supports load handovers, the BSC adds the load information of the local cells in the signa

Indicates that if a 3G neighboring cell supports load handovers, the BSC adds the load information of the local cells in the signa

If the path loss in the serving cell minus that in a handover candidate cell is not smaller than the parameter value, the handover handed over to a neighboring cell through the PBGT handover can be handed over now. The value "0" indicates that the enhan

After a load handover succeeds, the BSC punishes the former serving cell during "Penalty Time on Load HO" by subtracting "P

After a load handover succeeds, the BSC punishes the former serving cell during "Penalty Time on Load HO" by subtracting "P

When the load of a cell reaches or exceeds "Load HO Threshold", all the calls that are using this cell as the serving cell genera problem, the BSC uses the hierarchical load handover algorithm to control the number of users included in each level of hando This parameter indicates the duration of each handover level. In hierarchical load handovers, starting from "Edge HO DL RX_LEV Threshold", a "Load HO Step Level" is added to the upper RX_LEV Threshold" + "Load HO Bandwidth" are switched to other cells.

This parameter specifies the ratio of the MSs that simultaneously perform a load handover. You can enlarge the ratio to accele a reasonable value.

In the handover algorithm of the first generation, load handovers can be performed only when the receive level of the current se In the handover algorithm of the second generation, load handovers can be performed only when the level difference between

Whether to enable load power-off. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to allow the cell load reselection. If this parameter is set to PERMIT and "NC2 Load Reselection Switch" is set to Supp

Threshold for allowing the MS to reselect a cell during load reelection. When the receive level of the serving cell is lower than th

When the uplink load or downlink load of the target cell is lower than this threshold, it can accept the MSs from the serving cell

When the uplink load or downlink load of the cell exceeds this threshold, the load reselection decision is made.

If this parameter is set to YES, the channel assignment algorithm II randomly selects the start range for channel traversal; othe

This parameter specifies whether the dynamic PDCHs that have been converted into the PDCHs are considered during the cal

TRM load threshold switch

Local BSC identity. It identifies a BSC.

Local IP address of PPP link. The IP address of the PPP link on the BSC side.

Local IP address of the MP group

Local IP address of BTS PPP Link.

Local IP address of BTS MLPPP Group.

Identifies a local NSVL

Identifies the local port of the router. The setting of this parameter must be consistent with the setting at the SGSN side.

Number of the location group under the BTS. It is unique for each BTS. The value of this parameter can include one or two conditions. "&" is used to concatenate the conditions, and the records are obtained when the two conditions are matched. Conditions writtengroup in the format of "name : value". Number of aare location "name" is the key of location information, "value" is the value of location information. Both "name" and "value" are case sensitive. For example: 1. If you need to obtain all the alarms regarding the subrack 0, set lockeyinfo to "Subrack No : 0". For example: 2. If you need to obtain all the alarms regarding the slot 8 in subrack 0, set lockeyinfo to "Subrack No : 0&Slot No

Identifies the first local IP address that communicates with the peer end. When it is set to 0, it is invalid. This IP address must b

Identifies the second local IP address that communicates with the peer end. When it is set to 0, it is invalid. This IP address mu

Whether to lock all the non-default local accounts

Local SCTP port number

Board start load control

Mode of software loading

CPU usage threshold for log flow control. When the average CPU usage of sliding windows reaches or exceeds the threshold,

Packet queue usage threshold for log flow control. When the average packet queue usage of sliding windows reaches or excee

Whether the SCTP is bound to a logical port. For details, see "ADD IPLOGICPORT".

Logical port No. bound by the SCTP. For details, see the parameter "Logic port No." of the "ADD IPLOGICPORT".

Logical port slot No. bound by the SCTP. For details, see the parameter "Slot No." of the "ADD IPLOGICPORT".

CPU usage threshold for recovery from log flow control. When the average CPU usage of sliding windows is lower than the thre

Packet queue usage threshold for recovery from log flow control. When the average packet queue usage of smooth windows is

Whether to control the log flow

The log type to be collected.

Type of the log. "COMLOG" indicates a common log. "CMPLOG" indicates a compressed log.

Decimal value when the longitude where a cell is located is indicated in the format of degree

Value of the degree part when the latitude is indicated in the format of degree_minute_second

Integer value when the longitude where a cell is located is indicated in the format of degree

Value of the minute part when the longitude is indicated in the format of degree_minute_second

Decimal value of the second part when the longitude is indicated in the format of degree_minute_second

Integer value of the second part when the longitude is indicated in the format of degree_minute_second

Latitude of the GP receiver antenna

Latitude of the GPS receiver antenna

Loop level

Loop type 1. Local loop:Make loop test on the local board at system side, while the system platform will send test frames. 2. Remote loop:The remote-loop will be made by the device on the other side of the local board. In this case, the local board do

Loopback point. There are 14 loopback points. Whether a loopback point is available depends on the subrack configuration mo NSS Interface Unit: indicates the A interface board in various configuration modes, such as BM/TC separated, BM/TC combine Loop TC(Near Detect Switch NSS Abis Interface): indicates the TX/RX point on the DSP in the TC subrack on the Abis interface side. The loopback NSS TC(Near A Interface): indicates the TX/RX point on the DSP in the TC subrack on the A interface side. The loopback poin NSS TNU(Near Abis Interface): indicates the data switching point on the TNUa board in the TC subrack on the Abis interface. T NSS TNU(Near Interface): Loopback type ofA LAPD link indicates the data switching point on the TNUa board in the TC subrack on the A interface side. Th NSS Ater Interface Unit: indicates the Ater interface board in the TC subrack. It is available only in BM/TC separated configurat BSS Ater Interface Unit: indicates the Ater interface board in the BM subrack. It is available only in BM/TC separated configurat BSS TC(Near Abis Interface): indicates the TX/RX point on the DSP in the BM subrack on the Abis interface side. In BM/TC co When the load of anor SDCCH theTDM TRXtransmission that is in loose frequency and is in the compatible band of the BCCH is lower th transmission mode, in Abison over and Ater overreuse IP transmission mode. BSS TC(Near A Interface): indicates the TX/RX point on the DSP in the BM subrack on the A interface side. In BM/TC combine mode, or in Abis over TDM and Ater over IP transmission mode. BSS TNU(Near Abis Interface): indicates the data switching point on the TNUa board in the BM subrack on the Abis interface s Direction of an external voice loop BSS TNU(Near A Interface): indicates the data switching point on the TNUa board in the BM subrack on the A interface side. In BSS Interface Unit: indicates the Abis interface board in various configuration modes, such as BM/TC separated, BM/TC comb TMU/PTU: indicates the TMU or PTU board on the BTS. TRU DSP: indicates the DSP in the TRU of the BTS.

Loopback type

Loopback type

Time of an external voice loop

Number of suspension periods after the bandwidth adjustment is performed based on the packet drop ratio. This parameter spe parameter can be used to control the rate of the bandwidth adjustment at the logical port.

Whether to permit the preemption of lower-level sublink resources. If the value of this parameter is YES, a CS domain service c

The CS services are preferred. This parameter indicates that the CS services are permitted to preempt the dynamic Abis resou

Whether to permit the low noise amplifier (LNA) bypass

Whether to assign overlay channels in an IUO cell based on the receive level conditions

Whether to power off the TRX in the case of overlow temperature of the BTS cabinet. If this parameter is set to "Yes", the BTS powers off the TRX and reports a "Load Power Off Alarm" to protect the TRX in the ca

Whether to power off the TRX of a BTS when the temperature of the BTS cabinet is too low. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Loopback mode

Number of the IP logical port that carries the IP path

Logical port number

Logical port number

Number of the IP logical port that carries the IP path

Type of logical port It is applicable to the radio transmission environment to improve the link quality. Link adaptation (LA) indicates adjusting the cod Downlink Ack/Nack message sent by the MS. The network side determines the coding mode for data transmission according to retransmit the data block with different punching codes and the MS store the historical error information. The data block is retra cell with the dissatisfied transmission quality on the air interface is set to the LR mode.

Whether to enable power shutdown upon low voltage of the battery. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Load power-off voltage threshold. If "Load Shutdown Flag" is set to "Enable" and the load voltage is lower than the value of thi In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Third action taken for load control

Whether to include the list command

Query results can be displayed vertically or horizontally

Format of the result list

Loading type

Type of the log

Type of the log

Temperature control threshold for low temperature. When the ambient temperature is less than "Low Temperature Critical Poin In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Lower temperature threshold for the environment alarm box to report an alarm indicating that the ambient temperature is too low In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding paramete

Lower voice quality threshold associated with the automatic adjustment of the AMR handover uplink threshold;The value of this

Target voice quality value associated with the automatic adjustment of the uplink threshold of AMR handover

Upper voice quality threshold associated with the automatic adjustment of the AMR handover uplink threshold

Factor of uplink threshold adjustment. It indicates the linear relation between the threshold adjustment value and the logarithmi

Number of DSPs, each of which carries 252 LVDS links on the DPUd or DPUb board. If this parameter is set to 0, every DSP c

The level 1 Voltage Standing Wave Ratio (VSWR) threshold. When the VSWR is higher than this parameter, the TRX will repor

The level 2 Voltage Standing Wave Ratio (VSWR) threshold. When the VSWR is higher than this parameter, the TRX will repor Whether "Shutdown Voltage" is valid. In multi-mode base station scenario, the value of this parameter in different modes must be the same for the same multi-mode

Number of the M3UA service listening port

MAC address of the VLAN

When the number of error frames on the MAC layer reaches the value of this parameter, the frame error alarm is generated.

When the number of error frames on the MAC layer decreases to the value of this parameter, the frame error alarm is cleared.

Coding mode in which an ARFCN is sent to an MS during an assignment or handover. If the parameter is set to CA_MA, an AR information contained in an assignment or handover command. If this parameter is set to OPTIMIZED_CA_MA, the assignmen band. Identifies a maintenance group. Maintenance group: maintenance alliance (MA), which is a component of the maintenance domain (MD). Maintenance domain or more maintenance group.

When this parameter is set to YES, the BSC6900 is allowed to reduce the transmit power of the non-BCCH timeslots on the BC

This parameter specifies whether to enable the Enhanced BCCH Power Consumption Optimization feature. Generally, the BCC TRX.

This parameter specifies the end time of the period during which the power of the non-BCCH timeslots on the BCCH TRX is de

This parameter specifies the range of power derating over the non-BCCH timeslots on the BCCH TRX.

This parameter specifies the start time of the period during which the power of the non-BCCH timeslots on the BCCH TRX is de

Bar code 1 of the interface board of the BTS. This parameter is the electronic serial number of the active PTU board. An electro

Bar code 1 of the BTS interface board

Number of main location group. Each cell contains only one main location group.

Number of the port to which the active OML of the BTS is connected

Main version No. of the TMU board software. It is configured according to the actual situation.

Mobile allocation index offset 1. Start frequency number, which is the number of the frequency where frequency hopping starts

Mobile allocation index offset 10. Start frequency number, which is the number of the frequency where frequency hopping start

Mobile allocation index offset 11. Start frequency number, which is the number of the frequency where frequency hopping start

Mobile allocation index offset 12. Start frequency number, which is the number of the frequency where frequency hopping start

Mobile allocation index offset 2. Start frequency number, which is the number of the frequency where frequency hopping starts

Mobile allocation index offset 3. Start frequency number, which is the number of the frequency where frequency hopping starts

Mobile allocation index offset 4. Start frequency number, which is the number of the frequency where frequency hopping starts

Mobile allocation index offset 5. Start frequency number, which is the number of the frequency where frequency hopping starts

Mobile allocation index offset 6. Start frequency number, which is the number of the frequency where frequency hopping starts

Mobile allocation index offset 7. Start frequency number, which is the number of the frequency where frequency hopping starts

Mobile allocation index offset 8. Start frequency number, which is the number of the frequency where frequency hopping starts

Mobile allocation index offset 9. Start frequency number, which is the number of the frequency where frequency hopping starts

Critical alarm threshold against excessive TMA feed current of feed tributary 0. When the actual current is greater than the spec

Critical alarm threshold against excessive TMA feed current of feed tributary 1. When the actual current is greater than the spec

Critical alarm threshold against excessive TMA feed current of feed tributary 2. When the actual current is greater than the spec

Critical alarm threshold against excessive TMA feed current of feed tributary 3. When the actual current is greater than the spec

Critical alarm threshold against excessive TMA feed current of feed tributary 4. When the actual current is greater than the spec

Critical alarm threshold against excessive TMA feed current of feed tributary 5. When the actual current is greater than the spec

Name of the MA

Name of the maintenance association.

Subnet mask corresponding to the local IP address of the PPP link

Subnet mask of the MP group in BSC.

Subnet mask of the board

Mask of the source IP network segment of the packet against the ICMP attack

Subnet mask

Subnet mask of the CBC

IP subnet mask of a BTS port

Subnet mask of BTS PPP link.

Subnet mask of BTS MLPPP Group.

IP address of the main clock server. It must be a legal A/B/C type address but not a broadcast address or network address.

It must be the valid address of the A, B, or C type and cannot be the broadcast address or network address.

Step of upward power adjustment according to the quality of the received signals

If the number of the association retransmissions exceeds this value, the parameter is deleted automatically. The value must be

Maximum bandwidth for dynamic adjustment at the logical port Number of consecutive intra-cell handovers allowed in a cell. When the interval between two intra-cell handovers is lower than cell for a certain period of time.

Maximum number of attempts to resend the downlink assignment messages

Number of attempts to re-establish the downlink TBF

This parameter specifies the largest step of each TRX power reduction.

Maximum number of TRXs that can be configured for one cell. For the BTS3900B GSM, when the "Frequency and BSIC Plan S Number" (one or two, one by default) can be selected.

Maximum number of TRXs that can be configured for one cell. For the BTS3900B GSM, when the "Frequency and BSIC Plan S Number" (one or two, one by default) can be selected.

Maximum multiplexing frame length.

Maximum number of BTSs that are allowed to concurrently download software under a BSC

The value of this parameter cannot be less than the maximum PPPMUX sub-frame length (MUXMAXSFL). This parameter can The following condition must be met: wMuxMaxSfL <= ( wMuxMfl-8 )/2.

Maximum length of the PPP multiplexing frame

Maximum number of retries when the user logs in

Maximum capacity for storing the alarm log

Maximum output power of the diesel

If the number of the path retransmissions exceeds this value, the parameter is deleted automatically. The value must be smalle

Retransmission times of Pb link check (LapdCheck) messages. When a BSC sends a Pb link check message to an external PC

Maximum number of PDCHs that can be assigned in the TRX

Maximum value of the PDCH ratio in a cell. The number of available TCHs and PDCHs in a cell is set to a fixed value. The PDC

Maximum number of attempts to resend the polling messages

Expire Prompt Dates.

Maximum current coefficient when the battery is charged. When the battery is charged, the maximum current can be 0.01 to 0.9 charge current for the battery cabinet is 30 A.

Maximum current coefficient when the battery is charged. When the battery is charged, the maximum current can be 0.05 to 0.2 Maximum timesfor forthe a Physical Information to be transmitted. When the retransmission times exceeds this parameter a charge current battery cabinet is 30message A. assigned channel and stops timer T3105 after receiving this message. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete In a non-synchronized handover, an MS keeps sending Handover Access Burst messages (usually, the value of timer T3124 is MSG_ABIS_HO_DETECT message to the BSC. The BTS includes the information of different physical layers in the Physical Information message, thus ensuring correct traffic t For details, see protocols 08.58 and 04.08.

Maximum retransmission for radio priority 1. The 2bit Radio Priority message carried by the MS in the Packet Channel Request

Maximum retransmission for radio priority 2. The 2bit Radio Priority message carried by the MS in the Packet Channel Request

Maximum retransmission for radio priority 3. The 2bit Radio Priority message carried by the MS in the Packet Channel Request

Maximum retransmission for radio priority 4. The 2bit Radio Priority message carried by the MS in the Packet Channel Request

Maximum PPPMUX sub-frame length. If the PPP frame length is larger than this value, the PPPMUX multiplexing is performed following condition must be met: wMuxMaxSfL <= ( wMuxMfl-8 )/2

Maximum length of the PPP multiplexing frame

Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the power is downward power adjustment when the quality of the received signals falls into quality zone 0.

Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the power is downward power adjustment when the quality of the received signals falls into quality zone 1.

Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the power is downward power adjustment when the quality of the received signals falls into quality zone 2.

This parameter specifies the actual coverage area of a cell. After receiving the channel request message or handover access m that of "Cell Extension Type" in the "ADD GCELL" command.

Number of measurement reports (MRs) used for averaging the time advance before the call drops

Whether to initiate a forcible call drop when the time advance exceeds "MAX TA Drop Call Threshold"

Whether the time advance after filtering exceeds the threshold. If the threshold is exceeded, a forcible call drop is initiated.

Maximum positioning time.

Maximum number of (16 kbit/s) Abis timeslots that the PDCHs can use in the TRX

Maximum TTL value of the sent TRACERT packet

Step of upward power adjustment according to the quality of the received signals

Maximum Valid Dates.

Detection index. The index is a unique value ranging from 0 to 31 if it is not specified.

Local IP address for multi-hop BFD

Used for requesting the MS to report the measurement information of neighboring cells in multiple frequency bands. This param

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se

Number of the BTS. The BTS is numbered uniquely in a BSC.

Name of the BTS. The BTS is named uniquely in a BSC.

Mobile country code. This parameter identifies the country where a mobile subscriber is located, for example, the Chinese MCC

Local mobile country code (MCC). It is used to identify the country that the mobile subscriber belongs to. For example, the MCC

Number of MC priorities. This parameter is valid when the MP group type is MC.

Number of MC prioritie levels.

Number of the cell. The cell is numbered uniquely in a BSC.

Name of cell 2

Cabinet No. of the management board. The management board refers to the TMU or RXU that directly communicates with the

If the MCPA Optimization Switch is turned on, the MCPA priority update mode is adjusted.

Standard for the GSM multi-carrier BTS

Identifies a maintenance domain

Level of the maintenance domain.The priority of the maintenance domain ranks from 0 to 7 from low to high.

name of the MD

Name of the maintenance domain.

Whether to allow the MS to the send the PS measurement report to the network side

Common measurement period

Type of the measurement report (MR) reported by the MS Identifies a maintenance point in the maintenance alliance A maintenance point is an edge node of the MA.

Identifies a maintenance end point (MEP) of a maintenance association.

The type of the maintenance point added to the maintenance group. LocalMep indicates a local maintenance point and Remote

MP/MC sequence header option

Frame encapsulation format supported by MP/MC.

Minimum receive level for a neighbor cell to become a candidate cell during cell reselection. When the receive level of the servi bad normal cell reselection level.

Minimum bandwidth for dynamic adjustment at the logical port

Selects 3G candidate cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring cell

Minimum receive level offset. An MS can be handed over to a neighboring cell only when the downlink level of the neighboring cell is greater than the sum of

Threshold for triggering prompt alarm clearance when the ANT_A tributary antenna current is too heavy. When the actual curre

Threshold for triggering prompt alarm clearance when the ANT_B tributary antenna current is too heavy. When the actual curre

Warning alarm threshold against excessive TMA feed current of feed tributary 0. When the actual current is greater than the sp

Warning alarm threshold against excessive TMA feed current of feed tributary 1. When the actual current is greater than the sp

Warning alarm threshold against excessive TMA feed current of feed tributary 2. When the actual current is greater than the sp

Warning alarm threshold against excessive TMA feed current of feed tributary 3. When the actual current is greater than the sp

Warning alarm threshold against excessive TMA feed current of feed tributary 4. When the actual current is greater than the sp

Warning alarm threshold against excessive TMA feed current of feed tributary 5. When the actual current is greater than the sp

Threshold for triggering prompt alarm clearance when the ANT_A tributary antenna current is too heavy. When the actual curre

Threshold for triggering prompt alarm clearance when the ANT_B tributary antenna current is too heavy. When the actual curre

In a direct retry, when the receive level of a neighboring cell is no smaller than this parameter, the neighboring cell can be a can

Minimum time required for a TCH to transform to a SDCCH and then transform back to a TCH

Selects 3G candidate cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring cell

Minimum interval at which two BFD packets are received.

Minimum interval at which the BTS receives BFD packets

Minimum interval between sent BFD packets

Minimum interval at which the BTS sends BFD packets

Mirror destination Ethernet port number

Mirror Ethernet port number

Mirror type

Mobile network code. This parameter identifies the public land mobile network (PLMN) to which a mobile subscriber belongs.

Mobile network code (MNC). It is used to identify the PLMN that the mobile subscriber belongs to.

Usage threshold of the CPU for calling access. If the usage of the CPU exceeds the threshold, the calling access request is tra Working mode of the system clock. Working modes of the system clock are as follows: (1) MANUAL: In this mode, you must specify a clock source and prevent the switching of the clock source. (2) AUTO: In this mode, you do not need to specify a clock source and the system automatically selects the clock source with th (3) FREE: In this mode, the crystal oscillator of board is used.

SCTP link work mode. Server mode: BSC6900 starts the listening and waits for the peer to send the SCTP-INIT message. Clie

Configuration mode

Working mode after switchover

Mode of file output.

Backup mode of the switch protection group

Working mode of a port. When this parameter is set to CHECK_ON_STANDBY_PORT, the connectivity check is performed on CHECK_ON_PRIMARY_PORT, the connectivity check is performed on the active port. Alarm mode of feed tributary 0. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the norm Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse curren Alarm mode of feed tributary 1. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the norm Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse curren

Alarm mode of feed tributary 2. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the norm Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse curren Alarm mode of feed tributary 3. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the norm Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse curren Alarm mode of feed tributary 4. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the norm Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse curren Alarm mode of feed tributary 5. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the norm Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse curren

Monitoring period

Monitoring duration

Month when the TMU board software is released

A quick handover can be initiated only if the rate of an MS is higher than this parameter during a certain period of time.

When the number of error frames on the MP group reaches the value of this parameter, the frame error alarm is generated. Timeslot multiplexing mode at the Abis interface of the BTS. The BTS supports two multiplexing modes: statistical multiplexing

When numberthe of following error frames on theofMP groupobjects: decreases to the value of this parameter, the frame error alarm is cleared. A BTSthe supports six types timeslot OML: operation and maintenance link of the BTS. Each BTS has only one OML. In the case of statistical multiplexing on a 64 k kbit/s timeslot, the OML works at 16 kbit/s. In this case, the OML uses a 16 kbit/s timeslot. ESL: extended signaling link of the BTS. If the BTS supports Flex Abis, in the case of statistical multiplexing on a 64 kbit/s time MP group number no timeslot is assigned to the ESL. In this case, the ESL shares the same timeslot with the OML. RSL: radio signaling layer link in each TRX. Each TRX has one RSL link. In the case of statistical multiplexing on a 64 kbit/s tim timeslot, the RSL link works at 16 kbit/s. In this case, the RSL link uses a 16 kbit/s timeslot exclusively. MP group TCH: trafficnumber channels in each TRX. The TCH works at 16 kbit/s. Idle: idle timeslots of the BTS. An idle timeslot works at 16 kbit/s. In the case of statistical multiplexing on a 64 kibt/s timeslot, th Semi: monitoring timeslots of the BTS. The monitoring timeslots work at 8 kbit/s, 16 kbit/s, 32 kbit/s, and 64 kbit/s. The monitori A 2048 Mbit/s E1 contains 64Itkbit/s timeslots. Timeslot is reserved for synchronization cannot beBTS3900 assigned.seri Number of an MLPPP groupthirty-two on a BTS. is unique in a BTS. The 0 scope of the number of th MLPPPand group in the Statistical multiplexing means that signaling timeslots are time-division multiplexed in an E1 timeslot, such as the OML and RS multiplexes the OML has a multiplexing ratio of up to 4:1 even if the multiplexing ratio exceeds 4:1. HDLC and IP BTS do not support this parameter.

Number of the serial port where the board is located. The management board refers to the TMU or RXU that directly communic

Is Support MCPPP.

MP type

Number of the slot where the MPU subsystem is located

Number of the subrack where the MPU subsystem is located

Whether power control algorithm II allows measurement report compensation. When making a power control decision, the BSC retrieves a certain number of history measurement reports and performs weig level values and receive quality values are used in filtering, you must compensate the receive level values and receive quality v

If the number of measurement reports lost consecutively is no larger than this value, linear interpolation is performed for the val discarded, and the value will be recalculated when new measurement reports arrive.

When the number of the lost measurement reports exceeds this parameter during a power control period, the power control sto

Frequency at which the BTSs submit pre-processed measurement reports to the BSC

Attenuation factor for the TMA of antenna tributary 1

Attenuation factor for the TMA of antenna tributary 2

Switch of measurement report collection within a specified scope. If the specified scope is a site, the switch applies to all the ce

The control switch of measurement report collection includes OFF (do not collect), ON_WITH_SDCCH (collect measurement re

Maximum length of a received packet. The value of this parameter is negotiated at both ends of a communication.

Number of MSs used when the offset information is collected

Whether to collect the information about the MSs of different capabilities in a cell. This parameter has no impact on services.

Available capacity of the MSC. This parameter is valid only when the MSC pool function is enabled. It is set according to the ac

Number of bits occupied by the Network Resource Identifier in the TMSI. NRI specifies a CN node in the MSC pool.

Special NRI(Network Resource Identifier) that is coded together with common NRIs. This parameter is used to indicate that the

Whether to enable the MSC pool function on the BSC6900. The MSC pool function enables up to 32 MSCs to provide services for mobile subscribers in a BSC6900. With the MSC pool fu

Administrative state of the MSC. This parameter is valid only when the MSC pool function is enabled. It is set according to the a

Protocol version of the MSC that is connected to the BSC6900. The supported signaling varies with the protocol versions.

Call reestablishment timer

MSISDN value

MSISDN prefix 1. When matching the call specified by the mobile number, the BSC6900 adds the MSISDN prefix 1 according t MSISDN is 123456.

MSISDN prefix 2. When matching the call specified by the mobile number, the BSC6900 adds the MSISDN prefix 2 according t MSISDN is 123456.

MSISDN prefix 3. When matching the call specified by the mobile number, the BSC6900 adds the MSISDN prefix 3 according t MSISDN is 123456.

MSISDN prefix 4. When matching the call specified by the mobile number, the BSC6900 adds the MSISDN prefix 4 according t MSISDN is 123456.

MSISDN prefix 5. When matching the call specified by the mobile number, the BSC6900 adds the MSISDN prefix 5 according t MSISDN is 123456.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the s calling are 135 or 139, the BSC local switching function is enabled.

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching func

If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching func

Whether to enable "Triggering the quick PBGT algorithm only when an MS is far from the BTS" Maximum number of Channel Request messages that can be sent by an MS in an immediate assignment procedure. After the MS initiates the immediate assignment procedure, it always listens to the messages on the BCCH and all the common Request messages at a specified interval. If the downlink quality is poor, the MS may send SABM frames to the BTS multiple times.

Control command of the MSP switchover protection group

Threshold of the MS Receiver Diversity (MSRD) mode

PDCH Downlink multiplex threshold in the Mobile Station Receiver Diversity (MSRD) mode. When this parameter is set to "80", of the coding rate in MSRD mode, the MS is required to adopt the MSRD mode.

Number of the subrack where the board is located. The management board refers to the TMU or RXU that directly communicat The M criteria supports setting minimum values for the downlink receive level of neighboring cells. The M criteria is met only when , Estimated downlink level of neighboring cells >= ("Min DL level on candidate Cell" + "Min Access Level Offset") Estimated uplink level of neighboring cells >= ("Min UL level on candidate Cell" + "Min Access Level Offset")

When the number of received measurement reports on the downlink transmission quality (Packet Downlink Ack/Nack message

Duration of the flow control timer F of the MS. The MS sends the flow control message according to this duration.

If no handshake message is received from the peer within the delay, the master service is activated. A master service object pr signaling links on the A interface of the local BSC are faulty.

Maximum TX power for the MS to access the PCH

Switch for the self-healing of the OMU when the OMU process memory is overloaded

Usage threshold of the CPU for called access. If the usage of the CPU exceeds the threshold, the called access request is tran

Detection method

Identify an MTP2 link

Metric system. The values of this parameter include "MET" and "IMP".

Maximum transport unit

Maximum transmission unit

Maximum size of a packet that can be transmitted or received on a FE port.

Bus voltage of the battery rack of the BTS

Multi-band point report value, including "report six cells with the strongest signal at each frequency point", "report one cell with t

Period of performing class-1 mute detection. If the bad frame rate reaches "Bad Frame Threshold of Mute Detection Class 1" w

Whether the one-way audio problem is checked in class-2 detection. In this manner, the one-way audio problems found in class

Period of performing the class-2 mute detection. After the BTS or TC initiates a class-2 mute detection request, the class-2 mut TRAU frame is received, mute speech is detected; if the class-2 mute detection response and the expected test TRAU frame a

Time for prohibiting the call from accessing the corresponding channel where one-way audio is detected on the Abis interface.

Whether to forcibly release a call after the forced handover fails in the case of one-way audio on the Abis interface

Maximum time waiting for multiplexing

Frame timeout duration of the PPP multiplexing group

IP packet multiplexing type

Minimum number of reserved working status TRXs of the cabinet

BFD local description mark

System parameter in the LAPD protocol. The value of this parameter specifies the maximum number of times when a frame is r Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Whether the BSC6900 sends the LAPDm N200 parameter to the BTS. If this parameter is set to YES, the BSC sends the LAPDm N200 parameter. If this parameter is set to NO, the BSC6900 does

Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH".

Maximum value of the N3101 counter. In the dynamic uplink allocation mode, the network side enables multiple MSs to share t network side waits for the RLC uplink data block sent by the MS. If the RLC uplink data block sent by the MS is valid, N3101 is

Maximum value of the N3101 counter. When the uplink transmission ends, if the network side receives the last RLC data block N3103 is increased on the network side and the uplink packet acknowledged/unacknowledged message is retransmitted. Whe

Maximum value of the N3105 counter. After the downlink TBF is set up successfully, the N3105 is started on the network side. RRBP domain. In this case, N3105 is reset. Otherwise, the value of N3105 is increased and the downlink data block of the RRB

Counter on the DTE side. After BC link integrity is verified according to "Parameter of DTE [N391]", the global state query reque

Counter on the DTE side, recording the checking times "Parameter of DTE [N393]". After BC link integrity is verified according t of the checking times "Parameter of DTE [N393]", the BC link state is switched to the normal state. If the BC link state operates faulty state. "Parameter of DTE [N392]" must be smaller than "Parameter of DTE [N393]".

Counter on the DTE side, recording the checking times "Parameter of DTE [N393]". After BC link integrity is verified according t of the checking times "Parameter of DTE [N393]", the BC link state is switched to the normal state. If the BC link state operates faulty state. "Parameter of DTE [N393]" must be greater than "Parameter of DTE [N392]".

Whether to support the network assisted cell change (NACC). The NACC is used in the network control modes NC0, NC1 or NC shorter time.

Name of the OSP

Name of the DSP

Name of an MTP3 route

Name of the signalling link set

Name of the MTP3 link

Name of the adjacent node

Local entity name. The local entity name must be unique.

Name of the destination entity

The M3UA route names and the M3UA routes are in the one-to-one matching relation.

Name of the M3UA link set. The name of the M3UA signalling link set must be unique.

M3UA signaling link name. The M3UA link names and the M3UA links are in the one-to-one matching relation.

Name of the PCU

Whether to preferentially allocate loose multiplexing frequencies to non-AMR users

Filter consistent of the collision signal strength of power control. When sampling must be performed (NAVGI) times before the M

Whether to enable the Tandem Free Operation (TFO) function on the BTS through a CHANNEL ACTIVATION or MODE MODI improve end-to-end voice quality. The TFO function cannot be used to improve the voice quality of an MS-to-PSTN call.

Uniform number of neighboring cell 1 index within a BSC6900, which uniquely identifies a cell and is in the range 0 to 5047.

Name of neighboring GSM cell 1

Index of neighboring GSM cell 2. Uniform number of a cell index within a BSC6900, which uniquely identifies a cell and is in the

Name of neighboring GSM cell 2 Uniform number of a cell index within a BSC6900 , which uniquely identifies a cell.

Name of a cell Uniform number of a neighboring cell index within a BSC, which uniquely identifies a cell. The value range of the index of a 3G external cell is 5048 to 8047.

Name of a neighboring cell

When this switch is on, it indicates that the data of the adjacent cell is generated automatically. When this switch is off, it indica

Cell ID of a neighboring cell

Local Area Code (LAC) of a neighboring cell

Mobile Country Code (MCC) of a neighboring cell

Mobile Network Code (MNC) of a neighboring cell

Whether the PCU of the cell supports the 64 neighboring cells. This parameter determines the capability of reporting the number of the neighboring cells of the BSC in the NACC and NC2 fun

Whether to involve the load of the target cell in the algorithm for NC2 cell reselection. If this parameter is set to Support, the loa

Whether to support the network control 2 (NC2). The NC2 enables the network side to control the cell reselection for the MS wh network side can control the cell reselection for the MS.

Network color code that is provided by the telecom operator. The NCC is used to identify networks from area to area. The NCC The BCC and the NCC form the BSIC.

Network color code. It is used to uniquely identify different public land mobile network (PLMN) of the adjacent country.

A set of NCCs of the cells to be measured by the MS. This parameter is an information element (IE) in the system information t If a bit of the value of this parameter is set to 1, the MS reports the corresponding measurement report to the BTS. The value o

NCC bitmap of the measurement report sent by the MS. The MS reports only the NCC bitmap of the BSIC and the cell measure

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se

Neighboring cell interference level threshold 0

Neighboring cell interference level threshold 1

Neighboring cell interference level threshold 2

Neighboring cell interference level threshold 3

Neighboring cell interference level threshold 4

Neighboring cell interference level threshold 5

Neighboring cell interference level threshold 6

Neighboring cell interference level threshold 7

Number of blocks occupied by the NCH in the group call service

Number of the start block occupied by the NCH in the group call service

Network control mode for cell reselection of the MS. There are three modes. NC0: normal MS control. The MS shall perform au control. The MS shall send measurement reports to the network . The MS shall only perform autonomous cell re-selection when can control the cell reselection for the MS.

The DSP and OSP are in the associated mode or non associated mode.

IP address mask of the VLAN

Minimum interval between two consecutive emergency handovers performed by an MS. During this interval, no emergency han

IP address of the next hop

Next hop

Next hop

IP address of the next hop

Network ID

Name of the file to be downloaded. The file name must be complete and does not contain a wildcard.

This parameter is related to the paging channel of the system. There are three network operation modes: network operation mo system is not configured with the Gs interface and the PCCCH is not configured. Network operation mode III is used when the s

No Mains Supply Alarm Cabinet No.

No Mains Supply Alarm Port No.

No Mains Supply Alarm Slot No.

No Mains Supply Alarm Subrack No.

Lower limit of input voltage 1

Upper limit of input voltage 1

Lower limit of input voltage 2

Upper limit of input voltage 2

Lower limit of input voltage 3

Upper limit of input voltage 3

Lower limit of input voltage 4

Upper limit of input voltage 4

Lower limit of input voltage 5

Upper limit of input voltage 5

Lower limit of input voltage 6

Upper limit of input voltage 6

Whether to allow non-AMR voice F-H handover

Decides the offset of the current ATCB together with other two parameters: "F-H Ho Period" and period of triggering a F-H hand

When the ATCB value of non-AMR full rate voice is no smaller than this parameter, the condition for non-AMR F-H handovers i

Decides the current path cost offset together with other two parameters: "F-H Ho Period" and period of triggering a F-H handov Path cost offset = (Period of triggering a F-H handover / "F-H Ho Period" + 1) * "Non-AMR F-H Ho Pathloss Adjust Step".

When the path loss value of non-AMR full rate voice is no larger than this parameter, the condition for non-AMR F-H handovers

Quality threshold for non-AMR F-H handovers. When the uplink receive quality and downlink receive quality of a user are both

When the load of a cell is no smaller than this threshold, non-AMR F-H handovers are triggered in the cell.

When the ATCB value of non-AMR half rate voice is no larger than this threshold, the condition for non-AMR H-F handovers is

When the path loss value of non-AMR half rate voice is no smaller than this threshold, the condition for non-AMR H-F handove

Whether to trigger non-AMR H-F handovers according to the uplink and downlink receive quality

Quality threshold for non-AMR H-F handovers. When the receive quality of a user is no smaller than this parameter, the user m

When the load of a cell is no larger than this threshold, non-AMR H-F handovers are triggered in the cell.

Type of the adjacent node

Decisions of no-downlink measurement report handovers can be made only when the number of consecutive no-downlink mea

Whether to enable the no-downlink measurement report handover algorithm

When a certain number of no-downlink measurement reports are received consecutively and the uplink receive quality is no sm preferentially; however, if no candidate cells are available and intra-cell handover is enabled in the current cell, intra-cell hando

Normal output capacity of the battery group in specific discharging conditions (such as discharge rate, temperature, and final vo

Whether to enable the III power control algorithm for Non-AMR calls. If enabled, power control is performed on Non-AMR calls.

Period when the cell is in the non-DRX state

When the ANT_A tributary antenna current abnormally check mode is set to Mode 3, the parameter ALD Current Prompt Alarm

When the ANT_B tributary antenna current abnormally check mode is set to Mode 3, the parameter ALD Current Prompt Alarm

Whether to allow the cell normal reselection. If this parameter is set to PERMIT and "NC2 Load Reselection Switch" is set to Su

Normal work temperature threshold of the cabinet

Whether to discard paging messages without TMSIs and all-cell paging messages that considerably increase the load on the B

Maximum number of measurement periods in which there is no traffic. If the number of measurement periods in which there is n

If the BTS works in fallback mode and uplink VGCS connection is idle for a period specified by this parameter, the BTS disable

Number of TRACERT packets sent to each TTL

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se

Network resource indication that specifies a CN node in the MSC pool

Identifies the mapping relation from the NRI to the SGSN uniquely with the operator name

Controls the values of the FDD_Indic0 field, the NR_OF_FDD_CELLS field, and the FDD_Cellinformation field in 2quater and M When this parameter is set to YES, FDD_Indic0 is set to 1, the NR_OF_FDD_CELLS count does not include cells with scrambl When this parameter is set to NO, FDD_Indic0 is set to 1, the NR_OF_FDD_CELLS count includes cells with scrambling code

Identifies a unique NSE

The identifier of a network service entity (NSE).An NSE manages a group of NSVCs.

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se

Whether the cell is located in the south latitude or north latitude

NSVC ID, identifies a unique NSVC. This ID must be negotiated with the peer SGSN.

NSVC index, identifies a unique NSVC.

If the inlet temperature is between "High Temperature Critical Point" and "Low Temperature Critical Point" and the difference be well as the difference between the inlet temperature and the ambient temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

If the outlet temperature is between "High Temperature Critical Point" and "Low Temperature Critical Point" and the difference b as the difference between the inlet temperature and the ambient temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Number of retransmissions of the VGCS UPLINK GRANT message

Ratio of the minimum guarantee bandwidth of the OAM stream to the port bandwidth

Minimum guarantee bandwidth of the OAM stream

Minimum guarantee bandwidth of the OAM stream

Minimum guarantee bandwidth of the OAM stream

Ratio of the minimum guarantee bandwidth of the OAM stream to the port bandwidth

DSCP value of the OAM stream. The data of the OAM stream are not added to queues 0 to 5 for transmission. Instead, the dat

Minimum guarantee bandwidth switch of the OAM stream

Operation object

Type of the object

Index of object

This parameter indicates the object index.

Shield type of the alarm. "ALL" indicates one shield type instead of all types.

Type of the alarm shield object

Object index types used when commands are executed

When the PDCHs are insufficient, the streaming service with high priority can preempt the PDCHs that are seized by the stream are preempted, then the streaming service with low priority is disrupted.

Whether to allow overlay-to-underlay handovers

This parameter specifies whether to configure the backup OML. When YES is configured in the BTS, an OML is configured in ti the OML is disconnected. If the established OML is disconnected, the BTS automatically switches the OML over to another por

If OML Detection Switch is set to OFF, then the OML timeslot automatic detection is not supported. In this case, the OML is car OML to the specified timeslots.

This parameter specifies the detecting time of Abis-Bypass site OML when it is broken.

Differentiated service code of the specified OML

The summation of average down-bandwidth of OML&ESL link in BTS.

The summation of average up-bandwidth of OML&ESL link in BTS.

Service priority of the specified OML

Priority of services on the OML. The operation and maintenance link (OML) is used to transfer the OM information between the

Specified OML Vlan Id

Size of the OML/ESL/EML Downlink LAPD window

External virtual IP address of the OMU

Subnet mask of the OMU in the external network

Account of the operator

Code of the original signaling point (OSP) in the signaling network. In the signaling network, each signaling point is identified by

Code of the signaling point of the local office in the signaling network. In the signaling network, each signaling point has a corre

Uniquely identifies an OSP. see "ADD OPC" command. Primary operator or secondary operator. Primary operator is an operator that provides equipment, whereas secondary operator is an operator that leases equipment.

Index of the operator. This parameter uniquely identifies an operator.

Operator index set to which the CBC belongs

In the normal mode, if the board cannot be reset, no operation is performed. In the force mode, if the board cannot be reset, the

It is one key filed of identifying A interface CIC status and indicates the alignment mode of A interface circuit.

It is one key filed of identifying Ater interface timeslot status and indicates the alignment mode of Ater interface circuit.

It is one key filed of identifying A interface timeslot status and indicates the alignment mode of A interface circuit.

It is one key filed of identifying Pb interface CIC status and indicates the Pb interface CIC.

Name of the operator. This parameter uniquely identifies an operator

Channel assignment policies used when TCHs are assigned in an IUO cell: SysOpt: The system selects the preferentially-assig the overlay; NoPrefer: use the normal channel assignment algorithm to assign channels.

Preferentially assigns channels on the overlay when the uplink receive level on the SDCCH is no smaller than "Assign-optimum

Preferentially assigns channels on the overlay when the uplink receive level on the SDCCH is no smaller than "Assign-optimum

This parameter specifies the TRX priority in channel assignment. The smaller this parameter is, the higher the TRX priority is. F

Optical interface standard

Type of the operation

The operation type can be "FORBID" or "RESTORE".

Iur-g signaling point index of an internal RNC in GU mode

If "Port Type" is set to "TOPEXTOUTPORT", this parameter determines the extended E1/T1 port through which the timeslots o

Operation type of the command.

Ordinary frequency. Multiple frequencies are separated by "&". For example, "22&33&44&55" are allocated to TRXs in ascendi

This parameter indicates the total number of hardware modules, excluding those of GSM.

One of the parameters that decide the underlay and overlay areas in an enhanced IUO cell. The underlay and overlay areas a

Whether to assign channel requests initiated in the underlay subcell to the overlay or underlay subcells according to "UL Subce subcell.

The timer is used to set the time when the BSC6900 waits for a handover success message after a handover command is sent

The timer is used to set the time when the BSC6900 waits for an HO REQ ACK message after a Handover Request message i

Whether to use external 2G neighboring cells as the target cells of load handovers

When the load of the underlay subcell is higher than this parameter, some of the calls in the underlay subcell will be switched to

Power overload threshold for triggering outgoing handover from the TRX under the prerequisite that the power amplifier of the T

Lower threshold of the overlay level during overlay-to-underlay handovers. When the receive level of an MS is higher than this

Whether to switch some of the calls in the underlay subcell to the overlay when the load of the underlay is higher than this para

If the underlay load is higher than "UL Subcell Serious Overload Threshold", the underlay-to-overlay handover period subtracts

When the load of the underlay subcell exceeds "UL Subcell General Overload Threshold", all the calls that are using this cell as fail. To solve this problem, the BSC uses the hierarchical load handover algorithm to gradually switch some of the calls in the u

Level step during underlay-to-overlay hierarchical load handovers

When the load of the underlay subcell is lower than this parameter, some of the calls in the overlay subcell will be switched to th

Specifies the timeslot mask out BSC6900

Outgoing BSC6900 port number

Number of the outgoing port of the DXX

Number of the outgoing timeslot of the DXX

Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it should be

Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it should be

Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it should be

Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it should be

Output power of the location group. For a location group that consists of MRRU or GRRU boards, the default output power is 1 the frequency band is 1800M/1900M, the default output power is 15W.

Output power of the location group

Output power unit of the location group

When the load of the underlay subcell is higher than this parameter, the underlay-to-overlay load handover period subtracts a p

Whether to report a cell out-of-service alarm after a cell is out of service

Outgoing BSC6900 slot number

Slot number of the load outlet interface board

Outgoing BSC6900 subrack number

This parameter specifies whether to allow the inter-RAT load handover in connection mode (after the assignment is complete).

When the Service Handover field in an ASS REQ message is 0, a direct retry process targeted at a 3G network is initiated. If th

When this parameter is set to Open, the BSS decides whether to hand over the current service to the 3G network according to

Validity period for the BSC to keep the load information about a 3G neighboring cell on the RNC

Outgoing BSC6900 start timeslot number

Abnormally alarm raise threshold triggered by too heavy current of the ANT_A tributary antenna. When the actual current is hig

Abnormally alarm raise threshold triggered by too heavy current of the ANT_B tributary antenna. When the actual current is hig

Abnormally alarm raise threshold triggered by too heavy current of the RET tributary antenna. When the actual current is highe

Clearance threshold for the alarm triggered when the ANT_A tributary antenna is over current. When the actual current is below

Abnormally alarm clearance threshold triggered by too heavy current of the ANT_B tributary antenna. When the actual current i

Clearance threshold for the alarm triggered when the RET tributary antenna is over current. When the actual current is below th

When the ANT_A tributary antenna current abnormally check mode is set to Mode 3, the parameter ALD Current Prompt Alarm

When the ANT_B tributary antenna current abnormally check mode is set to Mode 3, the parameter ALD Current Prompt Alarm

Interval for the BTS transmitting overload messages to the BSC6900. This parameter is used to control the reporting frequency The overload can be the TRX processor overload, downlink CCCH overload, or AGCH overload. For details, see GSM Rec. 08

Temperature threshold of the derating function of the cabinet

Threshold for critical flow control. When the usage of the CPU exceeds the threshold, the CPUS performs critical flow control fo

Threshold for major flow control. When the usage of the CPU exceeds the threshold, the CPUS performs major flow control for

Threshold for minor flow control. When the usage of the CPU exceeds the threshold, the CPUS performs minor flow control for

Threshold for slight flow control. When the usage of the CPU exceeds the threshold, the CPUS performs slight flow control for p

This parameter specifies whether the multi-carrier transceiver unit supports the Multi-Carrier Intelligent Voltage Regulation featu When this parameter is set to YES, the multi-carrier transceiver unit automatically regulates its working voltage according to the BTS3900 GSM, BTS3900L GSM, BTS3900A GSM, DBS3900 GSM, BTS3900E base stations. For other base stations, this par

Whether to support the function of moving the packet assignment down to the BTS. To improve the access speed of the MS, a acknowledgement message sent by the MS. Then the BTS allocates the reserved uplink resources to the MS to move the pack

Average number of paging messages allowed in a cell in a period

Lifetime of a paging message in the queue of the BTS. The setting of this parameter must be consistent with the setting of time timer T3113. The units of this parameter is 250ms.

Maximum number of paging messages allowed in a cell in a period

For the BTS, this parameter is used to determine paging retransmissions. This parameter and the number of paging times conf configured in the MSC.

This parameter sets the PAN_DEC value used by the counter N3102 of the MS. When the timer T3182 of the MS expires, the N

This parameter sets the PAN_INC value used by the counter N3102 of the MS. When receiving the packet uplink acknowledge 7; Value N indicates that PAN_DEC is N; Not use: this parameter is not used.

RAN_MAX value, the maximum value of the N3102. 4: the value of PAN_MAX is 4; 32: the value of PAN_MAX is 32. Value N i

Priority level at which the BSC shuts down the power amplifier of the TRX when the intelligent shutdown function is enabled. If

Patch number of the TMU board software

Patch number of the TMU board software

IP path check flag

Uniquely identifies an IP path

IP path ID,Identifying an IP path.

Transmission loss difference between radio frequencies on different bands

Whether to perform path loss-based sorting in a better cell handover algorithm

Type of the IP path

Patch type

BTS power attenuation on the measured PBCCH

Whether to use the PBGT handover algorithm. PBGT handovers are based on path loss. The PBGT handover algorithm search only on TCHs and among cells on a same layer and a same priority level.

The triggering of PBGT handovers must meet the P/N criteria, that is, when the condition for PBGT handovers is met for a cons

PBGT handovers to a neighboring cell are allowed only when the downlink level difference between the neighboring cell and th

The triggering of PBGT handovers must meet the P/N criteria, that is, when the condition for PBGT handovers is met for a cons

Maximum times for an external PCU to retransmit a PB interface maintenance message. When the PCU fails to receive a respo

Minimum interval between two consecutive power control commands

Channel used for the measured receiving power. It is used to set the measured receiving power level of the channel and contro

It is one key filed of identifying Pb interface CIC status and indicates the PCU No. corresponding to the Pb interface CIC.

PCU number, identifying a unique PCU.

Port number of the E1/T1 of the Pb interface

Number of the PCU to which the current cell belongs

Whether the PCU supports the PREEMPT_ABIS_LINK message. If the BTS supports the FLEXABIS function, the CS service c message.

PDCH downlink multiplex threshold, Indicating the maximum TBFs on the downlink PDCH (parameter value/10).We recomman reducing PDCH multiplex.

This parameter specifies whether to enable the Power Optimization Based on Channel Type feature. The working voltage of th

This parameter must be used together with "Level of Preempting Dynamic Channel" in the following conditions: 1. When "Level of Preempting Dynamic Channel" is set to "No preempt of service TCHF" and "PDCH Reforming" is set to "Yes 2: When "Level of Preempting Dynamic Channel" is set to "Preempt all dynamic TCHFs" or "No preempt of CCHs" and "PDCH

PDCH uplink multiplex threshold, indicating the maximum TBFs on the uplink PDCH (parameter value/10). We recommand tha PDCH multiplex.

Pending timer of the M3UA link set

Peer BSC ID. It identifies a BSC.

ID of the peer BSC6900

IP address of the peer BSC6900 on the homing BSC6900 side

Subnet mask of the port IP address at the peer BSC6900.

Identifier of the peer BTS on the homing BSC6900 side

Peer IP address of the PPP link. The IP address of the PPP link on the peer side of the BSC.

Peer IP address of the MP group.

Detects the IP address of the gateway

IP address of the peer end of BTS PPP Link.

IP address of the peer end of BTS MLPPP Group.

First destination IP address. The invalid value is 0.

Second destination IP address. The invalid value is 0.

The peer IP address should not be the same as the local address.

Subnet mask of the peer IP

Destination SCTP port number

Peer Software Version

Whether to punish the target cell when a handover fails or to punish the current serving cell when a handover is of more TA or After a handover fails due to congestion of the target cell, the system needs to punish the target cell to prevent the MS from att Ping-pong handovers can easily occur when handovers are of more TA or bad quality. In these cases, the system needs to pun

Penalty duration for cell reselection. Cell penalty can be performed only in this duration. When this parameter is set to a greater

When the cell reselection failure message is received or the load cell reselection is initiated, the "Cell Penalty Level" is subtract Penalty Duration".

Timer of penalty on a neighboring cell when a handover fails due to faults of data configuration.

Ping check period of IP Path

Measurement period for each frequency group

Compression flag of the PPP link protocol domain

Compression flag of the PPP link protocol domain

Whether to compress the protocol field of the PPP link.

Whether to support packet flow context (PFC). The PFC flow is used to control the QoS of the packet service of the MS.

Whether to support the paging message classification function: 0,close; 1,paging message classification flow control; 2,re-paging flow control.

Maximum number of paging messages that the BSC6900 can process over the A interface within a measurement period

Maximum number of PS paging messages that the BSC6900 can process within a "Paging Statistical Period".

Measurement period for calculating the arrival rate of paging messages

Value of the per-hop behavior (PHB)

PHB type of the IPMUX to be enabled

Cell Reselect Parameters Indication (PI), sent on the broadcast channel, indicates whether "Cell Reselect Offset", "Cell Resele Whether to enable the private key password DISABLE: indicating that the private key password is disabled ENABLE: indicating that the private key password is enabled

Indicates the number of the packets for remote loopback test of the OAM in the Ethernet

Indicates the length of the packets for the remote loopback test of the OAM in the Ethernet

Loopback packet length

Maximum multiplexing frame length. The length of the multiplexed packet must not exceed the maximum multiplexing frame len payload, excluding the IP/UDP header.

Whether the cell supports the PACKET SI STATUS flow. In the PACKET SI STATUS flow, the MS sends the Packet PSI/SI Sta

Indicates the size of the PING packet, neither IP header nor ICMP header is included.

Sent packet size Persistence level 1 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS, the

Power attenuation level of all the other timeslots of the BCCH except for timeslot 7 in 16QAM. The attenuation level ranges from

Persistence level 2 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS, the Persistence level 3 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS, the

Power attenuation level of all the other timeslots of the BCCH except for timeslot 7 in 32QAM. The attenuation level ranges from Persistence level 4 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS, the

Power attenuation level of the EDGE TRX. There are 50 power attenuation levels. At each level, the power is attenuated by 0.2

Statistics period of the packet drop ratio. This parameter indicates the period for collecting the statistics information about the p

Packet drop ratio threshold for speed reduction. When the packet drop ratio exceeds the value of this parameter, the rate of the

Point at which to play sound

Whether to enable sound playing

Duration of sound playing. If this parameter is set to 0, the sound is played repeatedly. If this parameter exceeds the duration o

CPU usage threshold for performance monitoring. When the average CPU usage of sliding windows reaches or exceeds the th

Packet queue usage threshold for performance monitoring. When the average packet queue usage of sliding windows reaches

Interval for sending cell paging group packets when Paging Messages Optimize at Abis Interface is enabled

Number of cell paging group packets when Paging Messages Optimize at Abis Interface is enabled

Whether to enable Paging Messages Optimize at Abis Interface. The BSC6900 combines multiple paging messages to a cell p

CPU usage threshold for recovery from performance monitoring. When the average CPU usage of sliding windows is lower tha

Packet queue usage threshold for recovery from performance monitoring. When the packet queue usage of sliding windows is

Whether to monitor the RRM performance

Number of the port

Port No. of environment alarm

Port No. of the XPU board. If you do not specify this parameter, all ports of the XPU board are queried.

Number of the E1/T1 port on the Ater interface board. E1 mode: 0~31 (EIU), 0~62(OIU), 0~251(POUc). T1 mode: 0~31(EIU), 0

Port number

It is one key field of identifying the block of the Ater timeslot and indicates the port No. of the Ater interface timeslot.

Port number of the E1/T1 of the Pb interface

Number of the port where the alarm is generated, only the ports for data transmission are supported, such as E1/T1 port, chann

Indicates the port number for running this command.

E1/T1 port number

E1/T1 port number

E1/T1 port number

Indicates the port number for running this command.

Port number

Port number

Port number

Ethernet port

FE/GE port number

Ethernet port

Port number

E1/T1 port number

Port number

Port number of Pb signaling link

Port No. of the BSC6900 board connected with the BTS

Alarm port number

Number of the port on the BTS side

Number of the port on the BTS side

Number of the port through which the BTS is connected to the BSC6900

Number of the FE or GE port

Number of the Ethernet port. The number must be consistent with that of the port carrying the FE connection of the IP BTS.

Port number

Maximum transmission delay of the POC service (push to talk over cellular). The transmission delay of the POC service must b service received by the network side, Transfer Delay in the ABQP must be lower than the transmission threshold of the POC se

Maximum bandwidth of the POC service (push to talk over cellular). The transmission delay of the POC service must be relative received by the network side, GbrValue in the ABQP must be lower than the maximum bandwidth of the POC service.

Minimum bandwidth of the POC service (push to talk over cellular). The transmission delay of the POC service must be relative received by the network side, GbrValue in the ABQP must be larger than the minimum bandwidth of the POC service.

Whether to support the push to talk over cellular (POC) service

This parameter specifies a condition for generating a BTS alarm. When the output power of a TRX of a transmitter is lower than range is 0 to 9, indicating -10 dB to -1 dB.

This parameter specifies a condition for generating a BTS alarm. When the output power of a TRX of a transmitter is lower than value range is 0 to 9, indicating -10 dB to -1 dB.

Description of the rollback point

Name of the rollback point

This port is provided by the FTP server to be visited by the FTP client.

Number of the port where to set up the link after the BTS ring is swapped. If this parameter is set to 0, the BTS works on a forw

Number of the port where to set up the link after the main and backup OMLs of the BTS are swapped

Number of the DXX port

Maximum number of ports on the DXX

Port protocol type

Whether to enable the panel port of the XPU board

Indicates the type of the physical port used by the local maintenance point in the maintenance group. FE indicates the FE port

Type of the port. If this parameter is set to "TOPEXTOUTPORT", the local E1/T1 ports are used to extend the transmission of o extend the transmission of local boards. That is, the local boards can obtain the timeslots from other boards through the extend

Whether to transmit the 2Quater message on the BCCH Norm channel or the BCCH Ext channel

Type of the patch operation

Rated maximum output power of the diesel engine. Refer to the rated output power described on the diesel engine label.

Relay switch 1

Relay switch 2

Relay switch 3

Relay switch 4

Relay switch 5

Relay switch 6

Battery current shunt coefficient

Power attenuation level of timeslot 7 of the BCCH in 16QAM. The attenuation level ranges from 0 to 50, with the step of 0.2 dB

Power attenuation level of timeslot 7 of the BCCH in 32QAM. The attenuation level ranges from 0 to 50, with the step of 0.2 dB

Power type managed by the PMU This parameter specifies the transmit power level of the TRX. The greater this parameter is, the smaller the transmit power is. W For different types of BTSs, the value range of this parameter is different. BTS3X: 0-10power supply system of the cabinet Type of the BTS3001C: 0-13 BTS3002C: 0-10 Double-transceiver BTSs (BTS3012,BTS3012AE,BTS3006C): 0-10 DBS3900 GSM, BTS3900 GSM, BTS3900A GSM: 0-10.

This parameter specifies the maximum transmit power supported by the power amplifier of the TRX. The macro BTS and the m

When the number of error frames on the PPP layer reaches the value of this parameter, the frame error alarm is generated.

When the number of error frames on the PPP layer decreases to the value of this parameter, the frame error alarm is cleared.

PPP link number of BSC.

PPP link number

PPP link number

Number of a BTS PPP link.

Whether to enable the PPP frame multiplexing function. If this parameter is set to ENABLE, the PPP frame multiplexing function

This parameter applies to the FG2a and GOUa boards. For the FG2c, GOUc, or POUc board, this parameter is always set to 2

This parameter specifies whether the preempted call is released after the handover failure. If this parameter is set to No, MSs w with high priorities initiate the queuing procedure or the calls fail. Therefore, the access rate of MS with high priorities is decreas

This parameter specifies whether to preempt PDCHs when no TCH is available during the handover of the preempted call. Whe

If this parameter is set to ON, the BSC initiates a TCHF preemption when receiving a link establishment indication from an MS

Sampling rate of pre-processed measurement reports.

Priority of a route. A smaller value of this parameter indicates a higher priority. The BTS preferentially selects the route with a h

Access priority of the MS that is allowed to access the cell. The MS sends the packet channel request containing the 2-bit radio parameter setting of the cell. If the radio priority equals to the parameter setting of the cell, the BSC sets up the TBF for the cha

This parameter specifies whether to support flow control based on priority. When this parameter is set to on, the system prefere

Whether the BTSs send the original measurement reports to the BSC after pre-processing them. When this parameter is set to

Printing control threshold. If the CPU usage of sliding windows reaches or exceeds the threshold, printing flow control is trigger

Printing control threshold. When the packet queue usage of sliding windows reaches or exceeds the threshold, printing flow con

Printing control threshold. If the CPU usage of sliding windows is lower than the threshold, printing flow control on the serial por

Printing control threshold. When the packet queue usage of sliding windows is lower than the threshold, printing flow control on

Whether to control the printing flow on the serial port

This parameter controls handover between cells at the same layer. Generally, the cells at the same layer are set with the same

This parameter controls the handovers among cells on a same layer. A smaller priority value indicates a higher priority. Cells w

If the static Abis resource load is greater than the value of "Fix Abis Prior Choose Abis Load Thred" and the dynamic Abis resou Priority of the hierarchical cell structure (HCS). 0: indicates the lowest priority; 7: indicates the highest priority.

Route priority. The highest priority is represented by 0.

Priority of the signaling link. 0 indicates the highest priority. A low-priority link carries services only when the high-priority link is

Route priority. The boards FG2a, GOUa, UOIa(IP), FG2c, and GOUc support the configuration of routes with different priorities standby mode. When the route with higher priority is available and only this route is valid, the system switches to the route with

Preferential customized detection type when the customized sequence is used for port detection.

Number of customized detection types involved when the customized sequence is used for port detection.

Subsidiary customized detection type when the customized sequence is used for port detection. This parameter is valid only wh

Name of the private key file

Port detection sequence used during BTS startup.

Identifies the DSP protocol type, including ITUT(International Telecommunication Union - Telecommunication Standardization S

Protocol type of the trunk frame. The setting of this parameter must be consistent with the setting at the SGSN side.

The transmission resource in the Abis timeslot is considered as faulty only when the BTS detects that the Abis timeslot is faulty

This parameter specifies a period of time during which a cell cannot be enabled or disabled to prevent frequent cell enabling or specified by this parameter.

This parameter is set to prevent the BSC from frequently enabling or disabling the TRX. After a TRX is powered on, the BSC is

Port selection

Port selection

Port selection

This parameter indicates whether to include Abis interface messages in PS CHR logs.

This parameter indicates whether to include Gb interface messages in PS CHR logs.

This parameter indicates whether to include internal information in PS CHR logs. The internal information is the basic user infor

This parameter indicates whether to include internal messages in PS CHR logs. The messages are generated in service data fl PDU removal indication.

This parameter indicates whether to include Um interface messages in PS CHR logs.

GSM PS data service downlink factor

GSM PS data service uplink factor

Whether to support PS Handover(PS HO). The PS HO is used to reduce the interval of the cell reselection of the MS.

PS high PRI data path

PS high PRI data priority

Priority for PS services over the Abis interface in IP, IP over E1, or HDLC mode when PS preferred. When "Level of Preempting value, the priority for PS services becomes low.

Period for sending the packet message PSI. If the period is too long, the message PSI cannot be obtained in realtime. If the pe

Whether the BSC supports the state message PSI. The state message PSI refers to PSI STATUS.

PS low PRI data path

PS low PRI data priority

Priority for PS services over the Abis interface in IP, IP over E1, or HDLC mode when CS preferred. When "Level of Preempting Service PRI" is set to a great value, the priority for PS services becomes low.

Threshold of the receive level for triggering the handover of the PS services from the overlaid subcell to the underlaid subcell

This parameter indicates the mode of exporting PS CHR logs. When the parameter is set to "Common User Mode", exported (the command is "ADD GPSCHRUSER"). The two modes can coexist without affecting each other.

This parameter specifies the level threshold for the random access of the MS. If the receive level of the RACH burst in the PS d value of PS RACH Min. Access Level, the BTS considers that an access request exists on this timeslot, and determines togeth

Minimum voltage level for accessing PS services of the location group

This parameter indicates whether to record PS CHR logs.

Maximum number of messages in the statistical period for the arrival of PS resource requests

Statistical period for the arrival of PS resource requests

Whether to enable the DPSU0 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the DPSU1 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the DPSU2 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the DPSU2 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the DPSU3 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the DPSU4 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the DPSU5 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the DPSU6 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the DPSU7 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

This parameter whether the BTS isthe allowed to enable Smart Control feature. subcell to the overlaid subcell Threshold of thespecifies receive level for triggering handover of the the PS PSU services from the underlaid When this parameter is set to YES, the BTS automatically enables or disables the PSU according to the traffic volume to impro The following types of BTS support the PSU Smart Control feature: BTS3012AE BTS3900A, BTS3900, DBS3900, and BTS3900L: support the PSU Smart Control feature through the matching APM30.

Switch for the self-healing of the OMU processes

Port type of environment alarm

Number of the port that provides the time information on the SNTP server

Cell Reselect Penalty Time (PT) is used to ensure the safety and validity of cell reselection because it helps to avoid frequent c

Subnet protocol type

Alarm port type

Line coding method

Receiving frame structure

Sending frame structure

Frame structure

Number of a BTS HDLC path. It is unique in one [BTS].

Ethernet port type

Power system type. When the PMU is installed on the rack, you can select the custom power system type. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Name of the certificate file This parameter specifies the patch version loaded to the BTS. This parameter can be set to only a hot patch version. You can use either of the following methods to query the version numbe Method 1: If the BTS hot patch is downloaded to the OMU through the MML command DLD BTSPATCH, you can run the MML Method 2: If the BTS hot patch is not downloaded to the OMU, you can decompress the BTS hot patch package. Then, check t

Number of the patch version

Period timer of PVC utilization report. This timer is started during initialization. When the timer expires, the PVC utilization inform

Private key password

Password

User password for the FTP server. When the FTPServer.exe file downloaded through the LMT is installed, the user password is

Minimum length of the user password

Power level

First alarm switch of power distribution monitoring board

Second alarm switch of power distribution monitoring board

Whether to allow active power control. If this parameter is set to YES, the system performs power forecast in the process of init MSs and BTSs can adjust the transmit power. If this parameter is set to NO, the system does not perform power forecast, and t

Whether to enable the optimized power control algorithm III

Whether to enable power control algorithm II or power control algorithm III

If a class 3 MS on the DCS1800 band does not receive the original power command after random access, the power that the M

The MS does not receive the original power command after random access. This parameter indicates whether the power devia

Whether to enable the power amplifier for all location groups. 0x01 indicates that the TRX power amplifier is enabled for all loca

Power mode.

Time interval between the time when the BTS detects that the external power supply is shut down and the time when the backu

When this parameter is set to YES, The BSC6900 preferentially uses the TRX with good power-saving performance according

Finetune of the TRX power. During the static finetune of the TRX power, the BSC adjusts the TRX power at a step of 0.2 dB. In the cabinet-top output power cannot be adjusted at a step of 2 dB, and the TRX output power cannot be consistent with the cab

When the ANT_A tributary antenna power switch is ON, it is allowed to configure related parameters of the ANT_A tributary.

When the ANT_B tributary antenna power switch is ON, it is allowed to configure related parameters of the ANT_B tributary.

When the RET tributary antenna power switch is ON, it is allowed to configure related parameters of the RET tributary.

Minimum DSCP of queue 0. The IP packets with DSCP in a relation that "Min DSCP of queue 0" <= DSCP <= 63 is added to qu

Minimum DSCP of queue 1. The IP packets with DSCP in a relation that "Min DSCP of queue 1" <= DSCP < "Min DSCP of que

Minimum DSCP of queue 2. The IP packets with DSCP in a relation that "Min DSCP of queue 2" <= DSCP < "Min DSCP of que

Minimum DSCP of queue 3. The IP packets with DSCP in a relation that "Min DSCP of queue 3" <= DSCP < "Min DSCP of que

Minimum DSCP of queue 4. The IP packets with DSCP in a relation that "Min DSCP of queue 4" <= DSCP < "Min DSCP of que

This parameter specifies the threshold of the signal level for cell reselection in connection mode before ""Qsearch C"" is obtain

Whether to enable the fast moving micro-cell handover algorithm. The fast moving micro-cell handover algorithm enables fast m

This parameter is used in the P/N criteria decision: If an MS quickly passes through N out of P micro-cells lately, the BSC enab

A time threshold determined based on the radius of a cell and the moving speed of an MS. If the MS crosses the cell in a time p

This parameter is used in the P/N criteria decision: If an MS quickly passes through N out of P micro-cells lately, the BSC enab

This parameter specifies the level threshold for cell reselection in idle mode. level of the serving cell is lower than 5, the MS starts to search for 3G cells; if this parameter is set to 10 and if the signal level following decibel values: 0: -98 dBm 1: -94 dBm 2: -90 dBm 3: -86 dBm 4: -82 dBm 5: -78 dBm 6: -74 dBm 9: -74 dBm 10: -70 dBm 13: -58 dBm 14: -54 dBm

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se determine whether interferences exist on channels.

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se determine whether interferences exist on channels. In connection mode, if the signal level is below [0-7] or above [8-15], the MS starts to search for 3G cells. For example, if this p then the MS starts to search for 3G cells. 0: -98 dBm Whether to support QoC optimization. The GSN equipment for the GPRS provides flexible QoS mechanisms for different subsc 1: -94 dBm This specifies oneQoS threshold of the signal level forthe cell reselection in packet transfer mode. applyparameter for one value for each attribute. When receiving request from the MS, the network must allocate a QoS level to e ... example, if this parameter is set to 5 and if the signal level of the serving cell is lower than 5, the MS starts to search for 3G ce 6: -74 dBm values of this parameter correspond to the following decibel values: 7: (always) ... 8: -78 dBm 9: -74 dBm 9: -74 dBm ... 14: -54 dBm 15: Positive infinity (never) This parameter is used to avoid allocating the calls whose signal strengths differ greatly to the same timeslot. The BSC measures the signal merge conditions on each timeslot every 0.5 seconds. If the difference between the highest sign If N signal merge events are consecutively detected among P times of measurements, the forcible intra-cell handover is trigger Here, N indicates "UL Signal Strength Difference Detections", P indicates "UL Signal Strength Difference Maintains".

The P/N criteria is used to determine low downlink power for multi-density carriers. If the downlink power of a multi-density carri

The P/N criteria is used to determine low downlink power for multi-density carriers. If the downlink power of a multi-density carri

Whether to use the statistical multiplexing algorithm for multi-density power

Maximum number of times that the BTS finds that the air conditioner needs to be switched off. If the number of times that the B

Maximum number of times that the BTS finds that the air conditioner needs to be switched on. If the number of times that the B

Step of downward power adjustment according to the quality of the received signals

Whether to query the classmark of the call in an incoming BSC handover

Whether to allow the fast handover algorithm

Auxiliary devices of rack 0. This parameter contains eight bits. The eight bits, from the most significant bit to the least significant bit, indicate whether to install a voltage stabilizer, internal batt When a bit is set to 0, the relevant auxiliary device is not installed. For example, if this parameter is set to 10000000, rack 0 is c

Whether to configure a battery rack for rack 0

Capacity of the battery rack configured for rack 0

Ratio of the maximum charging current of the battery pack configured for rack 0 to the capacity of the battery pack. For exampl

Type of the battery rack configured for rack 0

Auxiliary devices of rack 1. This parameter contains eight bits. The eight bits, from the most significant bit to the least significant bit, indicate whether to install a voltage stabilizer, internal batt When a bit is set to 0, the relevant auxiliary device is not installed. For example, if this parameter is set to 10000000, rack 1 is c

Whether to configure a battery rack for rack 1

Capacity of the battery rack configured for rack 1

Ratio of the maximum charging current of the battery pack configured for rack 1 to the capacity of the battery pack. For exampl

Type of the battery rack configured for rack 1

Auxiliary devices of rack 2. This parameter contains eight bits. The eight bits, from the most significant bit to the least significant bit, indicate whether to install a voltage stabilizer, internal batt When a bit is set to 0, the relevant auxiliary device is not installed. For example, if this parameter is set to 10000000, rack 2 is c

Whether to configure a battery rack for rack 2

Capacity of the battery rack configured for rack 2

Ratio of the maximum charging current of the battery pack configured for rack 2 to the capacity of the battery pack. For exampl

Type of the battery rack configured for rack 2

The NS performs location management based on routing areas during GPRS packet services. Each routing area has a routing

The NS performs location management based on routing areas during GPRS packet services. Each routing area has a routing

Identifies the routing area of the current cell

Route area of the current cell

Route area of the current cell

Route area of the current cell

This parameter specifies the level threshold for the random access of the MS. If the receive level of the RACH burst in the CS d value of CS RACH Min. Access Level, the BTS considers that an access request exists on this timeslot, and determines togeth

Level threshold of the MS random access for the BTS to determine the RACH busy state. When the receive level of the random

Number of RACH burst timeslots in a RACH load measurement. The value of this parameter indicates the interval during which the BSC6900 determines whether an RACH timeslot is busy. Fo

Correlation threshold of the training sequence for the random access. As definedvoltage in the GSM recommendation, the system canlocation determine whether the received signals are random access signals of Minimum level for accessing CS services of the group Random Access Error Threshold Number of Correct Bits in the 41-Bit Training Sequence 90-100 33 101-120 34 Routing area color code of the 121-140 35 GPRS cell 141-160 36 161-175 37 176-195 38 Whether to allow the MS to access another cell 196-221 39 222-243 40 244-250 41 0-89 or 251-255 38.

Hysteresis of cell selection in different routing area. When a standby or ready MS starts cell reselection, if the original cell and t the MS cannot start cell reselection. The larger the hysteresis of GPRS cell selection, the harder to start cell reselection.

Port rate of the IP interface board

Switch for controlling the AMR rate. Value 0 indicates that C/I is used to control the AMR rate. Value 1 indicates that BER is use

This parameter specifies whether the RATSCCH function is enabled during the call establishment procedure. RATSCCH is use

Original measurement report sampling rate (for each call, one out of four measurement reports is collected)

LASTRBP indicates the last rollback point. The system automatically takes the position where the current configuration comma Type of recording the execution result 1. REC_ALL: indicating that the execution results of all the commands are recorded no matter whether the commands are exec 2. REC_ERR: indicating that only the execution results of failed commands are recorded. 3. REC_NON: indicating that the execution results of all the commands are not recorded no matter whether the commands are

Number of the RXU chain or ring. The value scope is 0~11 for Non-SingleRAN BTS and 0~249 for SingleRAN BTS. The RXU c

The first RXU chain number when combining two RXU chains to be one RXU ring.

The second RXU chain number when combining two RXU chains to be one RXU ring. RF receive mode of the TRX. The BTS3012, BTS3012AE, BTS3012II, BTS3006C, and BTS3002E do not support Main Diversity. The DBS3900 GSM and BTS3900 GSM support Four Diversity Receiver and Main Diversity.

Speed reduction efficient of the logical port. When detecting link congestion through IPPM, the system reduces the bandwidth r

Whether to allow the reassignment function

Whether to re-assign the radio channels on a different band or on the same band. This can help minimize the decrease in servi

IUO cell receive quality threshold (AMRFR), which is used for IUO handover decision

IUO cell receive quality threshold (AMRHR), which is used for IUO handover decision

One of the parameters that decide the underlay and overlay areas. The underlay and overlay areas are determined by "RX_QU

One of the parameters that decide the underlay and overlay areas. The underlay and overlay areas are determined by "RX_QU

Whether to use the downlink receive level as a condition in IUO handover decision

With traffic control enabled, the BSC discards some paging messages. This parameter specifies whether to record detailed info

Speed reduction alarm recovery threshold

One of the parameters that decide the underlay and overlay areas. If "Enhanced Concentric Allowed" is set to OFF, the underlay and overlay areas are determined by "RX_QUAL Threshold", "RX Threshold", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "TA Threshold", and "TA Hysteresis"

Whether to use the downlink receive quality as a condition in IUO handover decision

Whether to back up the data of the board

Interval for releasing the secondary links in the congestion state

Secondary link bandwidth that is released each time in the congestion state

Port for output LINE2(The actual value range may differ on the LMT )

Back-up port for output LINE2(The actual value range may differ on the LMT )

Port for output LINE1(The actual value range may differ on the LMT )

Back-up port for output LINE(The actual value range may differ on the LMT )

Switch of panel BITS1(2M)

Switch of panel BITS2(2M)

Whether to use SGSN clock source.Only the Gb interface board needs to set this parameter. If the SGSN clock and the MSC c

Region information of the IP BTS configured with local switching. Local switching can be performed between only the BTSs tha

Absolute time of re-homing

Delay time of re-homing

Policy type of re-homing

Whether to re-initialize the neighboring cell pair for software synchronization

Cabinet number of the associated module. The associated two MRFUs or GRFUs must be in the same cell.

Whether to enable the configuration of the "Extend Connection" attribute. The "Extend Connection" attribute describes the casc

Function to be performed by two associated modules

Slot number of the associated module

Subrack number of the associated module

Tributary Number of the DFCB that is cascaded to the DFCU. The "Extend Connection" attribute describes the cascading relati

Remark

Purpose description of the route record

Remote NSVL ID of the Gb IP route

A key parameter that indicates how many times the BSC6900 broadcasts cell messages. You can obtain the cell broadcast tim The value 0 indicates no repeat.

When the cell supports Repeated Downlink FACCH, the BTS enables the repeated transmission of FACCH frames if the meas

If the cell supports the Repeated Downlink FACCH function and the measured downlink quality is lower than the downlink quali

When the cell supports Repeated Downlink SACCH, the BTS enables the repeated transmission of SACCH frames if the meas

Whether to reserve the binding of the alarm ID and the alarm port

Whether to perform resource checks on the resource usage system and resource management system. Resource checks can

Indicating that during cell reselection, the level of the target cell should meet the following condition: Level of target cell > [MAX

NC2 cell reselection interval in the same cell

The number of received Packet Measurement Report messages on the receive level of the serving cell is measured continuous

If the number of times when the receive level of the serving cell within "Normal Cell Reselection Watch Period" is lower than "C

This parameter specifies the number of the reserved PDCHs that are not used for channel converstion in the dynamic transfera

This parameter specifies the number of idle channels that should be reserved on a cell after the TRX is shut down. When the n assignment on the cell that is enabled with the TRX Intelligent Shutdown feature.

Whether to withhold link breakdown alarms in case of BTS resets due to data configurations

If OML links break down after BTS resets caused by data configurations and recover within the period specified by this parame If OML links fail to recover within the period specified by this parameter, OML link breakdown alarms are reported.

Interval for resetting the counter when the user fails to log in

Retry times after the peer response timer expires during NSVC reset

The waiting time from BTS detect OML disconnect to BTS reset.

Duration of the peer response timer during NSVC reset

Reason for activating the radio status procedure

Whether the HO RQD messages sent by the BSC to an MSC carry response request cells. Response request cells are optiona

Whether to resume broken download

Duration of the PPP/MP link restart timer

Duration of the PPP/MP link restart timer

Restoration type of the alarm

Time for the BSC to initiate the common measurement or information exchange procedure after this procedure fails

While assigning channels, the BSC ensures that the sum of the number of channels occupied by high-priority users and the nu the sum of the number of channels occupied by users of "Highest Priority" and the number of idle channels is larger than the nu

Maximum number of levels that the BTS RF power decreases. This parameter is used to control the decrease in the BTS RF po

Interval for sending the radio resource indication messages. The TRX reports the interference level for each of the channels tha Interval for executing the subtask This parameter is used byscheduled a BTS to inform the BSC6900 of the interference levels on idle channels of a TRX. For details, see G The unit is determined according to the time mode. 1. If the time mode is set to "DAILY_T" or "DAILY_C", the unit is day. 2. If the time mode is set to "WEEKLY_T" or "WEEKLY_C", the unit is week. 3. If the time mode is set to "MONTHLY_T" or "MONTHLY_C", the unit is month.

1. This parameter specifies whether to configure the DRFU, MRFU, GRFU, or XRFU by slot or link. 2. When setting the BTS to support the configuration of the RFU by slot, set this parameter to "YES". When setting the BTS no 3. If this parameter is set to "YES", you must enter the numbers of the subrack and slot where the new board is located. If you need to specify the CPRI connection relations (SFP port number and cascading level) based on a rule that is different fro 4. If this parameter is set to "NO", you must set "TRX Board No.", "RFU Link No." and "RXU Chain Head Port No.".

Satellite card protocol that is enabled to communicate with the satellite card connecting to the DGPS. If "RGPS" is specified, it i enabled to communicate with the satellite card connecting to the DGPS.

Whether to support RAN information management (RIM). IN the RIM procedure, RANs(Radio Access Network) can exchange m

The loopback channel number when the port loopback mode is set to TDM remote loopback

Time for disconnecting a call when the MS fails to decode the SACCH. Once a dedicated channel is assigned to the MS, the co Each time an SACCH message is not decoded, the counter S decreases by 1. Each time an SACCH message is correctly deco situation and it cannot be improved through power control or channel handover, the connection is to be re-established or releas Transmission mode on the Ater interface of the remote TC subrack. The meaning of values is as follows: STANDALONETC: not converged MASTERINPOOLTC: control subrack for TC convergence SLAVEINPOOLTC: non-control subrack for TC convergence

RNC ID of a 3G external cell. The value of this parameter must be consistent with the data configuration at the RNC.

Internal index of a neighboring RNC. This parameter is set to 255 when the neighboring RNC that serves the 3G external neigh

Internal index of a neighboring RNC

Name of a neighboring RNC. The name is used to uniquely identify a neighboring RNC.

Name of the root certificate file

Identifies a router uniquely

Router port number. The setting of this parameter must be consistent with the setting at the SGSN side.

Whether to allow the BTS to report the downlink voice quality index (VQI). The VQI is used to indicate voice quality. It is calcula

Cell reselection measurement report period in packet idle mode

Cell reselection measurement report period in packet transmission mode

Speed reduction alarm report threshold

Whether to allow the BTS to report the voice quality index (VQI). If this parameter is set to Report, the BTS reports the VQI. The measured separately, and thus the speech quality is monitored.

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se

For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in se

Resource group number of the PATH

The parameter indicates whether the resource group is shared or is used by a specific telecom carrier.

Resource management mode. The logical port working in the SHARE mode can be shared by multiple carriers. The logical por

Timer for punishing the neighboring cells when handover failures occur due to resource-related causes, such as resources bein

This parameter adjusts "Min RSCP threshold" to enable the selection of 3G candidate cells based on cell priorities

This parameter determines the layers of 3G neighboring cells. If the measured value of a 3G neighboring cell is lower than this

RSD alarm triggering source

RSF alarm triggering source

Used for calculating C2. The MS with a large value can be assigned with high access priority.

Average down-bandwidth of RSL link in BTS.

Differentiated service code of the specified RSL

RSL service priority

Average up-bandwidth of RSL link in BTS.

Specified RSL Vlan Id

Size of the RSL LAPD window

Reason for locking the configuration and management control rights

Threshold of the level difference between a neighboring cell and the serving cell, based on which the BSC filters the measured are later submitted to NaStar for analysis. When a measurement report shows that the signal strength difference between a ne

This is the description file for resetting the board. The reset file names of different boards are different.

Name of the result file generated after the command is executed. If this parameter is not specified, the name of the result file is entering the name. The flag of the main area can be queried through the "LST OMUAREA" command. The characters (@, #, !,

Whether to enable the restart function

Timer

Maximum number of TCH channels reserved for emergency call users

Parameter 1 reserved for future use.

Parameter 10 reserved for future use.

Parameter 2 reserved for future use.

Parameter 3 reserved for future use.

Parameter 4 reserved for future use.

Parameter 5 reserved for future use.

Parameter 6 reserved for future use.

Parameter 7 reserved for future use.

Parameter 8 reserved for future use.

Parameter 9 reserved for future use.

Number of reserved idle channels. If this parameter is set too small, the TRX may be frequently enabled/disabled; if this param

Recovery mode of the MSP protection group

Routing context. The routing context identifies a specified route. If the routing context is to be configured, its value must be neg

Ratio of the RTCP path bandwidth to the A interface bandwidth. According to the Real-time Transport Control Protocol (RTCP)

Whether to enable the real-time transport control protocol (RTCP) function. The BSC6900 and the MSC negotiate whether and when IP transmission is used over the A interface.

Destination IP address

Routing mask

Index of a route. The index is unique in a BTS.

It is used to calculate the round-trip time of the protocol stack and the RTO value. The value must be smaller than "RTOBETA".

It is used to calculate the round-trip time of the protocol stack and the RTO value. The value must be greater than "RTOALPHA

When the "RTOMIN" and "RTPMAX" parameters are set to fixed values, the larger the value is, the longer the check of the link

When the "RTOMIN" parameter is set to a fixed value, the larger the value is, the longer the check of the link is.

When the "RTOMAX" parameter is set to a fixed value, the larger the value is, the longer the check of the link is.

Whether to measure the delay on the link between the BTSs that serve the calling MS and the called MS respectively

Maximum number of RTTI TBFs that can be multiplexed on the PDCH. A PDCH can be assigned when the number of RTTI TB

Type of the route. When the BTS does not support IP over E1, the parameter Route Type needs to be set to NEXTHOP(Next H Protocol (PPP) and the peer IP address is unknown. The benefit of setting Route Type to OUTIF(Out Interface) is that the confi

Logical port speed increase step. When detecting the available bandwidth increase through IPPM, the system increases the ba

Bandwidth increase step adjustment period. This parameter indicates the period to increase the bandwidth of the logical port. N

R-version number of the BTS software

Receive bandwidth of IP path

Receive bandwidth

Minimum receiving power level for the MS in the cell to access the system

For AMR FR voice services, a fixed amount of offset is added to the corresponding grade of the received signal quality for the i

Minimum received signal level of the MS. This level is reported in the system information. This parameter specifies the minimum

Whether to use the emergency handover algorithm in case the receive level of the MSs drops rapidly, thus preventing call drop

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.

Number of the RXU chain to which the RXU belongs

Number of the RXU chain. The RXU chain No. is unique in one BTS.

Number of the RXU chain where the board is located

Index type of the RXU

Type of the RXU board index

Name of the RXU

Name of the RXU board. The RXU name is unique in one BTS.

Name of an RXU

Position number of the RXU on the RXU chain

Position No. of the RXU board on the RXU chain

Position of the RXU board on an RXU chain

Type of the RXU board

Whether to enable the switch to set the S1 value. S1 byte, also called the synchronization status byte, is one of the optical conn

S1 sending value. It is a synchronization status byte used by the local end to examine the quality of the received clock signals b

Whether to enable the special analog alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

The value of this parameter consists of 32 bits, each of which determines whether to enable the corresponding special analog a BT1_DISABLE, AH_DISABLE, AT1_DISABLE, AT2_DISABLE, and BT2_DISABLE. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether the MSC independently processes the trunking services. When this parameter is set to YES, the MSC independently p

Whether an MS supports the SAIC function. Single Antenna Interference Cancellation (SAIC) is used to reduce the impact of in BTS/MS Power Control are adjusted to improve the radio performance of the BSS.

Adjustment step of the downlink signal quality threshold in power control algorithm II for MSs that support SAIC. The network si network.

Adjustment step of the downlink signal quality threshold in power control algorithm III for MSs that support SAIC. The network s network.

The value of this parameter consists of five bits, which determines whether to enable the alarms. "0" indicates that the analog a In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Index of a cell with the same coverage as the current cell

Index type used when the command is executed

The BSC6900 checks the load of the same coverage cell of the target cell once a minute. When the number of times in which t

A cell that can be disabled is allowed to be disabled only when the load of the same coverage cell is lower than this threshold fo

This is used by thecell BTS to inform the BSC6900 of radio link connection failure. Nameparameter of the same coverage When the BTS receives the SACCH measurement report from the MS, the counter for determining whether a radio link is faulty measurement report, the counter increases by 2. When the value of this parameter is 0, the BTS regards the radio link as faulty. The BTS sends a connection failure indication m respectively. The judgment standard is whether the measurement report in SACCH is correctly decoded.

The value of this parameter consists of three bits, which determines whether to enable the alarms. "0" indicates that the alarm i In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the special alarm switch. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Level specifications of special Boolean value alarms. Two specifications are available: high level and low level. By default, only In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the energy saving function of the TRX for the BTS3002E.

Whether to enable the special Boolean alarms, that is, water sensor alarm (bit 0), smog sensor alarm (bit 1), and door sensor a and GS_DISABLE~2. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Number of the BTS. The BTS is numbered uniquely in a BSC.

Name of the BTS. The BTS is named uniquely in a BSC. This parameter indicates that when the MS reports the EMR, it adds the value of this parameter to the received signal level, an If the SCALE_Order reported by the MS is 10 dBm, level values 0-63 map with -100 dBm to -37 dBm. If the SCALE_Order reported by the MS is 0 dBm, level values 0-63 map with -110 dBm to -47 dBm. If the SCALE_Order reported by the MS is Automatic, the MS chooses the least SCALE while ensuring that the MS can report

DSCP corresponding to the streaming service

When the network receives measurement reports, in consideration of the accuracy of a single measurement report, the measur information of the serving cell.

Number of the cell where the TRX reside. The cell is numbered uniquely in a BSC.

Name of cell 1

A key parameter that indicates the coding scheme of a simple cell broadcast message

Number of the sub-channel

Command string of the scheduled subtask. This command can be only a service command, and the system command cannot b

Type of querying used to set the measurement report collection scope.

Indicates the index of the inter-subrack connection path

Scrambling code of a 3G cell. The scrambling code is used to differentiate terminals or cells. It is used after spread spectrum. T spectrum. Scrambling is used to distinguish terminals on the uplink and to distinguish cells on the downlink.

Start serial number of the alarm record

SCTP link number of XPU board. This number identifies an SCTP link uniquely.

Date when the scheduled task is started

Start date of the alarm record. By default, the start date is 2000-01-01.

Start date of the alarm record. By default, the start date is 2000-01-01.

Maximum number of days for storing history alarms

SD alarm triggering threshold

Start date

Start date of the daylight saving time (DST)

Number of SDCCH channels. Rules for SDCCH channel allocation: 1. Allocate channels 1 and 3 of main frequency B preferent

Whether a call must camp on the SDCCH for a specific duration before being assigned with a traffic channel.

Duration for a call camping on the SDCCH before being assigned with a traffic channel.

Level threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC6900 determ number of call drops on SDCCH (receive level) is incremented by one.

Quality threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC6900 dete by one. First, the downlink quality level multiplied by 10 is higher than this threshold. Second, the TA is smaller than the TA thre

Level threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC6900 determ call drops on SDCCH (receive level) is incremented by one.

Quality threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC6900 dete one. First, the uplink quality level multiplied by 10 is higher than this threshold. Second, the TA is smaller than the TA threshold

Whether to allow SDCCH dynamic allocation, that is, whether to allow dynamic conversion between TCHs and SDCCHs.

Enable SD

Whether to enable the SDCCH quick handover test function. If this parameter is set to Yes, the BSC6900 initiates intra-cell SDC network security is improved.

This parameter specifies whether the BSC6900 automatically shuts down the power amplifier of the TRX to save power when t

After a new SDCCH is assigned to an MS, the MS can be handed over to another channel only if the time during which the MS

Maximum number of discarded MRs allowed on the SDCCH in a power control period

Period in which level penalty is performed on the neighboring cells of the cell where a fast-moving MS is located. The neighbori

Level value of the penalty that is performed on the neighboring cells of the cell where a fast-moving MS is located. The neighbo

DSCP corresponding to the signaling

Specifies the SF and SD event priority

High temperature threshold for triggering power shutdown of the battery. If the power shutdown upon battery high temperature In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Sliding time window for collecting statistics on the alarms that disappear in a specified period of time.Sampling time window. In

Sliding time window for collecting statistics on the alarms that occur in a specified period of time.This parameter is similar to the

Low voltage threshold for triggering power shutdown of the battery. If the power shutdown upon low voltage is enabled and the In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to allow the MS to search for a 3G cell when the BSIC must be decoded

Self Software Version

This parameter specifies whether the SI Type 3 message contains the 2QUATER indicator. Whether to report BSS INVOKE TRACE message. When the parameter is set to YES, the BSC sends a BSS INVOKE TRACE BSC does not send a BSS INVOKE TRACE message to the MSC.

Whether to report the classmark queried by the BSC6900 to the MSC

Whether to send a CONFUSION message to the MSC. This parameter specifies whether to send a message carrying fault loca

If this parameter is set to No, the BSC responds with an SAPI N'Reject message against the DL short message after hangup.

Priority of the notification message transmission on the FACCH. From high to low, the priorities are A, B, 0, 1, 2, 3, 4 and No Pr

Priority of the paging message transmission on the FACCH. From high to low, the priorities are A, B, 0, 1, 2, 3, 4 and No Priorit

The time for BTS reset.

Whether the BSC sends the System Information Type 2ter message.

Whether the BSC sends the System Information Type 5ter message.

Whether the SI Type 3 message contains the 3G Early Classmark Sending Restriction field. The 3G Early Classmark Sending

Split position on the RXU chain

Whether to enable the BTS to support the separation between the physical and logical. Whether the BTS supports the separate non-separate mode, a one-to-one mapping exists between the physical board and the logical TRX.

Number of the command listening port of the server. You should not use any port number occupied by other applications.

Number of the data port of the server in active mode. You should not use any port number occupied by other applications.

Delivery serial number of the RET antenna

IP address of the FTP server to be visited by the FTP client

Service mode of the BSC6900. This parameter specifies configuration mode of subracks.

Service bearer mode of the BTS

Service bearer mode of the BTS

Name of the command function

Service type of the BTS. The QoS processing depends on the DSCP, VLAN ID, and VLAN priority that vary according to the se

Whether to enable the diesel engine parameters to be configured

Whether to enable the environment temperature alarm parameters of the APMU to be configured. The APMU of the APM30 typ In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the environment temperature parameters to be configured. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the environment humidity alarm parameters of the board to be configured. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Number of the SFP port. If the switching relation is added on the SFP port, it indicates that the SFP port is used to connect the

Available capacity of the SGSN

Name of the SGSN

Length of the NRI(Network Resource Identifier) or NULL-NRI. The length determines the maximum value of the NRI and NULL

Special NRI(Network Resource Identifier). Each SGSN pool has one NULL-NRI. When the NRI value in the TLLI of the MS upli

Whether to enable the SGSN pool function. With SGSN pool, a BSC6900 is connected to multiple SGSNs in the pool, and load handovers and node redundancy backup.

Protocol version supported by the SGSN

Administrative state of the SGSN. The value "ALLOW" indicates that the SGSN can handle the PS services normally. The value PS services.

Usage threshold of the CPU for call access from other CPU. If the usage of the CPU exceeds the threshold, the call access req

Slot number of the load sharing interface board

Whether to allow sharing

Shield flag of the alarm

This parameter specifies the delay time before shutting down the TRXs when the BTS experiences a power failure.

Whether the BSC sends a System Information Type 2ter message to a non-dualband cell. When the parameter is set to YES, t cell sends the System Information Type 2ter message. When the parameter is set to NO and "Send System Information 2ter " i

Whether to enable a handover between signaling channels

Number of times that the downlink signal strength exceeds the threshold

Uniquely identifies a signaling link set

Uniquely identifies a signaling link set

ID of an M3UA link in the specified link set

Signaling local weight over the local NSVL. When this parameter is set to a larger value, the NS is more likely to select this IP p

Signaling local weight over the remote NSVL. When this parameter is set to a larger value, the NS is more likely to select this IP

Priority of the signaling service.0 is the highest priority.

Number of times that the downlink signal is measured

Number of measurement reports used for averaging the signal quality of signaling channels. This parameter helps avoid sharp

ID of an MTP3 link in a specified link set

Number of measurement reports used for averaging the signal strength of signaling channels. This parameter helps avoid shar

Minimum interval between the successful TBF establishment and the first initiation of the Packet Timeslot Reconfiguration proc

Single pass exclude MSISDN number 1. One-way audio means that only one party in a call can hear the voice. Certain number

Single pass exclude MSISDN number 10. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 11. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 12. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 13. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 14. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 15. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 16. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 17. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 18. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 19. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 2. Certain numbers, such as the premium rate number, are not used for the single pass c

Single pass exclude MSISDN number 20. Certain numbers, such as the premium rate number, are not used for the single pass

Single pass exclude MSISDN number 3. Certain numbers, such as the premium rate number, are not used for the single pass c

Single pass exclude MSISDN number 4. Certain numbers, such as the premium rate number, are not used for the single pass c

Single pass exclude MSISDN number 5. Certain numbers, such as the premium rate number, are not used for the single pass c

Single pass exclude MSISDN number 6. Certain numbers, such as the premium rate number, are not used for the single pass c

Single pass exclude MSISDN number 7. Certain numbers, such as the premium rate number, are not used for the single pass c

Single pass exclude MSISDN number 8. Certain numbers, such as the premium rate number, are not used for the single pass c

Single pass exclude MSISDN number 9. Certain numbers, such as the premium rate number, are not used for the single pass c

Source IP address

Source IP address

Log of which site need to be collected.

Zone where the BTS synchronizes with other BTSs. Only two BTSs with the same synchronization zone can be synchronized in

The IP address must be a valid class A, B, or C address, and it cannot be a broadcast address or network address.

No. of the location group under the BTS. The location group No. is unique for each BTS.

Self-loop type. The precautions are as follows: 1. If the self-loop type is set to "E1SELFLOOP" and the BTS type is BTS3002C, BTS3001C, or BTS3001CP, the transmission b 2. If the self-loop type is set to "IASUSELFLOOP", only 3002C, 3006C, 3002E support IASU self loop type, and when the BTS

Signaling route load sharing. In the value, the number of 1s (represented by n) determines the maximum number (2) of routes f routes are not used for the load sharing. The AND operation between this value and " signaling link mask " in the link set is equ

If no handshake message is received from the peer within the delay, the slave service is activated. A slave service object provid signaling links on the A interface of the peer BSC are faulty.

Type of the start date. "WEEK" indicates that the start date is a weekday. "DATE" indicates that the start date is a month day. "

Index of the SMLC

Whether the built-in SMLC or external SMLC is used in the BSS.

Smog alarm switch

Month in which DST starts

Number of CPU usage samples involved in the calculation of the average CPU usage in the sliding window

Number of the slot

Number of the slot

Number of the slot where the XPU board is located

Number of the slot where the XPU board is located

Number of the slot

A key field used to identify the Ater timeslot and indicate the number of the Ater interface timeslot

Number of the slot

Number of the slot where the alarm is generated

Number of the slot where the alarm is generated, the number of the slot where the OMU board is positioned is not supported

Indicates the slot number for running this command

Slot number for running this command

Number of the slot. The subrack number and slot number uniquely identify a board.

Slot No. of the subsystem where the Iur-g common connection is established

Number of the slot where the BTS board is located

Number of the slot where the BTS board is located

Slot number of the XPU board bound to the NSE

Slot number of board to which Pb signaling link belongs

Number of the slot where the port is located

Slot number of the BSC6900 board that is connected to the BTS

Number of the slot where the BTS board is located. RF send mode of the TRX. The BTS3006C and BTS3002E do not support Wide Band Combining, Power Booster Technology, DPBT, or Transmitter Indep The DBS3900 GSM GRRU does not support Wide Band Combining, Transmitter Independent or Combining, Power Booster Te The BTS3900 GSM and BTS3900A GSM do not support Transmitter Independent or Wide Band Combining.

The connection mode between the DRRU and the antenna.

The connection mode between the DRFU and the antenna.

The connection mode between the MRRU/GRRU and the antenna.

The connection mode between the MRFU/GRFU and the antenna.

The connection mode between the BTS3900E and the antenna.

Synchronization period of the SNTP client service

As an integer, the OSP code can be expressed by a decimal digit or a hexadecimal digit. If the OSP code is expressed by a he

Number of bits contained in the signaling point code Data format of the specified signaling point. When this parameter is set to "WNF", the SPC is expressed in the form of an integer number. When this parameter is set to "NDF", the SPC is expressed in three segments. The number of bits included in each segment de OSP expressed in the form ofparameter segments is 8-8-8, the parameter "Signal point data format" the "ADD Whencode the signaling point code bits set tosee "BIT14", the number of bits included in eachofsegment is OPC" 3, 8, and 3. When the signaling point code bits parameter is set to "BIT16", the number of bits included in each segment is 4, 8, and 4. When the signaling point code bits parameter is set to "BIT24", the number of bits included in each segment is 8, 8, and 8. Assume theE1/T1 signaling point bits parameter is set to "BIT14" and the SPC is expressed in three segments 5-7-2. You c Start CICthat of the of the Pb code interface 1. Convert the value in each segment to a binary number and fill 0s into a segment if the number of bits included in that segme the second segment is 111. As previously stated, when the signaling point code bits parameter is set to "BIT14", eight bits mus 101 00000111 010. 2. Convert this binary number to a decimal number. The decimal form of this binary number is 10,298.

This parameter is used for load control. It determines whether the users of special access class are allowed to access the netw

The value of this parameter consists of seven bits. Each bit determines whether to enable the one-way Boolean alarm. "0" indic In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

The value of this parameter consists of five bits. Each bit determines whether the one-way Boolean alarm is triggered by low le In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

If the number of one-way mute events exceeds the value of "Speech Channel Alarm Threshold" within this period, then the BSC

Whether to contain the information element of Speech_Ver in the Assignment Complete message

Whether to contain the information element of Speech_Ver in the Handover Perform message

Whether to contain the information element of Speech_Ver in the HO_REQ_ACK message

Whether to contain the information element of Speech Ver in the HO_RQD message

Speech version mode that the BTS uses for the VGCS call number in the timeslot in the TRX in fallback mode

Speech version mode that the BTS uses for the VGCS call number in the timeslot in the TRX in fallback mode

Speech version configured on the TRX timeslot when the BTS works in fallback mode. When "CHNTYPE" of the TRX timeslot i

Rate over the GE electrical port. When this parameter is set to 1000M, the GE electrical port performs negotiation at the rate of result can be either 100 Mbit/s or 1000 Mbit/s.

Level value of the penalty that is performed on the neighboring cells of the cell where a fast-moving MS is located. The neighbo

Period in which penalty is performed on the neighboring cells of the cell where a fast-moving MS is located. The neighboring ce

Whether to support SPLIT_PG_CYCLE on CCCH. The parameter SPLIT_PG_CYCLE is used to define the DRX period. You ca the paging group based on SPLIT_PG_CYCLE is not supported on CCCH.

This parameter specifies whether the BSC6900 supports the cell broadcast function and whether the BSC6900 supports simple If the BSC6900 supports standard cell broadcast, the BSC6900 should be connected to the CBC.

Whether to support the common bidirectional measurement procedure on the Iur-g interface.

Whether to support the bidirectional information exchange procedure on the Iur-g interface.

Whether to support In Inter-RAT Inter-cell PS Handover. The MS in the UMTS cell can be handed over to the BSC local cell thr

Whether support Out Inter-RAT Inter-Cell PS Handover. The MS in the BSC local cell can be handed over to the UMTS cell thr

Whether the function of Network Assisted Cell Change (NACC) resource guarantee is allowed. In NC2 or NACC cell reselection

Whether the BSC forwards the paging message from the trunking MSC to the MS. When this parameter is set to YES, the BSC

Whether to enable the layer 3 check mechanism on the LAPD links. If the PCU_BSC_LAPD_CHECK_ACK message cannot be Pb link, set the Pb link to fault state and report the ONE PBSL Link. Whether to enable the enhanced resource check on the Pb interface. The introduction of enhanced resource check is to improve the efficiency of resource checking and define the dependencies of The external PCU initiates the enhanced resource check. The resources to be checked, consisting of the cell resources, chann The external PCU sends the check message to the BSC. The BSC divides the check message into three independent check m

Whether to enable the single pass check function on the Pb links between the BSC and the external PCU. When the Pb link is

Whether to enable the PCIC check function on the Pb links between the BSC and the external PCU. When the configuration of are blocked, and the priority of the Pb link is lowered.

Whether to support RAN Sharing.RAN sharing refers to the technique that the GBSS equipment is categorized into multiple log

Cell supports reduced latency capability. This parameter is used to reduce the latency during the transmission, thus improving t

whether the main operator enables the RanSharing function. If the RanSharing function is enabled, one to three co-operators c

Whether the FTP client supports the state firewall

Uniquely identifies an OSP

Whether a base station supports normalized data configuration. Normalized data configuration means that the cabinets, subrac

Whether the data configuration of the SingleRAN BTS supports normalized SingleRAN mode. Normalized SingleRAN mode me

Whether the data configuration of the SingleRAN BTS supports normalized SingleRAN mode. Normalized SingleRAN mode me A cell Index must be unique in one BSC6900 . It is used to uniquely identify a cell.

Name of a cell A source cell index must be unique in one BSC. It is used to uniquely identify a source cell. The value of this parameter ranges from 0 to 2047.

Name of a source cell

Source cell ID

The batch file to be executed: The content of the batch file consists of service commands to be executed in batches. The sourc cannot appear in the file name.

Priority of the clock source

Priority of the clock source. There are four priorities (in descending order): 1, 2, 3, 4.

Whether the currently used handover algorithm in the source cell is HO Algorithm I or HO Algorithm II

Source IP address of BFD Session.

Local area code (LAC) of the source cell

Mobile country code (MCC) of the source cell

Identifies a maintenance point in the maintenance group

Mobile network code (MNC) of the source cell

Source of timeslot cross

Type of the clock source.

Source timeslot mask

Number of the subrack

Number of the subrack

Number of the subrack where the XPU board is located

Number of the subrack

Number of the subrack

It is one key field of identifying the Ater timeslot and indicates the subrack No. of the Ater interface timeslot.

Number of the subrack

Number of the subrack where the indicator alarm to be queried is generated

The subrack number for running this command

The subrack number uniquely identifies a subrack.

Subrack No. of the subsystem where the Iur-g common connection is established

Number of the subrack where the BTS board is located

Number of the subrack where the BTS board is located

Subrack number of the XPU board bound to the NSE

Subrack number of board to which Pb signaling link belongs

Number of the subrack where the port is located

Subrack number of the BSC6900 board that is connected to the BTS

Number of the subrack where the BTS board is located

Number of the subrack at one end of the inter-subrack connection channel

Number of the subrack at the other end of the inter-subrack connection channel

Name of the subrack to be added

Number of the tributary

Type of the subrack

Sequence of alarm records

Traffic local weight over the local NSVL. When this parameter is set to a large value, the NS is more likely to select this IP point

Traffic local weight over the remote NSVL. When this parameter is set to a larger value, the NS is more likely to select this IP p

The parameter specifies which type of service TRXs should be preferentially processed when the PSU is faulty.

Service type of the IP interface board. The service type can be CS speech, CS data, PS high priority, or PS low priority.

After a handover due to bad quality is successful, the penalty on the original serving cell is performed within the "Penalty Time

CPU usage alarm clearance threshold

CPU usage alarm threshold. When the CPU usage exceeds the threshold, a CPU usage alarm is reported. "CPU occupancy al

DSP usage alarm clearance threshold. When the DSP usage is lower than the threshold, the DSP usage alarm is cleared.

DSP usage alarm threshold. When the DSP usage exceeds the threshold, a DSP usage alarm is reported. "DSP occupancy ala

When the network receives measurement reports, the measurement values in several straight measurement reports are filtered traffic/data channels.

When the network receives measurement reports, the measurement values in several straight measurement reports are filtered signaling channel.

Number of the subsystem

No. of the subsystem where the Iur-g common connection is established

Start synchronization number of the alarm record

After the time advancing handover is successful, the penalty on the original serving cell is performed within the "Penalty Time a

Start of DST

The operation time of the log record should be after this time. If this parameter is not specified, the start time is not limited.

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter.

The operation time of the log record should be after this time. If this parameter is not specified, the start time is not limited.

Start time of the alarm record. By default, the start time is 00:00:00.

Start time of the alarm record. By default, the start time is 00:00:00.

A key parameter that indicates the date and time when the BSC6900 broadcasts cell messages

Start number of the alarm record

Whether to preferentially use the variable bitmap code when encoding the frequency in the System Information and encoding th

This parameter indicates whether the arrival of channel request messages is controlled.

It indicates the start CIC of the A interface CIC segment. When operation mode is set to OPC index, DPC group index, BSC ID

It indicates the start CIC of the Pb interface CIC segment. If the search object mode is set to search by the specified range, the

This parameter specifies the start date of a period during which the TRX Intelligent Shutdown feature is disabled.

When the environment temperature reaches the specified value of this parameter, the heater is started. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

This parameter specifies the start month of a period during which the TRX Intelligent Shutdown feature is disabled.

This parameter indicates whether the arrival of paging messages are controlled.

This parameter indicates whether the arrival of PS resource request messages is controlled.

Number of the start sub-timeslot

Time for which the BTS waits to start the fallback function after the OML is interrupted. With this parameter, the BTS does not s

This parameter specifies the start time for dynamically enabling the TRX Intelligent Shutdown feature each day.

It indicates the start CIC of the Ater interface CIC segment.

It indicates the start CIC of the A interface CIC segment. When Operation mode is set to subrack number, slot number, port num

Number of the start timeslot

Whether to enable the smart temperature control mechanism of the FMUA. Smart temperature control refers to the mechanism In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to enable the smart temperature control mechanism of the NFCB. Smart temperature control refers to the mechanism

Number of the start CIC. The C/C of each E1/T1 timeslot can be calculated on the basis of this parameter. Assume that the sta timeslots are all 65535.

Number of the cabinet where the outgoing port of the BTS is located

Start date. The input format is YYYY&MM&DD.

Number of frequencies measured in each group (excluding the frequencies in the original BA table).

Satellite flag

Start time

Whether to enable the EICC algorithm. Enhanced Interference Rejection Combining combines the signals received by multiple

This parameter specifies whether the sending of system information 5, 5bis, and 5ter can be stopped on the SACCH on the SD

Time for which the BTS waits to stop the fallback function after the OML is set up. With this parameter, the BTS does not stop t

Whether to enable the signaling point with the signaling transfer function

Number of the outgoing port of the BTS where the monitoring timeslot is located

Start time of frequency scanning

Number of the slot where the outgoing port of the BTS is located

Number of the subrack where the outgoing port of the BTS is located

Number of the sub-timeslot on the outgoing port of the BTS

Start time. The input format is HH&MM&SS.

Number of the timeslot on the outgoing port of the BTS

Type of the BTS.

ID of the BSC in the TC pool where an A interface circuit is blocked or unblocked

ID of the BSC in the TC pool to which an A interface E1/T1 is added

Command string that is transparently transmitted to the BTS

Maximum sub-frame length. This parameter indicates the maximum sub-frame length for multiplexing. If the length of a sub-fram

Maximum sub-frame length. The data stream to be multiplexed on the same multiplexing channel must be of the same type, an multiplexed.

Number of the scheduled subtask

Subnet Number in a BSC

This parameter specifies whether the CS services preempt the sublink resources of PS services.

Whether to allow the CS services to preempt the sublink resources of PS services when the Abis resources are congested

Number of the sub-timeslot on the port

Sub-version No. of the TMU board. It is configured according to the actual situation.

Whether the CIC circuits in use on the A interface can be assigned. When this parameter is set to YES and the MSC assigns n new calls to the ongoing A interface circuit, the new calls are rejected, and the original calls are not affected.

Whether to use Back-up port for LINE2

Whether to use Back-up port for LINE1

Whether to support the broadcast of the cell name

Whether to support the high multislot class. High multislot class function enables a single MS to be allocated with a maximum o timeslots on the downlink can be assigned to an MS. If an MS is of the high multislot class 34, a maximum of five timeslots on t timeslots on the downlink are allocated to the MS, then only one timeslot on the uplink can be allocated to the MS.

Whether to support dual transfer mode (DTM). The DTM allows an MS to use the circuit switching service and the packet switch

Whether to support EDA. Extended dynamic allocation (EDA) enables the MS to be allocated with more timeslots on the uplink

Whether to support the enhanced DTM function. Comparing to the DTM, the enhanced DTM improves the CS setup and releas

Whether the FE/GE BTS supports inter-BTS local switching

Support intracell handover to change the active speech version, then can increase the usage of TFO(Tandem Free Operation)

Whether to support the cell list in the common measurement messages over the Iur-g interface. When this parameter is set to Y in the cell list in the sent common measurement messages, such as the common measurement report, common measurement

Minimum timeslots between two successive channel requests. After sending the access request, if the MS does not receive the

Server IP address used on the SGSN side in the IP subnet dynamic configuration procedure

Server UDP port number used on the SGSN side in the IP subnet dynamic configuration procedure

Operating state of the environment alarm port

If this parameter is set to "ON", you must set "OMU automatic switchover interval". Otherwise, "OMU automatic switchover inter

Switch for authenticating objects. When the switch is enabled, the BSC system authenticates the BTS objects of the user; when

Whether to enable the alarm port

Power switch state.

Weekday on which DST starts

State of the panel port switch

Switch for the OMU self-healing

Grace Protection Period Switch determines whether to enter the grace protection period.

Turn on or turn off the BFD protocol switch

Whether to enable the board parameters to be configured. If this parameter is set to "YES", the user can set board parameters

Whether to enable the 3ah function on the BTS port.

The field indicates whether the primary path can be switched back when it is available.

The association is smoothly switched over to the primary path after the number of heartbeat responses is received.

Set patch switch parameter1

Set patch switch parameter10

Set patch switch parameter2

Set patch switch parameter3

Set patch switch parameter4

Set patch switch parameter5

Set patch switch parameter6

Set patch switch parameter7

Set patch switch parameter8

Set patch switch parameter9

Number of the switching port. If "Link Attribute" is set to "BBU", the switching port must be configured. The value ranges from 3

Whether to enable the local user management function

Sequence of the start week of DST

Symbol offset of the BTS set manually. After the offset information of the BTS is collected, the symbol offset is adjusted. Adjust

Synchronization status. This parameter is used to identify different 3G cells. This parameter should be same with the configurat

Site synchronization method. AISS stands for the air-interface soft synchronization method, and GPS stands for the GPS synch

Synchronization mode of the IP clock

Interim synchronization period (in days). The BTS can re-initiate the synchronization only after the period.

Interim synchronization period (in hours). The BTS can re-initiate the synchronization only after the period.

System flux thresholds correspond to the system flux obtained based on message packets, CPU load, and FID queuing load. T Interim synchronization period (in minutes). The BTS can re-initiate the synchronization only after the period. 0-11: There are 12 flow control levels. Where, 0 indicates the lowest level and 11 indicates the highest level.

A load handover is allowed only when the system flux is lower than the value of this parameter. The handover performed over t Contact way of the Base Station supplier [(Average Message Usage - InnerController Flow Control Discard Begin Threshold)/(Inner Flow Control Discard All Threshold - Inner Flow greater than Inner Flow Control Discard Begin Threshold, the level is calculated. The value range is from 0 to 11. 2) Flow control threshold for theController CPU to start to discard the channel access messages and paging messages: 80% Description of the Base Station . Flow control threshold for the CPU to discard all channel access messages and paging messages: 100%

. CPU usage smaller than 80% corresponds to level 0. CPU usage equal to or greater than CPU flow control threshold 80% cor

Location of the Base Station Controller

Whether sending the system information type 10 message on the VGCS/VBS TCH is allowed. For detailed information, see the

Name of the Base Station Controller of Network Element

Services provided by the Base Station Controller

Timer T1, specifying the duration of monitoring the BVC blocking (unblocking) procedure.

Value of the first timer for the PTU handshake

When the reception of a TFP causes unavailability of a route, this timer is started to regularly check whether the route is recove

This timer is a protection timer waiting for an uninhibit acknowledgement message (LUA) from the peer end after an uninhibit m

This timer is a protection timer waiting for a force uninhibit acknowledgement message (LUA) from the peer end after a force un

This timer is a protection timer waiting for an inhibition acknowledgement message (LIA) from the peer end after an inhibition m

This timer is started when a link fails to be started. The restart of the link is initiated after this timer expires.

When a normal changeover cannot be initiated, services will be changed over to an alternative link after this timer expires to av

Timer T2, specifying the duration of monitoring the procedure of resetting SIG BVC and PTP BVC.

Value of the second timer for the PTU handshake

Timer in the LAPD protocol. The value of the timer indicates the time when the LAPD link waits for the response or acknowledg

This parameter specifies the expiry value of timer T200 used for the FACCH/TCHF over the Um interface. For the function of tim

This parameter specifies the expiry value of timer T200 used for the FACCH/TCHH over the Um interface. For the function of ti

This parameter specifies the expiry value of timer T200 used for the SACCH over the Um interface when the TCH supports SA This parameter specifies the expiry value of timer T200 used for the SACCH on the SDCCH. For the function of timer T200 and the effect of the parameter, see the description of "T200 SDCCH".

This parameter specifies the expiry value of timer T200 used for the SACCH over the Um interface when the TCH supports SA This parameter specifies the timeout value of timer T200 used for the SDCCH over the Um interface. T200 prevents the data link layer from deadlock during data transmission. The data link layer transforms the physical link that is Each message must be confirmed by the peer end. In unknown cases, both ends are waiting if a message is lost. At this time, t the transmit end retransmits the message. The number of retransmissions is determined by N200. T200 and the N200 ensure t This parameter specifies the expiry value of timer T200 when the SDCCH supports SAPI3 services. For the function of timer T200 and the effect of the parameter, see the description of "T200 SDCCH".

Timer in the LAPD protocol. The value of the timer indicates the maximum duration for no frame exchange in the LAPD link.

After a local link is inhibited, this timer is started to regularly check the management states at both ends of the link.

After a remote link is inhibited, this timer is started to regularly check the management states at both ends of the link.

This timer is a protection timer waiting for an extended changeover acknowledgement message (XCA) from the peer end after

Timer T3. T3 is started after the message SUSPEND is received on the BSC side. T3 is stopped after the message SUSPEND

Value of the third timer for the PTU handshake

When the BTS sends physical information to the MS, the BTS starts the timer T3105.If the timer T3105 expires before the BTS Phy.Info.". For details, see GSM Rec. 04.08 and 08.58.

Timer for retransmitting the VGCS UPLINK GRANT message

T3168 is used to set the maximum duration for the MS to wait for the uplink assignment message. After the MS originates the u assignment message on the network side. If the MS receives the packet uplink assignment message before T3168 expires, T3

Duration of releasing the TBF after the MS receives the last data block. When the MS receives the RLC data block containing t acknowledgement and the timer T3192 is started. If the timer T3192 expires, the MS releases the TBF related resources and st MS is the half duplex mode and receives no packet uplink assignment message, the MS enters the packet idle mode. If the MS

This parameter specifies the length of the timer for periodic location update.

Timer on the DTE side, specifying the duration of acknowledging the sending BC link integrity.

When a normal changeback cannot be initiated, services will be changed back to a normal link only after this timer expires to av

Timer T4. T3 is started after the message v is received on the BSC side. T4 is stopped after the message RESUME ACK is rec

This timer is a protection timer waiting for a changeback acknowledgement message (CBA) from the peer end after the first cha

Timer T5. When the downlink TBF is set up, if the BSC side does not receive the valid RACAP, the BSC originates the radio ac

This timer is a protection timer waiting for a changeback acknowledgement message (CBA) from the peer end after the second

Timer T6. The BSC sends the SGSN request to download the BSS PFC. When the QoS parameter is obtained, the timer is sta

Timer T8. The BSC sends the SGSN request to download the BSS PFC. When the QoS parameter is obtained, the timer is sta

This timer is started when a transmission prohibited message (TFP) is sent. The TFP will not be sent any more during the runn

When the network receives measurement reports, the measurement values in several straight measurement reports are filtered

Whether the TA is used as a decisive condition for the concentric cell handover

Whether to enable the time advance (TA) handover. The TA handover determines whether the timing advance (TA) is higher th longer the distance is, the greater the TA value is.

One of the parameters that determine the coverage of the OL subcell and UL subcell. When "Enhanced Concentric Allowed" is set to OFF, "TA Hysteresis", "RX_LEV Threshold", "RX_LEV Hysteresis", "RX_QUAL When "Enhanced Concentric Allowed" is set to ON, "TA Hysteresis", "UtoO HO Received Level Threshold", "OtoU HO Receive

The P/N criterion must be met for triggering a TA handover. That is, the TA handover can be triggered only if P measurement re

An emergency handover is triggered when TA is greater than or equal to the value of this parameter.

This parameter specifies the interval of broadcasting the speech data of the talker on the downlink group call channel that is co

When the network receives measurement reports, the measurement values in several straight measurement reports are filtered

Unique identifier of the Um interface software synchronization task

The P/N criterion must be met for triggering a TA handover. That is, the TA handover can be triggered only if P measurement re

One of the parameters that determine the coverage of the OL subcell and UL subcell. Number of the output segmentAllowed" is set to OFF, "TA Hysteresis", "RX_LEV Threshold", "RX_LEV Hysteresis", "RX_QUAL When "Enhanced Concentric 1: Segment 1 describes the basic information the "TA equipment. When "Enhanced Concentric Allowed" is set toofON, Hysteresis", "UtoO HO Received Level Threshold", "OtoU HO Receive 2: Segment 2 describes the connection information. 3: Segment 3 describes the module information. Output Segment No. 4: Segment 4 describes the configuration information. 1: Segment 1 describes basic information theequipment. equipment. Filter period 5ofdescribes the signalthe strength in the of packet transmission mode of the MS. The MS in the packet transmission mode measu 5: Segment the information the of peer 2: Segment 2 describes the connection information. 6: Segment 6 describes the version information of the host. 3: information. 7: Segment Segment 3 7 describes describes the the module cabinet information. 4: Segment 4 describes the configuration information. 8: Segment subrack information. Filter period 8 ofdescribes the signalthe strength in the packet idle equipment. mode of the MS. The MS in the packet idle mode measures the downlink s 5: Segment 5 describes the information of the peer 9: Segment 9 describes the board information and electronic label information of the Flash. 6: Segment 6 describes the version information of the host. 10: Segment 10 describes the slot information. 7: describes thethe cabinet information. 11:Segment Segment711 describes port information. 8: Segment 8 describes the subrack information. 12: Segment 12 describes the antenna information. 9: Segment 9 describes the board information and electronic label information of the Flash. 10: Segment 10 describes the slot information. 11: Segment 11 describes the port information. 12: Segment 12 describes the antenna information.

Maximum time in which the BTS attempts to set up the OML after swapping the main and backup OMLs. If the BTS fails to set

The BTS repeatedly attempts to connect to port 0 or port 1 after the switchover. If the connection on one port fails within the tim

Test code for the MTP3 link. After the successful test, the link can be used for carrying signaling services. If the test fails, the M 170.

Timer Tc, specifying the interval for the BVC and MS to send flow control messages. When this parameter is set to a smaller va and MS send flow control messages, certain bandwidth is required. If this parameter is set to a too small value, the transmissio transmission performance and provide more bandwidth.

Temperature compensation coefficient. This parameter defines the charging voltage increase or decrease unit of each battery w In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

This parameter specifies the cyclic redundancy check (CRC) switch, which can be set to On or Off. The value of this parameter

Whether to allow the cell to dynamically change a channel from full rate to half rate or from half rate to full rate. If this paramete to determine the channel assignment priority. The channels in a TRX that does not allow dynamic adjustment take priority.

If the current channel seizure ratio reaches or exceeds this value, the half-rate TCH is assigned preferentially; otherwise, the fu

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the DL FER carried in the las

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the downlink level carried in t

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the downlink quality carried in

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the UL FER carried in the las

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the uplink level carried in the

When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the uplink quality carried in th

After a new TCH is assigned to an MS, the MS can be handed over to another channel only if the time during which the MS occ

Maximum number of discarded MRs allowed on the TCH in a power control period

Whether the TCH rate type uses the MSC strategy or BSC strategy. When this parameter is set to NO and the MSC policy is us and the BSC policy is used, the BSC preferentially selects full-rate or half-rate channels based on the internal load.

This parameter specifies the interval at which the speech service on a TCH is handed over.

This parameter specifies whether to perform periodic intra-cell handover for speech services on TCH.

Threshold for determining that the underlaid subcell is busy. The BSC assigns channels in the underlaid subcell to the MS in a value of this parameter, and full-rate channels are assigned if the channel seizure ratio in the underlaid subcell does not exceed

The BSC assigns channels in the overlaid subcell to the MS in a concentric cell. If the channel seizure ratio of overlaid subcell i Channel seizure ratio = (Num. of busy TCHF + Num. of busy TCHH/2)/(Num. of available TCHF + Num. of available TCHH /2) x concentric cell.

Mode of TC. Test code length of the signaling link. By default, the value is 10. SEPERATE_PRINCIPAL: Specifies that the MTP3 link is configured for the primary BSC in the case of BM/TC separated config SEPERATE_SUBORDINATE: Specifies that the MTP3 link is configured for the slave BSC in the case of BM/TC separated con TOGETHER: Specifies that the MTP3 link is configured in the case of BM/TC combined configuration mode. SEPERATE_BSC_INTERFACE: Specifies that the MTP3 link is configured for the primary BSC in the case of BM/TC separate

Whether to enable the class-1 mute detection.

Number of the cabinet where the main board of the RXU ring is located

Number of the TC port where one end of the ATER connection channel is located

If you enable the TC pool function when configuring the basic information of the BSC6900, you need to enter the TC Pool ID. T

Number of the TC slot where one end of the ATER connection channel is located

Number of the TC subrack where one end of the ATER connection channel is located The type of TC resource GTC: TC resources that support normal voice coding/decoding and packet conversion UTC: TC resources that support only the optimized handover on the Iur-g interface ITC: TC resources that support only the dual-stack function on the A interface Input mode of the BA table. In auto mode, the system fills in the BA1 and BA2 tables based on the adjacent relation of cells. In tables.

When the priority of a TDD cell is ranked, the value of this parameter is added to the receive level of the TDD cell in the measu The values this BA2 parameter the followingaccording decibel values: Whether theofFDD table iscorrespond generated to automatically to the neighboring relation or typed manually. 0: 0 dB A TDD cell can become a candidate cell only when the average receive level of the TDD cell is greater than the TDD Cell Rese 1: 6 dB The value of this parameter corresponds to the following decibel value: ... 0: 7: negative 42 dB infinity Threshold 1: -28 dB for determining whether the MR about a TDD cell is valid. The measurement report is valid if the receive level of the TDD cell in the measurement report is greater than the value of this p 2: -24 dB The value of this parameter corresponds to the following decibel value: ... 0: 0 dB 15: 28 dB 1: 6 dB ... 6: 36 dB 7: positive infinity

This parameter specifies whether to activate the diversity mode on the common channel of a 3G cell.

Downlink frequency of frequency 1 in table 3GBA2. This parameter indicates the detected downlink frequency in the 3G adjace

This parameter specifies whether the TDD MI system information optimized function is enabled. When this parameter is set to N system information carries neighboring cell scrambling codes.

This parameter specifies whether to send the system information MI which contains the 3G neighboring cell information in the T

Minimum RSCP quality threshold that the TDD 3G candidate cell must reach

TDD cell parameter ID. The ID is used to distinguish terminals or cells. This parameter is used after spread spectrum. Therefore

Cell parameter ID of a TDD cell. The cell parameter ID distinguishes between MSs or cells. It is used after spread spectrum. Th spectrum.

This parameter specifies whether to optimize the system information 2Quater and MI of the TDD neighboring cell. That is, to ad

SyncCase in the TDDBA1 table. This parameter determines the synchronization status. Value 0 indicates Sync case 1 and valu

If the ratio of available TDM bandwidth is greater than this value, congestion control is stopped.

If the ratio of available TDM bandwidth is less than or equal to this value, congestion control is triggered.

Each subrack has six TDM port numbers, ranging from 0 to 5. Subrack 1 TDM Port No. refers to the TDM port number on subra

Each subrack has six TDM numbers, ranging from 0 to 5. Subrack 2 TDM Port No. refers to the TDM number on subrack 2 of th

Terminal endpoint ID of the Pb signaling link

Temperature alarm switch

Upper limit of temperature

Lower limit of temperature

When the environment temperature of the APMU is greater than the value of this parameter, the BTS reports an alarm. For the In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

When the environment temperature is greater than the value of this parameter, the BTS reports an alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

When the environment temperature of the APMU is less than the value of this parameter, the BTS reports an alarm. For the AP In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

When the environment temperature is less than the value of this parameter, the BTS reports an alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Change value of the floating charge voltage of the storage battery when the temperature of the storage battery changes by 1 d

Description of a cell template.

This parameter specifies the index number of a cell template. Each template is numbered uniquely in a BSC6900.

This parameter specifies the index number of a cell template. Each template is numbered uniquely in a BSC6900.

Name of a cell template, uniquely identifying a cell template in a BSC6900.

When the temperature of the BTS cabinet is greater than the value of this parameter, the TRX is powered off.

TRX power-off temperature threshold. If the temperature of the BTS cabinet is less than the value of this parameter while "Low

TRX power-off temperature threshold. If the temperature of the BTS cabinet is less than the value of this parameter while "Low In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether the System Information Type 3 message carries TER indication.

Duration of the timer for starting the IP path status test on the Gb interface

Content of the cell broadcast message

AEC is an important measure to improve the speech quality. If the AEC works for a consecutive time that is longer than the valu

In the VSWR test, the TRX transmits signals at a default frequency. You can specify the frequency used for the test.

This parameter indicates start frame number of the BTS. It is used to keep synchronization between the BTS and MS after the

Target OMU

TGW ID

This parameter indicates the address of the operation and maintenance console for TGW.

This parameter indicates the mask of the operation and maintenance console for TGW.

Slot number of the BSC6900 interface board interworking with TGW.

Subrack number of the BSC6900 interface board interworking with TGW.

Timer Th. After receiving the MS flow control message, the SGSN uses the values of the updated Bmax and R based on the in suitable flow control parameters, which can improve the transmission performance. When this parameter is set to a greater valu

Voltage threshold for switching off the air conditioner. If the power supply voltage is less than this threshold, the air conditioner

Voltage threshold for switching on the air conditioner. This parameter assumes that the air conditioner is switched off. If the pow

Combination of the THP1 and ARP1 priority in the Interactive service. THP1-ARP1 priority weight determines the number of the

Combination of the THP1 and ARP2 priority in the Interactive service. THP1-ARP2 priority weight determines the number of the

Combination of the THP1 and ARP3 priority in the Interactive service. THP1-ARP3 priority weight determines the number of the

Combination of the THP2 and ARP1 priority in the Interactive service. THP2-ARP1 priority weight determines the number of the

Combination of the THP2 and ARP2 priority in the Interactive service. THP2-ARP2 priority weight determines the number of the

Combination of the THP2 and ARP3 priority in the Interactive service. THP2-ARP3 priority weight determines the number of the

Combination of the THP3 and ARP1 priority in the Interactive service. THP3-ARP1 priority weight determines the number of the

Combination of the THP3 and ARP2 priority in the Interactive service. THP3-ARP2 priority weight determines the number of the

Combination of the THP3 and ARP3 priority in the Interactive service. THP3-ARP3 priority weight determines the number of the

Load balance threshold type. It indicates the threshold calculation mode.

This parameter specifies the timer set to wait for a private message from the SGSN. During channel assignment, the assignment of channels on the BCCH TRXs depends on the uplink receive level, quality, and n 1. The uplink receive level after filtering is higher than "Level Thresh. for Assigning Main BCCH Carrier Channel Under TIGHT B 2. The uplink receive quality level after filtering is lower than "Quality Thresh. for Assigning Main BCCH Carrier Channel Under 3. The non-BCCH load is higher than "Intracell Non Main BCCH Load Threshold of TIGHT BCCH".

During channel assignment, the assignment of channels on the BCCH TRXs depends on the uplink receive level, quality, and n 1. The uplink receive level after filtering is higher than "Level Thresh. for Assigning Main BCCH Carrier Channel Under TIGHT B 2. The uplink receive quality level after filtering is lower than "Quality Thresh. for Assigning Main BCCH Carrier Channel Under 3. The non-BCCH load is higher than "Intracell Non Main BCCH Load Threshold of TIGHT BCCH".

The P/N criterion must be met for triggering a TIGHT BCCH handover. That is, the TIGHT BCCH handover can be triggered on During channel assignment, the assignment of channels on the BCCH TRXs depends on the uplink receive level, quality, and n 1. The uplink receive level after filtering is higher than "Level Thresh. for Assigning Main BCCH Carrier Channel Under TIGHT B 2. The uplink receive quality level after filtering is lower than "Quality Thresh. for Assigning Main BCCH Carrier Channel Under 3. The non-BCCH load is higher than "Intracell Non Main BCCH Load Threshold of TIGHT BCCH".

The P/N criterion must be met for triggering a TIGHTBCCH handover. That is, the TIGHTBCCH handover can be triggered only

When an intra-cell TIGHT BCCH handover needs to be performed (handover from the non-BCCH to BCCH), the downlink rece

Whether to enable the BCCH aggressive frequency reuse algorithm If the SDCCH load on the TRXs of the compatible BCCH in loose frequency reuse pattern is greater than the "IBCA Loose Trx Otherwise, the SDCCHs on the TRXs of the compatible BCCH are preferentially assigned.

IMSI paging timer. After enabling the MSC pool function, the BSC6900 receives from the MSC the paging message attached w If the BSC6900 receives a response message with the IMSI before the timer expires, the BSC6900 locates the destination MSC If the BSC does not receive a response when the timer expires, the BSC6900 clears the relation information between the IMSI

Whether to limit the operation time of the operator

Time

Duration of frequency scanning

Within the preset time, no AMR FR-to-HR handover is allowed if the previous FR-to-HR handover fails due to channel unavaila

After a handover due to bad quality is successful, the penalty on the original serving cell is performed within the "Penalty Time

After an OL subcell to UL subcell handover of an MS fails, the MS does not perform OL subell-UL subcell handovers within the

Indicates the timeout time of the PING packet

Timeout time for waiting for the TRACERT packet response

Timeout time

Indicates the timeout time of the CFM link tracing detection

Longest waiting time for multiplexing When the multiplexed packet is no longer added with new data and the timer expires, the multiplexed packet is transmitted dire This parameter is determined by the number of multiplexed packets. When the number of multiplexed packets increases, the va

After the fast handover is successful, the penalty on the original serving cell is performed within the "Quick handover punish tim

Indicates the times of sending PING packets

This parameter determines whether the dynamic voltage adjustment function is enabled on the basis of the number of timeslots this function.

After the time advancing handover is successful, the penalty on the original serving cell is performed within the "Penalty Time a

After an UL subcell to OL subcell handover of an MS fails, the MS does not perform UL subcell to OL subcell handovers within

This parameter indicates the queue timer for assignment. When the BSC6900 receives an assignment request and no channel is available for assignment, the BSC6900 starts the queui

If the BSC6900 receives the configuration data about all the connected MSCs before the timer expires, the BSC6900 conclude

When the operation time of the OMU exceeds the value specified by this parameter, some records are deleted from the operati

Temporary logical link ID in the decimal format

Lowest expected value of the air outlet temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Temperature alarm lower threshold. If the temperature of the battery is lower than the value of this parameter, an alarm indicati In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

When the internal temperature of the BTS reaches the Temperature Alarm Lower Threshold, it reports a low temperature alarm In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

When the time mode is set to "ONTIME", you should set this parameter.

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies

If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies

TRMMAP index

Index of the traffic mapping used by the current adjacent node's gold user.

Loopback time length

Test mode

Duration time for determining that a call is hung up because of poor quality. If the uplink quality or downlink quality in the meas disconnection is due to poor quality. This parameter can be used to calculate the number of call disconnections due to poor qua

Maximum rate of the accumulated alarm blink duration to the alarm blink measurement period. Assume this threshold is not 0. W measurement period, see "SET ALMBLKSW".

TMSI of the MS

Minimum rate of the accumulated alarm blink duration to the alarm blink measurement period. Assume this threshold is not 0. W blink measurement period, see "SET ALMBLKSW".

This timer is a protection timer waiting for a signalling link test acknowledgement message (SLTA) from the peer end after a sig

This timer is used to send the signalling link test messages (SLTM) to the peer end regularly.

Name of the data table distributed on the board.

The Ater signaling link operates in the terrestrial transmission or satellite transmission mode. In the areas such as desert and la

E1 transmission type of the Pb interface. The terrestrial transmission or satellite transmission can be selected. In the areas suc

Offset to DST, namely, the adjustment to time.

Cell Reselect Temporary Offset (TO) indicates the temporary correction of C2. This parameter is valid only within the value spe

Number of the cabinet where the board is located

Number of the slot where the board is located

Number of the subrack where the board is located

Type of the host log to be collected. If this parameter is set to NORMAL, the text log in the \common\fam\famlog directory of the OMU installation path is collected a If this parameter is set to FORMAT, the binary log in the \common\fam\famlogfmt directory of the OMU installation path is collec

Number of the optical port where the main board of the RXU ring is located.

Length of the timer that is started to wait for a channel requested by an incoming BSC handover request message. When the MSC allows the queuing of incoming BSC handover requests, the BSC6900 starts the queuing procedure and the tim

CPU usage threshold for debugging tracing flow control. When the average CPU usage of sliding windows reaches or exceeds

Packet queue usage threshold for debugging tracing flow control. When the average packet queue usage of sliding windows re

CPU usage threshold for recovery from debugging tracing flow control. When the average CPU usage of smooth windows is low

Packet queue usage threshold for recovery from debugging tracing flow control. When the average packet queue usage of smo

Whether to control the debugging tracing flow

Threshold for determining whether the uplink service is preferred. Within the "Flux Measurement Period", if the ratio of the down

Threshold for determining whether the uplink service is preferred. Within the "Flux Measurement Period", if the ratio of the uplin Traffic mode of the M3UA link set. At present, only the active/standby and load sharing mode is available. If the M3UA links in the link set work in overriding mode, only one link in the link set works in the active mode, and all other link automatically activated to take over as the active link. If the M3UA links in the link set work in load-sharing mode, all the M3UA links in the link set work in active mode and carry traff This parameter specifies the data transmission mode between the BTS and the BSC6900. The license control modes are differ Terrestrial Transmission: The data between the BTS and the BSC6900 is transmitted through the E1 or fiber. This transmission Satellite Transmission: The data between the BTS and the BSC6900 is transmitted through the satellite. This transmission mod Terrestrial and Satellite: In normal cases, the terrestrial transmission mode is used. When the terrestrial transmission is faulty, t

Slot number of the transparently transmitting interface board

Transport type of the adjacent node to which the path belongs.

Transport type

Transport type

Transmission type of the BTS

Transmission Type

Whether to configure the optical transmission mode for E1 port 0 of the BTS3006C/BTS3002E. If the optical transmission mode

Whether to configure the optical transmission mode for E1 port 1 of the BTS3006C/BTS3002E. If the optical transmission mode

Whether to configure the optical transmission mode for E1 port 2 of the BTS3006C/BTS3002E . If the optical transmission mod

Whether to configure the optical transmission mode for E1 port 3 of the BTS3006C/BTS3002E. If the optical transmission mode

Whether to enable the limit of the tracing range

Forbidden time of cell reselection

The load handover is triggered when the traffic load in a cell is greater than the value of this parameter.

Port number of the aggregation member

Slot number of the aggregation member

aggregation group number

Specified TRMMAP index of the user panel

TRM load threshold index. The TRM load threshold must be configured.

TRM load threshold index

TRM load threshold index. It is the unique ID of the load threshold.

TRM load threshold index

TRM load threshold index

TRM load threshold index

TRM load threshold index

Transmission resources mapping switch

Trunk group number of the logical port

TRUNK group number

TRUNK group number

Whether to enable the TRX aiding function. Four aiding modes are available. BCCH aiding: The main BCCH is aided to anothe baseband FH in the cell is faulty or BCCH aiding is performed in the cell, baseband FH aiding occurs and the cell is initialized a aiding switchback can be performed and the cell is restored to the baseband FH mode.

Duration

Frequency hopping index of the channel in the TRX

Index of a TRX, uniquely identifying a TRX in a BSC6900.

The ID of TRX added in the main location group, the TRX ID must be globally unique. The same TRX cannot be bound by the T

Index of TRX 1

Index of TRX 10

Index of TRX 11

Index of TRX 12

Index of TRX 13

Index of TRX 14

Index of TRX 15

Index of TRX 16

Index of TRX 17

Index of TRX 18

Index of TRX 19

Index of TRX 2

Index of TRX 20

Index of TRX 21

Index of TRX 22

Index of TRX 23

Index of TRX 24

Index of TRX 3

Index of TRX 4

Index of TRX 5

Index of TRX 6

Index of TRX 7

Index of TRX 8

Index of TRX 9

List of IDs of carriers for frequency hopping.

List of TRX indexes. You can specify one TRX index or more TRX indexes, for example, 1 or 0&1&2&&5 in the same BTS.

Mobile allocation index offset (MAIO) of the channel in the TRX

Number of a TRX in a BTS. The number of a TRX is unique in a BTS.

Allowed number of carriers bound to a board.

Number of the channel bound to the TRX on the TRX board. TRX Pass No. of the DTRU/DRRU/BTS3900B of the BTS in sepa in 0 to 7.

TRX board pass number in the sub-location group to which the TRX of the main location group is bound

This parameter specifies whether the TRX priority is considered during channel assignment. When the parameter is set to YES

Type of the TRX board bound to the TRX

It indicates the Ater interface timeslot number

It indicates the A interface timeslot number. The parameter supports multiple values.

Timeslot number

Timesolt of bearing channels

Number of the timeslot on the port

Bearer E1/T1 port timeslot of PPP link.

Bearer E1/T1 port timeslot of MP link.

Timeslot of the E1/T1 link carrying the PPP link. The timeslot of an E1 port cannot be used by different PPP links. The TSC is short for the Training Sequence Code. The TSC must be the same as the BCC. The delay equalization is performed by using the specified TSC when the MS or BTS incorrectly invalid reception, and prevent the co-channel interference.

Number of idle timeslots. You can configure up to 128 idle timeslots for the BTS at a time. A BTS can be configured with up to 5

Whether to allow TSC planning. If this parameter is set to No, the TSC values in all MA groups of the cell cannot be modified. In

Timeslot cross index

Duration in timeslot mode

Index of the monitoring timeslot. The index is unique in a BTS.

Name of the scheduled task.

Time slots for Ater operation and maintenance. These time slots are provided by the ports connected to the Ater connection pa

The 64 kbit/s timeslots on the port are numbered from 1 to 31.

Number of the slot where the main board of the RXU ring is located. The slot No. is unique in the same BTS.

Timeslot number of Pb signaling link

Assignment priority level of the channel. If this parameter is less, the assignment priority level of the channel is higher.

Maximum degree by which the output power of the multi-density TRX board can exceed the maximum output power within a sh

Fast flux measurement duration. Normal flux measurement is performed after the fast flux measurement lasts over the period s

Whether to enable fast flux detection. When this parameter is set to Open, fast timeslot adjustment is possible after the TBF is

Rate of the monitoring timeslot

Number of the subrack where the main board of the RXU ring is located. The subrack No. is unique in the same BTS.

Test mode

Test timeslot

Type of battery test

Test Type. PIM:passive intermodulation test.

This parameter specifies whether to allow the BTS to enable the TRX Intelligent Shutdown on Timeslot Level feature. When thi

RXU topology type, that is, RXU ring topology or RXU chain topology. In the case of the ring topology, the optical ports of the h

TTL(Time to Live) of the PING packet

Indicates the live time of the packet for CFM link tracing detection

If the number of channels (including PDCH and TCH) occupied on a cell that can be disabled is lower than this threshold, the p

This parameter specifies the end time of a period during which the cell is disabled.

This parameter specifies the start time of a period during which the cell is disabled.

This parameter specifies whether to enable the Dynamic Cell Power Off feature. When this parameter is set to ENABLE, the BS When this parameter is set to DISABLE, the BSC will never disable the cell; When this parameter is set to SLEEP, the BSC wil SLEEPING only for the BTS3900E. For other base stations, this parameter cannot be set to SLEEPING.

When the load of the same coverage cell is higher than this threshold for a period, the disabled cell is enabled.

Temperature alarm upper threshold. If the temperature of the battery is higher than the value of this parameter, an alarm indica In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Temperature upper threshold of the cabinet. When the cabinet temperature is higher than this parameter, an alarm indicating th In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Value of the timer for reserving the channels in the observed cell

Value of the timer for reserving the TRXs in the observed cell

Value of the timer for reserving the TCHFs in the serving cell Tx-integer (T for short). This parameter specifies the number of timeslots between two transmissions when an MS sends multip The access algorithm is defined in GSM Rec. 04.08 to reduce the collisions on the RACH and improve the efficiency of the RAC This parameter works with the configuration of the CCCH to determine the parameter S. The relations between this parameter Value of timer for is waiting response collection When thisthe parameter set tofor 3, the 8, 14, or 50, Stoisinformation 55 if the CCCH and SDCCH do not share a physical channel. When this parameter is set to 3, 8, 14, or 50, S is 41 if the CCCH and SDCCH share a physical channel. When this parameter is set to 4, 9, or 6, S is 76 if the CCCH and SDCCH do not share a physical channel. When thisthe parameter set to 4, for 9, or S is 52 if the CCCH and SDCCH share a physical channel. Value of timer for is searching the6,MS When this parameter is set to 5, 10, or 20, S is 109 if the CCCH and SDCCH do not share a physical channel. When this parameter is set to 5, 10, or 20, S is 58 if the CCCH and SDCCH share a physical channel. When this parameter is set to 6, 11, or 25, S is 163 if the CCCH and SDCCH do not share a physical channel. Value of timer for is activating resources the BTS When thisthe parameter set to 6,the 11,reserved or 25, S is 86 if the of CCCH and SDCCH share a physical channel. When this parameter is set to 7, 12, or 32, S is 217 if the CCCH and SDCCH do not share a physical channel. When this parameter is set to 7, 12, or 32, S is 115 if the CCCH and SDCCH share a physical channel. The timeslot for sending messages a random valuereport from from the collection Value of the timer for waiting for theissynchronization the BTS of {0, 1..., MAX(T, 8)-1}. The number of timeslots (excluding the timeslot used to send messages) between two adjacent channel request messages is a When T increases, the interval between two adjacent channel requests increases, and RACH conflicts decrease. When S increases, the interval between two adjacent channel request messages increases, and RACH conflicts decrease, thus The access time of the MS, however, is prolonged and the network performance is decreased when T and S increase. Under n

The maximum power that operators 1 can use on pass A of MRRU board.

The maximum power that operators 2 can use on pass A of MRRU board.

The maximum power that operators 3 can use on pass A of MRRU board.

The maximum power that operators 4 can use on pass A of MRRU board.

The maximum power that operators 1 can use on pass B of MRRU board.

The maximum power that operators 2 can use on pass B of MRRU board.

The maximum power that operators 3 can use on pass B of MRRU board.

The maximum power that operators 4 can use on pass B of MRRU board.

Transmit bandwidth of IP path

Transmit bandwidth

Indicates the interval between the two sent PING packets

Extension transmission timeslots of random access. This parameter determines the interval of sending another channel reques

Typeparameter of the subrack This specifies the frequency band of new cells. Each new cell can be allocated frequencies of only one frequency ba GSM900: The cell frequency band. Explanation of the supports finish typeGSM900 of the batch commands DCS1800: The cell supports DCS1800 frequency band.execution fails, the execution of the batch commands is stopped and the 1. ANY_ERR_RETURN: If there is a command whose GSM900_DCS1800: The cell supports GSM900 and frequency bands. 2. ALL_END_RETURN: If all commands in the batch DCS1800 file are executed in one operation, the execution of the file is successful n GSM850: The cell supports GSM850 frequency band. GSM850_DCS1800: The cell supports GSM850 and DCS1800 frequency bands. PCS1900: The cell supports PCS1900 frequency band. GSM850_PCS1900: The cell supports GSM850 and PCS1900 frequency bands.

Type of the PCU

Frequency band to which the newly added cell belongs. Only one frequency band can be selected as the frequency band of ea

Type of a cabinet

Cell type. Currently, the fast BTS construction is available for only GSM900 and DCS1800 cells.

Power attenuation factor of uplink tributary 0

Whether there is a TMA on uplink tributary 0

Index of uplink tributary 0. Each uplink tributary can be configured with a maximum of 12 TRXs. This parameter indicates the se

TRX board pass number connected to uplink tributary 0

Number of the slot where the TRX board that connects to uplink tributary 0 is located

Number of the subrack where the TRX board that connects to uplink tributary 0 is located

Power attenuation factor of uplink tributary 1

Whether there is a TMA on uplink tributary 1

Index of uplink tributary 1. Each uplink tributary can connect to a maximum of 12 TRXs. This parameter indicates the serial num

TRX board pass number connected to uplink tributary 1

Number of the slot where the TRX board that connects to uplink tributary 1 is located

Number of the subrack where the TRX board that connects to uplink tributary 1 is located

Service priority of call reestablishment when CS services are preferred. This parameter is used for the flow control in the case o

Service priority of the CS emergency call when CS services are preferred. This parameter is used for the flow control in the cas

Service priority of the CS MS-originated call when CS services are preferred. This parameter is used for the flow control in the c

Service priority of the CS MS-terminated call when CS services are preferred. This parameter is used for the flow control in the

Service priority of the incoming BSC handover when CS services are preferred. This parameter is used for the flow control in th

Service priority of the intra-BSC handover when CS services are preferred. This parameter is used for the flow control in the ca

Priority of other services when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP

PS service priority when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP/HDLC

Priority of supplementary services when CS services are preferred. This parameter is used for the flow control in the case of Ab

VBS service priority when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP/HDL

VGCS service priority when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP/H

In A over IP, if the parameter is set to ON, the circuit IE in the A interface extended signaling must be processed in the same w

Whether the BSC selects the TCHs on the link that reports an RAI alarm.

Reestablish service priority of a PS preferred call

CS emergency call service priority of a PS preferred call

CS original call service priority of a PS preferred call

CS terminated call service priority of a PS preferred call

BSC handover service priority of a PS preferred call

BSC intra handover service priority of a PS preferred call

Other service priority of a PS preferred call

PS service priority of a PS preferred call

Supplement service priority of a PS preferred call

VBS service priority of a PS preferred call

VGCS service priority of a PS preferred call

In case of intra-BSC, if this parameter is set to ON, the same channel type and voice version as those of the original channel ar

UDP multiplexing mode of the receiving party. The mode that does not support the function of compressing the RTP header ind indicates that the receiving party supports both the UDP MUX RTP header and the function of compressing the RTP header.

UDP multiplexing mode of the sending party. If the mode that does not support the function of compressing the RTP header ind that the sending party supports both the UDP MUX RTP header and the function of compressing the RTP header.

UDP port number of the local NSVL. The setting of this parameter must be consistent with the setting at the SGSN side.

UDP port number of the remote NSVL. The setting of this parameter must be consistent with the setting at the SGSN side.

Group to which the operator belongs. This parameter is used to limit the right of the operator.

Upper humidity threshold for the environment alarm box to report an alarm indicating that the ambient humidity is too high. If the In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Used to identify the uplink access message from the MS. The value 64 is invalid.

Unit time for the error code ratio test

Upper limit for triggering an alarm

Upper limit of the alarm. This parameter is valid for the analog port.

Minimum interval between two consecutive uplink power control commands

Current call is an AMR full-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power control i

Current call is an AMR full-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power control is

Current call is an AMR half-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power control

Current call is an AMR half-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power control is

The P/N criterion must be met for triggering a UL BQ handover. That is, the UL BQ handover can be triggered only if P measur

The P/N criterion must be met for triggering a UL BQ handover. That is, the UL BQ handover can be triggered only if P measur

If the ratio of uplink flux to downlink flux is greater than or equal to the threshold during the fast flux measurement, the uplink se

Duration for uplink data transmission on the original channel if the TC resources are changed before and after the handover

Number of downlink GRPS TBF RLC blocks sent before RRBP field is sent

If the UL receive level remains lower than the "Edge HO UL RX_LEV Threshold" for a period, the edge handover is triggered.

Number of downlink GRPS TBF RLC blocks sent before RRBP field is sent

Period of acknowledging the EGPRS TBF RLC uplink data block

Filter adjustment factor for uplink power control. If this parameter is set to a large value, the filtered values become smooth, thu increased.

Current call is a full-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power control is perfo

Current call is a full-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power control is perform

Current call is a half-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power control is perfo

Current call is a half-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power control is perfor

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

When the uplink load of a cell is larger than the value of this parameter and is smaller than "2G Cell UL Overload Congest Thre

When the network receives measurement reports, in consideration of the accuracy of a single measurement report, the measur signal strength.

Maximum permissible adjustment step when the BSC decreases the uplink transmit power

Maximum permissible adjustment step when the BSC increases the uplink transmit power

When the uplink load of a cell is greater than the value, the uplink of the cell is in the overload congestion status. After the BSC delivers the power control command, it should wait for a certain period before affirming the effect of the power co receive quality of the MS. Thus, the power adjustment is delayed. To compensate the delay of power adjustment, the power control algorithm implements the prediction and filtering function. In o This parameter determines the number of uplink measurement reports predicted by the BSC. In other words, the value of this p

The MS transmit power is decreased only when the quality level of the MS transmit signal is smaller than the value of the param

The MS transmit power is increased only when the quality level of the MS transmit signal is greater than the value of the param

When the network receives measurement reports, the measurement values in several straight measurement reports are filtered

In the case of power control, when the uplink receive quality is not smaller than "UL Qual. Bad Trig Threshold", the actual "UL R

In the case of power control, when the uplink receive quality is not smaller than "UL Qual. Bad Trig Threshold", the actual "UL R

An emergency handover due to bad quality is triggered when the uplink receive quality is not smaller than "UL Qual. Threshold

The value of this parameter corresponds to multiplying quality level 0 to 7 by 10. An emergency handover can be triggered only

The value of this parameter corresponds to multiplying quality level 0 to 7 by 10. An emergency handover can be triggered only

This parameter specifies the uplink signal strength factor multiplied by 10 during the calculation of the uplink power control step

When the network receives measurement reports, the measurement values in several straight measurement reports are filtered

When the uplink receive level reaches the threshold, Huawei III power control is performed.

When the uplink receive level is lower than the threshold, Huawei III power control is performed.

When the network receives measurement reports, the measurement values in several straight measurement reports are filtered

This parameter specifies the uplink quality level factor multiplied by 10 during the calculation of the uplink power control step. T

When the network receives measurement reports, the measurement values in several straight measurement reports are filtered

When the network receives measurement reports, the measurement values in several straight measurement reports are filtered

Signal strength factor for the protective limitation on calculating the uplink power control adjustment step. The calculated step v

Signal strength factor for the protective limitation on calculating the uplink power control adjustment step. The calculated step v

When the uplink receive level reaches the threshold, Huawei II power control is performed.

When the uplink receive level is below the threshold, Huawei II power control is performed.

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate accordi equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and a

Whether a UL subcell to OL subcell handover is allowed

Number of uplink GRPS TBF RLC blocks sent before an acknowledgement is required

Whether the crosstalk optimization function over the Um interface is allowed. If this parameter is set to YES when call drops oc If this parameter is set to YES and the ongoing service is speech service, the BSC also sends the Channel Release message t

Timer of penalty on a neighboring cell when a handover fails due to faults of air interface connection.

Phase tag for GSM protocols that the Um interface supports

Whether to support the balanced mode or the unbalanced mode. When this parameter is set to YES, you can set the DIP switc When this parameter is set to NO, you cannot set the DIP switches on the interface boards. You must set the DIP switches by t

Retry times after the peer response timer expires during NSVC unblocking

Abnormally alarm triggering threshold when the ANT_A tributary antenna current is too light. When the actual current is lower th

Abnormally alarm triggering threshold when the ANT_B tributary antenna current is too light. When the actual current is lower th

Abnormally alarm triggering threshold when the RET tributary antenna current is too light. When the actual current is lower than

Abnormally alarm clearance triggering threshold when the ANT_A tributary antenna current is too light. When the actual curren

Abnormally alarm clearance triggering threshold when the ANT_B tributary antenna current is too light. When the actual curren

Abnormally alarm clearance triggering threshold when the RET tributary antenna current is too light. When the actual current is

Index of upper-level BTS connected to the BTS

Number of the upper-level BTS. The number is unique in a BSC6900.

Index type of upper-level BTS connected to the BTS

Index type of the upper-level BTS

Name of the upper-level BTS connected to the BTS. The BTS name is unique within a same BSC6900. This parameter cannot

Name of the upper-level BTS. The name is unique in a BSC6900. The invalid characters (\, /, :, *, ?, ", <, >, |, and #) cannot app Update code for a simple cell broadcast message. This parameter together with "Code" uniquely identifies a cell broadcast message.

Default coding scheme of the uplink GPRS link. If the uplink adopts the dynamic adjustment coding scheme, this parameter can

Default coding scheme of the uplink EDGE link. If the uplink adopts the dynamic adjustment coding scheme, this parameter can

Uplink multiplex threshold of dynamic channel conversion. When the subscriber number on the channel reaches the value (thre Multiplex Threshold" for triggering converting dynamic channel in time and reducing PDCH multiplex.

Default coding scheme used on the uplink EGPRS2-A link. If the uplink uses the dynamic coding scheme, this parameter speci

Fixed coding scheme that is used on the uplink EGPRS2-A link. If the uplink uses the fixed coding scheme, this parameter can

Inactive period of extended uplink TBF. After the network side receives the last uplink RLC data block (CountValue=0) of the M data block, the MS can use the inactive uplink TBF without rebuilding a new uplink TBF. This inactive uplink TBF is switched to of releasing the uplink TBF. When the uplink TBF is inactive, the downlink TBF can be established according to this uplink TBF

Adjustment mode of the uplink GPRS link coding scheme. If the fixed coding scheme is used, this parameter is a value ranging

Coding scheme of the uplink EDGE link. If the uplink uses the fixed coding scheme, this parameter is set to a value ranging fro

One of the thresholds to determine whether the uplink interference exists. If the uplink level is not smaller than "Interf.of UL Lev

One of the thresholds to determine whether the uplink interference exists. If the uplink level is not smaller than "Interf.of UL Lev

Maximum time in which a user uses the uplink of its VGCS call continuously when the BTS works in fallback mode

Size of the OML/ESL/EML Uplink LAPD Window

Whether to allow MS power control

Upper class transport resource group No. It is valid only when " Is First Class Transport Resource Group " is set to NO.

Upper number of the logical port

If the difference between uplink receive levels of calls within the same timeslot is greater than "Offset of the difference between criterion.

After the existing uplink receive level, uplink receive level after the previous optimization, and the value of this parameter are we

If the difference between uplink receive levels of calls within the same timeslot is greater than "Offset of the difference between criterion.

This parameter specifies whether the transmission of point-to-point short messages is disabled. If necessary, the transmission

Delay of releasing the non-extended uplink TBF. After receiving the last uplink RLC data block (CountValue=0), the network sid delay. In this way, the downlink TBF can be established on the unreleased uplink TBF. This uplink TBF is automatically release disabled.

Retransmission threshold when the coding mode of the uplink TBF is changed from CS2 to CS1. When the retransmission rate

Retransmission threshold when the coding mode of the uplink TBF is changed from CS3 to CS2. When the retransmission rate

Retransmission threshold when the coding mode of the uplink TBF is changed from CS4 to CS3. When the retransmission rate

Retransmission threshold when the coding mode of the uplink TBF is changed from CS1 to CS2. When the retransmission rate

Retransmission threshold when the coding mode of the uplink TBF is changed from CS2 to CS3. When the retransmission rate

Retransmission threshold when the coding mode of the uplink TBF is changed from CS3 to CS4. When the retransmission rate

Whether to allow cell urgent reselection. If this parameter is set to PERMIT and [NC2 Load Reselection Switch is set to Suppor

Mode of querying the information on an MS

Whether to support USF granularity 4

User name of the FTP server

User name for the FTP server. When the FTPServer.exe file downloaded through the LMT is installed, the user name is admin.

Start time when the TRX energy saving function is enabled for the BTS3002E.

End time when the TRX energy saving function is enabled for the BTS3002E.

Upper temperature threshold for the environment alarm box to report an alarm indicating that the ambient temperature is too hig In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding paramete

When a UL subcell-OL subcel handover decision is performed to a call, the BSC determines whether the number of handover f allowed.

After an MS performs a OL subcell to UL subcell handover successfully, the MS cannot be handed over to the OL subcell again

One of the parameters that determine the coverage of the OL subcell and of the UL subcell. "UtoO HO Received Level Thresho When this parameter is set to YES, the existing call is performed in the OL subcell, and "OL to UL HO Allowed" is set to YES, a If the existing call is performed in the UL subcell, a UL subcell to OL subcell handover is triggered, and "UL to OL HO Allowed" Thred". Otherwise, if the traffic volume in the UL subcell is smaller than "En Iuo Out Cell General OverLoad Thred", the timer st If this parameter is set to NO, the traffic volume in the UL subcell is not taken into account for triggering the UL subcell to OL su

Hierarchical handover period of the load handover from the UL subcell to the OL subcell. If the channel seizure ratio of the UL may occur in the target cell and call drops may be caused. Through the hierarchical load handover algorithm, the calls in the ce

Hierarchical level step of the load handover from the UL subcell to the OL subcell

This parameter specifies the type of a 3G cell. A cell type can be Frequency Division Duplex (FDD) or Time Division Duplex (T

Vendor code of the RET antenna

This parameter is used to limit the maximum number of channels that can be used by the VGCS in a cell. This prevents too ma

This parameter specifies whether the preemption of channels between public network services and the VGCS is allowed when

This parameter is used to reserve a certain number of channels in a cell for the Voice Group Call Service (VGCS) to use directl

This parameter specifies the usage threshold of the CPU for VIP user calls that can be admitted. When the usage of a CPU is g are rejected.

Is VIP Cell.The parameter is used for BSC6900 flow control.

This parameter specifies the eMLPP priority value corresponding to the VIP call. When the eMLPP(Enhanced Multi-Level Prece

This parameter specifies the usage threshold of the CPU for VIP user calls that are transferred from other CPUs. When the usa

If the parameter is set to Disable, the added IP path is not configured with the VLAN ID. If the parameter is set to Enable, the a

Specified Vlan enabling flag

VLANID flag of first local IP address

VLANID Flag of second Local IP address

VLANID of the IP address of the specified next hop

VLAN of the MA in the MD

VLAN ID of the service type

VLAN to which the maintenance association belongs in the maintenance domain.

VLAN ID of first Local IP address

VLAN ID of second Local IP address

VLAN priority

VLAN priority level of the service type. This parameter helps to determine the packet service priority level at the data link layer o

VLAN switch for the service type

Speech version supported by a cell

24V voltage alarm switch

Upper limit for triggering a 24 V voltage sensor alarm

Lower limit for triggering a 24 V voltage sensor alarm

48V voltage alarm switch

Upper limit for triggering a 48V voltage sensor alarm

Lower limit for triggering a 48V voltage sensor alarm

Whether to enable the standing wave alarm parameters to be configured

This parameter specifies a condition for generating a BTS alarm. This parameter together with "VSWR TRX error threshold" is u

Filtering times of serious standing wave alarms

Standing wave alarm threshold. When the VSWR is greater than the value of this parameter, the TRX reports a standing wave

Serious standing wave alarm threshold. When the VSWR is greater than the value of this parameter, the TRX reports a serious

This parameter specifies a condition for generating a BTS alarm. This parameter together with "VSWR TRX unadjusted thresho

V-version number of the BTS software

This timer is used to set the time of waiting for a ReleaseIndication message after a ChannelRelease message is sent. If the tim

When the BSC6900 sends a ChannelRelease message and the current call uses the AMRFR encoding mode, the timer T3109 the BSC6900 deactivates the channel.

When the BSC sends a ChannelRelease message and the current call uses the AMRHR encoding mode, the timer T3109 (AM deactivates the channel.

Timer of waiting for the MS's response to the location measurement request sent from the BSC. If the BSC does not receive the

The TCHs reserved for the emergency call are assigned to the user during the service assignment. If the TCHs are not assigne

When the dynamic PDCH needs to use MAIO of the SDCCH, the SDCCH is not allowed to be assigned to new calls within the allowed to be preempted.

Timer of waiting for the SMLC's response to the MS location request sent from the MSC. If the SMLC does not send any respo sends an MS location failure indication to the MSC.

Whether to start the heating equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Water sensor alarm switch

Whether to limit the operation weekday of the operator. If the weekday needs to be limited, see the description of "Week".

This parameter is used to select the location of a cell, east or west longitude.

Whether to start the humidification equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding paramete

Whether to trigger an active/standby port switchover. If this parameter is set to YES, an active/standby port switchover is trigge

Whether to start the dynamic adjustment of the LAPD window. If this parameter is set to ALLOW, the LAPD transmit and receiv

You can select multiple weekdays.

Working mode of the M3UA link set, including M3UA_ASP and M3UA_IPSP. For details about the ASP and IPSP, see the RFC

Time when the BTS stops checking for a radio link alarm. If this time is up, the BTS stops checking for or reporting a radio link a

Whether to enable the BTS to report a major radio link alarm. If this parameter is set to YES, the BTS reports a major radio link

Period for clearing a radio link warning. If a radio link warning is cleared within this period, the BTS reports the recovery alarm f

Time when the BTS starts to check for a radio link alarm. If this time is up, the BTS starts to check for and report a radio link ala

Whether to enable the BSC to deliver radio link alarm parameters to the BTS. If this parameter is set to YES, the BSC delivers

Flag of the work area to be formatted

Working mode of the RXU board

Work mode of subrack Working mode. E1: The E1 system is recommended by the IUT-T. E1 carries signals at 2.048 Mbit/s. G.703 defines the electric T1: The T1 system is recommended by the ANSI and widely used in the North America. T1 carries signals at 1.544 Mbit/s. BTS portAworking mode. This must bethe consistent that of the peer.signals. Work mode of a BTS.E1 A line BTSand can100-ohm work in the E1_BA: circuit that uses twoparameter wires to transmit same butwith contra-directional The 120-ohm T1 E1: The E1 system is recommended by the ITU-T. E1 carries signals at 2.048 Mbit/s. G.703 defines the electrical specification E1_UNBA: A circuit that uses one transmission signal cable and one common grounding cable to transmit signals. The 75-ohm T1: The T1 system is recommended by the ANSI and widely used in the North America. T1 carries signals at 1.544 Mbit/s. If "DESTNODE" of the BTS is set to BSC, BTS, or DXX, the setting of "WORKMODE" of the BTS port must be the same as tha If "DESTNODE" of the BTS is set to OTHER, for example, TGW(Transmission Gateway), "WORKMODE" of the BTS port must The setting of the E1/T1 DIP switch of the BTS must match the setting of "WORKMODE" of the BTS port.

Window size of the Ater signaling link

Time for which the BTS waits to swap the OML after the OML is interrupted. With this parameter, the BTS does not swap the O

Waiting time before establishing a link in the reverse direction after the transmission of a BTS is disrupted

Wait to restore time

Time zone

Feature ID

GBFD-110502

GBFD-110502

GBFD-110502

GBFD-116601

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-114201

GBFD-114201

GBFD-117702

GBFD-117301

GBFD-113101

MRFD-210301

GBFD-118201

GBFD-116801

GBFD-119110

GBFD-119110

GBFD-511002

GBFD-511002

GBFD-113201

GBFD-511002

GBFD-119501

GBFD-511002

GBFD-511002

GBFD-511002 GBFD-118611 GBFD-118622

GBFD-118611

GBFD-119305 GBFD-110402 GBFD-111101 GBFD-115501 GBFD-115701 GBFD-115502 GBFD-115701 GBFD-115507 GBFD-115701 GBFD-110501 GBFD-510502

GBFD-118201

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202 GBFD-110601 GBFD-510501

GBFD-111202

GBFD-111705

GBFD-111705

GBFD-111202

GBFD-111804

GBFD-118201

GBFD-119204

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-118201

GBFD-118201

GBFD-118201

GBFD-118201

MRFD-210304

GBFD-111202

GBFD-111202

GBFD-115602

GBFD-115602

GBFD-115602

GBFD-115602

GBFD-115602

GBFD-115602

GBFD-115602

GBFD-115602

GBFD-115505

GBFD-115505

MRFD-210502

MRFD-210502

GBFD-115505

GBFD-115505

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-111202

MRFD-210304

GBFD-113801

MRFD-210304

MRFD-210304

GBFD-116401

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-118602

GBFD-115601

GBFD-115601

GBFD-115601

GBFD-115601

GBFD-115601

GBFD-115601

GBFD-115601

GBFD-510002

GBFD-510002

GBFD-118605

GBFD-114101

GBFD-113101

GBFD-111005

GBFD-119401

GBFD-116201

GBFD-111005

GBFD-111803

GBFD-111203 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-119115

GBFD-115402

MRFD-210502

GBFD-115402

MRFD-210502

MRFD-210304

MRFD-210304 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601

GBFD-115503

GBFD-117601

GBFD-115506

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-110703

GBFD-115502

GBFD-115502

GBFD-115506

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-115503

GBFD-111803

GBFD-111803

GBFD-115703

GBFD-115703

GBFD-115703 GBFD-118601 MRFD-210602 GBFD-118602 GBFD-118605 GBFD-118611 GBFD-118622

None

MRFD-210304

GBFD-115603

GBFD-115603

GBFD-115603

GBFD-115603 GBFD-115402 GBFD-118201 GBFD-510401 MRFD-210501 GBFD-510401 MRFD-210501 GBFD-118611 GBFD-118622

GBFD-111202

MRFD-210602

GBFD-111202

GBFD-510104

GBFD-111202

GBFD-111804

GBFD-118602

GBFD-114701

GBFD-119904

GBFD-119904

GBFD-119904

GBFD-119904

GBFD-119904

GBFD-119904

GBFD-119904

GBFD-119904

MRFD-210301

MRFD-210401

MRFD-210401

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-118609 GBFD-118611 GBFD-118622

GBFD-111804

GBFD-111804

GBFD-111804

MRFD-210304

MRFD-210304

GBFD-110502

GBFD-110607

GBFD-113201

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-510901

GBFD-110502

GBFD-111203

GBFD-111803

GBFD-111705

GBFD-111705 GBFD-111203 GBFD-111803

GBFD-111203

GBFD-111803

GBFD-113201

GBFD-114402

GBFD-114402

GBFD-116901

GBFD-116901

GBFD-116901

GBFD-111203

GBFD-117701

GBFD-111203

GBFD-114701

MRFD-210301

MRFD-210301

GBFD-111203

GBFD-116902

GBFD-111202

GBFD-111804

GBFD-110302 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601

None

None

MRFD-210305 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

GBFD-118611 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

GBFD-118611 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

GBFD-118611 GBFD-118611 GBFD-118622

GBFD-118611 GBFD-118622

GBFD-118611

GBFD-118609

MRFD-210301

GBFD-115501

GBFD-115502

GBFD-111202

GBFD-118601

GBFD-111202

MRFD-210305

MRFD-210305

None

GBFD-111804

MRFD-210304

MRFD-210304

None

None

None

None

MRFD-210502

MRFD-210502 GBFD-111203 MRFD-210305

MRFD-210301

GBFD-111004

GBFD-114101

None

GBFD-118609

GBFD-118609

GBFD-111605

GBFD-111605

GBFD-114401

GBFD-114401

GBFD-114401 GBFD-110601 GBFD-510501

GBFD-111202

GBFD-118201

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-113725 GBFD-110801 GBFD-110802

GBFD-111202

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

GBFD-110101

GBFD-113701

GBFD-510002

GBFD-510002

GBFD-118603

GBFD-510002

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-119902

GBFD-119902

GBFD-119902 GBFD-111804 GBFD-111806

GBFD-113725

GBFD-114201

GBFD-114302 GBFD-114301 GBFD-114302

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-118609

GBFD-118609 GBFD-110801 GBFD-110802

GBFD-113801

GBFD-118201

GBFD-119902

GBFD-119902

GBFD-119902

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-510002

GBFD-510002

None

None

None

GBFD-111705 GBFD-118611 GBFD-118622

MRFD-210304

GBFD-111202

GBFD-111202 GBFD-110601 GBFD-510501

GBFD-510501 GBFD-110601 GBFD-510501

GBFD-510501

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

MRFD-210301

MRFD-210301

None

None

None

None

GBFD-111202

GBFD-111202

GBFD-117802

GBFD-113602

GBFD-113602 GBFD-111203 MRFD-210305 GBFD-111003 GBFD-110301 GBFD-110303

GBFD-118602

GBFD-111602

GBFD-111803 GBFD-113726

GBFD-113601

GBFD-118201

GBFD-118201 GBFD-116902 GBFD-118605 GBFD-113726

MRFD-210301

GBFD-118201

GBFD-113601

GBFD-118601

GBFD-117701

GBFD-118621

GBFD-115001

GBFD-115001

GBFD-114701

GBFD-113601

GBFD-115001

GBFD-115001

GBFD-115001

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

GBFD-114701

GBFD-114701

GBFD-114701

GBFD-118201

GBFD-113726

GBFD-113726

GBFD-114701

GBFD-114101

GBFD-110802

MRFD-210301 GBFD-110303 GBFD-111003

MRFD-210301

MRFD-210301 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117702 GBFD-119305 GBFD-119305

MRFD-210502

MRFD-210401

MRFD-210401

None

None

None

None

None

None

None

MRFD-210602

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202 GBFD-111801 GBFD-113726

GBFD-111801 GBFD-111202 GBFD-111611

GBFD-111202

GBFD-118601

GBFD-118601

GBFD-111202

GBFD-118601

GBFD-118605

GBFD-111202

GBFD-111202

GBFD-118401

GBFD-111202

GBFD-118201

MRFD-210602

MRFD-210305

GBFD-118601

GBFD-117702

GBFD-118601

GBFD-110802

GBFD-111202

GBFD-118401

GBFD-111202

GBFD-118601

GBFD-111605

GBFD-110703

GBFD-118103

GBFD-111202

GBFD-118401

GBFD-111202

GBFD-510701

GBFD-111202

GBFD-118609

GBFD-111207

GBFD-111202

GBFD-117802

GBFD-118602

GBFD-119001

GBFD-119001

GBFD-119001

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605 GBFD-110801 GBFD-110802

MRFD-210301

GBFD-114101

GBFD-114101

GBFD-111202

GBFD-111202

MRFD-210301

GBFD-110503

GBFD-111202 GBFD-113701 GBFD-111101

GBFD-510702

GBFD-111202

GBFD-118605

GBFD-118605

None GBFD-110401 GBFD-110402

GBFD-113601

GBFD-113601

GBFD-113601

GBFD-113601

GBFD-113601 GBFD-110401 GBFD-110301

GBFD-118605

GBFD-113601

GBFD-117501

GBFD-117501

MRFD-210301

MRFD-210305

GBFD-111003

GBFD-111003

GBFD-118603

GBFD-118630

GBFD-110607 GBFD-114301 GBFD-114302 GBFD-114301 GBFD-114302

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

GBFD-119115 GBFD-114301 GBFD-114302 GBFD-114301 GBFD-114302 GBFD-111101 GBFD-114101

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

MRFD-210301

MRFD-210301

MRFD-211402

MRFD-210301

MRFD-210301

GBFD-111202

GBFD-510901

MRFD-210301

MRFD-210301

MRFD-210602

GBFD-114402 GBFD-110601 GBFD-510501

MRFD-210301

GBFD-111804

GBFD-113001

MRFD-210301

MRFD-211402

GBFD-111202

MRFD-210301

GBFD-118701 GBFD-110801 GBFD-110802 GBFD-110801 GBFD-110802

GBFD-111003

GBFD-111202

GBFD-111202

GBFD-116201

GBFD-116201 GBFD-510803 GBFD-510804

GBFD-114325

MRFD-210304

MRFD-210304

GBFD-111202

GBFD-111202

GBFD-111202 GBFD-110801 GBFD-110802 GBFD-110801 GBFD-110802

GBFD-111705

MRFD-210305

GBFD-111202

GBFD-118605

GBFD-510701

GBFD-111202

GBFD-111202

GBFD-111202 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210305

GBFD-111203

GBFD-111203

GBFD-510601 GBFD-111203 MRFD-210305

GBFD-114101

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-510103

GBFD-111202

GBFD-111005

None

GBFD-111203

GBFD-111203

GBFD-113602

GBFD-111005

GBFD-111804

None

GBFD-118605

MRFD-210206 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601

GBFD-118609

GBFD-118609

GBFD-111202

GBFD-111202

GBFD-118602

GBFD-118602

GBFD-118602

GBFD-118609

GBFD-111207

MRFD-210301

GBFD-111203

MRFD-210301

GBFD-111207

MRFD-210301

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111005

None

GBFD-111705

GBFD-111705

GBFD-111705

MRFD-210301

MRFD-210301

MRFD-210301

GBFD-111803

GBFD-111203

GBFD-119301

GBFD-119301

GBFD-119301

GBFD-119301

GBFD-119301

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-118605

GBFD-111005

GBFD-111202

GBFD-111202

GBFD-119403

GBFD-110501 GBFD-118611 GBFD-118622

GBFD-111202

GBFD-111202

MRFD-210502

MRFD-210501

GBFD-111202

MRFD-210304

GBFD-111202

GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210305

GBFD-111203

MRFD-210301

GBFD-111202

GBFD-118609

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-113725

GBFD-117401

GBFD-119701

GBFD-117401

MRFD-210403

GBFD-113725

MRFD-210304

GBFD-111202

GBFD-111202 GBFD-111203 MRFD-210305

MRFD-210304

MRFD-210304 GBFD-110601 GBFD-510501

GBFD-113602

GBFD-111202

GBFD-118201

GBFD-117602 GBFD-111003 GBFD-110301 GBFD-110302

MRFD-210305

GBFD-111202 GBFD-110601 GBFD-510501

GBFD-111202

MRFD-211503

None

None

None

None

MRFD-211503

MRFD-211503

None

None

None

None

MRFD-211503 GBFD-110601 GBFD-510501

MRFD-210206

MRFD-210301 GBFD-111203 MRFD-210305

MRFD-211402 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

MRFD-211503

MRFD-211503

GBFD-111207

GBFD-111602

MRFD-210301

GBFD-111202 GBFD-110402 GBFD-110301 GBFD-110303

MRFD-210305

MRFD-210305 GBFD-510301 GBFD-510302 GBFD-510301 GBFD-510302

GBFD-110402

GBFD-111203 GBFD-118602 GBFD-118622

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-111705

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111705

GBFD-111203

GBFD-118605

GBFD-111203

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-111705

None

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111705

GBFD-111705

GBFD-118201

GBFD-114101

GBFD-111202

MRFD-210602

MRFD-210602

MRFD-210602

MRFD-210602

GBFD-118605

GBFD-111202

GBFD-111202

MRFD-210301

GBFD-111804

GBFD-111202

None

MRFD-210401 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110204 GBFD-119405 GBFD-110205 GBFD-111203 MRFD-210305

GBFD-111203

GBFD-111602

GBFD-111202

GBFD-111202

GBFD-114501

GBFD-114402

GBFD-114402

GBFD-114402

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

MRFD-210304

MRFD-210304

GBFD-111202

GBFD-113101

GBFD-110501 GBFD-118602 GBFD-118622 GBFD-111203 MRFD-210305

GBFD-111202

None

None

None

None

GBFD-510701

GBFD-111202

MRFD-211402

MRFD-211402

MRFD-211402

MRFD-210301

GBFD-111203

GBFD-118609

GBFD-111202

MRFD-210602

MRFD-210602

None

None GBFD-114301 GBFD-114302

GBFD-111202

GBFD-111202

GBFD-117401 GBFD-111203 MRFD-210305

MRFD-210502 GBFD-118611 GBFD-118622

None

GBFD-111202 GBFD-110608 GBFD-111005

GBFD-111203

GBFD-111203 GBFD-111203 MRFD-210403

GBFD-111202

GBFD-110607

GBFD-110607

GBFD-110601 GBFD-110601 GBFD-510501

GBFD-114301

GBFD-510804

GBFD-510804

GBFD-114201

GBFD-115902

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-510002

GBFD-119501

GBFD-510802 GBFD-110601 GBFD-510501

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-114101

GBFD-117601

GBFD-117601

GBFD-115501

GBFD-115501

GBFD-115501

GBFD-115502

GBFD-115502

GBFD-115502

GBFD-115507

GBFD-115507 GBFD-110601 GBFD-510501

GBFD-110601 GBFD-510501

GBFD-511103

GBFD-110703

GBFD-115506

GBFD-115506

GBFD-115506

GBFD-115506

GBFD-117601

GBFD-117601

GBFD-511103

GBFD-110703

GBFD-110703

GBFD-110703

GBFD-110703

GBFD-110703

GBFD-110703 GBFD-110601 GBFD-510501

GBFD-115501 GBFD-510501 GBFD-110601 GBFD-115502 GBFD-510501 GBFD-110601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-110703

GBFD-110703

GBFD-119203 GBFD-510301 GBFD-510302 GBFD-510301 GBFD-510302

GBFD-115501

GBFD-115501

GBFD-115501

GBFD-115502

GBFD-115502

GBFD-115502

GBFD-115507

GBFD-115507

GBFD-111202

GBFD-111202

GBFD-118620

GBFD-119106 GBFD-114201 GBFD-119106 GBFD-114201 GBFD-119106

GBFD-510804

GBFD-510804 GBFD-114101 GBFD-119106 GBFD-114101 GBFD-119106 GBFD-114201 GBFD-119106 GBFD-114201 GBFD-119106

GBFD-110703 GBFD-117601

GBFD-110203

GBFD-114101

GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106

GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106

MRFD-210304

GBFD-117602 GBFD-111804 GBFD-111806

GBFD-111804

GBFD-111803

GBFD-111803

GBFD-117401 GBFD-111804 GBFD-111806

GBFD-111804 GBFD-118602 GBFD-118622

MRFD-211402 GBFD-110601 GBFD-510501

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

None

MRFD-211503

MRFD-211503

MRFD-211503

MRFD-211503

MRFD-211503

GBFD-111605

GBFD-111605

GBFD-111605

GBFD-113602

GBFD-114802

GBFD-111202

None

GBFD-118611 GBFD-118622

GBFD-118602 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

GBFD-118605

GBFD-114101

MRFD-210301

MRFD-210301

MRFD-210304

MRFD-210301

GBFD-114101

GBFD-114101 GBFD-116101 MRFD-210301

GBFD-111202

None

GBFD-118609

GBFD-118601

None

GBFD-118601

None

None

GBFD-110607

GBFD-510301

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-113521

GBFD-118601

GBFD-111207

GBFD-111207

GBFD-111207 GBFD-114101 GBFD-113101 GBFD-119303 GBFD-119501 GBFD-111207 GBFD-114101 GBFD-113101 GBFD-119303 GBFD-119501

GBFD-118201

GBFD-111202

GBFD-111203

GBFD-111202 GBFD-114101 GBFD-113101 GBFD-119303 GBFD-119501 GBFD-113101 GBFD-114101 GBFD-113101 GBFD-119303 GBFD-119501 GBFD-114101 GBFD-113101 GBFD-114101 GBFD-113101

GBFD-111602

GBFD-118101

GBFD-111202

GBFD-111202

GBFD-118401

GBFD-111207

None

MRFD-210501

MRFD-211501

MRFD-210501

GBFD-118605

GBFD-114301

GBFD-114301

GBFD-111101

MRFD-210304

GBFD-111203

MRFD-210304

MRFD-210304

GBFD-111202 GBFD-116101 MRFD-210301

GBFD-114402

GBFD-114402

GBFD-114402

GBFD-114201

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-110601

GBFD-510501

GBFD-110601

GBFD-111202

GBFD-119201 GBFD-510803 GBFD-510804

GBFD-116201

GBFD-116201 GBFD-116101 MRFD-210301 GBFD-110202 GBFD-110521

GBFD-111804

None GBFD-118611 GBFD-118622

GBFD-115001

GBFD-510307

GBFD-115001 GBFD-118611 GBFD-118622

GBFD-118605

GBFD-111202 GBFD-116101 MRFD-210301

GBFD-111202

GBFD-510309

GBFD-111202 GBFD-113501 GBFD-113503

GBFD-111203

GBFD-111203

GBFD-116401

MRFD-210304

GBFD-111803

GBFD-111203

GBFD-111602

GBFD-111202

GBFD-111602

GBFD-111202

GBFD-111602

GBFD-111801

GBFD-111803

GBFD-111202

GBFD-111203

GBFD-111203

GBFD-113201

MRFD-211503

GBFD-113201

GBFD-113201

GBFD-113201

GBFD-113201

GBFD-118605

GBFD-118605

GBFD-113201

GBFD-113402 GBFD-118602 GBFD-118622

GBFD-118602

GBFD-113201

GBFD-115704 GBFD-111203 MRFD-210305

GBFD-110202

GBFD-118630

GBFD-118630

None

None

GBFD-118605

GBFD-111202

MRFD-210304

GBFD-110502

GBFD-115403

GBFD-117802 GBFD-116101 MRFD-210301

GBFD-111203

GBFD-111203

GBFD-111203 GBFD-111203 MRFD-210305

MRFD-210304

MRFD-210304

GBFD-113602 GBFD-111203 MRFD-210305

GBFD-111202 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210305 GBFD-116101 MRFD-210301 GBFD-116101 MRFD-210301

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-114101

GBFD-111203

GBFD-117602

GBFD-117602

MRFD-210301

GBFD-111202

MRFD-210301

GBFD-111202

MRFD-210301

MRFD-210301

GBFD-114001

GBFD-111202 GBFD-110801 GBFD-110802 GBFD-110801 GBFD-110802 GBFD-110801 GBFD-110802

GBFD-114001

GBFD-119203 GBFD-510301 GBFD-510302

GBFD-510307

GBFD-510307

GBFD-111202

GBFD-111005 GBFD-110601 GBFD-510501

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

GBFD-110502

GBFD-117802

GBFD-111203

None

GBFD-118601

GBFD-111705

None

None GBFD-118611 GBFD-118622

None

None

MRFD-211503

None

GBFD-510701

GBFD-111202

GBFD-111705

MRFD-210103

GBFD-111202

GBFD-111705

GBFD-111202

GBFD-114301

MRFD-210301

GBFD-114301

GBFD-114301

GBFD-114301

GBFD-114301

GBFD-114301

GBFD-114301

GBFD-114301

GBFD-114301

GBFD-114301 GBFD-114301 GBFD-110801 GBFD-110802

GBFD-114301

GBFD-114301

GBFD-114301

GBFD-111705

GBFD-116801

GBFD-116801

GBFD-116801

GBFD-116801

GBFD-116801

GBFD-116801

GBFD-116801

GBFD-116801

GBFD-113701 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210401 GBFD-111203 MRFD-210305

MRFD-210301 GBFD-111203 MRFD-210304

GBFD-116201 GBFD-111203 MRFD-210305

GBFD-117601

GBFD-111202

GBFD-117301

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-117301

GBFD-117001 GBFD-113521 GBFD-118201 GBFD-117001

GBFD-119501

GBFD-119501

None

None

None GBFD-118611 GBFD-118622

None

GBFD-118605 MRFD-211503

GBFD-110601

GBFD-110601

GBFD-110601

GBFD-110601

GBFD-110601

GBFD-110601

GBFD-110601

GBFD-110601

GBFD-110601

GBFD-114101 GBFD-111003 GBFD-111101

GBFD-111202

MRFD-210303 GBFD-111203 MRFD-210401

GBFD-111203

MRFD-210301

MRFD-210403

GBFD-111202

GBFD-111202 GBFD-113101 GBFD-114201 GBFD-119303 GBFD-119501

GBFD-111804

GBFD-115601

GBFD-114101 GBFD-110501 GBFD-113301 GBFD-110601 GBFD-510501

GBFD-111202

GBFD-111202

None GBFD-510702 GBFD-510607

GBFD-510601

GBFD-510701 GBFD-118604 GBFD-118610

GBFD-118201

MRFD-210301 GBFD-114801 GBFD-115501 GBFD-111203 MRFD-210305

GBFD-111203

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-110101

GBFD-510101

GBFD-510101

MRFD-210301

GBFD-111005

GBFD-112401

MRFD-210301

GBFD-510901

GBFD-112401 GBFD-110601 GBFD-510501 GBFD-114803 GBFD-115501

GBFD-510701

GBFD-111202

GBFD-510701

GBFD-111202 GBFD-111203 MRFD-210305

GBFD-118605

GBFD-118605

None

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-511103

GBFD-511103

GBFD-118602

GBFD-119115

GBFD-118201

GBFD-118201

GBFD-118201

GBFD-118201

GBFD-119901 GBFD-510301 GBFD-510302

MRFD-210502 GBFD-510301 GBFD-510302

GBFD-510307

None

GBFD-114101 GBFD-111101 GBFD-114101

GBFD-114101

GBFD-114101

GBFD-114201

GBFD-114101

GBFD-114101

GBFD-116201

GBFD-114101 GBFD-510401 MRFD-210501

MRFD-210502

GBFD-116001

GBFD-510309

GBFD-510309

GBFD-113725

GBFD-113725

GBFD-117301

GBFD-118605

GBFD-118605

GBFD-113602

GBFD-118605

GBFD-118605

GBFD-114401

GBFD-114302

GBFD-111202

GBFD-118601

GBFD-118601

GBFD-113401

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601

GBFD-118602

GBFD-111202

GBFD-510501

GBFD-510501

GBFD-111202

GBFD-111202

GBFD-110101

GBFD-115001

GBFD-115001

GBFD-115001

GBFD-111202

GBFD-111005

MRFD-210305

GBFD-119404

GBFD-113201

GBFD-118701 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-111203

GBFD-111203

GBFD-110601

GBFD-510103

GBFD-510103

GBFD-510103

GBFD-510102 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-114301 GBFD-114302

GBFD-510102

GBFD-111203 GBFD-110601 GBFD-510501

GBFD-113201 GBFD-110601 GBFD-510501

GBFD-114402

GBFD-113701

GBFD-117002

GBFD-113701

GBFD-117101 GBFD-110601 GBFD-510501

GBFD-113701

GBFD-113703

GBFD-113703

GBFD-113701 GBFD-110601 GBFD-510501

GBFD-118201 GBFD-114301 GBFD-114302

GBFD-111804 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-510102

GBFD-113725

GBFD-113725

GBFD-110601 GBFD-510501

GBFD-510102

GBFD-113703

GBFD-113703

GBFD-111202

GBFD-116001 GBFD-111202 GBFD-111601 GBFD-111202 GBFD-111601 GBFD-113401 GBFD-111101 GBFD-114801 GBFD-113401 GBFD-115502

GBFD-113201 GBFD-114803 GBFD-113401 GBFD-115502

GBFD-113701

GBFD-111202

GBFD-117001

GBFD-111202

GBFD-118609

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-111202

GBFD-111804

GBFD-111207

GBFD-111202

GBFD-111202

GBFD-111804

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-111604

GBFD-111202

GBFD-118605

GBFD-118603

GBFD-118603

GBFD-118603

GBFD-111203

GBFD-111203

GBFD-111202

GBFD-118602

None

GBFD-113001

GBFD-111202

None

MRFD-210301

MRFD-210301

MRFD-211402

MRFD-210301

GBFD-111202

GBFD-111202

GBFD-114701

MRFD-210301

GBFD-111203

GBFD-113601

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-510102

GBFD-111203

GBFD-111804

GBFD-110502

GBFD-119202

GBFD-110502

GBFD-110502

GBFD-110502

GBFD-110502

GBFD-113201

GBFD-113201

GBFD-118201

GBFD-110502

GBFD-111203

GBFD-114101

GBFD-110601 GBFD-510501

GBFD-118201

GBFD-118201

GBFD-115402

GBFD-111202

GBFD-111202

GBFD-115504

GBFD-115504

MRFD-211402

MRFD-210304

GBFD-115504

GBFD-115504

GBFD-111005

GBFD-115501

GBFD-115502

GBFD-115507

GBFD-114701

GBFD-114402

GBFD-114402

MRFD-210301

MRFD-210301

GBFD-114402

GBFD-114402

GBFD-114402

GBFD-114402

GBFD-114701

GBFD-111202

GBFD-111203

GBFD-115402

GBFD-110608

GBFD-114701

GBFD-111202

GBFD-114701

GBFD-111202

GBFD-113602 GBFD-110601 GBFD-510501

GBFD-112401 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-510501

GBFD-510501 GBFD-110601 GBFD-510501

GBFD-111005 GBFD-111001 GBFD-111005 GBFD-111001 GBFD-111005 GBFD-111001 GBFD-111005 GBFD-111001 GBFD-111005 GBFD-111001 GBFD-111005 GBFD-111001 GBFD-111005

GBFD-118201

GBFD-111005

GBFD-511104

GBFD-511103 GBFD-114301 GBFD-114302

MRFD-211404

GBFD-511103

GBFD-511103

GBFD-511103

GBFD-511103

GBFD-511103

GBFD-511103 GBFD-114301 GBFD-114302

GBFD-511103 GBFD-111203 MRFD-210305

None GBFD-110801 GBFD-110802

GBFD-114402

GBFD-110601

GBFD-110601 GBFD-510501

GBFD-115504 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

MRFD-211402

GBFD-511103

GBFD-511103

GBFD-511103

GBFD-114701

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-117501

MRFD-210301 GBFD-111203 MRFD-210403

GBFD-118603

GBFD-118603

GBFD-118601

GBFD-111202

GBFD-118605 GBFD-118611 GBFD-118622 MRFD-211502

MRFD-211502

None

None

None

GBFD-118603

GBFD-118603

GBFD-118606

GBFD-118603

GBFD-118606

GBFD-118603

GBFD-118603

GBFD-118630

GBFD-118630

GBFD-118611 GBFD-118622

MRFD-210103 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

None

GBFD-118601

GBFD-118601

GBFD-111202

GBFD-118201

GBFD-510103

GBFD-118606

GBFD-118606

GBFD-117801

GBFD-111202

GBFD-114201

GBFD-118605

GBFD-114101

MRFD-210301

GBFD-113726

GBFD-510104

GBFD-116201

GBFD-118603

None

GBFD-118201

GBFD-111202

GBFD-117803

GBFD-117702

GBFD-113726

MRFD-210301

MRFD-210301

GBFD-111202 GBFD-111202 GBFD-117804

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

GBFD-118605

GBFD-118605

GBFD-113201 GBFD-113101 GBFD-113201 GBFD-119303 GBFD-119501

GBFD-113201

GBFD-113201 GBFD-113201 GBFD-114402

GBFD-118630 GBFD-118604 GBFD-118610

None

None

None

None

None

None

None

None

None

None

None

None

None

None

GBFD-118401

GBFD-111612

GBFD-118601

None GBFD-110601 GBFD-510501

None

MRFD-210301

GBFD-510702

GBFD-111701

GBFD-115402

GBFD-115402

GBFD-115402

GBFD-115402

GBFD-115402

GBFD-115402

MRFD-210502

MRFD-210502

MRFD-210103

None

GBFD-118605

GBFD-118605

GBFD-118605 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-110601

None

None GBFD-118601 GBFD-117301 GBFD-118601 GBFD-117301 GBFD-118601 GBFD-117301 GBFD-118602 GBFD-118622 GBFD-111203 MRFD-210305

GBFD-111203

None

GBFD-118605 GBFD-110801 GBFD-110802 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

MRFD-210301

MRFD-210301 GBFD-118611 GBFD-118622

MRFD-210301

GBFD-111203

GBFD-111202

MRFD-210304

MRFD-210304

GBFD-111203

None

GBFD-111804

MRFD-210304

MRFD-210301 GBFD-118611 GBFD-118622

GBFD-111202

GBFD-111202

None

GBFD-114701 GBFD-118602 GBFD-118622

GBFD-111804

GBFD-118602 GBFD-110601 GBFD-510501

GBFD-117401

GBFD-116201

GBFD-111202

GBFD-110601 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-110601 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-110601 GBFD-110601 GBFD-510501

GBFD-111202

GBFD-116201

GBFD-116201 GBFD-116201 GBFD-114301 GBFD-114322

GBFD-116201

GBFD-111005

GBFD-110601

None

GBFD-113725

None

GBFD-111202

GBFD-118611

GBFD-118611

GBFD-118603

GBFD-118603

GBFD-510104

GBFD-510104

MRFD-210304

GBFD-118602 GBFD-118622 GBFD-118602 GBFD-118622 GBFD-111203 MRFD-210305 GBFD-118602 GBFD-118622

MRFD-210301

GBFD-111202

GBFD-111705

GBFD-111705

None

None

None

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111203

GBFD-111202

GBFD-115402

GBFD-115402

GBFD-115402

GBFD-115402

GBFD-115402

GBFD-115402

MRFD-210502

MRFD-210502

MRFD-210301 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

GBFD-111203

GBFD-117002

GBFD-111203

GBFD-111203

None

None

GBFD-111203

None

GBFD-117301

GBFD-117301

GBFD-111202

GBFD-113201

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-118605

None

None

GBFD-118605

None

GBFD-114201

GBFD-111202

GBFD-111202 GBFD-118601 GBFD-117301

GBFD-111203 MRFD-210305

MRFD-210301

MRFD-210301

MRFD-210401 GBFD-111203 MRFD-210305 GBFD-111203 MRFD-210305

GBFD-111202

GBFD-111202

GBFD-115506

GBFD-115506

GBFD-115506

GBFD-115506

GBFD-119301

GBFD-111202

GBFD-111202 GBFD-111202 GBFD-111601

GBFD-118602

MRFD-210301

GBFD-118630

GBFD-118630

GBFD-113701

None

GBFD-111609

GBFD-111609

GBFD-111609

GBFD-111609

GBFD-111609

GBFD-118630

GBFD-118601

GBFD-510104

MRFD-210206

GBFD-111202

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002

GBFD-117002 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

GBFD-111202

GBFD-118630 MRFD-210301

None GBFD-118611 GBFD-118622

GBFD-118630

None

None

GBFD-113601

GBFD-118601

GBFD-118611

GBFD-118611

GBFD-118606

GBFD-118606

GBFD-110703

GBFD-118602 GBFD-118609 MRFD-210103 GBFD-110601 GBFD-510501

GBFD-114101

GBFD-114101

GBFD-111605 GBFD-510701 GBFD-510601

GBFD-510702

GBFD-118605

GBFD-111202 GBFD-118604 GBFD-118610 GBFD-118611 GBFD-118622

MRFD-210305

MRFD-210304

GBFD-111202

GBFD-118602

GBFD-114101 GBFD-113101 GBFD-119303 GBFD-119501 GBFD-113101 GBFD-114101 GBFD-113101 GBFD-119303 GBFD-119501

GBFD-114101

MRFD-210305

GBFD-111202

GBFD-111202 GBFD-110601 GBFD-510501

GBFD-119110

GBFD-119110

GBFD-119110

GBFD-119110 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

GBFD-110703

GBFD-110703

GBFD-110703 GBFD-110901 GBFD-114001

GBFD-111004

GBFD-111004

GBFD-111004

MRFD-210502

GBFD-117301

None

GBFD-110703

MRFD-210305

None

GBFD-118609 GBFD-114401 GBFD-111101

GBFD-117501

GBFD-117501

GBFD-118201

GBFD-118201

MRFD-210301

GBFD-510702

None

GBFD-118611

MRFD-210301

GBFD-111202

GBFD-111202

GBFD-111005

GBFD-111202

None GBFD-118630 MRFD-210301

GBFD-118630 GBFD-118630 MRFD-210301

GBFD-119102

GBFD-511103 GBFD-117501 GBFD-110801 GBFD-110802

GBFD-118630 GBFD-118630 MRFD-210301

GBFD-118630

GBFD-118630

GBFD-118611

GBFD-116201 GBFD-118611 GBFD-118622

GBFD-114301 GBFD-110601 GBFD-510501 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

GBFD-110607

GBFD-113001 GBFD-114301 GBFD-114302

None

GBFD-118609

GBFD-118609

GBFD-118609

GBFD-118609

None

None

MRFD-210301

GBFD-510702

GBFD-111705

MRFD-210502 GBFD-118602 GBFD-118622

MRFD-210301

MRFD-210301

None

None

GBFD-111701 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601 GBFD-111202 GBFD-111211 GBFD-111202 GBFD-111211

GBFD-111202

GBFD-510102

GBFD-118611

GBFD-118611 GBFD-118611 GBFD-118622

None

GBFD-118611

GBFD-111301

GBFD-111202

GBFD-118611 GBFD-118611 GBFD-118622

MRFD-210301

MRFD-210301

GBFD-110703 GBFD-110601 GBFD-510501

GBFD-117601

GBFD-110802

GBFD-111202

GBFD-111202

GBFD-111203

GBFD-111203

GBFD-118601

GBFD-118201

GBFD-110501

GBFD-117401

GBFD-117401

GBFD-117401

GBFD-117401

GBFD-117401

GBFD-111804

GBFD-110503

GBFD-111203 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117702 GBFD-117701 GBFD-117702

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117701

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-117702

GBFD-510102 GBFD-111003 GBFD-110301 GBFD-110303 GBFD-110502

GBFD-111701

GBFD-510801

GBFD-510801

GBFD-111202 GBFD-110601 GBFD-510501

GBFD-116201

GBFD-119001

GBFD-113725

GBFD-114101

None

GBFD-111705

None

GBFD-111804

None

GBFD-118602 GBFD-118611 GBFD-118622

GBFD-118611

GBFD-111202

GBFD-114101

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203 GBFD-118611 GBFD-118622

None GBFD-118604 GBFD-118610

GBFD-111202 GBFD-118604 GBFD-118610

GBFD-117801

GBFD-111002

GBFD-111002

GBFD-111002

GBFD-111002

GBFD-111002

GBFD-111002

GBFD-111002

GBFD-114101

GBFD-114101 GBFD-114101 GBFD-119205

GBFD-510002

GBFD-510002

GBFD-510002 GBFD-116301 GBFD-119502

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-118605

GBFD-118602

GBFD-118602

GBFD-118602

GBFD-118602

GBFD-118602

GBFD-114101

GBFD-111005 GBFD-115501 GBFD-119115 GBFD-115502 GBFD-115701 GBFD-113301 GBFD-113726

MRFD-210301

GBFD-117002

MRFD-210301

GBFD-117002

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301 GBFD-510704 GBFD-510601

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301 GBFD-116201 GBFD-116301

GBFD-116201 GBFD-116201 GBFD-119502

MRFD-210301

MRFD-210301 GBFD-110401 GBFD-110402 GBFD-111101 GBFD-110801 GBFD-110802

GBFD-510102 GBFD-110601 GBFD-510501

GBFD-510901

GBFD-510901

GBFD-510901

GBFD-510901

GBFD-510901

GBFD-510901

GBFD-510901

GBFD-510901 GBFD-510301 GBFD-510302 GBFD-510301 GBFD-510302 GBFD-119107 GBFD-114302 GBFD-119502 GBFD-111101

GBFD-111804

MRFD-210301 GBFD-110601 GBFD-510501

None

None

None

GBFD-118611

GBFD-111804

MRFD-210401 GBFD-119108 GBFD-114151

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501

GBFD-510501 GBFD-116902 GBFD-118605 GBFD-113726 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-111202

GBFD-117601

GBFD-119107 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

GBFD-116201

GBFD-111202

GBFD-111705

GBFD-111004

GBFD-510309

None

GBFD-117501

GBFD-117501 GBFD-117401 GBFD-119701

GBFD-119701

GBFD-111101

GBFD-119001

GBFD-119001 GBFD-110601 GBFD-510501

GBFD-115402 GBFD-118201

GBFD-510002

GBFD-510002

GBFD-111202

GBFD-111202

GBFD-510301 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622 GBFD-111202 GBFD-118611 GBFD-118622 GBFD-111202 GBFD-118605 GBFD-111202 GBFD-111202 MRFD-210103

GBFD-111202 GBFD-111202 MRFD-210103

MRFD-210602

GBFD-111207

GBFD-111203

None

MRFD-210304

MRFD-210304

MRFD-210301

GBFD-119901

GBFD-113201

GBFD-113728

GBFD-111202

GBFD-116601

GBFD-111202

GBFD-111202

GBFD-111202

None

GBFD-118605

GBFD-111202

GBFD-118601

GBFD-111202

GBFD-111202

GBFD-111203 MRFD-210305 MRFD-210301 GBFD-118701

GBFD-111202

GBFD-111803

GBFD-118701

GBFD-118701

GBFD-118701

MRFD-210401

GBFD-111803

GBFD-111801

GBFD-111803

GBFD-111203

GBFD-118701

GBFD-113201

GBFD-113201

GBFD-113201

GBFD-111005

GBFD-111202

GBFD-111202

GBFD-111202

MRFD-211402

MRFD-211501

MRFD-210401

GBFD-110101

GBFD-114201

GBFD-113201

GBFD-114402 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-114402

GBFD-111005

GBFD-114402

GBFD-114402

GBFD-114402

GBFD-114402

GBFD-114402

GBFD-114402

GBFD-114701

GBFD-114701

GBFD-111203

GBFD-111203

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-510104

GBFD-510104

GBFD-510104

GBFD-114402

GBFD-111202

GBFD-114701

GBFD-111203

GBFD-114701

GBFD-511103

GBFD-114321

GBFD-114321

MRFD-211402

GBFD-114701 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

MRFD-210304 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

MRFD-210304 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

GBFD-111003

GBFD-111202

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111612

GBFD-119202

GBFD-111705

GBFD-110303

GBFD-111705

GBFD-110303

GBFD-114101

GBFD-114101

GBFD-114101

GBFD-111602

GBFD-111202

GBFD-111202

GBFD-118601 GBFD-118605 GBFD-118602 GBFD-118605 GBFD-118611 GBFD-118622

None

GBFD-117602 GBFD-118601 GBFD-510501 GBFD-118602 GBFD-118605 GBFD-118611 GBFD-118622

MRFD-210401

GBFD-119115

GBFD-110601

GBFD-110601

GBFD-110601

GBFD-110601

GBFD-114101

GBFD-110703

GBFD-119115

GBFD-111203

GBFD-114101

GBFD-111203

GBFD-114101 GBFD-113101 GBFD-119303 GBFD-111202 GBFD-119501 GBFD-117301 GBFD-114101 GBFD-113101 GBFD-119303 GBFD-119501

GBFD-111606 GBFD-114101 GBFD-113101 GBFD-113101 GBFD-119303 GBFD-119303 GBFD-119501 GBFD-119501 GBFD-114101 GBFD-113101 GBFD-119303 GBFD-119501 GBFD-118602 GBFD-118622

GBFD-113725

GBFD-118601 GBFD-118601 GBFD-113725 GBFD-118601 GBFD-113725 GBFD-118601 GBFD-113725 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

GBFD-118609

GBFD-118611

GBFD-118611 GBFD-118602 GBFD-118622 GBFD-118602 GBFD-118622 GBFD-118601 GBFD-118605 GBFD-118602 GBFD-118605 GBFD-118611 GBFD-118622 GBFD-118602 GBFD-118622

GBFD-111202 GBFD-110601 GBFD-510501

GBFD-116201

GBFD-116201 GBFD-110601 GBFD-510501

GBFD-118605

GBFD-510901 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

GBFD-118611

GBFD-119901

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-118605 GBFD-118604 GBFD-118610 GBFD-110402 GBFD-111101

MRFD-210305

GBFD-118630

GBFD-118630

None

GBFD-118604

GBFD-119801

None

GBFD-118630

GBFD-119110

GBFD-114201

GBFD-119110

GBFD-119110

GBFD-114201

GBFD-119110

GBFD-114201

GBFD-118605

GBFD-118605

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111705

GBFD-111705

GBFD-110303

GBFD-110303

GBFD-110303

GBFD-111705

GBFD-111705

GBFD-111705

MRFD-210301

MRFD-210304

MRFD-210301

GBFD-111801

GBFD-111803

None

GBFD-111203

MRFD-210304

None

None

None

None

None

GBFD-111701

None

None

None

None

GBFD-118609

None

None

GBFD-510002

GBFD-111203

GBFD-111202

MRFD-210304

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-119905

GBFD-119905

GBFD-119905

GBFD-119905

GBFD-111202

GBFD-111202

MRFD-210301

MRFD-210301

GBFD-111203

GBFD-117801

GBFD-113728

GBFD-111203

GBFD-111203

None

MRFD-210301

GBFD-118630

MRFD-211501

GBFD-114323

GBFD-111202

GBFD-111202

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-111202

GBFD-510804

GBFD-510804

GBFD-111202

GBFD-111202

MRFD-210301

MRFD-210301

GBFD-118611

GBFD-118611 GBFD-118611 GBFD-118622

GBFD-118611 GBFD-118622

None

GBFD-118611 GBFD-118611 GBFD-118622

None

GBFD-115001

GBFD-115001 GBFD-110202 GBFD-110521

GBFD-110802

GBFD-118601 GBFD-111101 GBFD-114101

GBFD-111705

GBFD-110802

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-117301

GBFD-114101 GBFD-111804 GBFD-118602 GBFD-118622 GBFD-111804 GBFD-118602 GBFD-118622

None

GBFD-118601

GBFD-118601

GBFD-118601

MRFD-210305

GBFD-118601

GBFD-111804

GBFD-510002

GBFD-111202

GBFD-111610

GBFD-111602

None

None

None

None

None

None

None

None

GBFD-118605

GBFD-118605

GBFD-119502

None

None

GBFD-111705 GBFD-111101 GBFD-119102

GBFD-119102

GBFD-118605

GBFD-118605

GBFD-111705

GBFD-113201

None

GBFD-111003

GBFD-510104

None

GBFD-111705

GBFD-111705

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-113201

GBFD-111608

None

MRFD-210304

GBFD-111203

GBFD-110402

GBFD-119001

MRFD-210304

None

None

None

None

GBFD-118401

None

GBFD-111202

MRFD-210305

GBFD-111202

GBFD-111202

GBFD-510002

MRFD-210305 GBFD-111203 MRFD-210305

GBFD-111202

MRFD-210305

GBFD-111202

MRFD-210304

MRFD-210304

GBFD-117602

GBFD-117601

GBFD-110703

GBFD-111003

GBFD-111003

GBFD-510104

GBFD-111202

GBFD-111605

GBFD-111005

MRFD-210301 GBFD-111202 MRFD-210601 GBFD-111202 MRFD-210601

GBFD-111202

None

None

None

None

None GBFD-114301 GBFD-114302 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-114301 GBFD-114302 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-119902 GBFD-114301 GBFD-114302 GBFD-114301 GBFD-114302 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-111005

GBFD-111202

GBFD-111202

GBFD-110703 GBFD-110601 GBFD-510501

GBFD-510102

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

MRFD-210301

MRFD-210301

GBFD-114101

GBFD-510701

GBFD-510701

GBFD-510702

GBFD-111003

GBFD-111003

GBFD-111003

GBFD-510104 GBFD-111101 GBFD-114101

GBFD-114101

GBFD-111003

GBFD-114101

GBFD-118601 GBFD-115506 GBFD-115507 GBFD-115506 GBFD-115701

GBFD-110801

MRFD-210301

GBFD-111203

GBFD-111202

GBFD-111202

GBFD-111202

MRFD-210301

GBFD-118605

GBFD-112501

GBFD-112501 GBFD-113201 GBFD-115501 GBFD-113201 GBFD-115502

GBFD-113201

GBFD-113201

GBFD-113201

GBFD-111705

GBFD-118605

GBFD-113201

GBFD-113201

MRFD-210301

GBFD-111705

GBFD-111705

MRFD-210502

MRFD-210502

MRFD-210502

MRFD-210502

MRFD-210502

MRFD-210502

MRFD-210502

GBFD-117702

GBFD-113725

GBFD-113725

GBFD-113725

GBFD-118201

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-118605

None

GBFD-118603

GBFD-113602

GBFD-113721

GBFD-113721

GBFD-113721

MRFD-210304

GBFD-111203

GBFD-116201

GBFD-116201

GBFD-116201

GBFD-116201

GBFD-113101

GBFD-111602

GBFD-111202

GBFD-111202

MRFD-210305

GBFD-114101

GBFD-111612

GBFD-114101

GBFD-119001

GBFD-111804 GBFD-111203 MRFD-210403 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

MRFD-210304

MRFD-211402

GBFD-116001

MRFD-210301 GBFD-111004 GBFD-111101

GBFD-111203

GBFD-119301

GBFD-510401

GBFD-116301

None

GBFD-111004

GBFD-116902

MRFD-210301

MRFD-211402

MRFD-211402

MRFD-211402

MRFD-210305

GBFD-118603

GBFD-118603

GBFD-116801

GBFD-119107 GBFD-119107 GBFD-114302

GBFD-118605

GBFD-116801

GBFD-117501

GBFD-117501

GBFD-118605

None

GBFD-118605 GBFD-110601 GBFD-510501 GBFD-114301 GBFD-114302 GBFD-114301 GBFD-114302

None

None

GBFD-114101

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-118601

MRFD-210301

GBFD-510901

MRFD-210401

GBFD-111203

GBFD-111804

GBFD-118611

GBFD-110202

None

None

None

None

None

None

None

None

None

None

GBFD-111602

GBFD-111701 GBFD-118602 GBFD-118622

GBFD-118602

GBFD-118602

None

None

GBFD-118601

GBFD-118602

GBFD-118602

GBFD-118602 GBFD-510805 GBFD-118602 GBFD-119901 GBFD-119902 GBFD-119905 GBFD-118602 GBFD-119906 GBFD-111003 GBFD-510805 GBFD-119901 GBFD-115506 GBFD-119902 GBFD-119905 GBFD-119906 GBFD-111003

GBFD-118601

GBFD-118605

GBFD-118605

GBFD-111202

GBFD-118605

GBFD-118605

GBFD-114101 GBFD-115501 GBFD-510501 GBFD-110601

GBFD-111101 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

None

None GBFD-112301 MRFD-210304

GBFD-111202

GBFD-510301

GBFD-118103

GBFD-118103

GBFD-118103

MRFD-210304

GBFD-111610

GBFD-111610

GBFD-111610

GBFD-111610

GBFD-111610

GBFD-111004

MRFD-210304 GBFD-112301 MRFD-210304 GBFD-112301 MRFD-210304

GBFD-111202

GBFD-111202

GBFD-118201

GBFD-118201

GBFD-117501

GBFD-118603

GBFD-510102

MRFD-210301

GBFD-111202

GBFD-113602

GBFD-111202

GBFD-111203

GBFD-111203

GBFD-111203 GBFD-114301 GBFD-114302

MRFD-210304 GBFD-118602 GBFD-118622

GBFD-111203

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-111701

GBFD-111202 GBFD-116101 MRFD-210301

MRFD-210301

GBFD-110502

GBFD-110502

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-113001

GBFD-111701

GBFD-113503

GBFD-111605 GBFD-110601 GBFD-510501

GBFD-117601 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-118603

GBFD-111701 GBFD-111202 GBFD-111601

MRFD-210304

MRFD-210304

GBFD-111202

GBFD-117501

GBFD-111202

GBFD-111101

GBFD-116401 GBFD-110601 GBFD-510501

GBFD-111804

GBFD-110203

GBFD-510307

GBFD-510307

GBFD-111612

GBFD-111101

GBFD-111101

GBFD-111101

GBFD-111202

GBFD-111202

GBFD-111203

GBFD-111203

MRFD-210602

GBFD-111203 GBFD-118602 GBFD-113726

GBFD-118601

GBFD-510601 GBFD-111203 MRFD-210305

GBFD-118601

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-119701

MRFD-210301

GBFD-119701

GBFD-119701

GBFD-119701

GBFD-114101

GBFD-119701

GBFD-111705

GBFD-111203

GBFD-118701

MRFD-210304

GBFD-111605

GBFD-111101 GBFD-110601 GBFD-510501

GBFD-118201

GBFD-111804

GBFD-111804

GBFD-118602

GBFD-118603

GBFD-118603

GBFD-118605

GBFD-118201 GBFD-110601 GBFD-510501 GBFD-111804 GBFD-115301 GBFD-110601 GBFD-510501

GBFD-119303

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

None

None

GBFD-111203

GBFD-118201

GBFD-118606

GBFD-510104

GBFD-111207

GBFD-111804

GBFD-113725 GBFD-116101 MRFD-210301

None

None

MRFD-210304 GBFD-116101 MRFD-210301

WRFD-040100

MRFD-210301

MRFD-210301

None

GBFD-118602

None

None

GBFD-111203

MRFD-210304

MRFD-210304

None

None

MRFD-210301

MRFD-211402

GBFD-111202

GBFD-118609

MRFD-210301

GBFD-111203

GBFD-111202

GBFD-111202

GBFD-111202

MRFD-210301

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111203 GBFD-111802 GBFD-111804 GBFD-111802 GBFD-111804 GBFD-111802 GBFD-111804

GBFD-111203

GBFD-111804 GBFD-111003 GBFD-110301 GBFD-110302

MRFD-210304

MRFD-210304

GBFD-119301

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-510309

GBFD-510309

GBFD-510309

None GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-111101 GBFD-114802

GBFD-113601

MRFD-211402

MRFD-211402

GBFD-119502

GBFD-119502

GBFD-116301

GBFD-510301

GBFD-114101

GBFD-114101

GBFD-114101

GBFD-114101

GBFD-118701

GBFD-510805

GBFD-118701

GBFD-111203

GBFD-111804

GBFD-111202

GBFD-111202

GBFD-111202 GBFD-110601 GBFD-510501

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301

GBFD-111203

MRFD-210502

MRFD-210502 GBFD-110601 GBFD-510501

GBFD-118609

MRFD-210301

MRFD-210301

None

MRFD-210301

None

MRFD-210502

None

MRFD-210301

MRFD-210301

None

None

GBFD-118602

None

None

MRFD-210304

None

MRFD-210301

MRFD-211402

GBFD-111202

GBFD-118609

MRFD-210301

GBFD-111203

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111203

GBFD-111203

MRFD-210301

GBFD-111202

MRFD-210502

MRFD-210304

GBFD-118603

GBFD-118603 GBFD-111202 GBFD-117804

GBFD-118605 GBFD-110601 GBFD-510501

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

MRFD-210301

MRFD-211402

MRFD-210304 GBFD-110601 GBFD-510501 GBFD-116101 MRFD-210301

GBFD-111203

GBFD-111203 GBFD-111203 MRFD-210305

MRFD-210304

MRFD-210304

GBFD-113602

MRFD-210304

GBFD-113701

GBFD-111705

GBFD-111803

GBFD-111203

GBFD-111602

GBFD-111202

GBFD-111602

GBFD-111705

GBFD-111705

GBFD-111202

GBFD-510309

GBFD-111602

GBFD-111801

GBFD-111803

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111803

GBFD-111202 GBFD-111203 MRFD-210305

GBFD-510901

GBFD-111804

GBFD-111202

GBFD-115821

GBFD-113521

GBFD-510309

GBFD-111804

GBFD-114701

GBFD-112401

GBFD-111202

GBFD-111202

GBFD-111202 GBFD-111203 MRFD-210305

GBFD-111202

GBFD-111202

GBFD-113726

GBFD-113726

GBFD-111202 GBFD-118604 GBFD-118610

GBFD-118604

GBFD-111203

None

GBFD-117301

GBFD-117301

GBFD-111203

GBFD-111202

GBFD-111803

MRFD-210502

MRFD-210502

GBFD-113602 GBFD-113101 GBFD-119402 GBFD-119303 GBFD-119501

GBFD-114151 GBFD-113101 GBFD-119401 GBFD-119303 GBFD-119501

GBFD-114151

GBFD-117702

GBFD-115701

MRFD-211404

GBFD-119110

GBFD-118603

GBFD-118603

MRFD-210304

GBFD-111203

GBFD-111203

GBFD-111202

GBFD-111202 GBFD-116101 MRFD-210301

MRFD-210301

None

MRFD-210403

GBFD-118609

GBFD-111202 GBFD-115501 GBFD-115502 GBFD-115701

GBFD-118602

GBFD-118602

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111202 GBFD-111203 MRFD-210305 GBFD-116101 MRFD-210301

GBFD-118201

GBFD-114302 GBFD-117002 GBFD-118201

GBFD-118606

GBFD-118606

GBFD-118606

GBFD-118606

MRFD-210301

MRFD-210301 GBFD-110601 GBFD-510501

MRFD-210301

GBFD-510301

MRFD-210301

MRFD-210301

GBFD-119001

GBFD-118601

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-119001

GBFD-118601

GBFD-117801

GBFD-111002

GBFD-111002

GBFD-111002

GBFD-111002

GBFD-111002

GBFD-111002

GBFD-111002

GBFD-117802

GBFD-111804

GBFD-111804

GBFD-111804

GBFD-119001

GBFD-118601 GBFD-110601 GBFD-510501

GBFD-510302

GBFD-114101

GBFD-114101

GBFD-110301

GBFD-510002

GBFD-111804

GBFD-119001

GBFD-111804

GBFD-119001

GBFD-111804

GBFD-119001

GBFD-119001

GBFD-111804 GBFD-110601 GBFD-510501

GBFD-113201 GBFD-110601 GBFD-510501

GBFD-113201

GBFD-510501 GBFD-110601 GBFD-510501

GBFD-510306 GBFD-110601 GBFD-510501

GBFD-118201

GBFD-510501

GBFD-113201

GBFD-119115

GBFD-119115

GBFD-111203

GBFD-111202

GBFD-113728

GBFD-117801

GBFD-111804

GBFD-119001

GBFD-111202 GBFD-111203 GBFD-113726

GBFD-113402

GBFD-111005

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004

GBFD-111004 GBFD-110601 GBFD-510501

GBFD-117601

GBFD-111005

GBFD-113521

GBFD-113521

GBFD-113201

GBFD-113201

GBFD-111804

GBFD-111804

GBFD-111203

GBFD-111202

None

GBFD-113726

None

None

MRFD-210301

GBFD-114302

MRFD-210301

GBFD-114302

GBFD-114302

GBFD-114302

GBFD-114302

GBFD-114302

GBFD-114302

GBFD-114302

GBFD-114302

GBFD-114302

MRFD-210301

GBFD-114302

GBFD-114302

GBFD-118605

GBFD-118605

GBFD-111203

GBFD-111203

GBFD-111203

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-111202

MRFD-210301

MRFD-210301

MRFD-210301

MRFD-210301 GBFD-111202 GBFD-111601

GBFD-111202

GBFD-111202

GBFD-111101

GBFD-119001

GBFD-113602

GBFD-115701

GBFD-111207

MRFD-210301

GBFD-111203

None

None

None

None

None

GBFD-114101

GBFD-111202

GBFD-111202

GBFD-119902

GBFD-119902

GBFD-119902

GBFD-119902

GBFD-119902

GBFD-119902

GBFD-119902

GBFD-119902

GBFD-119902

GBFD-118605

GBFD-119701

GBFD-118001

GBFD-118001

GBFD-118001

GBFD-118001

GBFD-118001

GBFD-118001

GBFD-118001

GBFD-117002

GBFD-117401 GBFD-111203 MRFD-210305

GBFD-111203

GBFD-112401 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-113201

GBFD-118630

GBFD-118630

GBFD-118630

GBFD-118630

GBFD-118604 GBFD-110601 GBFD-510501

None

GBFD-111606 GBFD-110601 GBFD-510501

GBFD-113201

GBFD-111005

GBFD-117401 GBFD-111203 MRFD-210305

GBFD-114101

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-111203

GBFD-118605

None

None

GBFD-111207

GBFD-110501

MRFD-210304

GBFD-111203

MRFD-210304

GBFD-111804

GBFD-111804

MRFD-210301

GBFD-113903

GBFD-111203 GBFD-116101 MRFD-210301

GBFD-110402

MRFD-211501

MRFD-211501

MRFD-211501

GBFD-111203

GBFD-111202 GBFD-110601 GBFD-510501

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-119501

GBFD-119501

GBFD-118602

GBFD-113901

GBFD-111203

GBFD-118605

GBFD-118605

GBFD-118605

GBFD-111202

GBFD-118601

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-114101 GBFD-110601 GBFD-510501

MRFD-210103

MRFD-210103

MRFD-210103

GBFD-111202

GBFD-118605

None

None GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

GBFD-118605

None

GBFD-111202

None

GBFD-118609

GBFD-118630

GBFD-113801

GBFD-111207

GBFD-113701

MRFD-210301

GBFD-510104

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113703

GBFD-113701

GBFD-111207

GBFD-113701

MRFD-210301

GBFD-111202

GBFD-111202

GBFD-510104

GBFD-111005

GBFD-111202

GBFD-111801

GBFD-111803

None

GBFD-510002

GBFD-111203 GBFD-118611 GBFD-118622 GBFD-118611 GBFD-118622

GBFD-118611

GBFD-113701 GBFD-114101 GBFD-117301

GBFD-118201

None

GBFD-111207

GBFD-114701

GBFD-111203

MRFD-210301

MRFD-211501

GBFD-111202

GBFD-111203

GBFD-111005

GBFD-111005

GBFD-119501

GBFD-119501

GBFD-114701

GBFD-111202

GBFD-111207

GBFD-111202

GBFD-111207

GBFD-111202

GBFD-111603

GBFD-111202

None

None

GBFD-111610

GBFD-111610

GBFD-111610

GBFD-111610

GBFD-111610

GBFD-111202

GBFD-111202

GBFD-118201

GBFD-118201

GBFD-118201

GBFD-118201

GBFD-118201

GBFD-118201

GBFD-118201 GBFD-111003 GBFD-110301

GBFD-118701

GBFD-118701

GBFD-118701

GBFD-118701

GBFD-118701

GBFD-118701

GBFD-118701

GBFD-118701

GBFD-118605

GBFD-118605

None

GBFD-119110

MRFD-210301

GBFD-111203

GBFD-110101

GBFD-114101

GBFD-510701

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118602

GBFD-111005

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118601

GBFD-118602 GBFD-118604 GBFD-118610

GBFD-118604 GBFD-118610

GBFD-118603

GBFD-118603 GBFD-111203 MRFD-210305

GBFD-111202 GBFD-510301 GBFD-510302

None

MRFD-210304

MRFD-210304

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-510501

GBFD-510501

GBFD-119501

GBFD-111203

GBFD-119105 GBFD-110601 GBFD-510501

GBFD-119105

GBFD-119105

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-115501

GBFD-115501

GBFD-115501

GBFD-115502

GBFD-115502

GBFD-115502

GBFD-115507

GBFD-115507

GBFD-511103

GBFD-110703

GBFD-117601

GBFD-117601

GBFD-511103

GBFD-110703

GBFD-110703

GBFD-110703

GBFD-110703

GBFD-110703

GBFD-110703 GBFD-110601 GBFD-510501 GBFD-115501 GBFD-510501 GBFD-110601 GBFD-115502 GBFD-510501 GBFD-110601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-117601

GBFD-110703

GBFD-110703 GBFD-115501 GBFD-115507 GBFD-115501 GBFD-115507 GBFD-115501 GBFD-115507

GBFD-115502

GBFD-115502

GBFD-115502

GBFD-115507

GBFD-115507

GBFD-113201

GBFD-119105

GBFD-111203 GBFD-110601 GBFD-510501

MRFD-210301

None

GBFD-510002 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

MRFD-210304 MRFD-210304 MRFD-210601 MRFD-210304 MRFD-210601

MRFD-210304

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-113602 GBFD-114101 GBFD-119106 GBFD-114101 GBFD-119106 GBFD-114101 GBFD-114201 GBFD-113101 GBFD-119106 GBFD-119303 GBFD-114201 GBFD-119501 GBFD-119106 GBFD-114101 GBFD-113101 GBFD-119303 GBFD-119501

GBFD-510803

GBFD-510803

GBFD-119203 GBFD-114101 GBFD-119106 GBFD-114101 GBFD-119106 GBFD-114201 GBFD-119106 GBFD-114201 GBFD-119106 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-510309

GBFD-118601 GBFD-110703 GBFD-117601

GBFD-118605

None GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501 GBFD-110601 GBFD-510501

GBFD-110203

GBFD-119203

GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106

GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106 GBFD-118901 GBFD-119106

GBFD-116201

GBFD-111203

GBFD-114101 GBFD-111203 MRFD-210403

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-113201

GBFD-113201

GBFD-113201

GBFD-113201

GBFD-113201

GBFD-113201 GBFD-114301 GBFD-114302

GBFD-111202 GBFD-510301 GBFD-510302 GBFD-510301 GBFD-510302 GBFD-510301 GBFD-510302

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-111705

GBFD-118605

None

None

None GBFD-118611 GBFD-118622

GBFD-118630

GBFD-118601 GBFD-118630 MRFD-210301

None

None

None

GBFD-118601

GBFD-118601

MRFD-210301

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-111202

MRFD-210304

MRFD-210304

MRFD-210304

GBFD-111202

GBFD-111202

GBFD-110501

GBFD-115501

GBFD-115502

None GBFD-110202 GBFD-110521

GBFD-117002

None

GBFD-111202

MRFD-210304 GBFD-111203 MRFD-210305 GBFD-115402 GBFD-118201

GBFD-111202

GBFD-118609

GBFD-118601 GBFD-111203 MRFD-210305

GBFD-118602

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

GBFD-111202

MRFD-210301

GBFD-111202

MRFD-210301

None

GBFD-111202

GBFD-111203

GBFD-113728

GBFD-117801

GBFD-111701 GBFD-116101 MRFD-210301

Feature Name

Assignment and Immediate Assignment

Assignment and Immediate Assignment

Assignment and Immediate Assignment

Abis Bypass

GSM Flow Control

GSM Flow Control

GSM Flow Control

EGPRS

EGPRS

BTS Local Switch

Flex Abis

PDCH Dynamic Adjustment

Configuration Management

Soft-Synchronized Network

Voice Quality Index (Uplink VQI)

Access

Access

Access Control Class(ACC)

Access Control Class(ACC)

Concentric Cell

Access Control Class(ACC)

Adaptive Adjustment of Uplink and Downlink Channels

Access Control Class(ACC)

Access Control Class(ACC)

Access Control Class(ACC) Abis IP over E1/T1 A IP over E1/T1

Abis IP over E1/T1

BSS Paging Coordination Basic Cell Re-selection System Information Sending AMR FR TFO AMR HR TFO WB AMR TFO Call Control Handover Re-establishment

Soft-Synchronized Network

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS HUAWEI I Handover HUAWEI II Handover

O&M of BTS

GSM Flow Control

GSM Flow Control

O&M of BTS

A Interface Protocol Process

Soft-Synchronized Network

Dynamically Adjusting the Uplink MCS Coding

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Soft-Synchronized Network

Soft-Synchronized Network

Soft-Synchronized Network

Soft-Synchronized Network

Faulty Management

O&M of BTS

O&M of BTS

Acoustic Echo Cancellation(AEC)

Acoustic Echo Cancellation(AEC)

Acoustic Echo Cancellation(AEC)

Acoustic Echo Cancellation(AEC)

Acoustic Echo Cancellation(AEC)

Acoustic Echo Cancellation(AEC)

Acoustic Echo Cancellation(AEC)

Acoustic Echo Cancellation(AEC)

AMR Wireless Link Timer

AMR Wireless Link Timer

BSC/RNC Clock

BSC/RNC Clock

AMR Wireless Link Timer

AMR Wireless Link Timer

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

O&M of BTS

Faulty Management

TRX Cooperation

Faulty Management

Faulty Management

End-to-End MS Signaling Tracing

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

A over IP

Automatic Level Control (ALC)

Automatic Level Control (ALC)

Automatic Level Control (ALC)

Automatic Level Control (ALC)

Automatic Level Control (ALC)

Automatic Level Control (ALC)

Automatic Level Control (ALC)

Gb Over FR

Gb Over FR

IP QOS

GPRS

PDCH Dynamic Adjustment

Enhanced Channel Assignment Algorithm

EDA(Extended Dynamic Allocation)

Network-Controlled Cell Reselection (NC2)

Enhanced Channel Assignment Algorithm

A Interface Circuit Management

O&M of BSC Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Power Control

BSS-Based LCS (Cell ID + TA)

BSC/RNC Clock

BSS-Based LCS (Cell ID + TA)

BSC/RNC Clock

Faulty Management

Faulty Management O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier)

AMR Power Control

HUAWEI III Power Control Algorithm

AMR Coding Rate Threshold Adaptive Adjustment

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

Enhanced Power Control Algorithm

AMR HR

AMR HR

AMR Coding Rate Threshold Adaptive Adjustment

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

AMR Power Control

A Interface Circuit Management

A Interface Circuit Management

Automatic Noise Compensation (ANC)

Automatic Noise Compensation (ANC)

Automatic Noise Compensation (ANC) Abis overElectrical IP Remote Tilt A over IP IP QOS Abis IP over E1/T1 A IP over E1/T1

None

Faulty Management

Automatic Noise Restraint (ANR)

Automatic Noise Restraint (ANR)

Automatic Noise Restraint (ANR)

Automatic Noise Restraint (ANR) BSS-Based LCS (Cell ID + TA) Soft-Synchronized Network BTS GPS Synchronization BTS/NodeB Clock BTS GPS Synchronization BTS/NodeB Clock Abis IP over E1/T1 A IP over E1/T1

O&M of BTS

Remote Electrical Tilt

O&M of BTS

Multi-site Cell

O&M of BTS

A Interface Protocol Process

A over IP

Semi-Permanent Connection

PS Active Package Management

PS Active Package Management

PS Active Package Management

PS Active Package Management

PS Active Package Management

PS Active Package Management

PS Active Package Management

PS Active Package Management

Configuration Management

BSC/RNC Software Management

BSC/RNC Software Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

IP Fault Detection Based on BFD Abis IP over E1/T1 A IP over E1/T1

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

Faulty Management

Faulty Management

Assignment and Immediate Assignment

Direct Retry

Concentric Cell

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

2G/3G Neighboring Cell Automatic Optimization

Assignment and Immediate Assignment

O&M of BSC

A Interface Circuit Management

GSM Flow Control

GSM Flow Control O&M of BSC A Interface Circuit Management

O&M of BSC

A Interface Circuit Management

Concentric Cell

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Flex Ater

Flex Ater

Flex Ater

O&M of BSC

BSC Local Switch

O&M of BSC

Semi-Permanent Connection

Configuration Management

Configuration Management

O&M of BSC

Ater Compression Transmission

O&M of BTS

A Interface Protocol Process

IMSI Detach O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier)

None

None

Security Management Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Abis IP over E1/T1 A IP over E1/T1

Abis IP over E1/T1

IP Fault Detection Based on BFD

Configuration Management

AMR FR

AMR HR

O&M of BTS

Abis over IP

O&M of BTS

Security Management

Security Management

None

A Interface Protocol Process

Faulty Management

Faulty Management

None

None

None

None

BSC/RNC Clock

BSC/RNC Clock O&M of BSC Security Management

Configuration Management

Radio Dedicated Channel Management

GPRS

None

IP Fault Detection Based on BFD

IP Fault Detection Based on BFD

Active Backup Power Control

Active Backup Power Control

Multi-band Sharing One BSC

Multi-band Sharing One BSC

Multi-band Sharing One BSC HUAWEI I Handover HUAWEI II Handover

O&M of BTS

Soft-Synchronized Network

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

BSC Node Redundancy Processing of Measurement Report Pre-processing of Measurement Report

O&M of BTS

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Frequency Band

Frequency Hopping (RF hopping, baseband hopping)

Gb Over FR

Gb Over FR

Gb over IP

Gb Over FR

O&M of BTS

O&M of BTS

O&M of BTS

QoS ARP&THP

QoS ARP&THP

QoS ARP&THP A Interface Protocol Process STP（Signaling Transport Point)

BSC Node Redundancy

EGPRS

GSM/TD-SCDMA Interoperability GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

IP Fault Detection Based on BFD

IP Fault Detection Based on BFD Processing of Measurement Report Pre-processing of Measurement Report

TRX Cooperation

Soft-Synchronized Network

QoS ARP&THP

QoS ARP&THP

QoS ARP&THP

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Gb Over FR

Gb Over FR

None

None

None

GSM Flow Control Abis IP over E1/T1 A IP over E1/T1

Faulty Management

O&M of BTS

O&M of BTS HUAWEI I Handover HUAWEI II Handover

HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

HUAWEI II Handover

Configuration Management

Configuration Management

Configuration Management

Configuration Management

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Configuration Management

Configuration Management

None

None

None

None

O&M of BTS

O&M of BTS

Fast Ring Network Switch

Simplified Cell Broadcast

Simplified Cell Broadcast O&M of BSC Security Management Radio Common Channel Management Location Updating Paging

A over IP

TRX Power Amplifier Intelligent Shutdown

A Interface Circuit Management TC Pool

Short Message Service Cell Broadcast (TS23)

Soft-Synchronized Network

Soft-Synchronized Network Ater Compression Transmission IP QOS TC Pool

Configuration Management

Soft-Synchronized Network

Short Message Service Cell Broadcast (TS23)

Abis over IP

BSC Local Switch

Connection Inter BSC over IP

Enhanced Multi Level Precedence and Preemption(EMLPP)

Enhanced Multi Level Precedence and Preemption(EMLPP)

Semi-Permanent Connection

Short Message Service Cell Broadcast (TS23)

Enhanced Multi Level Precedence and Preemption(EMLPP)

Enhanced Multi Level Precedence and Preemption(EMLPP)

Enhanced Multi Level Precedence and Preemption(EMLPP)

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Semi-Permanent Connection

Semi-Permanent Connection

Semi-Permanent Connection

Soft-Synchronized Network

TC Pool

TC Pool

Semi-Permanent Connection

GPRS

Pre-processing of Measurement Report

Configuration Management Paging Radio Common Channel Management

Configuration Management

Configuration Management BSC Local Switch BTS Local Switch BSC Local Switch BTS Local Switch BSS Paging Coordination BSS Paging Coordination

BSC/RNC Clock

BSC/RNC Software Management

BSC/RNC Software Management

None

None

None

None

None

None

None

Remote Electrical Tilt

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS Ater Interface 4:1 Multiplexing TC Pool

Ater Interface 4:1 Multiplexing

O&M of BTS

O&M of BTS

Abis over IP

Abis over IP

O&M of BTS

Abis over IP

IP QOS

O&M of BTS

O&M of BTS

Abis Transmission Optimization

O&M of BTS

Soft-Synchronized Network

Remote Electrical Tilt

Security Management

Abis over IP

BTS Local Switch

Abis over IP

Pre-processing of Measurement Report

O&M of BTS

Abis Transmission Optimization

O&M of BTS

Abis over IP

Active Backup Power Control

Enhanced Power Control Algorithm

Network Support SAIC

O&M of BTS

Abis Transmission Optimization

O&M of BTS

Compact BTS Automatic Configuration and Planning

O&M of BTS

IP Fault Detection Based on BFD

BTS Test Function

O&M of BTS

Fast Ring Network Switch

A over IP

Gb Interface Function

Gb Interface Function

Gb Interface Function

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS Processing of Measurement Report Pre-processing of Measurement Report

Configuration Management

GPRS

GPRS

O&M of BTS

O&M of BTS

Configuration Management

Call Reestablishment

O&M of BTS Frequency Hopping (RF hopping, baseband hopping) System Information Sending

Compact BTS Automatic Capacity Planning

O&M of BTS

IP QOS

IP QOS

None Basic Cell Selection Basic Cell Re-selection

Short Message Service Cell Broadcast (TS23)

Short Message Service Cell Broadcast (TS23)

Short Message Service Cell Broadcast (TS23)

Short Message Service Cell Broadcast (TS23)

Short Message Service Cell Broadcast (TS23) Basic Cell Selection Location Updating

IP QOS

Short Message Service Cell Broadcast (TS23)

Enhanced Measurement Report(EMR)

Enhanced Measurement Report(EMR)

Configuration Management

Security Management

Radio Common Channel Management

Radio Common Channel Management

Gb over IP

Ethernet OAM

Direct Retry GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Power Control GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability System Information Sending GPRS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Configuration Management

Configuration Management

MBSC Load Balancing

Configuration Management

Configuration Management

O&M of BTS

2G/3G Neighboring Cell Automatic Optimization

Configuration Management

Configuration Management

Remote Electrical Tilt

Enhanced Dual-Band Network HUAWEI I Handover HUAWEI II Handover

Configuration Management

A Interface Protocol Process

SDCCH Dynamic Adjustment

Configuration Management

MBSC Load Balancing

O&M of BTS

Configuration Management

RAN Sharing Processing of Measurement Report Pre-processing of Measurement Report Processing of Measurement Report Pre-processing of Measurement Report

Radio Common Channel Management

O&M of BTS

O&M of BTS

Network-Controlled Cell Reselection (NC2)

Network-Controlled Cell Reselection (NC2) Uplink EGPRS2-A Downlink EGPRS2-A

Fast 3G Reselection at 2G CS Call Release

Faulty Management

Faulty Management

O&M of BTS

O&M of BTS

O&M of BTS Processing of Measurement Report Pre-processing of Measurement Report Processing of Measurement Report Pre-processing of Measurement Report

GSM Flow Control

Security Management

O&M of BTS

IP QOS

Compact BTS Automatic Configuration and Planning

O&M of BTS

O&M of BTS

O&M of BTS O&M of BSC Security Management O&M of BSC Security Management O&M of BSC Security Management

O&M of BSC

O&M of BSC

PICO Automatic Configuration and Planning O&M of BSC Security Management

GPRS

O&M of BSC

O&M of BSC

O&M of BSC

Chain Cell Handover

O&M of BTS

Enhanced Channel Assignment Algorithm

None

O&M of BSC

O&M of BSC

Simplified Cell Broadcast

Enhanced Channel Assignment Algorithm

A Interface Protocol Process

None

IP QOS

Tree Topology O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier)

IP Fault Detection Based on BFD

IP Fault Detection Based on BFD

O&M of BTS

O&M of BTS

A over IP

A over IP

A over IP

IP Fault Detection Based on BFD

BTS Test Function

Configuration Management

O&M of BSC

Configuration Management

BTS Test Function

Configuration Management

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

Enhanced Channel Assignment Algorithm

None

GSM Flow Control

GSM Flow Control

GSM Flow Control

Configuration Management

Configuration Management

Configuration Management

A Interface Circuit Management

O&M of BSC

Voice Fault Diagnosis

Voice Fault Diagnosis

Voice Fault Diagnosis

Voice Fault Diagnosis

Voice Fault Diagnosis

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

IP QOS

Enhanced Channel Assignment Algorithm

O&M of BTS

O&M of BTS

Class11 DTM

Call Control Abis IP over E1/T1 A IP over E1/T1

O&M of BTS

O&M of BTS

BSC/RNC Clock

BTS/NodeB Clock

O&M of BTS

Faulty Management

O&M of BTS

O&M of BSC Security Management O&M of BSC Security Management

O&M of BSC

Configuration Management

O&M of BTS

IP Fault Detection Based on BFD

O&M of BTS

O&M of BTS

O&M of BTS

BSC Node Redundancy

MSC Pool

SGSN Pool

MSC Pool

License Management

BSC Node Redundancy

Faulty Management

O&M of BTS

O&M of BTS O&M of BSC Security Management

Faulty Management

Faulty Management HUAWEI I Handover HUAWEI II Handover

Simplified Cell Broadcast

O&M of BTS

Soft-Synchronized Network

Active Power Control Radio Common Channel Management Location Updating IMSI Detach

Security Management

O&M of BTS HUAWEI I Handover HUAWEI II Handover

O&M of BTS

2G/3G Co-Transmission Resources Management on MBSC

None

None

None

None

2G/3G Co-Transmission Resources Management on MBSC

2G/3G Co-Transmission Resources Management on MBSC

None

None

None

None

2G/3G Co-Transmission Resources Management on MBSC HUAWEI I Handover HUAWEI II Handover

Tree Topology

Configuration Management O&M of BSC Security Management

MBSC Load Balancing HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

2G/3G Co-Transmission Resources Management on MBSC

2G/3G Co-Transmission Resources Management on MBSC

BTS Test Function

TRX Power Amplifier Intelligent Shutdown

Configuration Management

O&M of BTS Basic Cell Re-selection Location Updating Paging

Security Management

Security Management Public Voice Group Call Service Public Voice Broadcast Service Public Voice Group Call Service Public Voice Broadcast Service

Basic Cell Re-selection

O&M of BSC A over IP A IP over E1/T1

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

IP QOS

IP QOS

IP QOS

IP QOS

GSM Flow Control

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

GSM Flow Control

O&M of BSC

IP QOS

O&M of BSC

IP QOS

IP QOS

IP QOS

GSM Flow Control

None

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

GSM Flow Control

GSM Flow Control

Soft-Synchronized Network

GPRS

O&M of BTS

Remote Electrical Tilt

Remote Electrical Tilt

Remote Electrical Tilt

Remote Electrical Tilt

IP QOS

O&M of BTS

O&M of BTS

Configuration Management

A Interface Protocol Process

O&M of BTS

None

BSC/RNC Software Management HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover G3 Fax (TS61, TS62) 14.4kbit/s Circuit Switched Data Bearer Service O&M of BSC Security Management

O&M of BSC

TRX Power Amplifier Intelligent Shutdown

O&M of BTS

O&M of BTS

Co-BCCH Cell

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Enhanced Dual-Band Network

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Faulty Management

Faulty Management

O&M of BTS

PDCH Dynamic Adjustment

Call Control A over IP A IP over E1/T1 O&M of BSC Security Management

O&M of BTS

None

None

None

None

Compact BTS Automatic Configuration and Planning

O&M of BTS

MBSC Load Balancing

MBSC Load Balancing

MBSC Load Balancing

Configuration Management

O&M of BSC

IP Fault Detection Based on BFD

O&M of BTS

Remote Electrical Tilt

Remote Electrical Tilt

None

None GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

O&M of BTS

O&M of BTS

MSC Pool O&M of BSC Security Management

BSC/RNC Clock Abis IP over E1/T1 A IP over E1/T1

None

O&M of BTS SDCCH Handover Enhanced Channel Assignment Algorithm

O&M of BSC

O&M of BSC O&M of BSC License Management

O&M of BTS

Direct Retry

Direct Retry

HUAWEI I Handover HUAWEI I Handover HUAWEI II Handover

GSM/WCDMA Interoperability

Downlink EGPRS2-A

Downlink EGPRS2-A

EGPRS

Transmit Diversity

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

Gb Over FR

Adaptive Adjustment of Uplink and Downlink Channels

Dual Carriers in Downlink HUAWEI I Handover HUAWEI II Handover

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

GPRS

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

AMR FR

AMR FR

AMR FR

AMR HR

AMR HR

AMR HR

WB AMR

WB AMR HUAWEI I Handover HUAWEI II Handover

HUAWEI I Handover HUAWEI II Handover

GSM and UMTS Load Balancing Based on Iur-g

Enhanced Power Control Algorithm

AMR Coding Rate Threshold Adaptive Adjustment

AMR Coding Rate Threshold Adaptive Adjustment

AMR Coding Rate Threshold Adaptive Adjustment

AMR Coding Rate Threshold Adaptive Adjustment

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

GSM and UMTS Load Balancing Based on Iur-g

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm HUAWEI I Handover HUAWEI II Handover

AMR FR HUAWEI II Handover HUAWEI I Handover AMR HR HUAWEI II Handover HUAWEI I Handover

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm

Extended Uplink TBF Public Voice Group Call Service Public Voice Broadcast Service Public Voice Group Call Service Public Voice Broadcast Service

AMR FR

AMR FR

AMR FR

AMR HR

AMR HR

AMR HR

WB AMR

WB AMR

O&M of BTS

O&M of BTS

Clock over IP support 1588V2

Coding Scheme EGPRS Coding Scheme EGPRS Coding Scheme

Downlink EGPRS2-A

Downlink EGPRS2-A GPRS Coding Scheme GPRS Coding Scheme EGPRS Coding Scheme EGPRS Coding Scheme

Enhanced Power Control Algorithm HUAWEI III Power Control Algorithm

Point To Point Short Message Service (TS21, TS22)

GPRS

Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme

Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme

Faulty Management

Active Power Control A Interface Protocol Process STP（Signaling Transport Point)

A Interface Protocol Process

A Interface Circuit Management

A Interface Circuit Management

MSC Pool A Interface Protocol Process STP（Signaling Transport Point)

A Interface Protocol Process A over IP A IP over E1/T1

MBSC Load Balancing HUAWEI I Handover HUAWEI II Handover

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

None

2G/3G Co-Transmission Resources Management on MBSC

2G/3G Co-Transmission Resources Management on MBSC

2G/3G Co-Transmission Resources Management on MBSC

2G/3G Co-Transmission Resources Management on MBSC

2G/3G Co-Transmission Resources Management on MBSC

Active Backup Power Control

Active Backup Power Control

Active Backup Power Control

Simplified Cell Broadcast

Discontinuous Reception (DRX)

O&M of BTS

None

Abis IP over E1/T1 A IP over E1/T1

A over IP Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

IP QOS

GPRS

Configuration Management

Configuration Management

Faulty Management

Configuration Management

GPRS

GPRS Support of Daylight Saving Time Configuration Management

O&M of BTS

None

IP Fault Detection Based on BFD

Abis over IP

None

Abis over IP

None

None

Direct Retry

Public Voice Group Call Service

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

A5/1 Encryption Flow Optimization

Abis over IP

BTS Test Function

BTS Test Function

BTS Test Function GPRS PDCH Dynamic Adjustment Load Sharing Adaptive BTS TestAdjustment Function of Uplink and Downlink Channels GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels

Soft-Synchronized Network

O&M of BTS

O&M of BSC

O&M of BTS GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels PDCH Dynamic Adjustment GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels GPRS PDCH Dynamic Adjustment GPRS PDCH Dynamic Adjustment

TRX Power Amplifier Intelligent Shutdown

Dynamic Transmit Diversity

O&M of BTS

O&M of BTS

Abis Transmission Optimization

BTS Test Function

None

BTS/NodeB Clock

IP-Based 2G/3G Co-Transmission on Base Station Side

BTS/NodeB Clock

IP QOS

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability

System Information Sending

Faulty Management

O&M of BSC

Faulty Management

Faulty Management

O&M of BTS Support of Daylight Saving Time Configuration Management

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Enhanced Dual-Band Network

EGPRS

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI I Handover

HUAWEI II Handover

HUAWEI I Handover

O&M of BTS

11-Bit EGPRS Access Uplink EGPRS2-A Downlink EGPRS2-A

Network-Controlled Cell Reselection (NC2)

Network-Controlled Cell Reselection (NC2) Support of Daylight Saving Time Configuration Management Emergency Call Service (TS12) Guaranteed Emergency Call

A Interface Protocol Process

None Abis IP over E1/T1 A IP over E1/T1

Enhanced Multi Level Precedence and Preemption(EMLPP)

Group Call EMLPP

Enhanced Multi Level Precedence and Preemption(EMLPP) Abis IP over E1/T1 A IP over E1/T1

IP QOS

O&M of BTS Support of Daylight Saving Time Configuration Management

O&M of BTS

Group Call Reliability Enhancing

O&M of BTS A5/1 and A5/2 Ciphering Algorithm A5/3 Ciphering Algorithm

O&M of BSC

O&M of BSC

End-to-End MS Signaling Tracing

Faulty Management

A Interface Circuit Management

O&M of BSC

TRX Power Amplifier Intelligent Shutdown

O&M of BTS

TRX Power Amplifier Intelligent Shutdown

O&M of BTS

TRX Power Amplifier Intelligent Shutdown

Ater Interface 4:1 Multiplexing

A Interface Circuit Management

O&M of BTS

O&M of BSC

O&M of BSC

Concentric Cell

2G/3G Co-Transmission Resources Management on MBSC

Concentric Cell

Concentric Cell

Concentric Cell

Concentric Cell

IP QOS

IP QOS

Concentric Cell

Dynamic Adjustment Between FR and HR A over IP A IP over E1/T1

A over IP

Concentric Cell

Enhancement Packet Loss Concealment(EPLC) O&M of BSC Security Management

Emergency Call Service (TS12)

Ethernet OAM

Ethernet OAM

None

None

IP QOS

O&M of BTS

Faulty Management

Assignment and Immediate Assignment

Simple Mode LCS(Cell ID + TA)

Fast Ring Network Switch Support of Daylight Saving Time Configuration Management

O&M of BSC

O&M of BSC

O&M of BSC O&M of BSC Security Management

Faulty Management

Faulty Management

Simplified Cell Broadcast O&M of BSC Security Management

O&M of BTS O&M of BSC Security Management O&M of BSC Security Management Support of Daylight Saving Time Configuration Management Support of Daylight Saving Time Configuration Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

GPRS

O&M of BSC

Active Power Control

Active Power Control

Configuration Management

O&M of BTS

Configuration Management

O&M of BTS

Configuration Management

Configuration Management

Extended Cell

O&M of BTS Processing of Measurement Report Pre-processing of Measurement Report Processing of Measurement Report Pre-processing of Measurement Report Processing of Measurement Report Pre-processing of Measurement Report

Extended Cell

Extended Uplink TBF Public Voice Group Call Service Public Voice Broadcast Service

Group Call EMLPP

Group Call EMLPP

O&M of BTS

Enhanced Channel Assignment Algorithm HUAWEI I Handover HUAWEI II Handover

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Configuration Management

Assignment and Immediate Assignment

Fast Ring Network Switch

O&M of BSC

None

Abis over IP

GSM Flow Control

None

None Abis IP over E1/T1 A IP over E1/T1

None

None

2G/3G Co-Transmission Resources Management on MBSC

None

Compact BTS Automatic Configuration and Planning

O&M of BTS

GSM Flow Control

Link aggregation

O&M of BTS

GSM Flow Control

O&M of BTS

GSM/WCDMA Interoperability

Configuration Management

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability GSM/WCDMA Interoperability Processing of Measurement Report Pre-processing of Measurement Report

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability

GSM/WCDMA Interoperability

GSM Flow Control

Voice Quality Index (Uplink VQI)

Voice Quality Index (Uplink VQI)

Voice Quality Index (Uplink VQI)

Voice Quality Index (Uplink VQI)

Voice Quality Index (Uplink VQI)

Voice Quality Index (Uplink VQI)

Voice Quality Index (Uplink VQI)

Voice Quality Index (Uplink VQI)

Frequency Hopping (RF hopping, baseband hopping) O&M of BSC Security Management O&M of BSC BSC/RNC Software Management O&M of BSC Security Management

Configuration Management O&M of BSC Faulty Management

Network-Controlled Cell Reselection (NC2) O&M of BSC Security Management

HUAWEI III Power Control Algorithm

O&M of BTS

Flex Abis

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Flex Abis

Flex MAIO A5/1 Encryption Flow Optimization Soft-Synchronized Network Flex MAIO

Adaptive Adjustment of Uplink and Downlink Channels

Adaptive Adjustment of Uplink and Downlink Channels

None

None

None Abis IP over E1/T1 A IP over E1/T1

None

IP QOS 2G/3G Co-Transmission Resources Management on MBSC

HUAWEI I Handover

HUAWEI I Handover

HUAWEI I Handover

HUAWEI I Handover

HUAWEI I Handover

HUAWEI I Handover

HUAWEI I Handover

HUAWEI I Handover

HUAWEI I Handover

GPRS Radio Common Channel Management System Information Sending

O&M of BTS

Inventory Management O&M of BSC BSC/RNC Software Management

O&M of BSC

Configuration Management

License Management

O&M of BTS

O&M of BTS PDCH Dynamic Adjustment EGPRS Load Sharing Adaptive Adjustment of Uplink and Downlink Channels

A Interface Protocol Process

Automatic Level Control (ALC)

GPRS Call Control Enhanced Full Rate HUAWEI I Handover HUAWEI II Handover

O&M of BTS

O&M of BTS

None

Compact BTS Automatic Capacity Planning

PICO Automatic Configuration and Planning

Compact BTS Automatic Configuration and Planning Abis MUX UDP MUX for A Transmission

Soft-Synchronized Network

Configuration Management Discontinuous Transmission (DTX) Downlink AMR FR O&M of BSC Security Management

O&M of BSC

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

Frequency Band

AFC(Automatic Frequency Correction)

AFC(Automatic Frequency Correction)

Configuration Management

Enhanced Channel Assignment Algorithm

Cell Frequency Scan

Configuration Management

2G/3G Neighboring Cell Automatic Optimization

Cell Frequency Scan HUAWEI I Handover HUAWEI II Handover Discontinuous Transmission (DTX) Uplink AMR FR

Compact BTS Automatic Configuration and Planning

O&M of BTS

Compact BTS Automatic Configuration and Planning

O&M of BTS O&M of BSC Security Management

IP QOS

IP QOS

None

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

IP QOS

GSM and UMTS Load Balancing Based on Iur-g

GSM and UMTS Load Balancing Based on Iur-g

A over IP

Power Control

Soft-Synchronized Network

Soft-Synchronized Network

Soft-Synchronized Network

Soft-Synchronized Network

Streaming QoS(GBR) Public Voice Group Call Service Public Voice Broadcast Service

BSC/RNC Clock Public Voice Group Call Service Public Voice Broadcast Service

Group Call EMLPP

None

GPRS System Information Sending GPRS

GPRS

GPRS

EGPRS

GPRS

GPRS

Network-Controlled Cell Reselection (NC2)

GPRS BTS GPS Synchronization BTS/NodeB Clock

BSC/RNC Clock

Resource Reservation

Group Call Reliability Enhancing

Group Call Reliability Enhancing

BSC Node Redundancy

BSC Node Redundancy

Flex Abis

IP QOS

IP QOS

Simplified Cell Broadcast

IP QOS

IP QOS

Multi-band Sharing One BSC

GSM/TD-SCDMA Interoperability

O&M of BTS

Abis over IP

Abis over IP

Half Rate Speech

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier)

A over IP

O&M of BTS

HUAWEI II Handover

HUAWEI II Handover

O&M of BTS

O&M of BTS

Frequency Band

Enhanced Multi Level Precedence and Preemption(EMLPP)

Enhanced Multi Level Precedence and Preemption(EMLPP)

Enhanced Multi Level Precedence and Preemption(EMLPP)

O&M of BTS

Enhanced Channel Assignment Algorithm

Security Management

HMC DTM

Concentric Cell

RAN Sharing HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

O&M of BSC

O&M of BSC

HUAWEI I Handover

Chain Cell Handover

Chain Cell Handover

Chain Cell Handover

Fast Move Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

Fast Move Handover

O&M of BSC HUAWEI I Handover HUAWEI II Handover

Concentric Cell HUAWEI I Handover HUAWEI II Handover

Enhanced Dual-Band Network

Frequency Hopping (RF hopping, baseband hopping)

IBCA (Interference Based Channel Allocation)

Frequency Hopping (RF hopping, baseband hopping)

BTS power lift for handover HUAWEI I Handover HUAWEI II Handover

Frequency Hopping (RF hopping, baseband hopping)

Antenna Frequency Hopping

Antenna Frequency Hopping

Frequency Hopping (RF hopping, baseband hopping) HUAWEI I Handover HUAWEI II Handover

Soft-Synchronized Network GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

A Interface Protocol Process HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Fast Move Handover

BSC Node Redundancy

BSC Node Redundancy

HUAWEI I Handover HUAWEI II Handover

Fast Move Handover

Antenna Frequency Hopping

Antenna Frequency Hopping

O&M of BTS

Resource Reservation O&M of BTS BTS Power Management O&M of BTS BTS Power Management Half Rate Speech System Information Sending Discontinuous Transmission (DTX) Downlink Half Rate Speech AMR HR

Concentric Cell Discontinuous Transmission (DTX) Uplink Half Rate Speech AMR HR

Frequency Hopping (RF hopping, baseband hopping)

O&M of BTS

Flex MAIO

O&M of BTS

IP Fault Detection Based on BFD

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

O&M of BTS

A Interface Protocol Process

BTS Test Function

O&M of BTS

O&M of BTS

A Interface Protocol Process

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

Intelligent Combiner Bypass

O&M of BTS

IP QOS

Gb over IP

Gb over IP

Gb over IP

O&M of BSC

O&M of BSC

O&M of BTS

A over IP

None

SDCCH Dynamic Adjustment

O&M of BTS

None

Configuration Management

Configuration Management

MBSC Load Balancing

Configuration Management

O&M of BTS

O&M of BTS

Semi-Permanent Connection

Configuration Management

O&M of BSC

Short Message Service Cell Broadcast (TS23)

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Fast Move Handover

O&M of BSC

A Interface Protocol Process

Assignment and Immediate Assignment

Packet Assignment Taken Over by the BTS

Assignment and Immediate Assignment

Assignment and Immediate Assignment

Assignment and Immediate Assignment

Assignment and Immediate Assignment

Concentric Cell

Concentric Cell

Soft-Synchronized Network

Assignment and Immediate Assignment

O&M of BSC

GPRS

HUAWEI I Handover HUAWEI II Handover

Soft-Synchronized Network

Soft-Synchronized Network

BSS-Based LCS (Cell ID + TA)

O&M of BTS

O&M of BTS

AMR FR/HR Dynamic Adjustment

AMR FR/HR Dynamic Adjustment

MBSC Load Balancing

Faulty Management

AMR FR/HR Dynamic Adjustment

AMR FR/HR Dynamic Adjustment

Enhanced Channel Assignment Algorithm

AMR FR

AMR HR

WB AMR

Semi-Permanent Connection

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Configuration Management

Configuration Management

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Semi-Permanent Connection

O&M of BTS

O&M of BSC

BSS-Based LCS (Cell ID + TA)

SDCCH Handover

Semi-Permanent Connection

O&M of BTS

Semi-Permanent Connection

O&M of BTS

Simplified Cell Broadcast HUAWEI I Handover HUAWEI II Handover

Cell Frequency Scan HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm TRX Management Enhanced Channel Assignment Algorithm

Soft-Synchronized Network

Enhanced Channel Assignment Algorithm

GSM and UMTS Traffic Steering Based on Iur-g

GSM and UMTS Load Balancing Based on Iur-g GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

MBSC Handover based on Load Enhancement

GSM and UMTS Load Balancing Based on Iur-g

GSM and UMTS Load Balancing Based on Iur-g

GSM and UMTS Load Balancing Based on Iur-g

GSM and UMTS Load Balancing Based on Iur-g

GSM and UMTS Load Balancing Based on Iur-g

GSM and UMTS Load Balancing Based on Iur-g GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

GSM and UMTS Load Balancing Based on Iur-g O&M of BSC Security Management

None Processing of Measurement Report Pre-processing of Measurement Report

Enhanced Dual-Band Network

HUAWEI I Handover

HUAWEI I Handover HUAWEI II Handover

AMR FR/HR Dynamic Adjustment HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

MBSC Load Balancing

GSM and UMTS Load Balancing Based on Iur-g

GSM and UMTS Load Balancing Based on Iur-g

GSM and UMTS Load Balancing Based on Iur-g

Semi-Permanent Connection

O&M of BSC

O&M of BSC

O&M of BSC

Enhanced Measurement Report(EMR)

Configuration Management O&M of BSC License Management

Gb over IP

Gb over IP

Abis over IP

O&M of BTS

IP QOS Abis IP over E1/T1 A IP over E1/T1 IP-Based 2G/3G Co-Transmission on MBSC Side

IP-Based 2G/3G Co-Transmission on MBSC Side

None

None

None

Gb over IP

Gb over IP

Clock over IP

Gb over IP

Clock over IP

Gb over IP

Gb over IP

Ethernet OAM

Ethernet OAM

Abis IP over E1/T1 A IP over E1/T1

Link aggregation Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

None

Abis over IP

Abis over IP

O&M of BTS

Soft-Synchronized Network

Chain Cell Handover

Clock over IP

Clock over IP

Ring Topology

O&M of BTS

EGPRS

IP QOS

GPRS

Configuration Management

TC Pool

Multi-site Cell

Network-Controlled Cell Reselection (NC2)

Gb over IP

None

Soft-Synchronized Network

O&M of BTS

Abis Transmission Backup

BTS Local Switch

TC Pool

Configuration Management

Configuration Management

O&M of BTS O&M of BTS Intelligent Shutdown of TRX Due to PSU Failure

Configuration Management

Configuration Management

Configuration Management

Configuration Management

IP QOS

IP QOS

Concentric Cell PDCH Dynamic Adjustment Concentric Cell Load Sharing Adaptive Adjustment of Uplink and Downlink Channels

Concentric Cell

Concentric Cell Concentric Cell Enhanced Dual-Band Network

Ethernet OAM Abis MUX UDP MUX for A Transmission

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Abis Transmission Optimization

Multi-Carrier Intelligent Voltage Regulation

Abis over IP

None HUAWEI I Handover HUAWEI II Handover

None

Configuration Management

Compact BTS Automatic Capacity Planning

Board Switchover

BSS-Based LCS (Cell ID + TA)

BSS-Based LCS (Cell ID + TA)

BSS-Based LCS (Cell ID + TA)

BSS-Based LCS (Cell ID + TA)

BSS-Based LCS (Cell ID + TA)

BSS-Based LCS (Cell ID + TA)

BSC/RNC Clock

BSC/RNC Clock

Link aggregation

None

IP QOS

IP QOS

IP QOS HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

HUAWEI I Handover

None

None Abis over IP Flex Abis Abis over IP Flex Abis Abis over IP Flex Abis A over IP A IP over E1/T1 O&M of BSC Security Management

O&M of BSC

None

IP QOS Processing of Measurement Report Pre-processing of Measurement Report HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Configuration Management

Configuration Management Abis IP over E1/T1 A IP over E1/T1

Configuration Management

O&M of BSC

O&M of BTS

Faulty Management

Faulty Management

O&M of BSC

None

A Interface Protocol Process

Faulty Management

Configuration Management Abis IP over E1/T1 A IP over E1/T1

O&M of BTS

O&M of BTS

None

Semi-Permanent Connection A over IP A IP over E1/T1

A Interface Protocol Process

A over IP HUAWEI I Handover HUAWEI II Handover

MSC Pool

Network-Controlled Cell Reselection (NC2)

O&M of BTS

HUAWEI I Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

HUAWEI I Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

HUAWEI I Handover HUAWEI I Handover HUAWEI II Handover

O&M of BTS

Network-Controlled Cell Reselection (NC2)

Network-Controlled Cell Reselection (NC2) Network-Controlled Cell Reselection (NC2) GSM/WCDMA Interoperability GSM/WCDMA Load Based Handover

Network-Controlled Cell Reselection (NC2)

Enhanced Channel Assignment Algorithm

HUAWEI I Handover

None

BSC Node Redundancy

None

O&M of BTS

Abis IP over E1/T1

Abis IP over E1/T1

Gb over IP

Gb over IP

Multi-site Cell

Multi-site Cell

Faulty Management

A over IP A IP over E1/T1 A over IP A IP over E1/T1 O&M of BSC Security Management A over IP A IP over E1/T1

Configuration Management

O&M of BTS

GSM Flow Control

GSM Flow Control

None

None

None

GSM Flow Control

GSM Flow Control

GSM Flow Control

O&M of BSC

O&M of BTS

BSS-Based LCS (Cell ID + TA)

BSS-Based LCS (Cell ID + TA)

BSS-Based LCS (Cell ID + TA)

BSS-Based LCS (Cell ID + TA)

BSS-Based LCS (Cell ID + TA)

BSS-Based LCS (Cell ID + TA)

BSC/RNC Clock

BSC/RNC Clock

Configuration Management Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

O&M of BSC

IBCA (Interference Based Channel Allocation)

O&M of BSC

O&M of BSC

None

None

O&M of BSC

None

Flex Abis

Flex Abis

O&M of BTS

Concentric Cell

O&M of BTS

O&M of BTS

O&M of BTS

IP QOS

None

None

IP QOS

None

EGPRS

O&M of BTS

O&M of BTS Abis over IP Flex Abis

O&M of BSC Security Management

Configuration Management

Configuration Management

BSC/RNC Software Management O&M of BSC Security Management O&M of BSC Security Management

O&M of BTS

O&M of BTS

AMR Coding Rate Threshold Adaptive Adjustment

AMR Coding Rate Threshold Adaptive Adjustment

AMR Coding Rate Threshold Adaptive Adjustment

AMR Coding Rate Threshold Adaptive Adjustment

Voice Fault Diagnosis

O&M of BTS

O&M of BTS O&M of BTS BTS Power Management

A over IP

Configuration Management

Ethernet OAM

Ethernet OAM

Frequency Hopping (RF hopping, baseband hopping)

None

Enhanced BCCH Power Consumption Optimization

Enhanced BCCH Power Consumption Optimization

Enhanced BCCH Power Consumption Optimization

Enhanced BCCH Power Consumption Optimization

Enhanced BCCH Power Consumption Optimization

Ethernet OAM

Abis over IP

Multi-site Cell

Tree Topology

O&M of BTS

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation)

IBCA (Interference Based Channel Allocation) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

O&M of BTS

Ethernet OAM Configuration Management

None Abis IP over E1/T1 A IP over E1/T1

Ethernet OAM

None

None

Short Message Service Cell Broadcast (TS23)

Abis over IP

Abis IP over E1/T1

Abis IP over E1/T1

Clock over IP

Clock over IP

Enhanced Power Control Algorithm

A over IP IP Fault Detection Based on BFD Link aggregation HUAWEI I Handover HUAWEI II Handover

GPRS

GPRS

Active Backup Power Control Compact BTS Automatic Configuration and Planning PICO Automatic Configuration and Planning

Compact BTS Automatic Capacity Planning

IP QOS

O&M of BTS Abis MUX UDP MUX for A Transmission Abis IP over E1/T1 A IP over E1/T1

Security Management

Faulty Management

O&M of BTS

A over IP

GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels PDCH Dynamic Adjustment GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels

GPRS

Security Management

O&M of BTS

O&M of BTS HUAWEI I Handover HUAWEI II Handover

Access

Access

Access

Access Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm Adjustment of Adaptive Timing Advance Extended Cell

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

BSC/RNC Clock

Flex Abis

None

Enhanced Power Control Algorithm

Security Management

None

IP Fault Detection Based on BFD Multi-band Sharing One BSC System Information Sending

Enhanced Measurement Report(EMR)

Enhanced Measurement Report(EMR)

Soft-Synchronized Network

Soft-Synchronized Network

Configuration Management

Compact BTS Automatic Capacity Planning

None

Abis IP over E1/T1

Configuration Management

O&M of BTS

O&M of BTS

Enhanced Channel Assignment Algorithm

O&M of BTS

None Ethernet OAM Configuration Management

Ethernet OAM Ethernet OAM Configuration Management

Packet System Information

GSM and UMTS Load Balancing Based on Iur-g Enhanced Measurement Report(EMR) Processing of Measurement Report Pre-processing of Measurement Report

Ethernet OAM Ethernet OAM Configuration Management

Ethernet OAM

Ethernet OAM

Abis IP over E1/T1

Network-Controlled Cell Reselection (NC2) Abis IP over E1/T1 A IP over E1/T1

GSM/WCDMA Interoperability HUAWEI I Handover HUAWEI II Handover Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

Direct Retry

SDCCH Dynamic Adjustment GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

None

IP Fault Detection Based on BFD

IP Fault Detection Based on BFD

IP Fault Detection Based on BFD

IP Fault Detection Based on BFD

None

None

Configuration Management

Compact BTS Automatic Capacity Planning

GSM Flow Control

BSC/RNC Clock A over IP A IP over E1/T1

Configuration Management

Configuration Management

None

None

Board Switchover Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier) O&M of BTS Reporting the Temperature List of the BTS Equipment Room O&M of BTS Reporting the Temperature List of the BTS Equipment Room

O&M of BTS

Fast Move Handover

Abis IP over E1/T1

Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

None

Abis IP over E1/T1

LAPD Multiplexing at Abis Interface

O&M of BTS

Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Configuration Management

Configuration Management

Enhanced Power Control Algorithm HUAWEI I Handover HUAWEI II Handover

HUAWEI III Power Control Algorithm

Pre-processing of Measurement Report

O&M of BTS

O&M of BTS

O&M of BSC

O&M of BSC

Abis over IP

Soft-Synchronized Network

Call Control

MSC Pool

MSC Pool

MSC Pool

MSC Pool

MSC Pool

A Interface Protocol Process

Call Reestablishment

O&M of BSC BSC Local Switch BTS Local Switch BSC Local Switch BTS Local Switch BSC Local Switch BTS Local Switch BSC Local Switch BTS Local Switch BSC Local Switch BTS Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BSC Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

BTS Local Switch

Fast Move Handover Radio Common Channel Management Location Updating Paging Assignment and Immediate Assignment

Board Switchover

MSRD

MSRD

O&M of BTS HUAWEI I Handover HUAWEI II Handover

Network-Controlled Cell Reselection (NC2)

Gb Interface Function

BSC Node Redundancy

GPRS

None

GSM Flow Control

None

A Interface Protocol Process

None

A over IP Abis IP over E1/T1 A IP over E1/T1

Abis IP over E1/T1

O&M of BTS

GPRS

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC Abis IP over E1/T1 A IP over E1/T1

None Abis MUX UDP MUX for A Transmission

O&M of BTS Abis MUX UDP MUX for A Transmission

Ring Topology

Radio Link Management

Radio Link Management

Radio Link Management

Radio Link Management

Radio Link Management

Radio Link Management

Radio Link Management

GPRS

GPRS GPRS Dynamically Adjusting the RRBP Frequency

Gb Over FR

Gb Over FR

Gb Over FR Network Assisted Cell Change (NACC) PS Handover

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

IP QOS

A over IP

A over IP

A over IP

A over IP

A over IP

GPRS

Enhanced Channel Assignment Algorithm AMR PowerFR Control AMR HR TFO Enhanced Full Rate TC Pool

Configuration Management

IBCA (Interference Based Channel Allocation)

Configuration Management

IBCA (Interference Based Channel Allocation)

Configuration Management

Configuration Management

Configuration Management

Configuration Management

PICO Automatic Configuration and Planning

Configuration Management

Configuration Management

Configuration Management

Configuration Management Network-Controlled Cell Reselection (NC2) Network Assisted Cell Change (NACC)

Network-Controlled Cell Reselection (NC2) Network-Controlled Cell Reselection (NC2) PS Handover

Configuration Management

Configuration Management Basic Cell Selection Basic Cell Re-selection System Information Sending Processing of Measurement Report Pre-processing of Measurement Report

Fast Move Handover HUAWEI I Handover HUAWEI II Handover

2G/3G Neighboring Cell Automatic Optimization

2G/3G Neighboring Cell Automatic Optimization

2G/3G Neighboring Cell Automatic Optimization

2G/3G Neighboring Cell Automatic Optimization

2G/3G Neighboring Cell Automatic Optimization

2G/3G Neighboring Cell Automatic Optimization

2G/3G Neighboring Cell Automatic Optimization

2G/3G Neighboring Cell Automatic Optimization Public Voice Group Call Service Public Voice Broadcast Service Public Voice Group Call Service Public Voice Broadcast Service Networking Control Mode GSM/TD-SCDMA Interoperability PS Handover System Information Sending

A Interface Protocol Process

Configuration Management HUAWEI I Handover HUAWEI II Handover

None

None

None

Abis IP over E1/T1

A Interface Protocol Process

BSC/RNC Software Management Network Operation Mode Support DTM

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover

HUAWEI II Handover Ater Compression Transmission IP QOS TC Pool HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

O&M of BTS

HUAWEI III Power Control Algorithm

Networking Control Mode Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

Network-Controlled Cell Reselection (NC2)

O&M of BTS

GSM Flow Control

Radio Dedicated Channel Management

Group Call Reliability Enhancing

None

Enhanced Measurement Report(EMR)

Enhanced Measurement Report(EMR) MSC Pool SGSN Pool

SGSN Pool

System Information Sending

Gb Interface Function

Gb Interface Function HUAWEI I Handover HUAWEI II Handover

BSS-Based LCS (Cell ID + TA) Soft-Synchronized Network

Gb Over FR

Gb Over FR

O&M of BTS

O&M of BTS

Public Voice Group Call Service Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1 O&M of BTS Abis IP over E1/T1 A IP over E1/T1 O&M of BTS IP QOS O&M of BTS O&M of BTS Link aggregation

O&M of BTS O&M of BTS Link aggregation

Remote Electrical Tilt

BTS Test Function

O&M of BSC

None

Faulty Management

Faulty Management

Configuration Management

Streaming QoS(GBR)

Concentric Cell

OML Backup

O&M of BTS

Abis Bypass

O&M of BTS

O&M of BTS

O&M of BTS

None

IP QOS

O&M of BTS

Abis over IP

O&M of BTS

O&M of BTS

O&M of BSC Security Management Configuration Management RAN Sharing

O&M of BTS

A Interface Circuit Management

RAN Sharing

RAN Sharing

RAN Sharing

BSC/RNC Software Management

A Interface Circuit Management

Ater Interface 4:1 Multiplexing

A Interface Circuit Management

O&M of BSC

RAN Sharing

Concentric Cell

Concentric Cell

Concentric Cell

Enhanced Channel Assignment Algorithm

O&M of BTS

O&M of BTS

O&M of BTS

MBSC Load Balancing

IP-Based 2G/3G Co-Transmission on Base Station Side

BSC/RNC Software Management

Frequency Band

EGPRS

Concentric Cell

Enhanced Dual-Band Network HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Enhanced Dual-Band Network

Enhanced Channel Assignment Algorithm

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Enhanced Dual-Band Network

Semi-Permanent Connection

Semi-Permanent Connection

O&M of BSC

O&M of BSC

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Multi-site Cell

Multi-site Cell

Multi-site Cell

Enhanced Dual-Band Network

O&M of BTS

Semi-Permanent Connection

O&M of BSC

Semi-Permanent Connection

GSM and UMTS Load Balancing Based on Iur-g

GSM/WCDMA Service Based Handover

GSM/WCDMA Service Based Handover

MBSC Load Balancing

Semi-Permanent Connection Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

Faulty Management Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

Faulty Management Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

Radio Common Channel Management

O&M of BTS

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

Multi-Carrier Intelligent Voltage Regulation

Packet Assignment Taken Over by the BTS

GSM Flow Control

Paging

GSM Flow Control

Paging

GPRS

GPRS

GPRS

TRX Power Amplifier Intelligent Shutdown

O&M of BTS

O&M of BTS

Abis over IP IP QOS A over IP IP QOS Abis IP over E1/T1 A IP over E1/T1

None

Active Power Control Abis over IIIPHandover HUAWEI A over IP IP QOS Abis IP over E1/T1 A IP over E1/T1

BSC/RNC Software Management

Power Control

HUAWEI I Handover

HUAWEI I Handover

HUAWEI I Handover

HUAWEI I Handover

GPRS

Enhanced Power Control Algorithm

Power Control

O&M of BSC

GPRS

O&M of BSC

GPRS PDCH Dynamic Adjustment Load O&M Sharing of BTS Adaptive Flex Abis Adjustment of Uplink and Downlink Channels GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels

Power Optimization Based on Channel Type GPRS PDCH PDCH Dynamic Dynamic Adjustment Adjustment Load Sharing Load Sharing Adaptive Adaptive Adjustment Adjustment of of Uplink Uplink and and Downlink Downlink Channels Channels GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels A over IP A IP over E1/T1

BSC Node Redundancy

Abis over IP Abis over IP BSC Node Redundancy Abis over IP BSC Node Redundancy Abis over IP BSC Node Redundancy Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

IP Fault Detection Based on BFD

Abis IP over E1/T1

Abis IP over E1/T1 A over IP A IP over E1/T1 A over IP A IP over E1/T1 Abis over IP IP QOS A over IP IP QOS Abis IP over E1/T1 A IP over E1/T1 A over IP A IP over E1/T1

O&M of BTS HUAWEI I Handover HUAWEI II Handover

Network-Controlled Cell Reselection (NC2)

Network-Controlled Cell Reselection (NC2) HUAWEI I Handover HUAWEI II Handover

IP QOS

2G/3G Neighboring Cell Automatic Optimization Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Abis IP over E1/T1

Streaming QoS(GBR)

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

IP QOS Abis MUX UDP MUX for A Transmission Basic Cell Re-selection System Information Sending

Security Management

Ethernet OAM

Ethernet OAM

None

Abis MUX

Packet SI Status

None

Ethernet OAM

Access

EGPRS

Access

Access

EGPRS

Access

EGPRS

IP QOS

IP QOS

O&M of BSC

O&M of BSC

O&M of BSC

GSM Flow Control

GSM Flow Control

Paging

Paging

Paging

GSM Flow Control

GSM Flow Control

GSM Flow Control

Configuration Management

Faulty Management

Configuration Management

Ater Interface 4:1 Multiplexing

A Interface Circuit Management

None

O&M of BSC

Faulty Management

None

None

None

None

None

Board Switchover

None

None

None

None

IP Fault Detection Based on BFD

None

None

Gb Over FR

O&M of BSC

O&M of BTS

Faulty Management

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

PoC QoS

PoC QoS

PoC QoS

PoC QoS

O&M of BTS

O&M of BTS

Configuration Management

Configuration Management

O&M of BSC

Ring Topology

OML Backup

O&M of BSC

O&M of BSC

None

Configuration Management

Ethernet OAM

IP-Based 2G/3G Co-Transmission on Base Station Side

2G/3G Cell Reselection Based on MS State

O&M of BTS

O&M of BTS

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

O&M of BTS

Downlink EGPRS2-A

Downlink EGPRS2-A

O&M of BTS

O&M of BTS

Configuration Management

Configuration Management

Abis IP over E1/T1

Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Abis IP over E1/T1 A IP over E1/T1

None

Abis IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

None

Enhanced Multi Level Precedence and Preemption(EMLPP)

Enhanced Multi Level Precedence and Preemption(EMLPP) Emergency Call Service (TS12) Guaranteed Emergency Call

Pre-processing of Measurement Report

Abis over IP System Information Sending GPRS

GSM Flow Control

Pre-processing of Measurement Report

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Flex Abis

GPRS A Interface Protocol Process A over IP A IP over E1/T1 A Interface Protocol Process A over IP A IP over E1/T1

None

Abis over IP

Abis over IP

Abis over IP

Security Management

Abis over IP

A Interface Protocol Process

Gb Over FR

O&M of BTS

Dynamic Cell Power Off

TRX Power Amplifier Intelligent Shutdown

None

None

None

None

None

None

None

None

IP QOS

IP QOS

PS Handover

None

None

GSM Flow Control System Information Sending Packet System Information

Packet System Information

IP QOS

IP QOS

GSM Flow Control

Concentric Cell

None

Radio Common Channel Management

Multi-site Cell

None

GSM Flow Control

GSM Flow Control

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Concentric Cell

PSU Smart Control

None

Faulty Management

O&M of BSC

Basic Cell Re-selection

Gb Interface Function

Faulty Management

None

None

None

None

Abis Transmission Optimization

None

O&M of BTS

Security Management

O&M of BTS

O&M of BTS

Gb Over FR

Security Management O&M of BSC Security Management

O&M of BTS

Security Management

O&M of BTS

Faulty Management

Faulty Management

Active Power Control

HUAWEI III Power Control Algorithm

Enhanced Power Control Algorithm

Radio Common Channel Management

Radio Common Channel Management

Multi-site Cell

O&M of BTS

Active Backup Power Control

Enhanced Channel Assignment Algorithm

Configuration Management O&M of BTS Connection with TMA (Tower Mounted Amplifier) O&M of BTS Connection with TMA (Tower Mounted Amplifier)

O&M of BTS

None

None

None

None

None GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

QoS ARP&THP GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Enhanced Channel Assignment Algorithm

O&M of BTS

O&M of BTS

Enhanced Power Control Algorithm HUAWEI I Handover HUAWEI II Handover

Fast Move Handover

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Configuration Management

Configuration Management

GPRS

Compact BTS Automatic Configuration and Planning

Compact BTS Automatic Configuration and Planning

Compact BTS Automatic Capacity Planning

Radio Common Channel Management

Radio Common Channel Management

Radio Common Channel Management

Multi-site Cell System Information Sending GPRS

GPRS

Radio Common Channel Management

GPRS

Abis over IP AMR Coding Rate Threshold Adaptive Adjustment WB AMR AMR Coding Rate Threshold Adaptive Adjustment TFO

Processing of Measurement Report

Configuration Management

O&M of BSC

O&M of BTS

O&M of BTS

O&M of BTS

Configuration Management

IP QOS

TCH Re-assignment

TCH Re-assignment Concentric Cell AMR FR Concentric Cell AMR HR

Concentric Cell

Concentric Cell

Concentric Cell

GSM Flow Control

IP QOS

Concentric Cell

Concentric Cell

Configuration Management

GSM Flow Control

GSM Flow Control

BSC/RNC Clock

BSC/RNC Clock

BSC/RNC Clock

BSC/RNC Clock

BSC/RNC Clock

BSC/RNC Clock

BSC/RNC Clock

BTS Local Switch

BSC Node Redundancy

BSC Node Redundancy

BSC Node Redundancy

Soft-Synchronized Network

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

IP QOS

None

Gb over IP

Simplified Cell Broadcast

Robust Air Interface Signalling

Robust Air Interface Signalling

Robust Air Interface Signalling

Faulty Management

O&M of BSC

Network-Controlled Cell Reselection (NC2)

Network-Controlled Cell Reselection (NC2)

Network-Controlled Cell Reselection (NC2)

Network-Controlled Cell Reselection (NC2)

PDCH Dynamic Adjustment

TRX Power Amplifier Intelligent Shutdown

O&M of BTS

O&M of BTS

Security Management

GPRS

Multi-Carrier Intelligent Voltage Regulation

GPRS

Gb Interface Function

A Interface Protocol Process O&M of BSC License Management Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Faulty Management

MBSC Load Balancing

Resource Reservation

Configuration Management Radio Dedicated Channel Management System Information Sending

O&M of BSC

Voice Fault Diagnosis

BTS GPS Synchronization

Network Assisted Cell Change (NACC)

None

Radio Dedicated Channel Management

Ater Compression Transmission

Configuration Management

MBSC Load Balancing

MBSC Load Balancing

MBSC Load Balancing

Security Management

Gb over IP

Gb over IP

Voice Quality Index (Uplink VQI)

Networking Control Mode Networking Control Mode GSM/TD-SCDMA Interoperability

IP QOS

Voice Quality Index (Uplink VQI)

Enhanced Measurement Report(EMR)

Enhanced Measurement Report(EMR)

IP QOS

None

IP QOS HUAWEI I Handover HUAWEI II Handover GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

None

None

GPRS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Abis over IP

Configuration Management

2G/3G Neighboring Cell Automatic Optimization

BSC/RNC Software Management

O&M of BSC

A Interface Protocol Process

Abis IP over E1/T1

Emergency Call Service (TS12)

None

None

None

None

None

None

None

None

None

None

TRX Power Amplifier Intelligent Shutdown

Board Switchover A over IP A IP over E1/T1

A over IP

A over IP

None

None

Abis over IP

A over IP

A over IP

A over IP Latency A over IPReduction Streaming QoS(GBR) QoS ARP&THP PoC QoS A over IP Conversational QoS Radio Common Channel Management Latency Reduction Streaming QoS(GBR) AMR Coding Rate Threshold Adaptive Adjustment QoS ARP&THP PoC QoS Conversational QoS Radio Common Channel Management

Abis over IP

IP QOS

IP QOS

O&M of BTS

IP QOS

IP QOS

GPRS AMR FR HUAWEI II Handover HUAWEI I Handover

System Information Sending HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

None

None Remote EAC Maintenance Faulty Management

O&M of BTS

Public Voice Group Call Service

Network Support SAIC

Network Support SAIC

Network Support SAIC

Faulty Management

Dynamic Cell Power Off

Dynamic Cell Power Off

Dynamic Cell Power Off

Dynamic Cell Power Off

Dynamic Cell Power Off

Radio Dedicated Channel Management

Faulty Management Remote EAC Maintenance Faulty Management Remote EAC Maintenance Faulty Management

O&M of BTS

O&M of BTS

Soft-Synchronized Network

Soft-Synchronized Network

Enhanced Measurement Report(EMR)

Gb over IP

Fast Move Handover

Configuration Management

O&M of BTS

Simplified Cell Broadcast

O&M of BTS

O&M of BSC

O&M of BSC

O&M of BSC GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

Faulty Management A over IP A IP over E1/T1

O&M of BSC

Faulty Management

Faulty Management

Faulty Management

Board Switchover

O&M of BTS Support of Daylight Saving Time Configuration Management

Configuration Management

Assignment and Immediate Assignment

Assignment and Immediate Assignment

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

SDCCH Dynamic Adjustment

Board Switchover

A5/3 Ciphering Algorithm

Active Backup Power Control HUAWEI I Handover HUAWEI II Handover

HUAWEI III Power Control Algorithm HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Gb over IP

Board Switchover O&M of BTS BTS Power Management

Faulty Management

Faulty Management

O&M of BTS

Enhanced Measurement Report(EMR)

O&M of BTS

System Information Sending

End-to-End MS Signaling Tracing HUAWEI I Handover HUAWEI II Handover

A Interface Protocol Process

Point To Point Short Message Service (TS21, TS22)

Group Call EMLPP

Group Call EMLPP

Multi-Carrier Intelligent Voltage Regulation

System Information Sending

System Information Sending

System Information Sending

O&M of BTS

O&M of BTS

O&M of BSC

O&M of BSC

Remote Electrical Tilt

O&M of BSC A over IP TC Pool

Abis over IP

PICO Automatic Configuration and Planning O&M of BSC Security Management

Abis over IP

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

SGSN Pool

Configuration Management

SGSN Pool

SGSN Pool

SGSN Pool

GPRS

SGSN Pool

GSM Flow Control

O&M of BSC

RAN Sharing

Faulty Management

Active Backup Power Control

System Information Sending HUAWEI I Handover HUAWEI II Handover

Soft-Synchronized Network

A Interface Protocol Process

A Interface Protocol Process

A over IP

Gb over IP

Gb over IP

IP QOS

Soft-Synchronized Network HUAWEI I Handover HUAWEI II Handover A Interface Protocol Process Local Multiple Signaling Points HUAWEI I Handover HUAWEI II Handover

Load Sharing

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

None

None

O&M of BSC

Soft-Synchronized Network

Clock over IP

Multi-site Cell

BTS Test Function

A Interface Protocol Process

BSC Node Redundancy Support of Daylight Saving Time Configuration Management

None

None

Faulty Management Support of Daylight Saving Time Configuration Management

Flow Control

Configuration Management

Configuration Management

None

A over IP

None

None

O&M of BSC

Faulty Management

Faulty Management

None

None

Configuration Management

MBSC Load Balancing

O&M of BTS

IP Fault Detection Based on BFD

Configuration Management

O&M of BSC

O&M of BTS

O&M of BTS

O&M of BTS

Configuration Management

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BSC 14-Digit Signaling Point Code A Interface Protocol Process 14-Digit Signaling Point Code A Interface Protocol Process 14-Digit Signaling Point Code A Interface Protocol Process

O&M of BSC

A Interface Protocol Process Radio Common Channel Management Location Updating IMSI Detach

Faulty Management

Faulty Management

Voice Fault Diagnosis

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

Group Call Reliability Enhancing

Group Call Reliability Enhancing

Group Call Reliability Enhancing

None HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover System Information Sending Discontinuous Reception (DRX)

Short Message Service Cell Broadcast (TS23)

MBSC Load Balancing

MBSC Load Balancing

PS Handover

PS Handover

Network Assisted Cell Change (NACC)

Public Voice Group Call Service

GPRS

GPRS

GPRS

GPRS

RAN Sharing

Latency Reduction

RAN Sharing

O&M of BSC

A Interface Protocol Process

O&M of BTS

O&M of BTS

O&M of BTS HUAWEI I Handover HUAWEI II Handover

Configuration Management

Configuration Management

Configuration Management

Configuration Management

O&M of BSC

BSC/RNC Clock

BSC/RNC Clock HUAWEI I Handover HUAWEI II Handover

IP Fault Detection Based on BFD

Configuration Management

Configuration Management

None

Configuration Management

None

BSC/RNC Clock

None

Configuration Management

Configuration Management

None

None

A over IP

None

None

Faulty Management

None

Configuration Management

MBSC Load Balancing

O&M of BTS

IP Fault Detection Based on BFD

Configuration Management

O&M of BSC

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BSC

O&M of BSC

Configuration Management

O&M of BTS

BSC/RNC Clock

Faulty Management

Gb over IP

Gb over IP O&M of BTS Intelligent Shutdown of TRX Due to PSU Failure

IP QOS HUAWEI I Handover HUAWEI II Handover

Faulty Management

Faulty Management

Faulty Management

Faulty Management HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Configuration Management

MBSC Load Balancing

Faulty Management HUAWEI I Handover HUAWEI II Handover Support of Daylight Saving Time Configuration Management

O&M of BSC

O&M of BSC O&M of BSC Security Management

Faulty Management

Faulty Management

Simplified Cell Broadcast

Faulty Management

Frequency Hopping (RF hopping, baseband hopping)

GSM Flow Control

A Interface Circuit Management

O&M of BSC

TRX Power Amplifier Intelligent Shutdown

O&M of BTS

TRX Power Amplifier Intelligent Shutdown

GSM Flow Control

GSM Flow Control

O&M of BTS

Group Call Reliability Enhancing

TRX Power Amplifier Intelligent Shutdown

Ater Interface 4:1 Multiplexing

A Interface Circuit Management

O&M of BTS

O&M of BTS

O&M of BTS

A Interface Circuit Management

O&M of BTS O&M of BSC Security Management

2G/3G Neighboring Cell Automatic Optimization

A Interface Protocol Process

O&M of BTS

EICC

A5/1 Encryption Flow Optimization

Group Call Reliability Enhancing

A Interface Protocol Process

Semi-Permanent Connection

Cell Frequency Scan

O&M of BTS

O&M of BTS

O&M of BTS O&M of BSC Security Management

O&M of BTS

O&M of BTS

TC Pool

TC Pool

O&M of BTS Abis MUX UDP MUX for A Transmission

Abis MUX

O&M of BSC

None

Flex Abis

Flex Abis

O&M of BSC

O&M of BTS

A Interface Circuit Management

BSC/RNC Clock

BSC/RNC Clock

Simplified Cell Broadcast PDCH Dynamic Adjustment MS High multislot classes Load Sharing Adaptive Adjustment of Uplink and Downlink Channels

DTM PDCH Dynamic Adjustment EDA(Extended Dynamic Allocation) Load Sharing Adaptive Adjustment of Uplink and Downlink Channels

DTM

BTS Local Switch

TFO

MBSC Handover based on Load Enhancement

Access

Gb over IP

Gb over IP

Faulty Management

O&M of BSC

O&M of BSC

O&M of BTS

O&M of BTS Support of Daylight Saving Time Configuration Management

Configuration Management

None

License Management

IP Fault Detection Based on BFD

O&M of BTS AMR FR AMR HR TFO

A over IP

A over IP

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BTS O&M of BSC Security Management Support of Daylight Saving Time Configuration Management

Soft-Synchronized Network

GSM/TD-SCDMA Interoperability IBCA (Interference Based Channel Allocation) Soft-Synchronized Network

Clock over IP

Clock over IP

Clock over IP

Clock over IP

Configuration Management

Configuration Management HUAWEI I Handover HUAWEI II Handover

Configuration Management

Public Voice Group Call Service

Configuration Management

Configuration Management

Gb Interface Function

Abis over IP

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

Gb Interface Function

Abis over IP

Ring Topology

Radio Link Management

Radio Link Management

Radio Link Management

Radio Link Management

Radio Link Management

Radio Link Management

Radio Link Management

Fast Ring Network Switch

A Interface Protocol Process

A Interface Protocol Process

A Interface Protocol Process

Gb Interface Function

Abis over IP HUAWEI I Handover HUAWEI II Handover

Public Voice Broadcast Service

GPRS

GPRS

Location Updating

Gb Over FR

A Interface Protocol Process

Gb Interface Function

A Interface Protocol Process

Gb Interface Function

A Interface Protocol Process

Gb Interface Function

Gb Interface Function

A Interface Protocol Process HUAWEI I Handover HUAWEI II Handover

Concentric Cell HUAWEI I Handover HUAWEI II Handover

Concentric Cell

HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Talker Identification HUAWEI I Handover HUAWEI II Handover

Soft-Synchronized Network

HUAWEI II Handover

Concentric Cell

Power Control

Power Control

O&M of BSC

O&M of BTS

OML Backup

Ring Topology

A Interface Protocol Process

Gb Interface Function

O&M of BTS O&M of BSC TC Pool

Dynamic Adjustment Between FR and HR

Enhanced Channel Assignment Algorithm

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management

Radio Dedicated Channel Management HUAWEI I Handover HUAWEI II Handover

HUAWEI III Power Control Algorithm

Enhanced Channel Assignment Algorithm

A5/1 Encryption Flow Optimization

A5/1 Encryption Flow Optimization

Concentric Cell

Concentric Cell

A Interface Protocol Process

A Interface Protocol Process

O&M of BSC

O&M of BTS

None

TC Pool

None

None

Configuration Management

GSM/TD-SCDMA Interoperability

Configuration Management

GSM/TD-SCDMA Interoperability

GSM/TD-SCDMA Interoperability

GSM/TD-SCDMA Interoperability

GSM/TD-SCDMA Interoperability

GSM/TD-SCDMA Interoperability

GSM/TD-SCDMA Interoperability

GSM/TD-SCDMA Interoperability

GSM/TD-SCDMA Interoperability

GSM/TD-SCDMA Interoperability

Configuration Management

GSM/TD-SCDMA Interoperability

GSM/TD-SCDMA Interoperability

IP QOS

IP QOS

O&M of BSC

O&M of BSC

O&M of BSC

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

O&M of BTS

Configuration Management

Configuration Management

Configuration Management

Configuration Management O&M of BTS BTS Power Management

O&M of BTS

O&M of BTS

System Information Sending

Gb Interface Function

Simplified Cell Broadcast

TFO

BTS Test Function

Configuration Management

O&M of BSC

None

None

None

None

None

GPRS

O&M of BTS

O&M of BTS

QoS ARP&THP

QoS ARP&THP

QoS ARP&THP

QoS ARP&THP

QoS ARP&THP

QoS ARP&THP

QoS ARP&THP

QoS ARP&THP

QoS ARP&THP

IP QOS

SGSN Pool

BCCH Dense Frequency Multiplexing

BCCH Dense Frequency Multiplexing

BCCH Dense Frequency Multiplexing

BCCH Dense Frequency Multiplexing

BCCH Dense Frequency Multiplexing

BCCH Dense Frequency Multiplexing

BCCH Dense Frequency Multiplexing

IBCA (Interference Based Channel Allocation)

MSC Pool O&M of BSC Security Management

O&M of BSC

Cell Frequency Scan HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Concentric Cell

Ethernet OAM

Ethernet OAM

Ethernet OAM

Ethernet OAM

Abis MUX HUAWEI I Handover HUAWEI II Handover

None

Power Optimization Based on Channel Type HUAWEI I Handover HUAWEI II Handover

Concentric Cell

Enhanced Channel Assignment Algorithm

MSC Pool O&M of BSC Security Management

GPRS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

O&M of BSC

IP QOS

None

None

BTS Test Function

Call Control

Faulty Management

O&M of BSC

Faulty Management

A Interface Protocol Process

A Interface Protocol Process

Configuration Management

Satellite Transmission over Ater Interface

O&M of BSC Support of Daylight Saving Time Configuration Management

Basic Cell Re-selection

IP-Based 2G/3G Co-Transmission on Base Station Side

IP-Based 2G/3G Co-Transmission on Base Station Side

IP-Based 2G/3G Co-Transmission on Base Station Side

O&M of BSC

O&M of BTS HUAWEI I Handover HUAWEI II Handover

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

Adaptive Adjustment of Uplink and Downlink Channels

Adaptive Adjustment of Uplink and Downlink Channels

A over IP

Satellite Transmission over Abis Interface

O&M of BSC

IP QOS

IP QOS

IP QOS

O&M of BTS

Abis over IP

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

GPRS HUAWEI I Handover HUAWEI II Handover

Link aggregation

Link aggregation

Link aggregation

O&M of BTS

IP QOS

None

None Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

IP QOS

None

O&M of BTS

None

IP Fault Detection Based on BFD

Ethernet OAM

TRX Cooperation

BTS Test Function

Frequency Hopping (RF hopping, baseband hopping)

Configuration Management

Multi-site Cell

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Antenna Frequency Hopping

Frequency Hopping (RF hopping, baseband hopping)

BTS Test Function

Frequency Hopping (RF hopping, baseband hopping)

Configuration Management

O&M of BTS

O&M of BTS

Multi-site Cell

Enhanced Channel Assignment Algorithm

O&M of BTS

Ater Interface 4:1 Multiplexing

A Interface Circuit Management

None

Gb Over FR

O&M of BSC Abis IP over E1/T1 A IP over E1/T1 Abis IP over E1/T1 A IP over E1/T1

Abis IP over E1/T1

Frequency Hopping (RF hopping, baseband hopping) GPRS Flex Abis

Soft-Synchronized Network

None

BTS Test Function

Semi-Permanent Connection

O&M of BSC

Configuration Management

IP-Based 2G/3G Co-Transmission on Base Station Side

O&M of BTS

O&M of BSC

Enhanced Channel Assignment Algorithm

Enhanced Channel Assignment Algorithm

Adaptive Adjustment of Uplink and Downlink Channels

Adaptive Adjustment of Uplink and Downlink Channels

Semi-Permanent Connection

O&M of BTS

BTS Test Function

O&M of BTS

BTS Test Function

O&M of BTS

TRX Power Amplifier Intelligent Shutdown on Timeslot Level

O&M of BTS

None

None

Dynamic Cell Power Off

Dynamic Cell Power Off

Dynamic Cell Power Off

Dynamic Cell Power Off

Dynamic Cell Power Off

O&M of BTS

O&M of BTS

Soft-Synchronized Network

Soft-Synchronized Network

Soft-Synchronized Network

Soft-Synchronized Network

Soft-Synchronized Network

Soft-Synchronized Network

Soft-Synchronized Network Radio Common Channel Management Location Updating

RAN Sharing

RAN Sharing

RAN Sharing

RAN Sharing

RAN Sharing

RAN Sharing

RAN Sharing

RAN Sharing

IP QOS

IP QOS

None

Access

Configuration Management

O&M of BSC

Frequency Band

GPRS

Compact BTS Automatic Configuration and Planning

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

A over IP

Enhanced Channel Assignment Algorithm

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

Abis over IP

A over IP Abis MUX UDP MUX for A Transmission

Abis MUX UDP MUX for A Transmission

Gb over IP

Gb over IP O&M of BSC Security Management

O&M of BTS Public Voice Group Call Service Public Voice Broadcast Service

None

Faulty Management

Faulty Management

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI II Handover

HUAWEI II Handover

Adaptive Adjustment of Uplink and Downlink Channels

O&M of BSC

RLC Mode HUAWEI I Handover HUAWEI II Handover

RLC Mode

RLC Mode

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

AMR FR

AMR FR

AMR FR

AMR HR

AMR HR

AMR HR

WB AMR

WB AMR

GSM and UMTS Load Balancing Based on Iur-g

Enhanced Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

GSM and UMTS Load Balancing Based on Iur-g

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm HUAWEI I Handover HUAWEI II Handover AMR FR HUAWEI II Handover HUAWEI I Handover AMR HR HUAWEI II Handover HUAWEI I Handover

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

HUAWEI III Power Control Algorithm

Enhanced Power Control Algorithm

Enhanced Power Control Algorithm AMR FR WB AMR AMR FR WB AMR AMR FR WB AMR

AMR HR

AMR HR

AMR HR

WB AMR

WB AMR

Concentric Cell

RLC Mode

O&M of BSC HUAWEI I Handover HUAWEI II Handover

Configuration Management

None

Gb Over FR Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

Faulty Management Faulty Management Connection with TMA (Tower Mounted Amplifier) Faulty Management Connection with TMA (Tower Mounted Amplifier)

Faulty Management

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Simplified Cell Broadcast GPRS Coding Scheme GPRS Coding Scheme GPRS EGPRS PDCH CodingDynamic Scheme Adjustment Load Sharing EGPRS Adaptive Adjustment of Uplink and Downlink Channels Coding Scheme GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels

Uplink EGPRS2-A

Uplink EGPRS2-A

Extended Uplink TBF GPRS Coding Scheme GPRS Coding Scheme EGPRS Coding Scheme EGPRS Coding Scheme HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Group Call Reliability Enhancing

Abis over IP Enhanced Power Control Algorithm HUAWEI III Power Control Algorithm

IP QOS

None HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover HUAWEI I Handover HUAWEI II Handover

Point To Point Short Message Service (TS21, TS22)

Extended Uplink TBF

Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme

Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme CS-3/CS-4 Coding Scheme

Network-Controlled Cell Reselection (NC2)

O&M of BSC

GPRS O&M of BSC License Management

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Concentric Cell

Concentric Cell

Concentric Cell

Concentric Cell

Concentric Cell

Concentric Cell GSM/WCDMA Interoperability GSM/TD-SCDMA Interoperability

O&M of BTS Public Voice Group Call Service Public Voice Broadcast Service Public Voice Group Call Service Public Voice Broadcast Service Public Voice Group Call Service Public Voice Broadcast Service

GSM Flow Control

GSM Flow Control

GSM Flow Control

GSM Flow Control

IP QOS

None

None

None Abis IP over E1/T1 A IP over E1/T1

Ethernet OAM

Abis over IP Ethernet OAM Configuration Management

None

None

None

Abis over IP

Abis over IP

Configuration Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

Faulty Management

O&M of BTS

Faulty Management

Faulty Management

Faulty Management

O&M of BTS

O&M of BTS

Call Control

AMR FR

AMR HR

None Emergency Call Service (TS12) Guaranteed Emergency Call

IBCA (Interference Based Channel Allocation)

None

O&M of BTS

Faulty Management O&M of BSC Security Management BSS-Based LCS (Cell ID + TA) Soft-Synchronized Network

O&M of BTS

IP Fault Detection Based on BFD

Abis over IP O&M of BSC Security Management

A over IP

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

O&M of BTS

Configuration Management

O&M of BTS

Configuration Management

None

O&M of BTS

O&M of BSC

OML Backup

Ring Topology

Board Switchover Support of Daylight Saving Time Configuration Management

Value Type

GUI Value Range

Interval Type

0~70

Interval Type

0~70

Interval Type

10~80

Enumeration Type

TRUE(Support), FALSE(Not Support)

Enumeration Type

NO(No), YES(Yes)

Interval Type

10~255

Interval Type

Enumeration Type

10~255 IDLETSALLOC_0(Any idle timeslots under the same site), IDLETSALLOC_1(Idle timeslots on same E1 primary link preferred), IDLETSALLOC_2(Idle timeslots on same E1 primary link only), IDLETSALLOC_3(Idle timeslots on same 64K primary link only)

Enumeration Type

CLOSE(CLOSE), OPEN(OPEN)

Interval Type

0~100

Enumeration Type

NO(NO), YES(YES)

Interval Type

10~3600

Enumeration Type

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

Interval Type

1~255

Interval Type

0~250

Enumeration Type

8BIT(8BIT), 11BIT(11BIT)

Interval Type

0~65535

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~31

Enumeration Type

OSubcell(Overlaid subcell), USubcell(Underlaid subcell), NoPrefer(No preference)

Interval Type

0~31

Enumeration Type

ULPRIORITY(Uplink Priority), NEUTRAL(Neutral Priority), DLPRIORITY(Downlink Priority)

Interval Type

0~9

Interval Type

1~10

Interval Type

15~7200

Enumeration Type

Disable(Disable), Enable(Enable)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

COMPUL0(Compulsory 0), COMPUL1(Compulsory 1), FLEX(Flexible)

Bit Field Type

4_75KBIT/S~0 5_15KBIT/S~1 5_90KBIT/S~2 6_70KBIT/S~3 7_40KBIT/S~4 7_95KBIT/S~5 10_2KBIT/S~6 12_2KBIT/S

Bit Field Type

4_75KBIT/S~0 5_15KBIT/S~1 5_90KBIT/S~2 6_70KBIT/S~3 7_40KBIT/S~4 7_95KBIT/S

Bit Field Type

6_60KBIT/S, 8_85KBIT/S, 12_65KBIT/S

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Interval Type

60~300

Interval Type

610~3000

Interval Type

600~2990

Interval Type

60~300

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~254

Interval Type

0~50

Interval Type

0~768

Bit Field Type

PORT0_CDEF, PORT1_CDEF

Interval Type

1~16777215

Enumeration Type

BYMANUAL(By Manual), BYAUTO(By Auto)

Enumeration Type

0(Not support dynamic adjustment), 1(According to downlink quality measurements reported by MS), 2(According to uplink quality measurements reported by BTS)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

COMMON_DLD(Common Download), QUICK_DLD1(Quick Download No Traffic), QUICK_DLD2(Quick Download Reserve BCCH)

Enumeration Type

LOCK(Lock), UNLOCK(Unlock), SHUTDOWN(Shutdown)

Enumeration Type

Lock(Lock), Unlock(Unlock), Shutdown(Shutdown)

Enumeration Type

Lock(Lock), Unlock(Unlock), Shutdown(Shutdown)

Compound Type

hour, min

Interval Type

0~100

Enumeration Type

OFF(OFF), ON(ON)

Compound Type

hour, min

Enumeration Type

RATIORULE(Ratio Rule)

String Type

None

String Type

None

Interval Type

0~600

Interval Type

0~60

Interval Type

-60~-35,0

Interval Type

0~1000

Interval Type

0~15

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

10~100

Interval Type

1~10

Enumeration Type

4_Times, 8_Times, 12_Times, 16_Times, 20_Times, 24_Times, 28_Times, 32_Times, 36_Times, 40_Times, 44_Times, 48_Times, 52_Times, 56_Times, 60_Times, 64_Times

Interval Type

0~63

Interval Type

0~65534

Enumeration Type

BSC(BSC)

Enumeration Type

4_Times, 8_Times, 12_Times, 16_Times, 20_Times, 24_Times, 28_Times, 32_Times, 36_Times, 40_Times, 44_Times, 48_Times, 52_Times, 56_Times, 60_Times, 64_Times

Interval Type

0~63

Interval Type

65334~65383

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Interval Type

65033~65533

String Type

None

Interval Type

1~60

Enumeration Type

ALL(All), ONEBYONE(One by One)

Enumeration Type

ALL(all), ONEBYONE(one by one)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

ABIS(Abis), A(A)

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Enumeration Type

NO(Not Supported), R3(Only R3 Supported), R2(Only R2 Supported), R2ANDR3(R2 And R3 Supported)

Interval Type

-12~12

Interval Type

-23~-4

Interval Type

3~12

Interval Type

-23~-4

Interval Type

-23~-4

Enumeration Type

FIXEDLEVEL(Fixed level mode), ADAPTIVE(Adaptive mode), FIXEDGAIN(Fixed gain mode)

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

5~15

Interval Type

1~255

Interval Type

0~4000000

Enumeration Type

NOTALLOW(Not Allow), ALLOW(Allow)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~100

Enumeration Type

NOTALLOW(Not Allow), ALLOW(Allow)

Interval Type

0~16

Interval Type

0~100

Enumeration Type

ALLCIC(Set all Timeslots CIC), ALLNULL(Set all Timeslots Null)

Enumeration Type

ALLCIC(Set all Timeslots CIC), ALLNULL(Set all Timeslots Null)

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~65535

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~65534

Interval Type

0~65535

Interval Type

0~15

Interval Type

45~155

Interval Type

125~175

Interval Type

0~65535

Interval Type

0~100

Interval Type

0~100

Interval Type

0~250

Interval Type

0~250

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

flt(Fault), evt(Event), all(All)

Enumeration Type

0(0.0), 1(0.1), 2(0.2), 3(0.3), 4(0.4), 5(0.5), 6(0.6), 7(0.7), 8(0.8), 9(0.9), 10(1.0)

Interval Type

0~9

Interval Type

-1000~10000

Interval Type

0~6553

Interval Type

-3281~32810

Bit Field Type

Critical, Major, Minor, Warning

Enumeration Type

Critical(Critical), Major(Major), Minor(Minor), Warning(Warning)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Interval Type

1~16

Enumeration Type

OFF(Not Allowed), ON(Allowed)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~20

Interval Type

0~3

Interval Type

0~7

Interval Type

0~7

Interval Type

1~20

Interval Type

0~7

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~7

Interval Type

0~100

Interval Type

0~255

Interval Type

0~255

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Interval Type

0~100

Interval Type

0~32

Interval Type

0~30

Interval Type

0~30

Interval Type

0~30

Interval Type

0~32

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~15

Interval Type

0~4

Interval Type

0~15

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~99

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~20

Interval Type

0~3

Interval Type

0~7

Interval Type

0~7

Interval Type

1~20

Interval Type

0~7

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~65535

Interval Type

0~65535

Interval Type

3~30

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

10~30

String Type

None

Interval Type

0~4599

Interval Type

0~4599

String Type

None

Enumeration Type

MODE0(Mode 0), MODE1(Mode 1), MODE2(Mode 2)

Interval Type

-32~0

Interval Type

-64~0

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~360

Interval Type

0~1000

Enumeration Type

SENDPOWER(Send Power), NOPOWER(No Power)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~35

Enumeration Type

A(A), B(B)

Enumeration Type

A(A), B(B)

Enumeration Type

A(A), B(B), NULL(NULL)

Interval Type

0~335

Enumeration Type

M3UA(M3UA), BBAP(BBAP)

Enumeration Type

MTP2(MTP2), OTHER(OTHER), TCSTM1(TCSTM1)

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Interval Type

1~65535

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

1~65535

Interval Type

0~65535

Enumeration Type

PRIMARY(Primary Area), STANDBY(Standby Area), ALL(Primary and Standby Area)

Enumeration Type

PRIMARY(Primary), STANDBY(Standby)

Interval Type

0~80

Interval Type

5~126

Interval Type

5~100

Interval Type

3~10

Interval Type

3~10

Interval Type

0~27

Interval Type

0~27

Interval Type

0~11

Bit Field Type

power, env, sig, trunk, hardware, software, run, comm, service, handle

Enumeration Type

power(Power System), env(Environment System), sig(Signaling System), trunk(Trunk System), hardware(Hardware System), software(Software System), run(Running System), comm(Communication System), service(QoS), handle(Processing Error)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

0~61

Interval Type

0~62,255

Interval Type

0~62

Interval Type

0~23,255

Interval Type

0~23

Interval Type

0~255

Interval Type

0~254

Interval Type

0~63

Interval Type

500~60000

Interval Type

1~300

Interval Type

1~300

Interval Type

1~300

Interval Type

1~300

Interval Type

1~300

Interval Type

1~300

Interval Type

1~300

Enumeration Type

NO(Close), YES(Open)

Interval Type

0~63

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Close(Close), Open(Open)

Interval Type

80~100

Interval Type

0~254

Interval Type

0~100

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Enumeration Type

NO, YES

Interval Type

0~1

Interval Type

0~254

Interval Type

0~2047

Enumeration Type

TDM(TDM), IP(IP)

Enumeration Type

A(Tributary A), B(Tributary B), ALL(All Tributary)

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~15

Interval Type

0~15

Interval Type

1~65535

Interval Type

1~60

Enumeration Type

NONE(Verify None), PEER(Verify Peer Certificate)

Enumeration Type

SERVER(SERVER), CLIENT(CLIENT)

Enumeration Type

SERVER(SERVER), CLIENT(CLIENT)

Enumeration Type

SERVER(Server), CLIENT(Client)

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

NO_V(NO_V), PAP_V(PAP_V), CHAP_V(CHAP_V)

Enumeration Type

NO_V(NO_V), PAP_V(PAP_V), CHAP_V(CHAP_V)

Enumeration Type

NO_V(No Validate), PAP_V(PAP Validate), CHAP_V(CHAP Validate)

Enumeration Type

ENABLE, DISABLE

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

BTSAUTODLDACT(BTS Software Auto DL and ACT), TMUAUTOACT(TMU Software Auto ACT)

Enumeration Type

OFF(Off), ON(On)

Interval Type

1~65535

Enumeration Type

AU4(AU4), AU3(AU3)

Enumeration Type

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

Enumeration Type

LOW(LOW), HIGH(HIGH) O1E3_R1E4(OCCUR:1E-3, RECOVERY:1E-4), O1E4_R1E5(OCCUR:1E-4, RECOVERY:1E-5), O1E5_R1E6(OCCUR:1E-5, RECOVERY:1E-6), O1E6_R1E7(OCCUR:1E-6, LOW(LOW), HIGH(HIGH) RECOVERY:1E-7), O1E7_R1E8(OCCUR:1E-7, RECOVERY:1E-8), O1E8_R1E9(OCCUR:1E-8, RECOVERY:1E-9), O1E3_R1E4(OCCUR:1E-3, O1E4_R1E5(OCCUR:1E-4, O1E9_R1E10(OCCUR:1E-9,RECOVERY:1E-4), RECOVERY:1E-10), RECOVERY:1E-5), O1E5_R1E6(OCCUR:1E-5, RECOVERY:1E-6), O1E10_R1E11(OCCUR:1E-10, RECOVERY:1E-11), O1E6_R1E7(OCCUR:1E-6, RECOVERY:1E-7), O1E7_R1E8(OCCUR:1E-7, O1E11_R1E12(OCCUR:1E-11, RECOVERY:1E-12) RECOVERY:1E-8), O1E8_R1E9(OCCUR:1E-8, RECOVERY:1E-9), O1E9_R1E10(OCCUR:1E-9, RECOVERY:1E-10), O1E10_R1E11(OCCUR:1E-10, RECOVERY:1E-11), O1E11_R1E12(OCCUR:1E-11, RECOVERY:1E-12)

Enumeration Type

Enumeration Type

Enumeration Type

Enumeration Type

O1E4_R1E5(OCCUR:1E-4, RECOVERY:1E-5), O1E5_R1E6(OCCUR:1E-5, RECOVERY:1E-6), O1E6_R1E7(OCCUR:1E-6, RECOVERY:1E-7), O1E7_R1E8(OCCUR:1E-7, RECOVERY:1E-8), O1E8_R1E9(OCCUR:1E-8, RECOVERY:1E-9), O1E9_R1E10(OCCUR:1E-9, RECOVERY:1E-10), O1E4_R1E5(OCCUR:1E-4, RECOVERY:1E-5), O1E5_R1E6(OCCUR:1E-5, O1E10_R1E11(OCCUR:1E-10, RECOVERY:1E-11) RECOVERY:1E-6), O1E6_R1E7(OCCUR:1E-6, RECOVERY:1E-7), O1E7_R1E8(OCCUR:1E-7, RECOVERY:1E-8), O1E8_R1E9(OCCUR:1E-8, RECOVERY:1E-9), O1E9_R1E10(OCCUR:1E-9, RECOVERY:1E-10), O1E10_R1E11(OCCUR:1E-10, RECOVERY:1E-11)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

String Type

None

String Type

None

Interval Type

0~70

Enumeration Type

CLOSE(Close), LOCALTLLI(Local TLLI Opt), ALLTLLI(All TLLI Opt)

String Type

None

IP Address Type

None

IP Address Type

None

Enumeration Type

BYTRX(Turn off TRX), BYPWR(Reduce Backup Power)

Enumeration Type

BYCOVER(Cover Priority), BYCAP(Capability Priority), BYSAVING(Saving Priority)

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

1~200

Enumeration Type

String Type

None

Interval Type

0~2047

Enumeration Type

Battery1Temp(Battery 1 Temperature), Battery2Temp(Battery 2 Temperature)

Enumeration Type

Battery1Temp(Battery 1 Temperature), Battery2Temp(Battery 2 Temperature)

Interval Type

30~1000

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~90

Enumeration Type

NO_BAT(No Storage Battery), INSIDE_BAT(Inside Storage Battery), OUTSIDE_BAT(Outside Storage Battery)

Interval Type

1024~65535

Interval Type

0~254

Interval Type

0~5000

Interval Type

0~7

Interval Type

0~7

Interval Type

0~7

Interval Type

0~1023

Interval Type

0~1023

Enumeration Type

NO_Hop(No hop), Hop(Hop)

Interval Type

0~100

Interval Type

0~100

Interval Type

0~63

Interval Type

0~511

Interval Type

5~25

Interval Type

433~576

Enumeration Type

NO(NO), YES(YES)

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Enumeration Type

MTP3(MTP3), M3UA(M3UA), MTP3_M3UA(MTP3 and M3UA)

Interval Type

1~60

Interval Type

0~10

Interval Type

0~3

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~32

Interval Type

1~32

Interval Type

3~10

Interval Type

1~2

Interval Type

10~254

Enumeration Type

ALL(All), PART(Part)

Interval Type

-10000~10000

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

0~65534

Interval Type

60~65534

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

1~6

Interval Type

1~120

Interval Type

0~335

Interval Type

0~5,8~27

Interval Type

0~11

Interval Type

0~5000

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

nonrpt(Not Report), rpt(Report)

Enumeration Type

0(0), 1(1), 2(2), 3(3), 4(4), 5(5), 6(6), NULL(NULL)

Enumeration Type

0(0), 1(1), 2(2), 3(3), 4(4), 5(5), 6(6), NULL(NULL)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~16

Interval Type

0~127

Interval Type

1~16

Enumeration Type

SCU, GCU, XPU, INT, TNU

Enumeration Type

SCU, GCU, XPU, DPU, INT, TNU

Enumeration Type

SCU, GCU, MPU, GCP, DPU, INT, TNU

Enumeration Type

INT, DPU, XPU, TNU, OMU, SAU

Interval Type

0~72

Interval Type

0~47

Interval Type

0~1000

Enumeration Type

DPMU_MAIN, DPTU_MAIN, DRFU_MAIN, DRFUBOOT_MAIN, DRRU_MAIN, DRRUBOOT_MAIN, DRU_MAIN, DTCU_MAIN, DTMU_MAIN, DTRU_MAIN, ETR_MAIN, FMU_MAIN, FMUA_MAIN, GATM_MAIN, GTMU_MAIN, IASU_MAIN, IOMU_MAIN, MFU_3001C, MMU_3001C, MRRU_MAIN, MTR_MAIN, NFCB_MAIN, PBU_MAIN, QTRU_MAIN, TMU_MAIN, TRX_MAIN, GRRU_MAIN, BTS3900B_MAIN, BTS3900BBOOT_MAIN, MRFU_MAIN, GRFU_MAIN, MRRUBOOT_MAIN, MRFUBOOT_MAIN, USCU_MAIN, BTS3900E_MAIN, BTS3900EBOOT_MAIN, BOOTROM_PCK, UBRI_MAIN, UTRP_MAIN

Interval Type

0~1000

Enumeration Type

DPUa, DPUc

Enumeration Type

PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa, OMUa, OMUb, SAUa

Enumeration Type

FG2a, GOUa, FG2c, GOUc

Enumeration Type

PEUa, POUc

Enumeration Type

PEUa, POUc

Enumeration Type

PEUa, POUc

Enumeration Type

Enumeration Type

MRRU, GRRU, MRFU, GRFU, BTS3900E TMU(TMU/DTMU), DTRU(DTRU), DPTU(DPTU), QTRU(QTRU), MRRU(MRRU), GRRU(GRRU), BTS3900B(BTS3900B), MRFU(MRFU), GRFU(GRFU), BTS3900E(BTS3900E), DRFU(DRFU), DRRU(DRRU), UBRI(UBRI), UTRP(UTRP)

Interval Type

0~255

Any Type

None

Interval Type

2~3600

Enumeration Type

ENTIRE(Entire Backup), INCREMENTAL(Incremental Backup)

Interval Type

0~7

Interval Type

1~16777215

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

MAINBSC(MAIN BSC), SUBBSC(SUB BSC)

IP Address Type

None

Compound Type

hour, min

Compound Type

hour, min

Interval Type

0~15

Interval Type

0~15

Interval Type

5~60

IP Address Type

None

IP Address Type

None

Enumeration Type

UNCONDITIONALSTART(Unconditional Start), ATERCONGESTS(Start When Ater Congests), PREFIXNUMBER(Start by Prefix Number)

String Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~335

Interval Type

0~65535

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~4294967295

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~65535

Interval Type

0~27

Interval Type

0~11

Interval Type

0~7

Interval Type

0~2500

Interval Type

0~15

Interval Type

1~15

Interval Type

1~31

Interval Type

0~15

Enumeration Type

NO(No), YES(Yes)

Interval Type

Enumeration Type

0~12 2_M_PERIOD(2 Multiframe Period), 3_M_PERIOD(3 Multiframe Period), 4_M_PERIOD(4 Multiframe Period), 5_M_PERIOD(5 Multiframe Period), 6_M_PERIOD(6 Multiframe Period), 7_M_PERIOD(7 Multiframe Period), 8_M_PERIOD(8 Multiframe Period), 9_M_PERIOD(9 Multiframe Period)

Interval Type

1~4

Interval Type

0~12

Enumeration Type

NEITHERSTART(Neither Start), BTSPRIORITY(BTS Priority), BSCPRIORITY(BSC Priority), BTSONLY(BTS Only), BSCONLY(BSC Only)

Enumeration Type

NONSUPPORT(Not Support), BASIC(Basic Fun), ENHANCED(Enhanced Fun)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

PEUa, EIUa, OIUa, POUc

Enumeration Type

SCUa, GCUa, GCGa, PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa

Enumeration Type

SCUa, GCUa, GCGa, PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa, ALL

Enumeration Type

PEUa, POUc, EIUa, OIUa

Enumeration Type

PEUa, POUc, EIUa

Enumeration Type

PEUa, POUc, EIUa, OIUa

Enumeration Type

POUc, OIUa

Enumeration Type

POUc, OIUa

Enumeration Type

FG2a, GOUa, FG2c, GOUc, POUc

Enumeration Type

EIUa PWC(PWC), EAC_EMUA(EAC_EMUA), DTMU(DTMU), DATM_DATU(DATM_DATU), NFCB(NFCB), EMU_DEMU(EMU_DEMU), DATU(DATU), GATM(GATM), DRRU(DRRU), MRRU(MRRU), DPMU(DPMU), DCBM_DCOM(DCBM_DCOM), DHEU(DHEU), MRFU(MRFU), GRFU(GRFU), GRRU(GRRU), BTS3900E(BTS3900E) ECOM(ECOM), MFU(MFU), MPW(MPW), MCD(MCD), IASU(IASU), CDU(CDU), PCDU(PCDU), DCDU(DCDU), CDUC(CDUC), CDUP(CDUP), PTU(PTU), TMU(TMU), PSU_APSU(PSU_APSU), RCDU(RCDU), CDUR(CDUR), CDUE(CDUE), EDU(EDU), PEDU(PEDU), PMU_APMU(PMU_APMU), 3001C_MFU(3001C_MFU), TEU(TEU), REDU(REDU), DEDU(DEDU), EDUC(EDUC), EDUP(EDUP), EDUR(EDUR), TES(TES), PBU(PBU), DPBU(DPBU), RPBU(RPBU), PPBU(PPBU), EDUE(EDUE), DDPM_DDPU(DDPM_DDPU), DFCU(DFCU), DFCB(DFCB) SCU(SCU), MDU(MDU), UPEU(UPEU), UEIU(UEIU), FMU(FMU), FMUA(FMUA), DTCU(DTCU), GATM(GATM), DGPS(DGPS), USCU(USCU), UBRI(UBRI), FAN(FAN), EMU(EMU), PMU(PMU), TCU(TCU), PSU(PSU), UTRP(UTRP)

Enumeration Type

Enumeration Type

Enumeration Type

Enumeration Type

DRRU(DRRU), DRFU(DRFU), MRRU(MRRU), XRRU(XRRU), MRFU(MRFU), GRFU(GRFU), GRRU(GRRU), XRFU(XRFU), BTS3900E(BTS3900E) TRX(TRX_DEFAULT), TRX_GPRS(TRX_GPRS), DRU(TRX_30), PTRX(PTRX), ETRX(ETRX), RTRX(RTRX), DTRX(DTRX), RETR(RETR), DETR(DETR), EETR(EETR), PETR(PETR), MTR(MTR), TRU(TRU/DTRU), QTRU(QTRU) CDU(CDU), CDUC(CDUC), CDUP(CDUP), CDUR(CDUR), CDUE(CDUE), PCDU(PCDU), RCDU(RCDU), DCDU(DCDU), EDU(EDU), EDUC(EDUC), EDUP(EDUP), EDUR(EDUR), EDUE(EDUE), PEDU(PEDU), REDU(REDU), DEDU(DEDU), DDPM_DDPU(DDPM_DDPU), DFCU(DFCU), DFCB(DFCB)

Enumeration Type

CFGBM(BM), CFGTC(TC)

Enumeration Type

CFGBM(BM), CFGTC(TC)

Enumeration Type

NO(No), YES(Yes)

String Type

None

Enumeration Type

LOGICIP(Logic IP), PORTIP(Port IP), PPP/MP(PPP/MP)

Enumeration Type

LOGICIP(Logic IP), PORTIP(Port IP), PPP/MP(PPP/MP)

Enumeration Type

Enumeration Type

String Type

None

Enumeration Type

CLOSE(CLOSE), OPEN(OPEN)

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~2047

Enumeration Type

BYIDX(By BTS Index), BYNAME(By BTS Name)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Interval Type

0~2047,65535

IP Address Type

None

Enumeration Type

UNCONDITIONALSTART(Unconditional Start), ABISCONGESTS(Start When Abis Congests), PREFIXNUMBER(Start by Prefix Number)

IP Address Type

None

Enumeration Type

BSC_Preprocessing(BSC preprocessing), BTS_Preprocessing(BTS preprocessing)

String Type

None

String Type

None

String Type

None

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~16

Enumeration Type

OFF(Off), ON(On)

String Type

None

Interval Type

Enumeration Type

1~250 BTS30, BTS312, BTS3001C, BTS3001CP, BTS3002C, BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900B_GSM, BTS3900E_GSM, BTS3900L_GSM BTS3012(BTS3012), BTS3006C(BTS3006C), BTS3002E(BTS3002E), BTS3012AE(BTS3012AE), BTS3012_II(BTS3012_II), DBS3900_GSM(DBS3900 GSM), BTS3900_GSM(BTS3900 GSM),GSM) BTS3900B_GSM(BTS3900B GSM), BTS3900E_GSM(BTS3900E BTS3900A_GSM(BTS3900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900L_GSM(BTS3900L GSM), BTS3900B_GSM(BTS3900B GSM), BTS3900E_GSM(BTS3900E GSM)

Interval Type

0~1000000

Enumeration Type

BIULOOP(BIU Loopback Test), TRXSELFTEST(TRX Self Loopback Test)

Enumeration Type

NO_BAT(No Storage Battery), INSIDE_BAT(Inside Storage Battery), OUTSIDE_BAT(Outside Storage Battery)

Interval Type

10~255

Enumeration Type

NO(NO), YES(YES)

Interval Type

2~65534

Interval Type

2~65534

Interval Type

1000~3000

Enumeration Type

Enumeration Type

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~200000

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~100

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~100

Interval Type

0~200000

Interval Type

100~1000

Enumeration Type

FULL_DUPLEX(Full Duplex), HALF_DUPLEX(Half Duplex)

Interval Type

0~100

Interval Type

20~100

Enumeration Type

BYIDX(By Cell Index), BYNAME(By Cell Name)

Enumeration Type

C31NOTUSE(Not Use c31 standard), C31STANDARD(Use c31 standard)

Interval Type

0~1

String Type

None

Interval Type

0~8

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~4095

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

GSM900(GSM900), DCS1800(DCS1800), GSM850(GSM850), PCS1900(PCS1900)

Enumeration Type

NULL(NULL), IPLGCPORT(IP Logic Port), RSCGRP(Resource Group)

Enumeration Type

ETHER, IPLOGICPORT, TRUNK, PPP, MP

Enumeration Type

ETHPORT, TRUNK

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~3

IP Address Type

None

Interval Type

0~63

Interval Type

0~65535

Interval Type

5~180

Enumeration Type

NO(No), YES(Yes)

Interval Type

4500~32767

Interval Type

1~5

Interval Type

0~31

Interval Type

0~31

Interval Type

0~65535

Enumeration Type

DISABLE(Disabled), ENABLE(Enabled)

Interval Type

0~255

Interval Type

20~100

Interval Type

0~63

Enumeration Type

10, 100, 1000

Interval Type

0~100

Interval Type

0~7

Interval Type

0~7

Interval Type

0~1023

Enumeration Type

AUTO(Auto), MANU(Manu)

Interval Type

0~1023

Enumeration Type

AUTO(Auto), MANU(Manu)

Interval Type

0~50

Interval Type

0~7

Interval Type

0~7

Enumeration Type

Permit(Permit Cell Access), NoPermit(Prohibit Cell Access)

Enumeration Type

OUTDOOR_CELL(Outdoor Cell), INDOOR_CELL(Indoor Cell)

Interval Type

240~289

Interval Type

433~576

Interval Type

240~289

Interval Type

432~575

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~2047,65535

Interval Type

0~2047

Interval Type

0~2047

String Type

None

Enumeration Type

BYNAME(By name), BYID(By index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

Inner(Inner), Extra(Extra)

Enumeration Type

1, 2, 3, 4

String Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

OP1(Operator 1), OP2(Operator 2), OP3(Operator 3), OP4(Operator 4), NONE(Not Shared)

Interval Type

0~63

Interval Type

0~63

Interval Type

1~20

Enumeration Type

NO(NO), YES(YES)

Interval Type

350~553

Enumeration Type

2G(Preference for 2G Cell), 3G(Preference for 3G Cell)

Interval Type

0~100

Enumeration Type

COMMON(COMMON), MULTIPATH(MULTIPATH), INDOOR(INDOOR), HIGHWAY(HIGHWAY)

Enumeration Type

NO(No), YES(Yes)

Interval Type

400~790

Interval Type

-190~50

Interval Type

0~1000

Interval Type

-500~0

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~63

Interval Type

0~63

Interval Type

20~90

String Type

None

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NULL(NULL), IPLGCPORT(IP Logic Port), RSCGRP(Resource Group)

Enumeration Type

AUTO(AUTOPLAN), NORMAL(NORMAL)

Enumeration Type

ENABLE(Enable), DISABLE(Disable)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Password Type

None

Bit Field Type

G_15, G_16, G_17, G_18, G_19, G_20, G_21, G_22, G_23, G_24, G_25, G_26, G_27, G_28, G_29, G_30, G_31 G_0~0 G_1~1 G_2~2 G_3~3 G_4~4 G_5~5 G_6~6 G_7~7 G_8~8 G_9~9 G_10~10 G_11~11 G_12~12 G_13~13 G_14~14 G_15~15 G_16~16 G_17~17 G_18~18 G_19~19 G_20~20 G_21~21 G_22~22 G_23~23 G_24~24 G_25~25 G_26~26 G_27~27 G_28~28 G_29~29 G_30~30 G_31

Interval Type

20~90

Interval Type

20~90

Enumeration Type

OFF(OFF), ON(ON)

String Type

None

Interval Type

0~2

Interval Type

30~100

Interval Type

30~100

Interval Type

30~100

Enumeration Type

QUICK_HO_NCELL_TYPE_A(QUICK_HO_NCELL_TYPE_A), QUICK_HO_NCELL_TYPE_B(QUICK_HO_NCELL_TYPE_B)

Enumeration Type

CHAINTORING(ChainToRing), COMBINECHAINS(CombineChains)

Enumeration Type

Enumeration Type

CAPABILITY(Capability preferred), QUALITY(Quality preferred), PSRELATIVELY(PS relatively preferred), PSABSOLUTELY(PS absolutely preferred)

Interval Type

0~100

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~100

Interval Type

0~65535

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~64

Interval Type

1~5

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

MODE1(Mode 1), MODE2(Mode 2), MODE3(Mode 3)

Enumeration Type

MODE1(Mode 1), MODE2(Mode 2), MODE3(Mode 3)

Interval Type

0~511

Interval Type

0~511

Interval Type

5~20

Interval Type

5~20

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

ALDER32(ALDER32), CRC32(CRC32)

Enumeration Type

SBFD, ARP, MBFD

Interval Type

0~12

Interval Type

1~7

Interval Type

0~169

Interval Type

0~7

Enumeration Type

TRXRFSELFLOOP(TRX RF Self Loopback Test), BIULOOP(BIU Loopback Test), BTSSPEECHLOOP(BTS Speech Loopback Test), TRXSPEECHLOOP(TRX Speech Loopback Test)

Enumeration Type

FULLTCH(FULLTCH), HALFTCH(HALFTCH)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NOSENDING(Force NO Sending), SYSTEMOPT(System Optimization), SENDING(Force Sending)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

10~800

Interval Type

10~800

Interval Type

Enumeration Type

TCHFR(TCH 100~600000 Full Rate), TCHHR(TCH Half Rate), SDCCH8(SDCCH8), MBCCH(Main BCCH), CBCCH(Combined BCCH), BCH(BCH), BCCH_CBCH(BCCH+CBCH), SDCCH_CBCH(SDCCH+CBCH), PBCCH_PDTCH(PBCCH+PDTCH), PCCCH_PDTCH(PCCCH+PDTCH), PDTCH(PDTCH), DPDCH(Dynamic PDCH)

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~160

Interval Type

1~12

Enumeration Type

OFF(Off), ON(On)

Interval Type

1~100

Interval Type

1~60

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NOTSENDING(Not sending), SENDINGPRO(sending according to protocol), SENDING(unconditionally sending)

Enumeration Type

NOTSENDING(Not sending), SENDINGPRO(sending according to protocol), SENDING(unconditionally sending)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~1562

Interval Type

0~22

Interval Type

0~27

Interval Type

0~11

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

Enumeration Type

NO(No), YES(Yes) ERR_PFM_1E6(RECOVERY:1E-6), ERR_PFM_5E6(RECOVERY:5E-6), ERR_PFM_1E5(RECOVERY:1E-5), ERR_PFM_5E5(RECOVERY:5E-5), ERR_PFM_1E4(RECOVERY:1E-4), ERR_PFM_5E4(RECOVERY:5E-4), ERR_PFM_1E3(RECOVERY:1E-3)

Enumeration Type

INCLK(Internal Clock), BSCCLK(Trace BSC Clock), EXCLK(External Synchro Clock), IPCLK(IP Clock), TRANSCLK(Trace Trans Clock), GPSCLK(Trace GPS Clock), UMCLK(Um Clock), PEERCLK(PEER Clock)

Enumeration Type

HW_DEFINED(Huawei User-defined), PTP(PTP Protocol)

Enumeration Type

Enumeration Type

GCUa, GCGa INT_CLK(Internal Clock), TRCBSC_CLK(Trace BSC Clock), EXTSYN_CLK(External Sync clock), IP_TIME(IP Clock), IP_TRANSFER(Trace Transport Clock), TRCGPS_CLK(Trace GPS Clock), UM_CLK(Um Clock), PEER_CLK(Peer Clock)

Interval Type

0~255

Bit Field Type

cleared, uncleared

Interval Type

0~255

String Type

None

String Type

None

Interval Type

0~19

Interval Type

1~3

Interval Type

0~62

Interval Type

0~62

Interval Type

0~62

Interval Type

0~62

Interval Type

0

Interval Type

1~60

Interval Type

0~4095

Interval Type

0~4095

Interval Type

0~31

Interval Type

0~3

Enumeration Type

NONE(None), AINTFBLOCK(AInterf Block)

Interval Type

1~150000

Enumeration Type

BTS3002C, BTS3012A, BTS3006A

Enumeration Type

BTS3012(BTS3012), BTS3012AE(BTS3012AE), BTS3006C(BTS3006C), BTS3012_II(BTS3012 II), BTS3002E(BTS3002E), DBS3900_GSM(DBS3900 GSM), BTS3900_GSM(BTS3900 GSM), BTS3900A_GSM(BTS3900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900_GSM_6RFC(BTS3900 GSM 6RFC), BTS3900A_GSM_6RFC(BTS3900A GSM 6RFC), BTS3036_6RFC(BTS3036 6RFC), BTS3036A_6RFC(BTS3036A 6RFC)

Interval Type

10000~50000

Interval Type

0~250

Interval Type

0~250

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~1023

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

Enumeration Type

BYSITE(By Site), BYCELL(By Cell)

Interval Type

0~100

Bit Field Type

L0_FORBID, L1_FORBID, L2_FORBID, L3_FORBID, L4_FORBID, L5_FORBID, L6_FORBID, L7_FORBID, L8_FORBID, L9_FORBID

Bit Field Type

LOWERCASE, UPPERCASE, DIGIT, SPECIALCHARACTER

Interval Type

1~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~335

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

ALL(ALL Type), ONLY_SSL(Only SSL Connection)

Enumeration Type

INNER(Internal RNC), EXTERNAL(External RNC)

Interval Type

0~60

Interval Type

1~200

Enumeration Type

NO(NO), YES(YES)

Interval Type

1~28

Interval Type

1~60

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Enumeration Type

OFF(Off), ON(On), NOTSUPPORT(Not Support)

Enumeration Type

0dB, 2dB, 4dB, 6dB, 8dB, 10dB, 12dB, 14dB

String Type

None

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

1~255

Interval Type

1~255

Interval Type

0~63

Interval Type

1~255

Enumeration Type

UNAVAILABLE(UNAVAILABLE), AVAILABLE(AVAILABLE)

Bit Field Type

VOICEINF, MR, CALLAPPENDINF, CALLINNERINF

Interval Type

0~100

Enumeration Type

OFF(Not Output), ON(Output)

Bit Field Type

RESINSUFF, UMABNORM, TRAFFREJECT, MSCREL, MSCDISCON, BADQUALITY

Interval Type

0~100

Enumeration Type

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

Interval Type

0~7

Interval Type

0~100

Interval Type

0~7

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), MRHOFAIL(Preferentially Output MR of HO Failure), MRHOLATEST(Preferentially Output MR of Latest HO)

Enumeration Type

COMMONUSRM(Common User Mode), SPECUSRM(Specified User Mode)

Enumeration Type

ABNORMREC(Output Abnormal Records in BSC), ALLBSCREC(Output All Records in BSC), ALLCELLREC(Output All Records in Cells)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(Not Output), ALL(Output All), AINTF(Output A Interface Signaling), ABISINTF(Output Abis Interface Signaling)

Interval Type

30~100

Bit Field Type

LU, SMS, CALL

Interval Type

0~100

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

Interval Type

0~7

Interval Type

0~100

Interval Type

0~7

Enumeration Type

ON(ON), OFF(OFF)

Interval Type

40000~50000

Interval Type

5000~150000

Interval Type

1000~2000

Interval Type

400~600

Interval Type

7500~9500

Interval Type

80~120

Interval Type

3000~6000

Interval Type

500~2000

Interval Type

1~100

Interval Type

30~100

Interval Type

30~100

Interval Type

1~16777215

Enumeration Type

4BURST(4Burst), RLC/MAC(RLC/MAC)

Enumeration Type

NO(Cancel Control Flag), YES(Set Control Flag)

Interval Type

0~62

Interval Type

0~5

Interval Type

0~23

Interval Type

0~254

Interval Type

0,2,4,8,10,12,14,16,18,20,22,24,26

Interval Type

0~27,255

Interval Type

0~11,255

Enumeration Type

ON(ON), OFF(OFF)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~99

Interval Type

10~255

String Type

None

Interval Type

1~31

Interval Type

1~31

Bit Field Type

NT14_5K~0 NT12K~1 NT6K~2 T14_4K~3 T9_6K~4 T4_8K~5 T2_4K~6 T1_2K~7 T600_BITS~8 T1200_75

Enumeration Type

NOLIMIT(No Limit), LIMIT(Limit)

Compound Type

YEAR, MONTH, DAY

Interval Type

1~12

Interval Type

0~31

Interval Type

0~30

Enumeration Type

Inner(Inner), Extra(Extra)

Interval Type

0~2047

String Type

None

Enumeration Type

BYNAME(By Name), BYID(By Index)

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

350~556

Interval Type

580~600

Interval Type

433~555

Interval Type

580~600

Interval Type

0~32

Interval Type

500~60000

Interval Type

0~186

String Type

None

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

1~1000

Enumeration Type

BSC, BTS

Enumeration Type

BTS, BSC, DXX, OTHER

Interval Type

0~27

Interval Type

0~11

Interval Type

0~7

Interval Type

0~3071

Interval Type

0~255

Interval Type

3~10

Enumeration Type

OFF(OFF), ON(ON)

String Type

None

Interval Type

0~35

IP Address Type

None

Enumeration Type

LOGIC_IP(Logical IP Address)

Interval Type

0~16383

Interval Type

0~23

Interval Type

0~254

Enumeration Type

NO(Not Default DPC), YES(Default DPC)

Enumeration Type

DEFAULTPORT(Default 21 Port), CUSTOMPORT(Custom Port)

Interval Type

1~60

IP Address Type

None

Interval Type

0~63

Enumeration Type

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE) MON_1(No.1), MON_2(No.2), MON_3(No.3), MON_4(No.4), MON_5(No.5), MON_6(No.6), MON_7(No.7), MON_8(No.8), MON_9(No.9), MON_10(No.10), MON_11(No.11), MON_12(No.12), MON_13(No.13), MON_14(No.14), NO(No), YES(Yes)MON_15(No.15), MON_16(No.16), MON_17(No.17), MON_18(No.18), MON_19(No.19), MON_20(No.20), MON_21(No.21), MON_22(No.22), MON_23(No.23), MON_24(No.24), MON_25(No.25), MON_26(No.26), MON_27(No.27), MON_28(No.28), MON_29(No.29), MON_30(No.30), MON_31(No.31)

Enumeration Type

SUN(Sunday), MON(Monday), TUE(Tuesday), WED(Wednesday), THU(Thursday), FRI(Friday), SAT(Saturday)

String Type

None

Enumeration Type

String Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~15

Enumeration Type

NO(No), YES(Yes)

Interval Type

4~32

Interval Type

4~32

Interval Type

4~32

Enumeration Type

N0(No), YES(Yes)

Interval Type

0~255

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

16~1007

Interval Type

1~255

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Interval Type

0~63

Interval Type

1~10

Interval Type

1~30

Interval Type

1~30

Interval Type

0~127

Interval Type

1~30

Interval Type

1~30

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~63

Interval Type

0~70

Interval Type

1~100

Interval Type

1~20

Interval Type

2~255

Interval Type

2~255

Interval Type

2~255

Interval Type

2~255

Interval Type

1~30

Interval Type

1~30

Interval Type

1~100

Interval Type

0~3

Interval Type

0~7

Interval Type

0~7

Interval Type

1~20

Interval Type

0~7

Interval Type

0~63

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~10

Interval Type

0~19

Interval Type

0~63

Interval Type

0~63

Interval Type

1~20

Interval Type

0~10

Interval Type

0~19

Interval Type

1~20

Interval Type

0~100

Interval Type

0~100

Interval Type

0~63

Interval Type

0~63

Interval Type

0~300

Interval Type

0~255

Interval Type

1~255

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Enumeration Type

CS1(CS1), CS2(CS2), CS3(CS3), CS4(CS4)

Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), MCS9(MCS9)

Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS7(MCS7), MCS8(MCS8), DAS5(DAS5), DAS6(DAS6), DAS7(DAS7), DAS8(DAS8), DAS9(DAS9), DAS10(DAS10), DAS11(DAS11), DAS12(DAS12) MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS7(MCS7), MCS8(MCS8), DAS5(DAS5), DAS6(DAS6), DAS7(DAS7), DAS8(DAS8), DAS9(DAS9), DAS10(DAS10), DAS11(DAS11), DAS12(DAS12), UNFIXED(UNFIXED)

Enumeration Type

CS1(CS1), CS2(CS2), CS3(CS3), CS4(CS4), UNFIXED(UNFIXED)

Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), MCS9(MCS9), UNFIXED(UNFIXED)

Enumeration Type

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~5000

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~255

Interval Type

1~16777215

String Type

None

Interval Type

0~31

Interval Type

0~31

Interval Type

0~31

Enumeration Type

STP(STP), A(A), IUR_G(IUR_G), LB(LB)

Interval Type

0~186

Interval Type

0~182

Interval Type

0~128

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

0~1

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

10~150

Interval Type

1~60

Interval Type

0~12

Interval Type

2~10

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

0(0), 1(1), 2(2), 4(4), 8(8), 16(16), 32(32), 64(64)

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

Interval Type

0~335

Interval Type

0~335

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

1~3600

Interval Type

0~27

Interval Type

0~21

Interval Type

0~27

Interval Type

0~21

Interval Type

0~21

Interval Type

0~30

Enumeration Type

NO(NO), YES(YES)

String Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

0~335

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

0~100

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~12

Enumeration Type

1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), 8(8), 9(9), 10(10), 11(11), 12(12)

Interval Type

0~1

Interval Type

0~1,255

Interval Type

0~23

Interval Type

0~23,255

Interval Type

0~53

Interval Type

0~53,255

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

FULL(FULL), HALF(HALF)

Interval Type

0~12

Interval Type

1~24

Interval Type

0~59

Interval Type

0~59

Interval Type

10~80

Interval Type

0~63

Interval Type

0~2047

Interval Type

0~2047

Interval Type

0~15

Interval Type

10~3600

Enumeration Type

LEVEL0(Preempt all dynamic TCHFs), LEVEL1(No preempt of CCHs), LEVEL2(No preempt of service TCHF)

Interval Type

0~8

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NOTSUPPORT(Not Support), DDIVERSITY(DDIVERSITY), DPBT(DPBT)

Interval Type

1~60

Interval Type

0~7

Interval Type

0~31

Enumeration Type

ACTIVE(ACTIVE TMU/MMU/IOMU/DOMU), ACTIVESTANDBY(ACTIVE/STANDBY TMU), SLAVE1(SLAVE TMU1/DOMU1), SLAVE2(SLAVE TMU2/DOMU2), UTRP(UTRP)

Interval Type

0~83

Interval Type

0~7

Interval Type

16~19

Enumeration Type

E1(E1), T1(T1)

IP Address Type

None

Interval Type

0~49

Interval Type

0~49

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~2147483646

Compound Type

year, month, date

Compound Type

year, month, day

Compound Type

year, month, day

Compound Type

year, month, day

Interval Type

1~31

Interval Type

1~255

Interval Type

1~255

Interval Type

0~11

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~32

Interval Type

1~32

Interval Type

1~32

Interval Type

1~32

Interval Type

1~32

Interval Type

1~32

Enumeration Type

NO(Effect Later), YES(Effect Immediately)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~31

Interval Type

0~31

Enumeration Type

DATE(Input with date), WEEK(Input with week), DATEWEEK(Input with date and week)

Interval Type

1~15

Enumeration Type

Enumeration Type

OFF(OFF), ON(ON) ERR_PFM_5E6(OCCUR:5E-6), ERR_PFM_1E5(OCCUR:1E-5), ERR_PFM_5E5(OCCUR:5E-5), ERR_PFM_1E4(OCCUR:1E-4), ERR_PFM_5E4(OCCUR:5E-4), ERR_PFM_1E3(OCCUR:1E-3), ERR_PFM_5E3(OCCUR:5E-3)

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NoPriority(No Priority), Priority4(Priority 4), Priority3(Priority3), Priority2(Priority 2), Priority1(Priority 1), Priority0(Priority 0), PriorityB(Priority B), PriorityA(Priority A)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Interval Type

0~7

Interval Type

2~4094

Enumeration Type

JAN(January), FEB(February), MAR(March), APR(April), MAY(May), JUN(June), JUL(July), AUG(August), SEP(September), OCT(October), NOV(November), DEC(December)

IP Address Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

ENABLED(Enabled), DISABLED(Disabled)

Bit Field Type

A5/0~0 A5/1~1 A5/2~2 A5/3~3 A5/4~4 A5/5~5 A5/6~6 A5/7

Enumeration Type

AUTO(Automatic), PLAINTEXT(Plain Text), ENCRYPTED(SSL Encrypted)

Enumeration Type

AUTO(Auto), PLAINTEXT(Plain Text), ENCRYPTED(SSL Encrypte)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~65535

Interval Type

0~65535

Interval Type

0~65535

Interval Type

1~31

Interval Type

-990~400

Enumeration Type

JAN(Jan.), FEB(Feb.), MAR(Mar.), APR(Apr.), MAY(May), JUN(Jun.), JUL(Jul.), AUG(Aug.), SEP(Sep), OCT(Oct.), NOV(Nov.), DEC(Dec)

Enumeration Type

0(0), 2(2), 4(4), 6(6)

Compound Type

hour, min

Interval Type

8~255

Interval Type

1~31

Interval Type

1~31

Enumeration Type

DISABLED(Prohibit to Use), ENABLED(Available)

Enumeration Type

DISABLED(Prohibit to Use), ENABLED(Available)

Interval Type

0~100

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(Off), ON(On)

Interval Type

1~255

Interval Type

0~63

Interval Type

0~100

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

M3UA_ASP~0||(M3UA_ASP)$$(M3UA_ASP)** M3UA_IPSP(M3UA_ASP)** M3UA_IPSP~2||(M3UA_IPSP)$$(M3UA_IPSP)

Enumeration Type

M3UA_SGP(M3UA SGP), M3UA_IPSP(M3UA IPSP), M3UA_SS7SP(M3UA SS7SP), M3UA_SP(M3UA SP)

Interval Type

0~63

Enumeration Type

OFF(Off), ON(On)

Interval Type

1~4294967295

Enumeration Type

Enumeration Type

NO(No), YES(Yes) O1E3_R5E4(OCCUR:1E-3, RECOVERY:5E-4), O5E4_R1E4(OCCUR:5E-4, RECOVERY:1E-4), O1E4_R5E5(OCCUR:1E-4, RECOVERY:5E-5), O5E5_R1E5(OCCUR:5E-5, RECOVERY:1E-5), O1E5_R5E6(OCCUR:1E-5, RECOVERY:5E-6), O5E6_R1E6(OCCUR:5E-6, RECOVERY:1E-6)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~63

Interval Type

0~7

Interval Type

0~7

Interval Type

2~4094

Interval Type

1~2147483646

Interval Type

500~60000

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~255

Compound Type

HOUR, MIN, SEC

Compound Type

year, month, date, hour, min, sec

Compound Type

hour, min

Enumeration Type

ONE_BY_ONE(Execute One by One), PARALLEL(Parallel Execute)

Compound Type

year, month, date, hour, min, sec

Compound Type

hour, min, sec

Compound Type

hour, min, sec

Compound Type

year, month, day, hour, min, sec

Compound Type

year, month, day

Compound Type

hour, min, sec

Enumeration Type

LOGINEVENT(Login Event), MANAGEEVENT(Management Event), AUTHEVENT(Authentication Event), OTHEREVENT(Other Event)

Compound Type

hour, min, sec

Enumeration Type

SUN(Sunday), MON(Monday), TUE(Tuesday), WED(Wednesday), THU(Thursday), FRI(Friday), SAT(Saturday)

Enumeration Type

FIRST(First), SECOND(Second), THIRD(Third), FOURTH(Fourth), LAST(Last)

String Type

None

String Type

None

Enumeration Type

VOLTAGE(Voltage), CURRENT(Current)

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

VOLTAGE(Voltage), CURRENT(Current)

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

VOLTAGE(Voltage), CURRENT(Current)

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

VOLTAGE(Voltage), CURRENT(Current)

String Type

None

String Type

None

Enumeration Type

NoExclusive(NoExclusive), Exclusive(Exclusive)

Interval Type

0~100

Interval Type

0~63

Interval Type

0~63

Interval Type

2048~5047

String Type

None

Interval Type

5048~8047

String Type

None

Interval Type

2048~5047

String Type

None

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

EM0(EM0), EM1(EM1)

Enumeration Type

60sec(60sec), 120sec(120sec), 240sec(240sec), 480sec(480sec), 960sec(960sec), 1920sec(1920sec), 3840sec(3840sec), 7680sec(7680sec)

Enumeration Type

TYPE1(TYPE1), TYPE2(TYPE2), TYPE3(TYPE3)

Enumeration Type

Normal_cell(Normal cell), DualTS_ExtCell(Double Timeslot Extension Cell)

Enumeration Type

SEND(SEND), NOTSEND(NOTSEND)

Interval Type

0~255

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~63

Enumeration Type

PLUS_1(Current FanSpeed Plus 1), MINUS_1(Current FanSpeed Minus 1)

Enumeration Type

HIGH_SPEED, LOW_SPEED

Interval Type

55~100

Enumeration Type

CONTINUOUS(Continuous), DISCRETE(Discrete), DUTY_RATIO(Duty Ratio)

Enumeration Type

NORMAL_FAN(Normal Fan), IND_FAN(Independent Fan)

Enumeration Type

NO_SPEED_ADJUSTMENT(No Speed Adjustment), HW_AUTO_TEMPERATURE_CONTROL(Auto Temperature Control), SPECIFY_RATE(Specify Rate), SOFTWARE_CONTROL(Software Control)

Enumeration Type

IND_FAN(Independent Fan), NORMAL_FAN(Normal Fan)

Interval Type

0~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~100

Interval Type

0~1999

Interval Type

0~1999

Interval Type

0~1999

Interval Type

0~1999

Interval Type

10~1999

Interval Type

0~1999

Interval Type

2~1999

Interval Type

0~62

Interval Type

0~62

Interval Type

0~100

Enumeration Type

None(None), 16bit(16bit), 32bit(32bit)

Enumeration Type

None(None), 16bit(16bit), 32bit(32bit)

Enumeration Type

ON, OFF

Interval Type

432~575

Enumeration Type

AUTO(Auto), MANU(Manu)

Enumeration Type

AUTO(Auto), MANU(Manu)

Interval Type

0~7

Interval Type

0~7

Interval Type

0~1

Interval Type

0~16383

Interval Type

0~49

Interval Type

0~3

Interval Type

0~7

Interval Type

0~7

Interval Type

0~15

Enumeration Type

RSCP(RSCP), EcN0(Ec/N0)

Interval Type

0~15

Interval Type

0~63

Interval Type

0~511

Interval Type

1~1000

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Enumeration Type

NO_FH(No frequency hopping), BaseBand_FH(Baseband frequency hopping), RF_FH(RF frequency hopping), Hybrid_FH(Hybrid frequency hopping)

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

txt(.txt File), csv(.csv File)

Interval Type

0~32

Enumeration Type

FALSE(Failed), TRUE(Succeeded)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

Interval Type

0~100

Interval Type

0~65534

Interval Type

0~65534

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

60~65534

Interval Type

60~65534

Enumeration Type

FIX_16K_ABIS(Fix Abis), FLEX_ABIS(Flex Abis), SEMI_ABIS(Semisolid Abis)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~65535

Interval Type

0~65535

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~20

Interval Type

0~200

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~19

Enumeration Type

INDOOR(Indoor), OUTDOOR(Outdoor)

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

OPEN(Open), CLOSE(Close)

Interval Type

1~300

Interval Type

0~30

Enumeration Type

Close(Close), Open(Open)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~31

Interval Type

0~23

Interval Type

1~30

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

128~1024

Interval Type

-2715647~2715647

Interval Type

0~255

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Enumeration Type

ONTIME(Fixed Time), RELATIVE_T(Relative Time) ONTIME(Fixed Time), DAILY_T(Day Based Scheduling), DAILY_C(Day Based Duration), WEEKLY_T(Week Based Scheduling), WEEKLY_C(Week Based Duration), MONTHLY_T(Month Based Scheduling), MONTHLY_C(Month Based Duration)

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Interval Type

0~1023

Enumeration Type

NO(No), YES(Yes)

Interval Type

Enumeration Type

PGSM900(PGSM900), EGSML25(EGSM), EGSM35M(EGSM<35M>), 0~65535 RGSML25(RGSM), GSM900_RGSM39M(GSM900_RGSM<39M>), DCS1800(DCS1800), PCS1900(PCS1900), GSM850(GSM850), EGSM24M(EGSM<24M>), DCS1800_L(DCS1800), DCS1800_H(DCS1800)

Interval Type

0~100

Interval Type

0~1023

Enumeration Type

LOOSE(Loose), TIGHT(Tight)

String Type

None

Enumeration Type

MainDiversity(MainDiversity), MaximumMeanValue(MaximumMeanValue)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

May_Use(May Use), Shall_Use(Shall Use), Shall_NOT_Use(Shall not Use)

Interval Type

0~23

Interval Type

0~23

Interval Type

0~255

Interval Type

0~254

Enumeration Type

TXT(Plain Text Type), CSV(CSV Type)

Interval Type

0~33

Interval Type

1~33

Interval Type

0~33

Interval Type

0~255

Interval Type

0~600

Interval Type

1~32

Interval Type

0~255

Interval Type

0~600

Interval Type

1~32

Interval Type

0~200000

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~100

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~200000

Interval Type

0~100

Interval Type

0~100

Interval Type

0~200000

Interval Type

0~200

Interval Type

0~100

Enumeration Type

A0, U1

Interval Type

0~31

Compound Type

hour, min

Interval Type

0~100

Enumeration Type

OFF(OFF), ON(ON)

Compound Type

hour, min

Enumeration Type

NO(Not Support), YES(Support)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

DEG(DEG), SEC(SEC)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(Disable the golbal route management), ON(Enable the golbal route management)

Interval Type

4~32

Enumeration Type

NO(Not support), SupportAsInnPcu(Support as built-in PCU), SupportAsExtPcu(Support as external Pcu)

Enumeration Type

NO(Not Support), SupportAsInnPcu(Support As Inner Pcu), SupportAsExtPcu(Support As Outer Pcu)

Enumeration Type

0dB(0dB), 2dB(2dB), 4dB(4dB), 6dB(6dB), 8dB(8dB), 10dB(10dB), 12dB(12dB), 14dB(14dB) DB110(-110dB), DB108(-108dB), DB106(-106dB),Normal DB104(-104dB), GPRS(GPRS Channel), EGPRSNORCH(EGPRS Channel), DB102(102dB), DB100(-100dB), DB98(-98dB), DB96(-96dB), DB94(-94dB), DB92(EGPRSPRICH(EGPRS Priority Channel), EGPRSSPECH(EGPRS Special 92dB), DB90(-90dB), DB88(-88dB), DB86(-86dB), DB84(-84dB), DB82(Channel), NONGPRS(Non-GPRS Channel) 40sec(40sec), 50sec(50sec), 10sec(10sec), 20sec(20sec), 30sec(30sec), 82dB), DB80(-80dB), DB78(-78dB), DB76(-76dB), DB74(-74dB), DB72(60sec(60sec), 70sec(70sec), 80sec(80sec), 90sec(90sec), 100sec(100sec), 72dB), DB70(-70dB), DB68(-68dB), DB66(-66dB), DB64(-64dB), DB62(110sec(110sec), 120sec(120sec), 130sec(130sec), 140sec(140sec), 62dB), DB60(-60dB), DB58(-58dB), DB56(-56dB), DB54(-54dB), DB52(150sec(150sec), 160sec(160sec), 52dB), DB50(-50dB), DB48(-48dB),170sec(170sec), nouse(no use) 180sec(180sec), 190sec(190sec), 200sec(200sec), 210sec(210sec), 220sec(220sec), 230sec(230sec), 240sec(240sec), 250sec(250sec), 260sec(260sec), 270sec(270sec), 280sec(280sec), 290sec(290sec), 300sec(300sec), 310sec(310sec), 320sec(320sec), nouse(no use)

Interval Type

0~7

Enumeration Type

0db(0db), 10db(10db), 20db(20db), 30db(30db), 40db(40db), 50db(50db), 60db(60db), infinity(infinity), nouse(no use)

Enumeration Type

GPS(GPS), GLONASS(Glonass), GPSGlonass(GPSGlonass)

Interval Type

1~60

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~100000000

Interval Type

0~100000000

Interval Type

0~65534

String Type

None

Interval Type

0~512

Interval Type

0~2047

Enumeration Type

IP(IP)

Enumeration Type

Enumeration Type

Enumeration Type

Enumeration Type

LAC_CI(CELL IMME), PLMN(ALL), LAC(LAC), CI(CELL)

Interval Type

0~100

Interval Type

1~15

Interval Type

0~3

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Bit Field Type

ECHOREPLY, UNREACH, SOURCEQUENCH, REDIRECT, ECHO, ROUTERADVERT, ROUTERSOLICIT, TIMXCEED, PARAMPROB, TSTAMP, TSTAMPREPLY, IREQ, IREQREPLY, MASKREQ, MASKREPLY

IP Address Type

None

IP Address Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Interval Type

0~600

Interval Type

1~32

Interval Type

0~255

Interval Type

1~32

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Interval Type

1000~600000

Interval Type

0~62

Interval Type

1~16

Interval Type

1~16

Interval Type

0~65535

Interval Type

0~65535

Enumeration Type

DCS1800, PCS1900

Interval Type

1~14

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~10

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

SysOpt(System optimization), OSubcell(Overlaid subcell), USubcell(Underlaid subcell), NoPrefer(No preference)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~63

Interval Type

0~63

Enumeration Type

BYCELLNAME(By cell name), BYCGI(By CGI)

String Type

None

Enumeration Type

HOALGORITHM1(Handover algorithm I), HOALGORITHM2(Handover algorithm II)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~16

Interval Type

0~16

Interval Type

0~63

Interval Type

1~32

Interval Type

1~32

Interval Type

0~49

Interval Type

1~32

Enumeration Type

FREE(Free), INCELL(Intra-cell), OUTCELL(Outgoing cell), OUTST(Outgoing site), OUTBSC(Outgoing BSC), OUTSYS(Outgoing system), SPCELL(Specified cell)

Interval Type

0~127

Interval Type

0~61

Enumeration Type

Pre_2G_Cell(Preference for 2G cell), Pre_3G_Cell(Preference for 3G cell), Pre_2G_CellThres(Preference 2G cell by thresh)

Interval Type

0~255

Interval Type

0~63

Interval Type

0~63

Enumeration Type

BaseBand_FH(BaseBand FH), RF_FH(RF FH)

Enumeration Type

NO(Not StartUp), YES(StartUp), NONE(None)

Interval Type

0~63

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~63

Interval Type

0~23

Enumeration Type

NO_FH(No Frequency Hopping), BaseBand_FH(Baseband Frequency Hopping), RF_FH(RF Frequency Hopping)

Interval Type

0~63

Interval Type

1~60

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~32

Interval Type

1~32

Interval Type

1~32

Enumeration Type

SINGLEHOST(SINGLEHOST), PRIMHOST(PRIMHOST), SLAVEHOST(SLAVEHOST)

Enumeration Type

SINGLEHOST(Single Host), PRIMHOST(Primary Host), SLAVEHOST(Slave Host)

Interval Type

0~63

Interval Type

0~63

Enumeration Type

NO_HPANT(No), YES_HPANT(Yes), NONE(None)

Enumeration Type

NO_HPANT(No), YES_HPANT(Yes)

Interval Type

0~5

Interval Type

1~14

Enumeration Type

NO(NO), YES(YES)

Interval Type

350~556

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

May_Use(May Use), Shall_Use(Shall Use), Shall_NOT_Use(Shall not Use)

Interval Type

0~63

Interval Type

0~23

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~254

Enumeration Type

SBFD(SINGLE_HOP), MBFD(MULTI_HOP)

Interval Type

-99~70

Interval Type

0~30

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Enumeration Type

CLOSE(Close), OPEN(Open)

String Type

None

String Type

None

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

0~1000

Interval Type

1~30

Interval Type

180~1260

Interval Type

1~60

Enumeration Type

E1PORT0(E1 PORT0), E1PORT1(E1 PORT1), E1PORT2(E1 PORT2), E1PORT3(E1 PORT3), OPTICALPORT0(OPTICAL PORT0), OPTICALPORT1(OPTICAL PORT1)

Enumeration Type

MAINDOMU(MAIN DOMU), SLAVEDOMU1(SLAVE DOMU1), SLAVEDOMU2(SLAVE DOMU2)

Interval Type

60~600

Interval Type

0~23

Interval Type

0~23

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~20

Interval Type

1~4

Interval Type

0~14

Interval Type

0~14

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~20

Enumeration Type

OFF(Not Allowed), ON(Allowed)

Enumeration Type

OFF(Not Allowed), ON(Allowed)

Interval Type

0~23

Interval Type

0~20

Interval Type

0~23

Interval Type

0~31

Enumeration Type

NO(No), YES(Yes)

Interval Type

2~600

Interval Type

0~63

Interval Type

0~63

Interval Type

0~22

Interval Type

0~22

Interval Type

0~63

Enumeration Type

0(Max. optimized MAIO), 1(Randomization MAIO)

Interval Type

5~40

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~63

Interval Type

0~30

Interval Type

0~20

Interval Type

0~16

Interval Type

0~63

Interval Type

2~600

Interval Type

0~50

Interval Type

0~10

Interval Type

0~63

Interval Type

0~160

Interval Type

0~23

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(Not Allowed), ON(Allowed)

Interval Type

0~63

Enumeration Type

NO(Disabled in OL and UL subcell), UNDER(Enabled in UL subcell), INNER( Enabled in OL subcell), YES(Enabled in OL and UL subcell)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~23

Enumeration Type

NO(NO), YES(YES), NULL(NULL)

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

44~1024

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

1~30

Interval Type

1~30,100~32767

Interval Type

0~65535

Interval Type

0~255

Interval Type

0~255

Interval Type

0~63

Enumeration Type

BYIDX(By Index), BYNAME(By Name)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By name), BYID(By index), BYCGI(By CGI)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

Interval Type

0~255

Enumeration Type

BYTLLI(By TLLI), BYIMSI(By IMSI)

Enumeration Type

BYCELL(By Cell), BYBSC(By BSC)

Enumeration Type

YES(Yes), NO(No)

Interval Type

0~15

Enumeration Type

Positive(Positive), Minus(Minus)

Interval Type

0~125

Enumeration Type

NO(Not Report), YES(Need Report)

Interval Type

0~32

String Type

None

Interval Type

1000~30000

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(Not Support), YES(Support)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~254

Interval Type

1~5

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~255

String Type

None

String Type

None

Interval Type

500~60000

Interval Type

0~8

Interval Type

1~30

Interval Type

0~360

Interval Type

0~62

Enumeration Type

NO(NO), YES(YES)

Interval Type

1~32

Interval Type

1~32

Bit Field Type

CELLCAPCLASS, NACCRELATED

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~39

Interval Type

0~39

Interval Type

0~50

Interval Type

0~3

Interval Type

0~3

Interval Type

0~2

Bit Field Type

TS0, TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~2047

String Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Interval Type

0~63

Interval Type

0~100

Interval Type

0~335

Interval Type

0~23

Interval Type

0~15

Enumeration Type

Degree(Degree), D_min_sec(Degree Minute Second)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~27

Interval Type

0~23

Interval Type

0~11

Interval Type

0~254

Interval Type

2~3600

Interval Type

0~127

Enumeration Type

INTBANI(INTBANI), INTBANII(INTBANII)

Interval Type

0~127

Interval Type

0~255

Interval Type

1~16

Interval Type

1~16

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

48~115

Interval Type

48~115

Interval Type

48~115

Interval Type

48~115

Interval Type

48~115

Interval Type

48~115

Interval Type

0~60

Interval Type

1~31

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~49

Interval Type

0~49

Interval Type

1~49

Interval Type

1~91

Interval Type

0~91

Interval Type

1~91

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Service-based(Service-based), Load-based(Load-based), Dynamicbased(Dynamic Service/Load-based), CnService-based(CN Service-based), OFF(OFF)

Interval Type

1~240

Interval Type

1~10

Interval Type

0~31

Interval Type

0~63

Interval Type

500~60000

Interval Type

500~60000

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

500~60000

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~49

Interval Type

1~255

Interval Type

0~91

Interval Type

0~255

Interval Type

0~31

Interval Type

1~1440

Interval Type

30~1024

Enumeration Type

NO(No), YES(Yes)

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

0~100

Interval Type

0~100

Enumeration Type

No_HC(No_HC), UDP/IP_HC(UDP/IP_HC), RTP/UDP/IP_HC(RTP/UDP/IP_HC)

Enumeration Type

No_HC(No_HC), UDP/IP_HC(UDP/IP_HC), RTP/UDP/IP_HC(RTP/UDP/IP_HC)

Interval Type

0~5

Interval Type

0~5

Interval Type

0~12999

Enumeration Type

IP_OVER_FE/GE, IP_OVER_E1

Enumeration Type

IP_OVER_FE/GE(IP_OVER_FE/GE), IP_OVER_E1(IP_OVER_E1)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

UNSUPPORT(Not Support Reducy), SUPPORT(Support Reducy)

Enumeration Type

UNSUPPORT(Not Support Reducy), SUPPORT(Support Reducy)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(Not support), YES(Support)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(Not support), YES(Support)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(Not support), YES(Support)

Enumeration Type

STATIC(Static), DYNAMIC(Dynamic)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

YES(Configure), NO(Not Configure)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

YES(YES), NO(NO)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NOT_CONFIG(NOT CONFIGURED), CONFIG(CONFIGURED)

Interval Type

1~64

Interval Type

1~30

Enumeration Type

TRUE(Support), FALSE(Not Support)

Interval Type

0~65535

Enumeration Type

ABIS(Abis Interface), A(A Interface), ATER(ATER Interface), IUR_G(IUR_G Interface)

Enumeration Type

PPP(PPP), MP(MP)

Enumeration Type

OVERLAID(Overlaid Subcell), UNDERLAID(Underlaid Subcell), NONE(None)

Enumeration Type

CONVERT0(Only convert at UL), CONVERT1(Only convert at OL), CONVERT2(UL first and convert allowed), CONVERT3(OL first and convert allowed)

Interval Type

1~32

Interval Type

1~32

Enumeration Type

Normal_cell(Normal Cell), Concentric_cell(Concentric Cell), EDB_cell(Enhanced Double Frequency Cell)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

Hexadecimal(Hex decimal), Character_String(Character String)

String Type

None

String Type

None

Enumeration Type

NULL, 1byte, 16byte, 64byte

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

Hexadecimal(Hex decimal), Character_String(Character String)

String Type

None

String Type

None

Enumeration Type

NULL, 1byte, 16byte, 64byte

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

Hexadecimal(Hex decimal), Character_String(Character String)

Enumeration Type

NULL, 1BYTE, 16BYTE, 64BYTE

String Type

None

String Type

None

Enumeration Type

ZERO(zero), SPACE(space)

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

1~255

Enumeration Type

DENY(Deny), ALLOW(Allow)

Enumeration Type

NOT-INDICATE-END(NOT-INDICATE-END), INDICATE-END(INDICATEEND)

Interval Type

0~63

Interval Type

1~30

Interval Type

1~65533,65535

Interval Type

1~65533,65535

Enumeration Type

STATIC_LACP, MANUAL_AGGREGATION

String Type

None

Interval Type

0~90

Interval Type

0~90

Interval Type

0~59

Interval Type

0~9

Interval Type

0~59

Interval Type

-90000000~90000000

String Type

None

Interval Type

1~100

Interval Type

0~100

Interval Type

0~10000

Interval Type

0~15

Interval Type

0~15

Enumeration Type

1, 2, 3, 4

Enumeration Type

1, 2, 3, 4

Interval Type

0~100

Interval Type

0~300

Interval Type

0~300

Enumeration Type

CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference TCHH), CSFHHO(CS TCHF-TCHH HO)

Enumeration Type

CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference TCHH), CSFHHO(CS TCHF-TCHH HO)

Enumeration Type

CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference TCHH), CSFHHO(CS TCHF-TCHH HO)

Interval Type

0~186

Enumeration Type

CRITICAL(Critical), MAJOR(Major), MINOR(Minor)

Enumeration Type

INFO(Information Level), WARN(Warn Level), ERR(Error Level), AST(Assert Level)

Enumeration Type

ON(ON), OFF(OFF)

Interval Type

0~7

Enumeration Type

NO(Not Support), YES(Support), NONE(Invalid)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~63

Interval Type

1~32

Interval Type

1~32

Enumeration Type

OAM, TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, FR, HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Pb_TDM, A_TDM, Abis_IP, SAU

Enumeration Type

TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, FR, HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Pb_TDM, A_TDM, Abis_IP

Enumeration Type

IP, Abis_IP

Enumeration Type

A/Gb, Abis/Ater/Pb/Gb

Interval Type

5120~5375

Interval Type

0~99

Interval Type

90~99

Interval Type

70~95

Interval Type

0~17407

Enumeration Type

DIFFERENCE, ALL

Enumeration Type

64K(64Kbit/s), 2M(2Mbit/s)

Enumeration Type

TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), None TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), None TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)

Interval Type

0~40

Interval Type

40~80

Enumeration Type

LUCENT_MODE, HUAWEI_MODE, ALCATEL_MODE

Enumeration Type

8K(8Kbit/s), 16K(16Kbit/s), 32K(32Kbit/s), 64K(64Kbit/s), 2M(2Mbit/s)

String Type

String Type

Enumeration Type

Enumeration Type

M3UA_MASTER_MOD(M3UA_MASTER_MOD), M3UA_SLAVE_MOD(M3UA_SLAVE_MOD) B0000(B0000), B0001(B0001), B0010(B0010), B0011(B0011), B0100(B0100), B0101(B0101), B0110(B0110), B0111(B0111), B1000(B1000), B1001(B1001), B1010(B1010), B1011(B1011), B1100(B1100), B1101(B1101), B1110(B1110), B1111(B1111)

Enumeration Type

B0000(B0000), B0001(B0001), B0010(B0010), B0011(B0011), B0100(B0100), B0101(B0101), B0110(B0110), B0111(B0111), B1000(B1000), B1001(B1001), B1010(B1010), B1011(B1011), B1100(B1100), B1101(B1101), B1110(B1110), B1111(B1111)

Interval Type

0~100

Enumeration Type

RANDOMALG(Random Algorithm), OTHERALG(MS ID Algorithm)

Interval Type

1~10

Interval Type

0~1000

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~127

Interval Type

0~255

Interval Type

0~63

Interval Type

1~255

Interval Type

1~63

Interval Type

1~16

Interval Type

0~63

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

FORBID(Forbid), PERMIT(Permit)

Interval Type

0~63

Interval Type

0~100

Interval Type

0~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NOTSTADYNPDCH(Not count dynamic PDCH), DYNPDCHASOCCUPY(Count dynamic PDCH(Occupy)), DYNPDCHASIDLE(Count dynamic PDCH(Idle))

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~65534

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

0~1023

Interval Type

0~1

Interval Type

0~35

Interval Type

0~35

String Type

None

IP Address Type

None

IP Address Type

None

Enumeration Type

OFF(Unlock), ON(Lock)

Interval Type

1024~65535

Enumeration Type

LFB(Load from OMU and write flash), CL(Consult Load)

Enumeration Type

NORMMODE(Normal Mode), RAPMODENOSERV(Rapid Mode), RAPMODERESSERV(Rapid Mode)

Interval Type

30~100

Interval Type

30~100

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~988

Interval Type

0~5,8~27

Interval Type

30~100

Bit Field Type

PFM_RESULT, HOST_PFM_RESULT, ACTIVE_DEF_MEAS_FILE, 30~100 STANDBY_DEF_MEAS_FILE, PFM_SWITCHS, HISTORY_ALARM, HISTORY_FAULT, ALM_SYSTEM_CFG, SECURITY_LOG, OPT_LOG, OMU_LOG, BSC_CFG_MML, CELL_BASIC_INFO, BSC_SERIES_NO, DB_BAK, ON, OFF MEM_DB_BAK, BTS_BASIC_INFO, BTS_CHECK_LOG, BTS_DEBUG_LOG, BTS_CHR_LOG, TRX_LOG, BTS_NET_TABLE, DEBUG_LOG, LAST_WORD, DSP_DEBUG_LOG, HOST_LOG, 2G_CHR_LOG, 2G_UNILATERAL_CONNECT, BSC_INFO, GCSR_LOG, GPSR_LOG, AIDG_LOG, BIOS_LOG

Enumeration Type

COMLOG(Common Log), CMPLOG(Compress Log)

String Type

None

Interval Type

Enumeration Type

Interval Type

0~180

Interval Type

0~180

Interval Type

0~59

Interval Type

0~9

Interval Type

0~59

Interval Type

-180000000~180000000

String Type

None

Interval Type

1~3

Enumeration Type

BYLOCAL(By Local Loop), BYREMOTE(By Remote Loop)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

LOOPTYPE_TDM(Line Loop), LOOP_TYPE_LVDS(LVDS Loop), LOOPTYPE_MCC(MCC Loop)

Interval Type

Enumeration Type

0~100 NSSAINTF(NSS Interface Unit), NSSTCTOABIS(NSS TC(Near Abis Interface)), NSSTCTOA(NSS TC(Near A Interface)), NSSTNUTOABIS(NSS TNU(Near Abis Interface)), NSSTNUTOA(NSS TNU(Near A Interface)), NSSATERINTF(NSS Interface Unit), BSSATERINTF(BSS Ater Interface MSC(MSC Direction),Ater MS(MS Direction) Unit), BSSTCTOABIS(BSS TC(Near Abis Interface)), BSSTCTOA(BSS TC(Near A Interface)), BSSTNUTOABIS(BSS TNU(Near Abis Interface)), BSSTNUTOA(BSS TNU(Near A Interface)), BSSABISINTF(BSS Interface Unit), BTSTMU(TMU/PTU), BTSTRUDSP(TRU DSP) NO_LOOP(No loop), REMOTE_LOOP(Remote loop), LINE_REM_LOOP(Line remote loop), LOCAL_LOOP(Local loop), PAYLOAD_LOOP(payload loop), SIN_CHN_LOC(single channel local loop), SIN_CHN_REM(single channel remote loop)

Enumeration Type

NO_LOOP(NO_LOOP), LOCAL_LOOP(LOCAL_LOOP), REMOTE_LOOP(REMOTE_LOOP)

Interval Type

60~600

Enumeration Type

Enumeration Type

Interval Type

1~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

E1(E1 Loopback), TIMESLOT(Timeslot Loopback)

Interval Type

0~988

Interval Type

0~988,1024~1535

Interval Type

0~988,1024~1535

Interval Type

0~5,8~27

Enumeration Type

Hub(Hub), Leaf(Leaf)

Enumeration Type

IR(IR), LA(LA)

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

350~556

Enumeration Type

CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference TCHH), CSFHHO(CS TCHF-TCHH HO)

Enumeration Type

EXCLUDE(Exclude List Command), INCLUDE(Include List Command)

Enumeration Type

HORIZONTAL(HORIZONTAL), VERTICAL(VERTICAL)

Enumeration Type

HORIZONTAL(HORIZONTAL), VERTICAL(VERTICAL)

Enumeration Type

APPLICATION(Application Program), SCNDCPU_PROG(Secondary Thread Program), BOOTROM(BOOTROM Program), DATA(Data file), DSP(DSP Program), FAN(Fan Program)

Enumeration Type

OPTLOG(Operation Log), SECLOG(Security Log)

Enumeration Type

OPTLOG(Operation Log), SECLOG(Security Log)

Interval Type

-99~70

Interval Type

-99~99

Interval Type

2~255

Interval Type

2~255

Interval Type

2~255

Interval Type

2~255

Interval Type

0~12

Enumeration Type

14(1.4), 15(1.5), 16(1.6), 18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 33(3.3), 36(3.6), 88(8.8)

Enumeration Type

18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 32(3.2), 35(3.5), 38(3.8), 41(4.1), 45(4.5), 88(8.8)

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

1024~65535

Interval Type

0~8191

Interval Type

0~100

Interval Type

0~100

Enumeration Type

CA_MA(CA+MA), Frequency_List(Frequency List), OPTIMIZED_CA_MA(Optimized CA+MA)

Interval Type

0~499

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Compound Type

hour, min

Interval Type

0~15

Compound Type

hour, min

String Type

None

String Type

None

Interval Type

0~35

Interval Type

0~1

Interval Type

0~9999

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

String Type

None

String Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

0~32

Interval Type

0~254

Interval Type

1~1562

Interval Type

1~20

Interval Type

0~5

Interval Type

0~5

Interval Type

0~20

Interval Type

1~2

Interval Type

1~2

Interval Type

24~1031

Interval Type

50~200

Interval Type

1~1500

Interval Type

1~1500

Interval Type

1~255

Interval Type

10000~150000

Interval Type

1~1000

Interval Type

0~254

Interval Type

0~100

Interval Type

0~8

Interval Type

0~100

Interval Type

0~5

Interval Type

1~255

Enumeration Type

49C(0.49C), 50C(0.50C), 51C(0.51C), 52C(0.52C), 53C(0.53C), 54C(0.54C), 55C(0.55C), 56C(0.56C), 57C(0.57C), 58C(0.58C), 59C(0.59C), 60C(0.60C), 61C(0.61C), 62C(0.62C), 63C(0.63C), 64C(0.64C), 65C(0.65C), 66C(0.66C), 67C(0.67C), 68C(0.68C), 69C(0.69C), 70C(0.70C), 71C(0.71C), 72C(0.72C), 73C(0.73C), 74C(0.74C), 75C(0.75C), 76C(0.76C), 77C(0.77C), 78C(0.78C), 79C(0.79C), 80C(0.80C), 81C(0.81C), 82C(0.82C), 83C(0.83C), 84C(0.84C), 85C(0.85C), 86C(0.86C), 87C(0.87C), 88C(0.88C), 89C(0.89C), 90C(0.90C), 91C(0.91C), 92C(0.92C), 93C(0.93C), 94C(0.94C), 95C(0.95C), 96C(0.96C), 97C(0.97C), 98C(0.98C), 99C(0.99C)

Enumeration Type

5C(0.05C), 7C(0.07C), 10C(0.10C), 12C(0.12C), 15C(0.15C), 18C(0.18C), 20C(0.2C), 22C(0.22C), 25C(0.25C)

Interval Type

1~255

Enumeration Type

1_Times(1_Times), 2_Times(2_Times), 4_Times(4_Times), 7_Times(7_Times)

Enumeration Type

1_Times(1_Times), 2_Times(2_Times), 4_Times(4_Times), 7_Times(7_Times)

Enumeration Type

1_Times(1_Times), 2_Times(2_Times), 4_Times(4_Times), 7_Times(7_Times)

Enumeration Type

1_Times(1_Times), 2_Times(2_Times), 4_Times(4_Times), 7_Times(7_Times)

Interval Type

1~746

Interval Type

1~746

Interval Type

0~30

Interval Type

0~30

Interval Type

0~30

Interval Type

0~255

Interval Type

0~31

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~255

Interval Type

1~24

Interval Type

0~32

Interval Type

2~255

Interval Type

0~32

Interval Type

1~999

Interval Type

0~511

IP Address Type

None

Interval Type

0~3

Interval Type

0~31

Interval Type

0~31

Interval Type

0~2047

String Type

None

String Type

None

String Type

None

Interval Type

4,8

Interval Type

4,8

Interval Type

0~2047

String Type

None

Interval Type

0~62

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

CLASS0(Class0), CLASS1(Class1), CLASS2(Class2)

Interval Type

0~7

Interval Type

0~7

String Type

None

String Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~5

Enumeration Type

EnhMeasReport(Enhanced Measurement Report), ComMeasReport(Common Measurement Report)

Interval Type

1~1000

Interval Type

1~8191

Enumeration Type

LocalMep(LocalMep), RemoteMep(RemoteMep)

Enumeration Type

LONG(LONG), SHORT(SHORT)

Enumeration Type

LONG(Long List Head), SHORT(Short List Head)

Interval Type

0~63

Interval Type

1~1562

Interval Type

0~49

Interval Type

0~63

Interval Type

10~3500

Interval Type

10~3500

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

0~2000

Interval Type

10~3500

Interval Type

10~3500

Interval Type

0~63

Interval Type

60~3600

Interval Type

0~63

Interval Type

10~1000

Interval Type

10~1000

Interval Type

10~1000

Interval Type

10~1000

Interval Type

0~11

Interval Type

0~11

Enumeration Type

UP(upstream mirror), DOWN(downstream mirror)

String Type

None

String Type

None

Interval Type

50~95

Enumeration Type

MANUAL(Manual Handover), AUTO(Auto Handover), FREE(Free-run)

Enumeration Type

SERVER(SERVER MOD), CLIENT(CLIENT MOD)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

GO(GSM), UO(UMTS), GU(GSM and UMTS)

Enumeration Type

FIXED(File of a Fixed Size), CYCLE(Periodical Generation of New File)

Enumeration Type

MODE1(1:1 Protection Switching), MODE2(1+1 Unidirectional Protection Switching), MODE3(1+1 Bidirectional Protection Switching), MODE4(Y Line)

Enumeration Type

CHECK_ON_INDEPENDENT_PORT, CHECK_ON_PRIMARY_PORT, CHECK_ON_STANDBY_PORT

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type

MODE1(Mode1), MODE2(Mode2), MODE3(Mode3)

Enumeration Type

30MINS(30 Minutes), 60MINS(60 Minutes), 120MINS(120 Minutes), 240MINS(240 Minutes)

Interval Type

1~1440

Interval Type

0~12

Interval Type

0~600

Interval Type

0~100

Interval Type

0~100

Interval Type

0~167

Interval Type

0~167

Interval Type

0~3

Enumeration Type

MODE1_1, MODE2_1, MODE3_1, MODE4_1, MODE5_1, MODE6_1, MODE16K

Interval Type

0~1

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Enumeration Type

MLPPP, MCPPP

Interval Type

0~27

Interval Type

0~11

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~31

Interval Type

1~255

Enumeration Type

NOreport(Do not report), Twice_ps(Twice every second), Once_ps(Once every second), Once_2s(Once every two second), Once_4s(Once every four second)

Interval Type

4~30

Interval Type

4~30

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

OFF(Off), ON_WITH_SDCCH(On with SDCCH), ON_WITHOUT_SDCCH(On without SDCCH)

Interval Type

128~1500

Interval Type

1~16

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~65535

Interval Type

1~10

Interval Type

0~1023

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFFLOAD(Offload), NORMAL(Normal), UNAVAIL(Unavailable)

Enumeration Type

R98_or_below(R98 or below), R99_or_above(R99 or above)

Interval Type

5000~40000

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

1_Times(1_Times), 2_Times(2_Times), 4_Times(4_Times), 7_Times(7_Times)

Enumeration Type

CLEAR(Cleared), LOP(Lockout of Protection), FS(Forcibly switchover working link to protection link), MS(Manual switchover from working link to protection link), EXERS(Exercisely switch working link to protection link)

Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), MCS9(MCS9)

Interval Type

10~80

Interval Type

0~254

Interval Type

0~63

Interval Type

0~255

Interval Type

1000~3000

Interval Type

1~600

Interval Type

0~31

Enumeration Type

ON(ON), OFF(OFF)

Interval Type

50~95

Enumeration Type

ALARM_METHOD(Alarm method), LOOP_METHOD(Loop method)

Interval Type

0~63

Enumeration Type

MET(Metric), IMP(Imperial)

Interval Type

500~1500

Interval Type

256~1650

Interval Type

0~1500

Interval Type

190~240

Enumeration Type

REPORT6(Report six), REPORT1(Report one), REPORT2(Report two), REPORT3(Report three)

Interval Type

0~255

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

0~10

Interval Type

0~15

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~1500

Interval Type

1~1500

Enumeration Type

UDPMUX, ABISMUX, ATERMUX

Interval Type

0~12

Interval Type

1~512

Interval Type

1~3

Interval Type

5~254

Interval Type

34~254

Interval Type

29~254

Enumeration Type

OFF(Off), ON(On)

Interval Type

5~254

Interval Type

5~254

Interval Type

23~254

Interval Type

8~30

Interval Type

2~5

Interval Type

3~10

Interval Type

1~255

Interval Type

1~10

Interval Type

1~10

Enumeration Type

NO(No), YES(Yes)

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~15

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

0~5047

String Type

None

Interval Type

0~5047

String Type

None

Interval Type

0~5047

String Type

None

Interval Type

5048~8047

String Type

None

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~65535

Interval Type

1~65533,65535

String Type

None

String Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NotSupport(Not Support), Support(Support)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Interval Type

0~7

Bit Field Type

SELECTION0_PERM, SELECTION1_PERM, SELECTION2_PERM, SELECTION3_PERM, SELECTION4_PERM, SELECTION5_PERM, SELECTION6_PERM, SELECTION7_PERM

Interval Type

0~255

Interval Type

1~20

Interval Type

1~31

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~127

Interval Type

0~7

Interval Type

0~7

Enumeration Type

NC0(NC0), NC1(NC1), NC2(NC2)

Enumeration Type

NO(NO_DIRECT_CONNECT), YES(DIRECT_CONNECT)

IP Address Type

None

Interval Type

0~60

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Enumeration Type

INT(INT), INTB(INTB), NAT(NAT), NATB(NATB)

String Type

None

Enumeration Type

NMOI(Network Operation Mode I), NMOII(Network Operation Mode II), NMOIII(Network Operation Mode III)

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

40~45

Interval Type

55~59

Interval Type

40~45

Interval Type

55~59

Interval Type

40~45

Interval Type

55~59

Interval Type

40~45

Interval Type

55~59

Interval Type

40~45

Interval Type

55~59

Interval Type

40~45

Interval Type

55~59

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~7

Interval Type

0~100

Interval Type

0~255

Interval Type

0~255

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Interval Type

0~100

Enumeration Type

ABIS(Abis Interface), A(A Interface), BSC(Ater Interface on BSC), TC(Ater Interface on TC), IUR_G(IUR_G Interface)

Interval Type

0~64

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~70

Interval Type

1~1000

Enumeration Type

OFF(Not Allowed), ON(Allowed)

Enumeration Type

NODRX(NODRX), 0.24sec(0.24sec), 0.48sec(0.48sec), 0.72sec(0.72sec), 0.96sec(0.96sec), 1.20sec(1.20sec), 1.44sec(1.44sec), 1.92sec(1.92sec)

Interval Type

100~10000

Interval Type

100~10000

Enumeration Type

FORBID(Forbid), PERMIT(Permit)

Interval Type

400~700

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

1~255

Interval Type

10~255

Interval Type

1~10

Interval Type

0~31

Interval Type

0~31

Interval Type

0~1023

Interval Type

0~1023

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~65534

Interval Type

0~65534

Interval Type

1~31

Enumeration Type

North_latitude(North latitude), South_latitude(South latitude)

Interval Type

0~65534

Interval Type

0~1023

Interval Type

0~30

Interval Type

0~30

Interval Type

1~255

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~100

Interval Type

0~63

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

SITE(SITE), CELL(CELL), BOARD(BOARD)

Enumeration Type

BYCELL(By CELL), BYTRX(By TRX)

Interval Type

0~499

Interval Type

0~499

Enumeration Type

ALL(Shield by Alarm ID), BOARD(Shield by Board), PORT(Shield by Port), DSP(Shield by DSP)

Enumeration Type

BTS(BTS), CELL(CELL), LOC(LOC), BOARD(BOARD), PORT(PORT)

Enumeration Type

CELL(Cell), TRX(TRX), CHN(Channel)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

4~255

Interval Type

0~63

Interval Type

0~256

Interval Type

0~256

Interval Type

0~7

Interval Type

0~7

Interval Type

2~4094

Interval Type

0~96

IP Address Type

None

IP Address Type

None

String Type

None

Interval Type

1~16777215

Interval Type

1~16777215

Interval Type

0~4

Enumeration Type

PRIM(Primary Operator), SEC(Secondary Operator)

Interval Type

0~3

Bit Field Type

OPINDEX0, OPINDEX1, OPINDEX2, OPINDEX3

Enumeration Type

NORMAL(Normal), FORCE(Force)

Enumeration Type

BYCICRANGE(BY CIC RANGE), BYCICVALUE(BY CIC VALUE)

Enumeration Type

BYTSRANGE(BY TS RANGE), BYTSVALUE(BY TS VALUE)

Enumeration Type

BYTSRANGE(BY TS RANGE), BYTSVALUE(BY TS VALUE)

Enumeration Type

BYCICRANGE(BY CIC RANGE), BYCICVALUE(BY CIC VALUE)

String Type

None

Enumeration Type

SysOpt(System optimization), OSubcell(Overlaid subcell), USubcell(Underlaid subcell), NoPrefer(No preference)

Interval Type

0~63

Interval Type

0~255

Enumeration Type

L0(Level0), L1(Level1), L2(Level2), L3(Level3), L4(Level4), L5(Level5), L6(Level6), L7(Level7)

Enumeration Type

SDH, SONET

Enumeration Type

MANUAL(MANUAL), FORCED(FORCED), CLEARALARMA(CLEARALARMA)

Enumeration Type

FORBID(Forbid), RESTORE(Restore)

Interval Type

0~4

Interval Type

0~7

Enumeration Type

One_touch(execute on all boards in all subracks), Step_by_Step

String Type

None

Interval Type

0~36

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

500~60000

Interval Type

500~60000

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~100

Interval Type

0~50

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Interval Type

1~255

Interval Type

0~63

Interval Type

0~100

Bit Field Type

TS0, TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

0~335

Interval Type

0~15

Interval Type

0~31

Enumeration Type

HIGH(High), LOW(Low)

Enumeration Type

HIGH(High), LOW(Low)

Enumeration Type

HIGH(High), LOW(Low)

Enumeration Type

HIGH(High), LOW(Low)

Interval Type

10~2000

Interval Type

300~530

Enumeration Type

0_1dB(0.1dB), 0_1W(0.1W)

Interval Type

0~100

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~27

Interval Type

0~27

Interval Type

0~11

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

1~60

Interval Type

0~255

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

100~10000

Interval Type

100~10000

Interval Type

1~255

Interval Type

400~700

Interval Type

50~95

Interval Type

50~95

Interval Type

50~95

Interval Type

50~95

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(Not Support), YES(Support)

Interval Type

10~65535

Interval Type

0~255

Interval Type

10~65535

Interval Type

1~8

Enumeration Type

Pan_0(0), Pan_1(1), Pan_2(2), Pan_3(3), Pan_4(4), Pan_5(5), Pan_6(6), Pan_7(7), 255(not use)

Enumeration Type

Pan_0(0), Pan_1(1), Pan_2(2), Pan_3(3), Pan_4(4), Pan_5(5), Pan_6(6), Pan_7(7), 255(not use)

Enumeration Type

Pan_4(4), Pan_8(8), Pan_12(12), Pan_16(16), Pan_20(20), Pan_24(24), Pan_28(28), Pan_32(32), 255(not use)

Enumeration Type

L0(Level0), L1(Level1), L2(Level2), L3(Level3), L4(Level4), L5(Level5), L6(Level6), L7(Level7)

Interval Type

0~9999

Interval Type

0~99

Enumeration Type

ENABLED(Enabled), DISABLED(Disabled)

Interval Type

0~65535

Interval Type

0~65535

Interval Type

0~255

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

QoS(QoS), BE(BE), AF11(AF11), AF12(AF12), AF13(AF13), AF21(AF21), AF22(AF22), AF23(AF23), AF31(AF31), AF32(AF32), AF33(AF33), AF41(AF41), AF42(AF42), AF43(AF43), EF(EF)

Enumeration Type

MAINCPU_PATCH(Main programme patch), DSP_PATCH(DSP programme patch), UCODE_PATCH(Marcrocode patch)

Enumeration Type

DB0(0dB), DB2(-2dB), DB4(-4dB), DB6(-6dB), DB8(-8dB), DB10(-10dB), DB12(-12dB), DB14(-14dB), DB16(-16dB), DB18(-18dB), DB20(-20dB), DB22(-22dB), DB24(-24dB), DB26(-26dB), DB28(-28dB), DB30(-30dB)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~32

Interval Type

0~127

Interval Type

1~32

Interval Type

0~65535

Interval Type

1~15

Enumeration Type

BCCH(BCCH), PDCH(PDCH)

Interval Type

0~31

Interval Type

0~31

Interval Type

0~31

Interval Type

0~31

Enumeration Type

NO(NO), YES(YES)

Interval Type

10~160

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Interval Type

10~70

Interval Type

1~10

Interval Type

0~65534

Interval Type

0~65534

IP Address Type

None

IP Address Type

None

Interval Type

0~2047

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

IP Address Type

None

Interval Type

1024~65535

String Type

None

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Interval Type

0~63

Interval Type

0~255

Interval Type

1~60

Interval Type

1~48

Enumeration Type

Disable(Disable), Enable(Enable)

Enumeration Type

Disable(Disable), Enable(Enable)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No Support), YES(Support)

Interval Type

0~2

Interval Type

10~1000

Interval Type

10~2000

Interval Type

100~600000

Enumeration Type

BE(BE), AF11(AF11), AF12(AF12), AF13(AF13), AF21(AF21), AF22(AF22), AF23(AF23), AF31(AF31), AF32(AF32), AF33(AF33), AF41(AF41), AF42(AF42), AF43(AF43), EF(EF)

Bit Field Type

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

DISABLE(Disabled), ENABLE(Enabled)

Interval Type

5~64

Interval Type

64~1024

Interval Type

2~1500

Interval Type

24~1031

Enumeration Type

NO(No), YES(Yes)

Interval Type

20~1500

Interval Type

Enumeration Type

0_level(0_level), 1_level(1_level), 2_level(2_level), 3_level(3_level), 95~512 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 8_level(8_level), 9_level(9_level), 10_level(10_level), 11_level(11_level), 12_level(12_level), 13_level(13_level), 14_level(14_level), 16_level(16_level), nouse(no use)

Interval Type

0~50

Enumeration Type

Enumeration Type

0_level(0_level), 1_level(1_level), 2_level(2_level), 3_level(3_level), 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 8_level(8_level), 9_level(9_level), 10_level(10_level), 11_level(11_level), 12_level(12_level), 13_level(13_level), 14_level(14_level), 0_level(0_level), 1_level(1_level), 16_level(16_level), nouse(no use) 2_level(2_level), 3_level(3_level), 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 8_level(8_level), 9_level(9_level), 10_level(10_level), 11_level(11_level), 12_level(12_level), 13_level(13_level), 14_level(14_level), 16_level(16_level), nouse(no use)

Enumeration Type

0_level(0_level), 1_level(1_level), 2_level(2_level), 3_level(3_level), 0~50 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 8_level(8_level), 9_level(9_level), 10_level(10_level), 11_level(11_level), 12_level(12_level), 13_level(13_level), 14_level(14_level), 16_level(16_level), nouse(no use)

Interval Type

0~50

Interval Type

1~100

Interval Type

0~1000

Enumeration Type

A(A Interface), ABIS(Abis Interface)

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~600

Interval Type

30~100

Interval Type

30~100

Interval Type

1~8

Interval Type

2~15

Enumeration Type

CLOSE(Forced turn-off), OPEN(Forced turn-on), AUTO(Self-adaptive)

Interval Type

30~100

Interval Type

30~100

Interval Type

Enumeration Type

ON, OFF

Interval Type

0~11

Interval Type

1~32

Interval Type

0~3

Interval Type

0~335

Interval Type

0~335

Interval Type

0~335

Interval Type

0~335

Interval Type

0~335

Interval Type

0~7

Interval Type

0~335

Interval Type

0~335

Interval Type

0~335

Interval Type

0~7

Interval Type

0~11

Interval Type

0~7

Interval Type

0~7

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~335

Interval Type

0~31

Interval Type

0~335

Interval Type

0~335

Interval Type

0~355

Interval Type

0~255

Interval Type

0~23

Interval Type

0~23

Interval Type

0~335

Interval Type

0~1

Interval Type

0~1

Interval Type

0~255

Interval Type

250~650

Interval Type

6~120

Interval Type

6~120

Enumeration Type

NotSupport(Not Support), Support(Support)

Interval Type

0~9

Interval Type

0~9

String Type

None

String Type

None

Interval Type

21~65535

Interval Type

0~1

Interval Type

0~1

Interval Type

0~15

Interval Type

1~16

Enumeration Type

IP, HDLC

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

ETHER, TRUNK

Enumeration Type

TOPEXTOUTPORT(TOP Extended Out Port), TOPEXTINPORT(TOP Extended In Port)

Enumeration Type

BCCHNorm(BCCHNorm), BCCHExt(BCCHExt)

Enumeration Type

BYBTSTYPE(By BTS Type), BYBTS(By BTS)

Interval Type

1~1000

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

CLOSE(Close), OPEN(Open)

Interval Type

0~1000

Interval Type

0~50

Interval Type

0~50

Enumeration Type

POWER_48_24(48/24 Power Module), POWER_240_24(240/24 Power Module)

Enumeration Type

80W(80W), 63W(63W), 60W(60W), 55W(55W), 50W(50W), 45W(45W), 220VAC(220V AC), N48VDC(-48V P24VDC(+24V DC) 25W(25W), 40W(40W), 31W(31W), 30W(30W),DC), 27W(27W), 26W(26W), 24W(24W), 21W(21W), 20W(20W), 19W(19W), 18W(18W), 17W(17W), 16W(16W), 15W(15W), 14W(14W), 13_3W(13.3W), 13W(13W), 12_5W(12.5W), 12W(12W), 11_5W(11.5W), 11W(11W), 10W(10W), 0~13 9_5W(9.5W), 9W(9W), 8_5W(8.5W), 8W(8W), 7_5W(7.5W), 7W(7W), 6_5W(6.5W), 6W(6W), 5_5W(5.5W), 5W(5W), 4_5W(4.5W), 4W(4W), 3_7W(3.7W), 3_1W(3.1W), 3W(3W), 2_5W(2.5W), 2W(2W), 200mW(200mW), DEFAULT(Default)

Interval Type

0~100

Interval Type

0~100

Interval Type

0~499

Enumeration Type

Interval Type

Interval Type

0~499

Interval Type

0~499

Interval Type

0~15

Enumeration Type

Disable(Disable), Enable(Enable)

Interval Type

0~5

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NOT_ALLOWED(Not Allowed), ALLOWED(Allowed)

Enumeration Type

OFF(Off), ON(On)

Interval Type

1~255

Interval Type

0~255

Enumeration Type

0(No packet access), 3(Packet access of level 1), 4(Packet access of levels 1-2), 5(Packet access of levels 1-3), 6(Packet access of level 1-4)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

30~100

Interval Type

30~100

Interval Type

30~100

Interval Type

30~100

Enumeration Type

PRIOR-1(Priority-1), PRIOR-2(Priority-2), PRIOR-3(Priority-3), PRIORON, OFF 4(Priority-4), PRIOR-5(Priority-5), PRIOR-6(Priority-6), PRIOR-7(Priority-7), PRIOR-8(Priority-8), PRIOR-9(Priority-9), PRIOR-10(Priority-10), PRIOR11(Priority-11), PRIOR-12(Priority-12), PRIOR-13(Priority-13), PRIOR14(Priority-14), PRIOR-15(Priority-15), PRIOR-16(Priority-16)

Enumeration Type

Prior-1, Prior-2, Prior-3, Prior-4, Prior-5, Prior-6, Prior-7, Prior-8, Prior-9, Prior-10, Prior-11, Prior-12, Prior-13, Prior-14, Prior-15, Prior-16

Interval Type

0~100

Enumeration Type

0(0), 1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), nouse(no use)

Interval Type

0~99

Interval Type

0~99

Enumeration Type

HIGH, LOW

Enumeration Type

TDME1_O(TDM E1 0 Port), TDME1_1(TDM E1 1 Port), FE_E(FE Electric Port), FE_O(FE Optical Port), IPOE(IP over E1)

Enumeration Type

1(1), 2(2)

Enumeration Type

TDME1_O(TDM E1 0 Port), TDME1_1(TDM E1 1 Port), FE_E(FE Electric Port), FE_O(FE Optical Port), IPOE(IP over E1)

String Type

None

Enumeration Type

DEFAULT(Default Sequence), CUSTOMIZDE(Customized Sequence), DISABLE(DISABLE)

Enumeration Type

ITUT(ITUT), ANSI(ANSI), TTC(TTC)

Enumeration Type

Q933(Q933), ANSI(Ansi)

Interval Type

5~300

Interval Type

0~255

Enumeration Type

Interval Type

60~3600

Enumeration Type

ALL(Select all ports), SINGLE(Select one port)

Enumeration Type

ALL(Select all ports), SINGLE(Select one port)

Enumeration Type

ALL(Select all E1/T1 ports), PORT(Select all E1/T1 ports of one channelized optical port), SINGLE(Select one E1/T1 port)

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), ON(Output)

Enumeration Type

OFF(Not Output), ON(Output)

Interval Type

0~100

Interval Type

0~100

Enumeration Type

NO(No Support), YES(Support)

Enumeration Type

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

Interval Type

0~7

Interval Type

0~7

Interval Type

1~16

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

Interval Type

0~7

Interval Type

0~7

Interval Type

0~63

Enumeration Type

COMMONUSRM(Common User Mode), SPECUSRM(Specified User Mode)

Interval Type

-121~-104

Interval Type

-121~-104

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

10~10000

Interval Type

100~600000

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~63

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

ON(ON), OFF(OFF)

Enumeration Type

BOOL(BOOL), VALUE(VALUE)

Interval Type

123~65534

Interval Type

0~31

Enumeration Type

GB_OVER_FR(Gb over FR), GB_OVER_IP(Gb over IP)

Enumeration Type

BOOL(BOOL), VALUE(VALUE)

Enumeration Type

Enumeration Type

B8ZS(B8ZS), HDB3(HDB3), AMI(AMI), AMI_ZCS(AMI_ZCS) E1_DOUBLE_FRAME(E1_DOUBLE_FRAME), E1_CRC4_MULTI_FRAME(E1_CRC4_MULTI_FRAME), T1_SUPER_FRAME(T1_SUPER_FRAME), T1_EXTENDED_SUPER_FRAME(T1_EXTENDED_SUPER_FRAME) E1_DOUBLE_FRAME(E1_DOUBLE_FRAME), E1_CRC4_MULTI_FRAME(E1_CRC4_MULTI_FRAME), T1_SUPER_FRAME(T1_SUPER_FRAME), T1_EXTENDED_SUPER_FRAME(T1_EXTENDED_SUPER_FRAME) E1_DOUBLE_FRAME(E1_DOUBLE_FRAME), E1_CRC4_MULTI_FRAME(E1_CRC4_MULTI_FRAME), T1_SUPER_FRAME(T1_SUPER_FRAME), T1_EXTENDED_SUPER_FRAME(T1_EXTENDED_SUPER_FRAME)

Interval Type

0~15

Enumeration Type

FE, GE APM100(APM100), APM200(APM200), APM30(APM30), EPS4890(EPS4890), EPS4815(EPS4815), SC48200~5||(SC48200)$$ (SC48200)** CUSTOM(SC48200)** CUSTOM~100||(自定义电源)$$ (CUSTOM)

Enumeration Type

Enumeration Type

Enumeration Type

String Type

None

String Type

None

String Type

None

Interval Type

1~65535

Password Type

None

Password Type

None

Password Type

None

Interval Type

6~32

Interval Type

0~31

Bit Field Type

BIT0, BIT1, BIT6, BIT7, BIT8, BIT9, BIT14, BIT15, BIT16, BIT17, BIT22, BIT23, BIT24, BIT25, BIT29, BIT30, BIT31

Bit Field Type

BIT0, BIT1, BIT2, BIT3, BIT4, BIT5, BIT6, BIT7, BIT8, BIT9, BIT10, BIT11, BIT12

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

PWR2(Power control II), PWR3(Power controlIII)

Interval Type

0~3

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OnlyCurPwrLoc(Only Current Working Location TRXes be Turned On), ALLPwrLoc(All Location TRXes be Turned On)

Enumeration Type

CLASS0(Class0), CLASS1(Class1), CLASS2(Class2)

Interval Type

0~720

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

DB0(0.0dB), DB2(-0.2dB), DB4(-0.4dB), DB6(-0.6dB), DB8(-0.8dB), DB10(1.0dB), DB12(-1.2dB), DB14(-1.4dB), DB16(-1.6dB), DB18(-1.8dB), Default(Default)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Enumeration Type

Use_Qsearch_I(Use Qsearch_I), Always(Always)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~10

Interval Type

0~255

Interval Type

1~10

Interval Type

0~15

Interval Type

1~32

Interval Type

1~32

Enumeration Type

NO(Not Support), YES(Support)

Interval Type

0~15

Interval Type

0~15

Enumeration Type

NO(Close), YES(Open)

Interval Type

1~16

Interval Type

1~16

Enumeration Type

NONE(None), DYNAMIC(Dynamic power sharing)

Interval Type

3~20

Interval Type

3~20

Interval Type

0~4

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Bit Field Type

AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

INSIDE_100AH(100AH Inside Storage Battery), INSIDE_50AH(50AH Inside Storage Battery), OUTSIDE_300AH(300AH Outside Storage Battery), OUTSIDE_400AH(400AH Outside Storage Battery), OUTSIDE_500AH(500AH Outside Storage Battery), OUTSIDE_650AH(650AH Outside Storage Battery), OUTSIDE_200AH(200AH Outside Storage Battery)

Enumeration Type

007C(0.07C), 010C(0.10C), 015C(0.15C)

Enumeration Type

INSIDE_BATTERY(Inside Storage Battery), OUTSIDE_BATTERY(Outside Storage Battery)

Bit Field Type

AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7

Enumeration Type

INSIDE_100AH(100AH Inside Storage Battery), INSIDE_50AH(50AH Inside Storage OUTSIDE_300AH(300AH Outside Storage Battery), NO(No), Battery), YES(Yes) OUTSIDE_400AH(400AH Outside Storage Battery), OUTSIDE_500AH(500AH Outside Storage Battery), OUTSIDE_650AH(650AH Outside Storage Battery), OUTSIDE_200AH(200AH Outside Storage Battery)

Enumeration Type

007C(0.07C), 010C(0.10C), 015C(0.15C)

Enumeration Type

INSIDE_BATTERY(Inside Storage Battery), OUTSIDE_BATTERY(Outside Storage Battery)

Bit Field Type

AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7

Enumeration Type

Enumeration Type

INSIDE_100AH(100AH Inside Storage Battery), INSIDE_50AH(50AH Inside Storage OUTSIDE_300AH(300AH Outside Storage Battery), NO(No), Battery), YES(Yes) OUTSIDE_400AH(400AH Outside Storage Battery), OUTSIDE_500AH(500AH Outside Storage Battery), OUTSIDE_650AH(650AH Outside Storage Battery), OUTSIDE_200AH(200AH Outside Storage Battery)

Enumeration Type

007C(0.07C), 010C(0.10C), 015C(0.15C)

Enumeration Type

INSIDE_BATTERY(Inside Storage Battery), OUTSIDE_BATTERY(Outside Storage Battery)

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Enumeration Type

Interval Type

0~255

Interval Type

0~255

Interval Type

-121~-104

Interval Type

0~63

Interval Type

0~65535

Interval Type

-121~-104

Interval Type

0~7

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Enumeration Type

0dB(0dB), 2dB(2dB), 4dB(4dB), 6dB(6dB), 8dB(8dB), 10dB(10dB), 12dB(12dB), 14dB(14dB), nouse(no use)

Enumeration Type

10M(10M), 100M(100M), AUTO(Auto)

Enumeration Type

ALG1(Algorithm I), ALG2(Algorithm II), NONE(None)

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

1~255

Enumeration Type

LASTRBP(last rollbackpoint), APPOINTRBP(appointed rollbackpoint)

Enumeration Type

REC_ALL(Record All), REC_ERR(Record Errors), REC_NON(Record None)

Interval Type

0~249

Interval Type

0~249

Interval Type

0~249

Enumeration Type

INDEPENDENT(Independent Receiver), DIVIDING(Dividing Receiver), FOURDIVERSITY(Four Diversity Receiver), MAINDIVERSITY(Main Diversity), NONE(None)

Interval Type

0~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Same_Band(Same Band), Diff_Band(Different Band)

Interval Type

0~70

Interval Type

0~70

Interval Type

0~63

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

20~99

Interval Type

0~70

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

YES(YES), NO(NO)

Interval Type

0~50

Interval Type

0~768

Interval Type

0~31

Interval Type

0~31

Interval Type

0~31

Interval Type

0~31

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~95

Compound Type

hour, min, sec

Interval Type

1~3600

Enumeration Type

REHOSTRIGHTNOW(ReHostRightNow), REHOSTDELAY(ReHostDelay), REHOSTWHEN(ReHostWhen)

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~62

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

OFF(OFF), POWERSHARING(Power Sharing Between Boards), RF_FH(RF Frequency Hopping Between Boards)

Interval Type

0~23

Interval Type

0~255

Enumeration Type

A(A), B(B), NONE(NONE)

String Type

None

String Type

None

Interval Type

0~1023

Interval Type

0~65535

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~7

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~63

Interval Type

1~10

Interval Type

1~32

Interval Type

1~32

Interval Type

0~8

Interval Type

0~16

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~65535

Interval Type

1~60

Interval Type

1~255

Interval Type

1~15

Interval Type

1~120

Enumeration Type

MSLOST(RADIO_STS_MS_LOST), QUALITYBAD(RADIO_STS_QUALITY_BAD), CELLRESELECT(RADIO_STS_CELL_RESELECT)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

2~5

Interval Type

2~5

Bit Field Type

Noneed, Manually, Reset, Normally, Correlative, Configuration, Expired

Interval Type

0~86400

Interval Type

0~190

Interval Type

0~21

Interval Type

0~255

Interval Type

1~100

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

RGPS(RGPS), GPS(GPS)

Enumeration Type

NO(No Support), YES(Support)

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Enumeration Type

4_Times, 8_Times, 12_Times, 16_Times, 20_Times, 24_Times, 28_Times, 32_Times, 36_Times, 40_Times, 44_Times, 48_Times, 52_Times, 56_Times, 60_Times, 64_Times

Enumeration Type

STANDALONETC(Stand Alone TC ), MASTERINPOOLTC(Master in Pool TC), SLAVEINPOOLTC(Slave in Pool TC)

Interval Type

0~4095

Interval Type

0~16,255

Interval Type

0~16

String Type

None

String Type

None

Interval Type

1~100

Interval Type

1~100

Enumeration Type

DISABLE(Disable), ENABLE(Enable), UNSUPPORT(Unsupport)

Enumeration Type

0.48sec(0.48sec), 0.96sec(0.96sec), 1.92sec(1.92sec), 3.84sec(3.84sec), 7.68sec(7.68sec), 15.36sec(15.36sec), 30.72sec(30.72sec), 61.44sec(61.44sec)

Enumeration Type

0.48sec(0.48sec), 0.96sec(0.96sec), 1.92sec(1.92sec), 3.84sec(3.84sec), 7.68sec(7.68sec), 15.36sec(15.36sec), 30.72sec(30.72sec), 61.44sec(61.44sec)

Interval Type

20~99

Enumeration Type

NO(Not report), YES(Report), NONE(None)

Interval Type

0~31

Interval Type

0~31

Interval Type

0~2047

Enumeration Type

SHARE(SHARE)

Enumeration Type

SHARE, EXCLUSIVE

Interval Type

0~255

Interval Type

0~63

Interval Type

0~63

Enumeration Type

Enumeration Type

BASIS_OF_B1, BASIS_OF_B2 MINUS_52db(-52db), MINUS_48db(-48db), MINUS_44db(-44db), MINUS_40db(-40db), MINUS_36db(-36db), MINUS_32db(-32db), MINUS_28db(-28db), MINUS_24db(-24db), MINUS_20db(-20db), MINUS_16db(-16db), MINUS_12db(-12db), MINUS_10db(-10db), BASIS_OF_B1, BASIS_OF_B2 MINUS_8db(-8db), MINUS_6db(-6db), MINUS_4db(-4db), MINUS_2db(2db), Zerodb(0db), 2db(2db), 4db(4db), 6db(6db), 8db(8db), 10db(10db), 12db(12db), 16db(16db), 20db(20db), 24db(24db), 28db(28db), 32db(32db), 36db(36db), 40db(40db), 44db(44db), 48db(48db), nouse(no use)

Interval Type

0~64

Interval Type

0~63

Interval Type

0~7

Interval Type

0~64

Interval Type

2~4094

Enumeration Type

Interval Type

0~96

Enumeration Type

COMMISSIONING(Commissioning), UPGRADE(Upgrade), RESTORE(Restore)

Interval Type

0~127

String Type

None

String Type

None

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

1~65535

Interval Type

0~190

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~4294967295

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~3

Enumeration Type

NON-REVERTIVE(NON-REVERTIVE), REVERTIVE(REVERTIVE)

Interval Type

0~4294967295

Interval Type

1~5

Enumeration Type

OFF(Close), ON(Open)

IP Address Type

None

IP Address Type

None

Interval Type

0~15

Interval Type

0~100

Interval Type

0~100

Interval Type

500~60000

Interval Type

500~60000

Interval Type

500~60000

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

10~80

Enumeration Type

NEXTHOP(Next Hop), OUTIF(Out Interface)

Interval Type

0~1000

Interval Type

1~100

Interval Type

0~999

Interval Type

1~3000000

Interval Type

0~4000000

Interval Type

0~63

Interval Type

0~70

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~249

Interval Type

0~249

Interval Type

0~249

Enumeration Type

RXUNAME(By RXU Name), RXUPOS(By RXU Position No), SRNSN(By Subrack No)

Enumeration Type

RXUNAME(RXUName), RXUPOS(RXUPOS), SRNSN(SRNSN)

String Type

None

String Type

None

String Type

None

Interval Type

1~6

Interval Type

1~6

Interval Type

1~6

Enumeration Type

DRRU(DRRU), DRFU(DRFU), MRRU(MRRU), MRFU(MRFU), GRFU(GRFU), GRRU(GRRU), BTS3900E(BTS3900E)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~15

Bit Field Type

48VDISABLE, RES0, RES1, RES2, TSDISABLED, HSDISABLED, RES3, RES4

Bit Field Type

BT1_DISABLE, AH_DISABLE, AT1_DISABLE, AT2_DISABLE, BT2_DISABLE

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~2

Interval Type

0~4

Bit Field Type

T1_DISABLE, ET_DISABLE, ET1_DISABLE, ET2_DISABLE, T2_DISABLE

Interval Type

0~2047

Enumeration Type

BYNAME(By name), BYID(By index)

Interval Type

1~16

Interval Type

0~100

String Type

None

Interval Type

0~63

Bit Field Type

WATER_IMMERSED, SMOG, GM_DISABLE

Bit Field Type

WIDISABLE, SMDISABLE, IMDISABLE, GMDISABLE

Bit Field Type

WILOW, SMLOW, IMLOW, GMLOW

Enumeration Type

NO(NO), YES(YES)

Bit Field Type

WS_DISABLE, SS_DISABLE, GS_DISABLE

Interval Type

0~2047

String Type

None

Enumeration Type

ADD0dB(+0dB), ADD10dB(+10dB), Automatic(Automatic)

Interval Type

Enumeration Type

0~63 GERMAN(GERMAN), ENGLISH(ENGLISH), ITALIAN(ITALIAN), FRENCH(FRENCH), SPANISH(SPANISH), DUTCH(DUTCH), SWEDISH(SWEDISH), DANISH(DANISH), PORTUGUESE(PORTUGUESE), FINNISH(FINNISH), NORWEGIAN(NORWEGIAN), GREEK(GREEK), 1~20 TURKISH(TURKISH), HUNGARIAN(HUNGARIAN), POLISH(POLISH), GB2312(GB2312), KOI8-R(Cyrillic KOI8-R), KOI8-U(Cyrillic KOI8-U), KOI8(Cyrillic KOI8), WINDOWS-1251(Cyrillic Windows), ASMO_449(Arabic 0~2047 WINDOWS-1256(Arabic Windows), WINDOWS-874(Thai Windows), ASMO), WINDOWS-1253(Greek Windows), WINDOWS-1254(Turkish Windows), WINDOWS-1255(Hebrew Windows), WINDOWS-1257(Baltic Windows), WINDOWS-1250(Eastern European Windows), WINDOWS-1252(Western None European Windows), BINARY(BINARY), UCS2(UCS2), RCS-1(Reserved Code Scheme 1), RCS-2(Reserved Code Scheme 2), RCS-3(Reserved Code Scheme 3), RCS-4(Reserved Code Scheme 4), RCS-5(Reserved Code Scheme 5)

Interval Type

0~1

Any Type

None

Enumeration Type

BYBTSID(By BTS ID), BYCELLID(By Cell ID)

Interval Type

0~23

Interval Type

0~511

Interval Type

1~2147483646

Interval Type

0~1199

Interval Type

Interval Type

String Type

Compound Type

year, month, date

Compound Type

year, month, day

Compound Type

year, month, day

Interval Type

7~90

Enumeration Type

1E-3, 1E-4, 1E-5, 1E-6, 1E-7, 1E-8, 1E-9

Compound Type

year, month, day

Interval Type

1~31

Interval Type

1~191

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~100

Interval Type

0~63

Interval Type

0~70

Interval Type

0~63

Interval Type

0~70

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

DISABLE, ENABLE

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Interval Type

0~60

Interval Type

0~5

Interval Type

0~255

Interval Type

0~63

Interval Type

0~63

Enumeration Type

HIGH(HIGH), LOW(LOW)

Interval Type

40~70

Interval Type

0~65535

Interval Type

0~65535

Interval Type

350~556

Enumeration Type

NO(No), YES(Yes)

String Type

None

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NoPriority(No Priority), Priority4(Priority 4), Priority3(Priority3), Priority2(Priority 2), Priority1(Priority 1), Priority0(Priority 0), PriorityB(Priority B), PriorityA(Priority A)

Enumeration Type

NoPriority(No Priority), Priority4(Priority 4), Priority3(Priority3), Priority2(Priority 2), Priority1(Priority 1), Priority0(Priority 0), PriorityB(Priority B), PriorityA(Priority A)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~6

Enumeration Type

SUPPORT(Support), UNSUPPORT(Not Support)

Interval Type

1024~65535

Interval Type

1024~65535

String Type

None

IP Address Type

None

Enumeration Type

SEPARATE(Separate), TOGETHER(Together), AIP(AIP)

Enumeration Type

TDM, HDLC, HDLC_HubBTS, IP

Enumeration Type

TDM, HDLC, IP

Enumeration Type

SYSTEM(System Command), CONFIG(Configuration Management), MAINTAIN(Maintenance Management), STAT(Statistic Measurement), ALARM(Alarm Management)

Enumeration Type

OML(OML), RSL(RSL), EML(EML), ESL(ESL), CSVOICE(CS Voice), CSDATA(CS Data), PSHIGHPRI(PS High PRI), PSLOWPRI(PS Low PRI), OTHERDATA(Other Data)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~5

Interval Type

0~65535

String Type

None

Interval Type

1~10

Interval Type

0~1023

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

0( Release 98 or older), 1(Release 99 onwards)

Enumeration Type

UNISTALL(Uninstall), ALLOW(Allow), DENY(Deny)

Interval Type

50~95

Interval Type

0~27

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

unshielded(Unshielded), shielded(Shielded)

Interval Type

0~12

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~10

Interval Type

0~186

Interval Type

0~186

Interval Type

0~15

Interval Type

0~255

Interval Type

0~255

Interval Type

0~7

Interval Type

1~10

Interval Type

1~31

Interval Type

0~15

Interval Type

1~31

Interval Type

0~65535

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

String Type

None

IP Address Type

None

IP Address Type

None

Interval Type

0~65535

Interval Type

0~255

IP Address Type

None

Interval Type

0~35

Enumeration Type

Enumeration Type

E1SELFLOOP(E1 Self Loopback), IASUSELFLOOP(IASU Self Loopback) B0000(B0000), B0001(B0001), B0010(B0010), B0011(B0011), B0100(B0100), B0101(B0101), B0110(B0110), B0111(B0111), B1000(B1000), B1001(B1001), B1010(B1010), B1011(B1011), B1100(B1100), B1101(B1101), B1110(B1110), B1111(B1111)

Interval Type

1~600

Enumeration Type

DATE(Input with date), WEEK(Input with week), DATEWEEK(Input with date and week)

Interval Type

0~3

Enumeration Type

NOTSUPPORT(Not Support), INNER(Inner), OUTER(Outer)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

JAN(January), FEB(February), MAR(March), APR(April), MAY(May), JUN(June), JUL(July), AUG(August), SEP(September), OCT(October), NOV(November), DEC(December)

Interval Type

2~2000

Interval Type

0~27

Interval Type

0~3,8~27

Interval Type

0,2,4,8,10,12,14,16,18,20,22,24,26

Interval Type

0,2,4,8,10,12,14,16,18,20,22,24,26

Interval Type

0~5,8~27

Interval Type

0~5,8~27

Interval Type

0~27

Interval Type

0~27

Interval Type

0~27

Interval Type

0~5,8~27

Interval Type

0,2,4,8,10,12,14,16,18,20,22,24,26

Interval Type

0~27

Interval Type

0~27

Interval Type

0~23

Interval Type

0~23

Interval Type

0,2,4,8,10,12,14,16,18,20,22,24,26

Interval Type

0~27

Interval Type

0~23

Interval Type

0~27

Interval Type

Enumeration Type

0~7 NOCOMB(No Combination), PBT(PBT), WBANDCOMB(Wideband Combination), DIVERSITY(Transmit Diversity), DDIVERSITY(Dynamic SGL_ANTENNA(Single Feeder[1TX + 1RX]), Transmit Diversity), DPBT(DPBT), DTIC(Transmit Independency or SGLDOUBLE_ANTENNA(Single Feeder[1TX + 2RX]), Combination), NONE(none) DOUBLE_ANTENNA(Double Feeder[2TX + 2RX]), DOUBLEFOUR_ANTENNA(Double Feeder[2TX + 4RX]), SGL_ANTENNA(Single Feeder[1TX +Feeder[1TX 1RX]), DOUBLESINGLE_ANTENNA(Double + 1RX]), SGLDOUBLE_ANTENNA(Single Feeder[1TX + 2RX]), DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX]) DOUBLE_ANTENNA(Double Feeder[2TX + 2RX]), DOUBLEFOUR_ANTENNA(Double Feeder[2TX + 4RX]), SGL_ANTENNA(Single Feeder[1TX +Feeder[1TX 1RX]), DOUBLESINGLE_ANTENNA(Double + 1RX]), SGLDOUBLE_ANTENNA(Single Feeder[1TX + 2RX]), DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX]) DOUBLE_ANTENNA(Double Feeder[2TX + 2RX]), DOUBLEFOUR_ANTENNA(Double Feeder[2TX + 4RX]), SGL_ANTENNA(Single Feeder[1TX +Feeder[1TX 1RX]), DOUBLESINGLE_ANTENNA(Double + 1RX]), SGLDOUBLE_ANTENNA(Single Feeder[1TX + 2RX]), DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX]) DOUBLE_ANTENNA(Double Feeder[2TX + 2RX]), DOUBLEFOUR_ANTENNA(Double Feeder[2TX + 4RX]), DOUBLESINGLE_ANTENNA(Double Feeder[1TX + 1RX]), DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX])

Enumeration Type

SGL_ANTENNA(Single Feeder[1TX + 1RX]), DOUBLESINGLE_ANTENNA(Double Feeder[1TX + 1RX]), DOUBLEDOUBLE_ANTENNA(Double Feeder[1TX + 2RX])

Interval Type

1~60

Interval Type

1~16777215

Enumeration Type

BIT14(BIT14), BIT16(BIT16), BIT24(BIT24)

String Type

None

Interval Type

0~65535

Enumeration Type

WNF(Whole Number Format), DNF(Divided Number Format)

Bit Field Type

L11_FORBID, L12_FORBID, L13_FORBID, L14_FORBID, L15_FORBID

Bit Field Type

ET_DISABLE0, ET_DISABLE1, SMDISABLE, WIDISABLE, GMDISABLE, ARRESTER1, ARRESTER2

Bit Field Type

SMDISABLE, WIDISABLE, GMDISABLE, ARRESTER1, ARRESTER2

Enumeration Type

Enumeration Type

Enumeration Type

Enumeration Type

Interval Type

1~12

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

PSMODE(Protocol Standard Mode), VGCSMODE(VGCS Mode)

Enumeration Type

PSMODE(Protocol Standard Mode), VGCSMODE(VGCS Mode)

Enumeration Type

FR(FR), EFR(EFR)

Enumeration Type

1000M(1000M), AUTO(AUTO)

Interval Type

0~63

Interval Type

0~255

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NOTSPPRTBC(NotSupport CB), SPPRTSTANDARD(SupportStandard CB), SPPRTSIMPLE(SupportSimple CB)

Enumeration Type

NO(No Support), YES(Support)

Enumeration Type

NO(No Support), YES(Support)

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

YES(Support), NO(Not Support)

Interval Type

0~4

Enumeration Type

SUPPORT(Support), NOT_SUPPORT(Not Support)

Enumeration Type

SUPPORT(Support), NOT_SUPPORT(Not Support)

Enumeration Type

SUPPORT~1||(支持SRAN)$$(Support SRAN)** NOT_SUPPORT(Support SRAN)** NOT_SUPPORT~0||(不支持)$$(Not Support)

Interval Type

0~2047

String Type

None

Interval Type

0~2047

String Type

None

Interval Type

0~65535

String Type

None

Interval Type

1~4

Interval Type

1~4

Enumeration Type

HOALGORITHM1(Handover algorithm I), HOALGORITHM2(Handover algorithm II)

IP Address Type

None

Interval Type

1~65533,65535

String Type

None

Interval Type

1~1000

String Type

Enumeration Type

None BITS1-2MHZ(2MHZ Building Integrated Timing Supply system 1), BITS22MHZ(2MHZ Building Integrated Timing Supply system 2), BITS12MBPS(2MBPS Building Integrated Timing Supply system 1), BITS22MBPS(2MBPS Building Integrated Timing Supply system 2), 8KHZ(8KHZ), 0~335 GPS(Globe Positioning System), LINE1_8KHZ(8KHZ line1), LINE2_8KHZ(8KHZ line2), BITS1-T1BPS(T1BPS Building Integrated Timing Supply system 1), BITS2-T1BPS(T1BPS Building Integrated Timing Supply system 2)

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

0~11

Interval Type

1~11

Interval Type

0~11

Interval Type

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Interval Type

0~254

Interval Type

0~254

Interval Type

0~11

Interval Type

0~11

Interval Type

0~254

Interval Type

0~11

Interval Type

0

Interval Type

0~11

Interval Type

0~11

String Type

None

Interval Type

0~5

Enumeration Type

MPS, EPS, TCS

Enumeration Type

DES(Descent), ASC(Ascent)

Interval Type

0~255

Interval Type

0~255

Enumeration Type

GSM_PRIOR(GSM Traffic Prior), UMTS_PRIOR(UMTS Traffic Prior)

Enumeration Type

CSVOICE(CS Voice), CSDATA(CS Data), PSHIGHPRI(PS High PRI), PSLOWPRI(PS Low PRI)

Interval Type

0~63

Interval Type

20~99

Interval Type

30~100

Interval Type

20~99

Interval Type

30~100

Interval Type

1~32

Interval Type

1~32

Interval Type

0~7

Interval Type

0~7

Interval Type

1~2147483646

Interval Type

0~63

Compound Type

HOUR, MIN, SEC

Compound Type

year, month, date, hour, min, sec

Compound Type

hour, min

Compound Type

year, month, date, hour, min, sec

Compound Type

hour, min, sec

Compound Type

hour, min, sec

Compound Type

year, month, day, hour, min, sec

Interval Type

1~65535

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~65535

Interval Type

0~65535

Interval Type

1~31

Interval Type

-990~400

Enumeration Type

JAN(Jan.), FEB(Feb.), MAR(Mar.), APR(Apr.), MAY(May), JUN(Jun.), JUL(Jul.), AUG(Aug.), SEP(Sep), OCT(Oct.), NOV(Nov.), DEC(Dec)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

0(0), 2(2), 4(4), 6(6)

Interval Type

60~600

Compound Type

hour, min

Interval Type

8~255

Interval Type

1~31

Interval Type

1~31

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Enumeration Type

DISABLED(Disabled), ENABLED(Enabled)

Interval Type

0~65535

Interval Type

0~62

Compound Type

year, month, day

Interval Type

1~32

Enumeration Type

NO(NO), YES(YES)

Compound Type

hour, min, sec

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

OFF(Off), ON(On)

Interval Type

60~300

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~23

Compound Type

hour, min, sec

Interval Type

0~23

Interval Type

0~254

Interval Type

0~7

Enumeration Type

BTS30(BTS30), BTS312(BTS312), BTS3001C(BTS3001C), hour, min, sec BTS3001CP(BTS3001CP), BTS3002C(BTS3002C), BTS3012A(BTS3012A), BTS3006A(BTS3006A), BTS3012(BTS3012), BTS3006C(BTS3006C), BTS3002E(BTS3002E), BTS3012AE(BTS3012AE), BTS3012_II(BTS3012 II), DBS3900_GSM(DBS3900 GSM), BTS3900_GSM(BTS3900 GSM), 1~31 BTS3900A_GSM(BTS3900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900L_GSM(BTS3900L GSM), BTS3900B_GSM(BTS3900B GSM), BTS3900E_GSM(BTS3900E GSM)

Interval Type

1~15

Interval Type

1~15

String Type

None

Interval Type

16~1023

Interval Type

16~1023

Interval Type

1~50

Compound Type

Interval Type

Interval Type

1~124,128~189

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

0(0), 2(2), 4(4), 6(6)

Interval Type

0~65535

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NOTSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

NOTSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

UNSUPPORT(Not Support), SUPPORT(Support)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(Not Support), YES(Support)

Enumeration Type

NO(No Support), YES(Support)

Enumeration Type

T_12(12), T_15(15), T_20(20), T_30(30), T_41(41), T_55(55), T_76(76), T_109(109), T_163(163), T_217(217)

IP Address Type

None

Interval Type

0~65535

Enumeration Type

CLOSE(CLOSE), OPEN(OPEN)

Enumeration Type

ON, OFF

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

ON(ON), OFF(OFF)

Enumeration Type

SUN(Sunday), MON(Monday), TUE(Tuesday), WED(Wednesday), THU(Thursday), FRI(Friday), SAT(Saturday)

Enumeration Type

CLOSE, OPEN

Enumeration Type

ON(ON), OFF(OFF)

Enumeration Type

ON(ON), OFF(OFF)

Enumeration Type

BFD_OFF(OFF), BFD_ON(ON)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

NO(NO), YES(YES)

Interval Type

1~254

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~4294967295

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

0~4294967295

Interval Type

3~5

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

FIRST(First), SECOND(Second), THIRD(Third), FOURTH(Fourth), LAST(Last)

Interval Type

0~2500

Enumeration Type

SyncCase1(Sync case 1), SyncCase2(Sync case 2)

Enumeration Type

AISS(Air Interface Software Sync), GPS(GPS Synchronization)

Enumeration Type

CONSYN(Consecutive Synchronizing), INTERSYN(Intermittent Synchronizing)

Interval Type

1~7

Interval Type

0~23

Interval Type

0~59

String Type

None

String Type

None

Interval Type

0,8~11

String Type

None

Enumeration Type

NO(No), YES(Yes)

String Type

None

String Type

None

Interval Type

1000~30000

Interval Type

1~60

Interval Type

30000~60000

Interval Type

800~1500

Interval Type

800~1500

Interval Type

2000~3000

Interval Type

800~1500

Interval Type

800~1200

Interval Type

1000~120000

Interval Type

1~60

Interval Type

6~240

Interval Type

1~255

Interval Type

1~255

Interval Type

1~255

Interval Type

1~255

Interval Type

1~255

Interval Type

1~255

Interval Type

1~255

Interval Type

1~10

Interval Type

180000~360000

Interval Type

180000~360000

Interval Type

1400~2000

Interval Type

1000~10000

Interval Type

1~60

Interval Type

0~255

Interval Type

1~255

Enumeration Type

500ms(500ms), 1000ms(1000ms), 1500ms(1500ms), 2000ms(2000ms), 2500ms(2500ms), 3000ms(3000ms), 3500ms(3500ms), 4000ms(4000ms)

Enumeration Type

0ms(0ms), 80ms(80ms), 120ms(120ms), 160ms(160ms), 200ms(200ms), 500ms(500ms), 1000ms(1000ms), 1500ms(1500ms)

Interval Type

0~255

Interval Type

5~30

Interval Type

800~1200

Interval Type

1000~10000

Interval Type

800~1200

Interval Type

1000~30000

Interval Type

800~1200

Interval Type

1000~10000

Interval Type

1000~10000

Interval Type

800~1200

Interval Type

1~31

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~255

Interval Type

1~16

Interval Type

0~255

Interval Type

0~255

Interval Type

1~31

Interval Type

0~7

Interval Type

1~16

Interval Type

0~255

Interval Type

0~25

Interval Type

0~25

Interval Type

1~12

Interval Type

1~12

Interval Type

30~300

Interval Type

60~300

Interval Type

1~254

Interval Type

1000~10000

Interval Type

0~500

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~100

Interval Type

0~1000

Interval Type

0~63

Interval Type

0~70

Interval Type

0~1000

Interval Type

0~63

Interval Type

0~70

Interval Type

0~60

Interval Type

0~10

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~600

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~100

Interval Type

0~100

Interval Type

1~15

Enumeration Type

SEPERATE_PRINCIPAL(Principal BSC), SEPERATE_SUBORDINATE(Subordinate BSC), TOGETHER(BSC/TC Together), SEPERATE_BSC_INTERFACE(BSC Interface)

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

0~62

Interval Type

0~335

Interval Type

0~4095

Interval Type

0~5,8~27

Interval Type

0~11

Enumeration Type

GTC(GTC), UTC(UTC), ITC(ITC)

Enumeration Type

AUTO(Auto), Manual(Manual)

Enumeration Type

AUTO(Auto), Manual(Manual)

Interval Type

0~7

Interval Type

0~15

Interval Type

0~7

Interval Type

0~1

Interval Type

0~16383

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~63

Interval Type

0~127

Interval Type

0~127

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~1

Interval Type

0~100

Interval Type

0~100

Interval Type

0~5

Interval Type

0~5

Interval Type

0~127

Enumeration Type

CLOSE(Close), OPEN(Open)

String Type

None

String Type

None

Interval Type

-500~1000

Interval Type

-490~1000

Interval Type

-500~1000

Interval Type

-500~990

Interval Type

0~5000

String Type

None

Interval Type

1~65535

Interval Type

32768~65535

String Type

None

Interval Type

50~70

Interval Type

-400~0

Interval Type

-400~0

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Any Type

None

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~1023

Interval Type

0~65535

Enumeration Type

ACTIVE(Active OMU), STANDBY(Standby OMU)

Interval Type

0~255

IP Address Type

None

IP Address Type

None

Interval Type

0~5,8~27

Interval Type

0~11

Interval Type

5000~60000

Interval Type

220~280

Interval Type

220~280

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Interval Type

1~10

Enumeration Type

PERCENTAGE(Percentage), BANDWIDTH(Band Width)

Interval Type

1~15

Interval Type

0~63

Interval Type

0~7

Interval Type

1~32

Interval Type

0~100

Interval Type

1~32

Interval Type

0~7

Enumeration Type

OFF(Off), ON(On)

Interval Type

0~63

Interval Type

3~15

Enumeration Type

NOLIMIT(No Limit), LIMIT(Limit)

Compound Type

HOUR, MIN, SEC

Interval Type

0,5~1440

Interval Type

0~255

Interval Type

0~255

Interval Type

0~255

Interval Type

200~10000

Interval Type

1~65535

Interval Type

1~3

Interval Type

1~10

Interval Type

1~20

Interval Type

0~255

Interval Type

1~1024

Enumeration Type

NO(No), YES(Yes), NULL(Null)

Interval Type

0~255

Interval Type

10~255

Interval Type

1~30

Interval Type

1~15

Interval Type

7~365

Interval Type

0~4294967295

Interval Type

-99~70

Interval Type

-19~5

Interval Type

-99~99

Compound Type

hour, min

Compound Type

hour, min

Compound Type

hour, min

Enumeration Type

SHMDCLEGDELAYTHRESHPARAS, SIB5POWEROFFSET, SMAPITFPARA, SMLCAPB, SMLCIURCOMMSCCP, SPGPARAS, SPIFACTOR, SPUCPUID, SRNSRPARAS, SSCH, SSEARCHRAT, TAAL2PATHTBL, TAAL2ROUTETBL, TADJMAPTBL, TADJNODETBL, TALAMTHRESHOLDTBL, TALARMFILTERTBL, TATMOAMVCCCCTBL, TATMTRAFFICTBL, TATMVCLCXTBL, TBOARDTYPETBL, TBOARDVTFLTTHRESHOLDTBL, TCBSADDRTBL, TCLOCKSRCTBL, TCMBPROGTBL, TCMBPVCTBL, TCNNODETBL, TCOPTLNKTBL, hour, min TCTRLFACTORTBL, TDEFAULTFACTORTBL, TDEFAULTTRMMAPTBL, TDHCPSERVERTBL, TDSCPMAPTBL, TDSPTBL, TDSX1TBL, TEMSIPTBL, TETHERPORTTBL, TETHIPTBL, TETHREDPORTTBL, TFACTORTBL, TFANMONITORFLTENABLETBL, hour, min TFANMONITORSPEEDTBL, TFLOWCONTROLCPUTHRESHOLDTBL, TFLOWCONTROLMSGTHRESHOLDTBL, TFLOWCONTROLSWITCHTBL, TFMRDSPSTATUSTBL, TFMRPARASTBL, TFRACTIONALLINKTBL, hour, min TGATEWAYCHECKTBL, TGPSTBL, TGTCODETBL, TGTPUPARATBL, TIMAGROUPTBL, TIMALINKTBL, TIP2MCPRIOTBL, TIP2VLANPRIOTBL, TIPADDRESSTBL, TIPCCONFIGTBL, TIPOAVCLCONFIGURETBL, TIPPATHTBL, TIPPMTBL, TIPROUTETBL, TIUBLINKCCPTBL, 14~163 TIUBLINKNCPTBL, TLOGPORTTBL, TM3UADETBL, TM3UALETBL, TM3UALINKSETTBL, TM3UALINKTBL, TM3UARTTBL, TMUTIMERTBL, TMDSPADDRTBL, TMLPPPLINKTBL, TMLPPPTBL, TMTP3BSIGLINKSETTBL, TMTP3BSIGLINKTBL, TMTP3BSIGROUTETBL, 0~163 TMTP3BTIMERTBL, TNODEBIDTBL, TNODEBIPTBL, TOPTTBL, TOSPTBL, TPATHRSCGRPTBL, TPIUOPTICALPORTMSPINFOSTBL, TPORTCTRLERTBL, TPORTFLOWCTRLPARATBL, 1~120 TPORTFLOWCTRLSWTBL, TPOWERMONITORBUZZERTBL, TPOWERMONITORFLTENABLETBL, TPOWERMONITORPARATBL, TPOWERMONITORRACKLEDTBL, TPPPLINKTBL, TPROGSDPTBL, TQAAL2TIMERTBL, TRCLKCLOCKMODETBL, TRCLKCLOCKSRCTBL, NON_FDR(NON_FDR), FDR(FDR) TSAALLINKTBL, TSCCPTIMERTBL, TSCTPLINKTBL, TSCTPSVRPORTTBL, TSD539TSTBL, TSLOTSTATUSTBL, TSPUSHARETHRESHOLDTBL, TSUBRACKTBL, TTRMMAPTBL, TUNITBL, 2~4 TVLANMAPTBL, TVPTBL, TYPRABAMRLCCNGCTRLINFO, TYPRABAMRLCPOLLINFO, TYPRABAMRLCRECEIVEPARAS, TYPRABAMRLCSENDERPARAS, TYPRABAQMPARAS, TYPRABDCCCPARAS, TYPRABDYNTF, TYPRABHSDPA, 0~100 TYPRABHSUPA, TYPRABOLPCPARAS, TYPRABPARAS, TYPRABQUALITYMEASPARAS, TYPRABRLCMAXDATRETRPARAS, TYPRABRLCNODISCARDPARAS, TYPRABRLCPARAS, 0~4294967294 TYPRABRLCTIMERBASEDEXPPARAS, TYPRABRLCTIMERBASEDNOEXPPARAS, TYPRABSEMISTATICTF, TYPRABSUBFLOWPARAS, TYPRABSUBFLOWRLCPARAS, TYPRABTMRLCPARAS, TYPRABTOAWPARAS, 0~100 TYPSRBAMRLCPOLLINFO, TYPSRBAMRLCRECEIVEPARAS, TYPSRBAMRLCSENDERPARAS, TYPSRBDYNTF, TYPSRBHSDPA, TYPSRBHSUPA, TYPSRBLOCHPARAS, TYPSRBOLPCPARAS, 8000~12000 TYPSRBPARAS, TYPSRBRLCMAXDATRETRPARAS, TYPSRBRLCNODISCARDPARAS, TYPSRBRLCPARAS, TYPSRBRLCTIMERBASEDEXPPARAS, TYPSRBRLCTIMERBASEDNOEXPPARAS, TYPSRBSEMISTATICTF, 30000~90000 TYPSRBTMRLCPARAS, TYPSRBTOAWPARAS, UECONNECTEDMODETIMERCONST, UEIDLEMODETIMERCONST, USERGBRMAPINFO, USERPRIORITYMAP, UTRANREGISTERINFO, WPSALGO

Enumeration Type

TRRS(Terrestrial Transmission), SATEL(Satellite Transmission)

Enumeration Type

TRRS(Terrestrial Transmission), SATEL(Satellite Transmission)

Interval Type

-120~-1,1~120

Compound Type

Compound Type

Compound Type

Interval Type

Interval Type

Interval Type

Enumeration Type

Interval Type

Interval Type

Interval Type

Interval Type

Interval Type

Interval Type

Interval Type

0~7

Interval Type

0~62

Interval Type

0~23

Interval Type

0~254

Enumeration Type

NORMAL(TXT FORMAT), FORMAT(BIN FORMAT)

Interval Type

0~5

Interval Type

1~30

Interval Type

30~100

Interval Type

30~100

Interval Type

30~100

Interval Type

30~100

Enumeration Type

ON, OFF

Interval Type

1~255

Interval Type

1~255

Enumeration Type

M3UA_OVERRIDE_MOD(Active/Standby Mode), M3UA_LOADSHARE_MOD(Load Sharing Mode)

Enumeration Type

TER_TRANS(Terrestrial Transmission), SAT_TRANS(Satellite Transmission), TER_AND_SAT_TRANS(Terrestrial and Satellite)

Interval Type

0~27

Enumeration Type

IP(IP)

Enumeration Type

IP(IP), HDLC(HDLC)

Enumeration Type

IP(IP), HDLC(HDLC), TDM(TDM)

Enumeration Type

IP, HDLC, TDM

Enumeration Type

HDLC, IP

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

ENABLE(Enable Trace Range Limit), DISABLE(Disable Trace Range Limit)

Enumeration Type

5sec(5sec), 10sec(10sec), 15sec(15sec), 20sec(20sec), 30sec(30sec), 60sec(60sec), 120sec(120sec), 300sec(300sec), nouse(no use)

Interval Type

0~100

Interval Type

0~11

Interval Type

0~5,8~27

Interval Type

0~11

Interval Type

0~163

Interval Type

0~199

Interval Type

0~199

Interval Type

10~199

Interval Type

0~199

Interval Type

0~199

Interval Type

0~199

Interval Type

0~199

Enumeration Type

OFF(OFF), ON(ON)

Interval Type

0~11

Interval Type

0~11

Interval Type

0~11

Enumeration Type

TRXAid_NotAllow(TRX Aiding Not Allowed), AllowReForbid(Allowed & Recover Forbidden), AllowReImmed(Allowed & Recover Immediately), AllowReCheckRes(Allowed & Recover When Chk Res)

Interval Type

5~10

Interval Type

0~63,255

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

Interval Type

0~3071

String Type

None

Interval Type

0~3071

Interval Type

0~63

Interval Type

0~71

Interval Type

0~8

Interval Type

0~7

Interval Type

0~7

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

TRX(TRX), TRU(TRU/DTRU), QTRU(QTRU), DRRU(DRRU), DRFU(DRFU), MRRU(MRRU), MRFU(MRFU), GRFU(GRFU), GRRU(GRRU), BTS3900B(BTS3900B), BTS3900E(BTS3900E)

Interval Type

Interval Type

Enumeration Type

TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), 8~255 TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), 1~31 TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

1~31

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

0~7

Interval Type

0~512

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~65535

Interval Type

1~144

Interval Type

0~127

String Type

None

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Bit Field Type

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31

Interval Type

0~23

Interval Type

1~31

Interval Type

0~7

Interval Type

0~50

Interval Type

0~65535

Enumeration Type

Close(Close), Open(Open)

Enumeration Type

8K(8K), 16K(16K), 32K(32K), 64K(64K)

Interval Type

0~254

Enumeration Type

TRXLOOPBACK(TRX Loopback Test), CHLLOOPBACK(Channel Loopback Test), CHLCODEC(Speech codec Test), CPRILOOPBACK(CPRI Loopback Test)

Interval Type

0~31

Enumeration Type

SIMPLETEST(Simple Test), MANUALTEST(Manual Test)

Enumeration Type

PIM(Passive Intermodulation Test)

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

CHAIN(Chain), RING(Ring)

Interval Type

1~255

Interval Type

1~128

Interval Type

0~8

Compound Type

HOUR, MINUTE

Compound Type

HOUR, MINUTE

Enumeration Type

DISABLE(Disable), ENABLE(Enable), SLEEPING(Sleeping)

Interval Type

0~100

Interval Type

40~79

Interval Type

-99~99

Interval Type

1~60

Interval Type

1~60

Interval Type

1~60

Interval Type

1~60

Interval Type

1~60

Interval Type

1~60

Interval Type

1~60

Enumeration Type

TX_3(3), TX_4(4), TX_5(5), TX_6(6), TX_7(7), TX_8(8), TX_9(9), TX_10(10), TX_11(11), TX_12(12), TX_14(14), TX_16(16), TX_20(20), TX_25(25), TX_32(32), TX_50(50)

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

0~10000

Interval Type

1~3000000

Interval Type

0~4000000

Interval Type

200~10000

Enumeration Type

T_2(2), T_3(3), T_4(4), T_5(5), T_6(6), T_7(7), T_8(8), T_9(9), T_10(10), T_12(12), T_14(14), T_16(16), T_20(20), T_25(25), T_32(32), T_50(50)

Enumeration Type

EPS, TCS

Enumeration Type

Enumeration Type

ANY_ERR_RETURN(Stop at Error),BTS3001C(BTS3001C), ALL_END_RETURN(Stop at End) BTS30(BTS30), BTS312(BTS312), BTS3001CP(BTS3001CP), BTS3002C(BTS3002C), BTS3012A(BTS3012A), BTS3006A(BTS3006A), BTS3012(BTS3012), BTS3006C(BTS3006C), GSM900, DCS1800, GSM900_DCS1800, GSM850, PCS1900, BTS3002E(BTS3002E), BTS3012AE(BTS3012AE), BTS3012_II(BTS3012 GSM850_1800, GSM850_1900 II), DBS3900_GSM(DBS3900 GSM), BTS3900_GSM(BTS3900 GSM), BTS3900A_GSM(BTS3900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900B_GSM(BTS3900B OUTER(External PCU), INNER(Built-in PCU) GSM), BTS3900E_GSM(BTS3900E GSM), BTS3900_GSM_6RFC(BTS3900 GSM 6RFC), BTS3900A_GSM_6RFC(BTS3900A GSM 6RFC), BTS3036_6RFC(BTS3036 6RFC), BTS3036A_6RFC(BTS3036A 6RFC), APM30(APM30), TMC(TMC), GSM900, DCS1800, GSM850,BBC(BBC), PCS1900 APM100(APM100), APM200(APM200), PS4890(PS4890), OMB(OMB), RFC-6(RFC-6), BTS3900(BTS3900), BTS3900L(BTS3900L), BTS3900AL(BTS3900AL), BTS3900AS(BTS3900AS), BTS3900B(BTS3900B), BTS3900E(BTS3900E), VIRTUAL(VIRTUAL)

Enumeration Type

GSM900(GSM900), DCS1800(DCS1800)

Interval Type

0~15

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), 8(8), 9(9), 10(10), 11(11), 12(12)

Interval Type

0~1,255

Enumeration Type

Enumeration Type

Enumeration Type

Interval Type

0~23,255

Interval Type

0~53,255

Interval Type

0~15

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), 8(8), 9(9), 10(10), 11(11), 12(12)

Interval Type

0~1,255

Interval Type

0~23,255

Interval Type

0~53,255

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Enumeration Type

OFF(Off), ON(On)

Enumeration Type

NORTPCOMP, RTPCOMP

Enumeration Type

NORTPCOMP, RTPCOMP

Interval Type

1214~2001,2005~3783,3786~4783,4785~65000

Interval Type

0~65535

Enumeration Type

Administrators(Administrator), Operators(Operator), Users(User), Guests(Guest), Customs(Custom)

Interval Type

0~99

Interval Type

0~64

Interval Type

300~1000

String Type

None

String Type

None

Interval Type

0~255

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

1~8

Interval Type

1~8

Interval Type

1~255

Interval Type

0~240

Interval Type

1~64

Interval Type

0~63

Interval Type

1~64

Interval Type

1~64

Interval Type

1~10

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

1~30

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

0~15

Interval Type

1~100

Interval Type

1~20

Interval Type

1~30

Interval Type

1~30

Interval Type

1~100

Interval Type

0~3

Interval Type

0~7

Interval Type

0~7

Interval Type

1~20

Interval Type

0~7

Interval Type

0~63

Interval Type

0~70

Interval Type

0~70

Interval Type

0~70

Interval Type

0~10

Interval Type

0~19

Interval Type

0~63

Interval Type

0~63

Interval Type

1~20

Interval Type

0~10

Interval Type

0~19

Interval Type

1~20

Interval Type

0~100

Interval Type

0~100

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~64

Enumeration Type

NO(Not Allowed), YES(Allowed)

Interval Type

0~255

Enumeration Type

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

Enumeration Type

NO(NO), YES(YES)

Interval Type

1~6

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

10~3500

Interval Type

0~2047

Interval Type

0~2047

Enumeration Type

BYNAME(By Name), BYID(By Index)

Enumeration Type

BYNAME(By Name), BYID(By Index)

String Type

None

String Type

None

Interval Type

0~15

Enumeration Type

CS1(CS1), CS2(CS2), CS3(CS3), CS4(CS4)

Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), MCS9(MCS9)

Interval Type

10~70

Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), UAS7(UAS7), UAS8(UAS8), UAS9(UAS9), UAS10(UAS10), UAS11(UAS11)

Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), UAS7(UAS7), UAS8(UAS8), UAS9(UAS9), UAS10(UAS10), UAS11(UAS11), UNFIXED(UNFIXED)

Interval Type

0~5000

Enumeration Type

CS1(CS1), CS2(CS2), CS3(CS3), CS4(CS4), UNFIXED(UNFIXED)

Enumeration Type

MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), MCS9(MCS9), UNFIXED(UNFIXED)

Interval Type

0~70

Interval Type

0~63

Interval Type

10~255

Interval Type

0~96

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~2047

Interval Type

512~1535

Interval Type

1~16

Interval Type

1~10

Interval Type

1~16

Enumeration Type

NO(No), YES(Yes)

Interval Type

0~300

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Interval Type

0~64

Enumeration Type

FORBID(Forbid), PERMIT(Permit)

Enumeration Type

BYTMSI(By TMSI), BYIMSI(By IMSI), BYMSISDN(By MSISDN), BYIMEI(By IMEI)

Enumeration Type

NOTSUPPORT(Not Support), SUPPORT(Support)

String Type

None

String Type

None

Compound Type

HOUR, MINUTE

Compound Type

HOUR, MINUTE

Interval Type

-99~99

Interval Type

0~8

Interval Type

0~255

Interval Type

0~63

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Interval Type

1~63

Enumeration Type

FDD(FDD), TDD(TDD)

String Type

None

Interval Type

Enumeration Type

0~190,255 No_Priority~0||(无优先策略)$$(No Priority)** Public_Network_First~1||(公网优 先)$$(Public Network First)** VGCS_First(No Priority)** Public_Network_First~1||(公网优先)$$(Public Network First)** VGCS_First~2||(集群优先)$$(VGCS First)

Interval Type

0~190

Interval Type

50~95

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

NONE(None), LEVEL4(User Level 4), LEVEL3(User Level 3), LEVEL2(User Level 2), LEVEL1(User Level 1), LEVEL0(User Level 0), LEVELB(User Level B), LEVELA(User Level A)

Interval Type

50~95

Enumeration Type

DISABLE(Disable), ENABLE(Enable)

Enumeration Type

DISABLE, ENABLE

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Enumeration Type

DISABLE(DISABLE), ENABLE(ENABLE)

Interval Type

2~4094

Interval Type

2~4094

Interval Type

2~4094

Interval Type

2~4094

Interval Type

2~4094

Interval Type

2~4094

Interval Type

0~7

Interval Type

0~7

Enumeration Type

NO(N0), YES(Yes)

Bit Field Type

FULL_RATE_VER1, FULL_RATE_VER2, FULL_RATE_VER3, HALF_RATE_VER1, HALF_RATE_VER2, HALF_RATE_VER3, FULL_RATE_VER5

Enumeration Type

CLOSE(Close), OPEN(Open)

String Type

None

String Type

None

Enumeration Type

CLOSE(Close), OPEN(Open)

String Type

None

String Type

None

Enumeration Type

NO(NO), YES(YES)

Interval Type

0~12

Interval Type

1~30

Enumeration Type

14(1.4), 15(1.5), 16(1.6), 18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 33(3.3), 36(3.6), 88(8.8)

Enumeration Type

18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 32(3.2), 35(3.5), 38(3.8), 41(4.1), 45(4.5), 88(8.8)

Interval Type

0~12

Interval Type

0~999

Interval Type

4000~33000

Interval Type

3000~34000

Interval Type

3000~34000

Interval Type

0~1000

Interval Type

1~30

Interval Type

0~60

Interval Type

0~1000

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

Enumeration Type

CLOSE(Close), OPEN(Open)

Enumeration Type

NOLIMIT(No Limit), LIMIT(Limit)

Enumeration Type

East_Longitude(East Longitude), West_Longitude(West Longitude)

Enumeration Type

INACTIVE(Inactive), ACTIVE(Active)

Enumeration Type

NO(NO), YES(YES)

Enumeration Type

DENY(Deny), ALLOW(Allow)

Enumeration Type

SUN(Sunday), MON(Monday), TUE(Tuesday), WED(Wednesday), THU(Thursday), FRI(Friday), SAT(Saturday)

Enumeration Type

M3UA_ASP(M3UA_ASP), M3UA_IPSP(M3UA_IPSP)

Interval Type

0~24

Enumeration Type

NO(No), YES(Yes)

Interval Type

1~255

Interval Type

0~24

Enumeration Type

NO(No), YES(Yes)

Enumeration Type

Active(Format active area), Standby(Format standby area)

Enumeration Type

GSM_AND_UMTS(GSM AND UMTS), UMTS(UMTS), GSM(GSM)

Enumeration Type

GO(GSM Only)

Enumeration Type

E1_UNBA(E1 Unbalance), E1_BA(E1 Balance), T1(T1), E1(E1)

Enumeration Type

E1(E1), T1(T1)

Interval Type

Interval Type

Interval Type

Interval Type

Enumeration Type

GMT-1200(GMT-12:00), GMT-1100(GMT-11:00), GMT-1000(GMT-10:00), GMT-0930(GMT-09:30), GMT-0900(GMT-09:00), GMT-0800(GMT-08:00), 1~127 GMT-0700(GMT-07:00), GMT-0600(GMT-06:00), GMT-0500(GMT-05:00), GMT-0430(GMT-04:30), GMT-0400(GMT-04:00), GMT-0330(GMT-03:30), GMT-0300(GMT-03:00), GMT-0200(GMT-02:00), GMT-0100(GMT-01:00), GMT(GMT), GMT+0100(GMT+01:00), GMT+0200(GMT+02:00), 30~300 GMT+0300(GMT+03:00), GMT+0330(GMT+03:30), GMT+0400(GMT+04:00), GMT+0430(GMT+04:30), GMT+0500(GMT+05:00), GMT+0530(GMT+05:30), 60~300 GMT+0545(GMT+05:45), GMT+0600(GMT+06:00), GMT+0630(GMT+06:30), GMT+0700(GMT+07:00), GMT+0800(GMT+08:00), GMT+0845(GMT+08:45), GMT+0900(GMT+09:00), GMT+0930(GMT+09:30), 30~60000 GMT+1000(GMT+10:00), GMT+1030(GMT+10:30), GMT+1100(GMT+11:00), GMT+1130(GMT+11:30), GMT+1200(GMT+12:00), GMT+1245(GMT+12:45), GMT+1300(GMT+13:00), GMT+1400(GMT+14:00)

Actual Value Range

Unit

Default Value

0~70

None

50

0~70

None

50

1~8, step:0.1

s

40

TRUE, FALSE

None

NO, YES

None

10~255

s

30

10~255

s

60

IDLETSALLOC_0, IDLETSALLOC_1, IDLETSALLOC_2, IDLETSALLOC_3

None

IDLETSALLOC_0

CLOSE, OPEN

None

CLOSE

0~100

per cent

NO, YES

None

10~3600

s

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

None

1~255

None

40

0~250

None

100

8BIT, 11BIT

None

FALSE

YES

90

NO

15

GSM_PHASE_2

8BIT

0~65535

None

0

NO, YES

None

NO

0~31

None

None

OSubcell, USubcell, NoPrefer

None

Usubcell

0~31

None

None

ULPRIORITY, NEUTRAL, DLPRIORITY

None

NEUTRAL

0~9

None

0

1~10

None

2

15~7200

s

Disable, Enable

None

Enable

NO, YES

None

YES

CLOSE, OPEN

None

COMPUL0, COMPUL1, FLEX

None

4_75KBIT/S, 5_15KBIT/S, 5_90KBIT/S, 6_70KBIT/S, 7_40KBIT/S, 7_95KBIT/S, 10_2KBIT/S, 12_2KBIT/S

None

4_75KBIT/S, 5_15KBIT/S, 5_90KBIT/S, 6_70KBIT/S, 7_40KBIT/S, 7_95KBIT/S

None

CLOSE 4_75KBIT/S1&5_15KBIT/S0&5_90KBIT/S1&6_70KBIT/SFLEX 0&7_40KBIT/S1&7_95KBIT/S4_75KBIT/S0&10_2KBIT/S1&5_15KBIT/S0&12_2KBIT/S-1 0&5_90KBIT/S1&6_70KBIT/S0&7_40KBIT/S1&7_95KBIT/S-0

0~7

None

6_60KBIT/S1&8_85KBIT/S1&12_65KBIT/S-1

NO, YES

None

NO

120

1~255

min

10

60~300

V

180

61.0~300.0 (step: 0.1)

V

2800

60.0~299.0 (step: 0.1)

V

1800

60~300

V

280

NO, YES

None

NO

0~254

None

None

0~50

ms

0

0~768

None

2

PORT0_CDEF, PORT1_CDEF

None

None

1~16777215

None

None

BYMANUAL, BYAUTO

None

BYAUTO

0, 1, 2

None

OFF, ON

None

OFF

COMMON_DLD, QUICK_DLD1, QUICK_DLD2

None

None

Lock, Unlock, Shutdown

None

UNLOCK

Lock, Unlock, Shutdown

None

Unlock

2

Lock, Unlock, Shutdown

None

Unlock

hour{0~23} min{0~59}

None

None

0~100

None

OFF, ON

None

OFF

hour{0~23} min{0~59}

None

None

RATIORULE

None

None

1~51 characters

None

None

1~51 characters

None

None

0~600

ms

400

0~60

dB

20

-60~-35, 0

dBm

0~1000

ms

0

0~15

dB

6

CLOSE, OPEN

None

10~100

None

1~10

s

1920~30720, step:480

ms

10

-50

CLOSE

20

4

64_Times

0~30240, step:480

ms

48

0~65534

None

None

BSC

None

None

1920~30720, step:480

ms

52_Times

0~30240, step:480

ms

65334~65383

None

None

1~65535

None

None

1~65535

None

None

1~65535

None

None

1~65535

None

None

65033~65533

None

None

1~1024 characters

None

None

1~60

min

ALL, ONEBYONE

None

None

ALL, ONEBYONE

None

None

NO, YES

None

NO

NO, YES

None

YES

32

15

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

NO

ABIS, A

None

ABIS

0~100

per cent

5

0~100

per cent

5

0~100

per cent

5

0~100

per cent

10

0~100

per cent

10

0~100

per cent

10

NO, R3, R2, R2ANDR3

None

-12~12

dB

-23~-4

dBm

3~12

dB

-23~-4

dBm

-4

-23~-4

dBm

-23

NO

0

-18

6

FIXEDLEVEL, ADAPTIVE, FIXEDGAIN

None

FIXEDGAIN

CLOSE, OPEN

None

CLOSE

5~15

None

5

1~255

s

3

0~4000000

kbit/s

None

NOTALLOW, ALLOW

None

ALLOW

OFF, ON

None

OFF

0~100

per cent

NOTALLOW, ALLOW

None

0~16

None

0~100

per cent

ALLCIC, ALLNULL

None

None

ALLCIC, ALLNULL

None

ALLCIC

0~2000

mA

30

0~2000

mA

30

0~2000

mA

30

0~2000

mA

30

100

NOTALLOW

4

100

0~2000

mA

30

0~2000

mA

30

0~65535

s

None

NO, YES

None

YES

0~65534

None

None

0~65535

None

None

0~15

mA

10

45~155

mA

100

125~175

mA

150

0~65535

s

0~100

per cent

0

0~100

per cent

0

0~250

None

0

0~250

None

0

NO, YES

None

NO

flt, evt, all

None

all

0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10

None

None

6

0~0.9, step:0.1

m

0

-1000~10000

m

0~6553

m

-3281~32810

feet

None

Critical, Major, Minor, Warning

None

None

Critical, Major, Minor, Warning

None

None

DISABLED, ENABLED

None

DISABLED

DISABLED, ENABLED

None

DISABLED

DISABLED, ENABLED

None

DISABLED

DISABLED, ENABLED

None

DISABLED

DISABLED, ENABLED

None

DISABLED

DISABLED, ENABLED

None

DISABLED

2~32, step:2

dB

OFF, ON

None

ON

NO, YES

None

NO

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~3

None

0

None

40

16

0~7

None

0

0~7

None

3

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~7

None

2

0~63

dB

8

0~63

dB

33

0~63

dB

25

NO, YES

None

0~255

dB

2

0~255

dB

20

0~255

dB

1

0~255

dB

100

0~7

None

0~100

per cent

0~255

dB

4

0~255

dB

108

NO, YES

None

NO

0

75

NO

0~7

None

3

0~100

per cent

0~32

dB

8

0~30

dB

2

0~30

dB

0

0~30

dB

0

0~32

dB

8

NO, YES

None

480~7200, step:480

ms

3

0~4

dB

4

0~15

None

0

OFF, ON

None

0~99

per cent

NO, YES

None

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~3

None

0

0~7

None

0

15

YES

ON

55

NO

0~7

None

3

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~7

None

3

0~63

dB

6

0~63

dB

30

0~63

dB

18

0~65535

None

2

0~65535

None

2

3~30

dB

6

CLOSE, OPEN

None

10~30

dB

1~5 characters

None

None

0~4599

None

None

0~4599

None

None

1~100 characters

None

None

MODE0, MODE1, MODE2

None

MODE0

-32~0

dB

CLOSE

12

-13

-64~0

dB

-48

CLOSE, OPEN

None

0~360

degree

0~1000

m

SENDPOWER, NOPOWER

None

NOPOWER

OFF, ON

None

OFF

NO, YES

None

NO

0~35

None

None

A, B

None

None

A, B

None

None

A, B, NULL

None

NULL

0~335

None

None

M3UA, BBAP

None

None

MTP2, OTHER, TCSTM1

None

None

1~65535

packet

1~65535

bit

1024

1~65535

bit

256

CLOSE

360

0

20

1~65535

packet

20

1~65535

packet

10

1~65535

packet

20

CLOSE, OPEN

None

1~65535

bit

0~65535

None

PRIMARY, STANDBY, ALL

None

PRIMARY

PRIMARY, STANDBY

None

PRIMARY

0~80

per cent

5~126

None

100

5~100

per cent

100

3~10

None

3

3~10

ms

3

0~27

None

None

0~27

None

None

0~11

None

None

power, env, sig, trunk, hardware, software, run, comm, service, handle

None

None

CLOSE

384

0

50

power, env, sig, trunk, hardware, software, run, comm, service, handle

None

None

OFF, ON

None

OFF

DISABLE, ENABLE

None

DISABLE

0~61

dB

0~62, 255

None

None

0~62

None

None

0~23, 255

None

None

0~23

None

None

0~255

None

None

0~254

None

None

0~63

dB

30

500~60000

ms

10000

1~300

s

30

1~300

s

60

1~300

s

30

1~300

s

60

1~300

s

30

35

1~300

s

30

1~300

s

20

NO, YES

None

0~63

dB

2

0~63

dB

10

NO, YES

None

YES

Close, Open

None

Open

80~100

per cent

0~254

None

NO

85

None

0~100 per cent TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

90

None

NO, YES

None

None

0~1

None

None

0~254

None

None

0~2047

None

None

TDM, IP

None

TDM

A, B, ALL

None

None

TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

NO, YES

None

YES

0~15

dB

0

0~15

dB

0

1~65535

min

1~60

min

NONE, PEER

None

None

SERVER, CLIENT

None

None

SERVER, CLIENT

None

None

SERVER, CLIENT

None

None

1~63 characters

None

None

1~63 characters

None

None

1~64 characters

None

None

1~15 characters

None

None

1~15 characters

None

None

1~16 characters

None

None

NO_V, PAP_V, CHAP_V

None

NO_V

None

1

NO_V, PAP_V, CHAP_V

None

NO_V

NO_V, PAP_V, CHAP_V

None

NO_V

ENABLE, DISABLE

None

None

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

NO

DISABLED, ENABLED

None

ENABLED

BTSAUTODLDACT, TMUAUTOACT

None

None

OFF, ON

None

ON

1~65535

min

None

AU4, AU3

None

None

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

None

GSM_PHASE_2

LOW, HIGH

None

HIGH

LOW, HIGH

None

LOW

O1E3_R1E4, O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11, O1E11_R1E12

None

None

O1E3_R1E4, O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11, O1E11_R1E12

None

None

O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11

None

None

O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11

None

None

OFF, ON

None

OFF

OFF, ON

None

OFF

0~200 characters

None

None

0~128 characters

None

None

0~70

None

CLOSE, LOCALTLLI, ALLTLLI

None

ALLTLLI

1~64 characters

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

BYTRX, BYPWR

None

BYTRX

BYCOVER, BYCAP, BYSAVING

None

BYCOVER

0~1

None

1

0~1

None

1

0~1

None

1

1~200

s

55

20

1~80 characters

None

None

0~2047

None

None

Battery1Temp, Battery2Temp

None

Battery1Temp

Battery1Temp, Battery2Temp

None

Battery1Temp

30~1000

Ah

NO, YES

None

0~90

per cent

NO_BAT, INSIDE_BAT, OUTSIDE_BAT

None

1024~65535

None

58000

0~254

None

8

0~5000

Ah

0~7

None

None

0~7

None

None

0~7

None

None

0~1023

None

None

0~1023

None

None

NO_Hop, Hop

None

None

50

NO

50

NO_BAT

36

0~100

per cent

80

0~100

per cent

60

0~63

None

14

0~511

None

5~25

per cent

43.3~57.6 (step: 0.1)

V

NO, YES

None

1~10

None

8

1~10

None

4

1~10

None

2

MTP3, M3UA, MTP3_M3UA

None

1~60

s

1

0~10

None

5

0~3

None

1

NO, YES

None

NO

NO, YES

None

YES

0.5~16, step:0.5

s

None

15

565

NO

None

4

0.5~16, step:0.5

s

6

3~10

None

3

1~2

None

10~254

None

ALL, PART

None

ALL

-10000~10000

None

None

1~10

None

4

1~10

None

2

1~10

None

1

DISABLE, ENABLE

None

0~65534

s

0

60~65534

s

900

DISABLE, ENABLE

None

1~6

None

1~120

s

0~335

None

None

0~5, 8~27

None

None

None

30

ENABLE

ENABLE

4

10

0~11

None

None

0~5000

s

NO, YES

None

None

nonrpt, rpt

None

None

0, 1, 2, 3, 4, 5, 6, NULL

None

NULL

0, 1, 2, 3, 4, 5, 6, NULL

None

NULL

NO, YES

None

YES

0.5~8, step:0.5

s

0~127

dB

0.5~8, step:0.5

s

SCU, GCU, XPU, INT, TNU

None

None

SCU, GCU, XPU, DPU, INT, TNU

None

None

SCU, GCU, MPU, GCP, DPU, INT, TNU

None

None

INT, DPU, XPU, TNU, OMU, SAU

None

None

0~72

None

None

0~47

None

None

0~100000 (step: 100)

kbit/s

None

1000

1

69

1

DTMU_MAIN, DTRU_MAIN, ETR_MAIN, FMU_MAIN, FMUA_MAIN, GATM_MAIN, GTMU_MAIN, IASU_MAIN, IOMU_MAIN, MFU_3001C, MMU_3001C, MRRU_MAIN, MTR_MAIN, NFCB_MAIN, PBU_MAIN, QTRU_MAIN, TMU_MAIN, TRX_MAIN, GRRU_MAIN, BTS3900B_MAIN, BTS3900BBOOT_MAIN, MRFU_MAIN, GRFU_MAIN, MRRUBOOT_MAIN, MRFUBOOT_MAIN, USCU_MAIN, BTS3900E_MAIN, BTS3900EBOOT_MAIN, BOOTROM_PCK, UBRI_MAIN, UTRP_MAIN

None

None

0~100000 (step: 100)

kbit/s

None

DPUa, DPUc

None

None

PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa, OMUa, OMUb, SAUa

None

None

FG2a, GOUa, FG2c, GOUc

None

None

PEUa, POUc

None

None

PEUa, POUc

None

None

PEUa, POUc

None

None

MRRU, GRRU, MRFU, GRFU, BTS3900E

None

None

TMU, DTRU, DPTU, QTRU, MRRU, GRRU, BTS3900B, MRFU, GRFU, BTS3900E, DRFU, DRRU, UBRI, UTRP

None

None

0~255

s

1~80 characters

None

2~3600

s

ENTIRE, INCREMENTAL

None

0~7

None

1~16777215

None

None

NO, YES

None

NO

0

Cell name

60

INCREMENTAL

1

MAINBSC, SUBBSC

None

None

0.0.0.0~255.255.255.255

None

None

hour{0~23} min{0~59}

None

None

hour{0~23} min{0~59}

None

None

0~15

None

None

0~15

None

None

5~60

d

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

UNCONDITIONALSTART, ATERCONGESTS, PREFIXNUMBER

None

UNCONDITIONALSTART

1~64 characters

None

None

NO, YES

None

YES

NO, YES

None

NO

0~335

None

None

0~65535

None

None

NO, YES

None

YES

NO, YES

None

YES

5

NO, YES

None

NO

0~65535

None

65535

0~65535

None

65535

0~65535

None

65535

0~4294967295

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

0

0~65535

None

65535

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~65535

None

65535

0~65535

None

65535

0~65535

None

65535

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

0~65535

None

65535

0~27

None

None

0~11

None

None

0~7

None

None

0~2500

None

None

0~15

None

None

1~15

None

None

1~31

None

None

0~15

None

NO, YES

None

0~12

None

940~4230, step: 470

ms

1~4

None

1

0~12

None

1

NEITHERSTART, BTSPRIORITY, BSCPRIORITY, BTSONLY, BSCONLY

None

NEITHERSTART

NONSUPPORT, BASIC, ENHANCED

None

NONSUPPORT

NO, YES

None

YES

PEUa, EIUa, OIUa, POUc

None

None

SCUa, GCUa, GCGa, PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa

None

None

SCUa, GCUa, GCGa, PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, DPUa, DPUb, DPUc, DPUd, TNUa, ALL

None

None

PEUa, POUc, EIUa, OIUa

None

None

PEUa, POUc, EIUa

None

None

10

YES

4

2_M_PERIOD

PEUa, POUc, EIUa, OIUa

None

None

POUc, OIUa

None

None

POUc, OIUa

None

None

FG2a, GOUa, FG2c, GOUc, POUc

None

None

EIUa

None

None

DATU, GATM, DRRU, MRRU, MRFU, GRFU, GRRU, BTS3900E

None

None

CDU, PCDU, DCDU, CDUC, CDUP, RCDU, CDUR, CDUE, BIE, EAC, EMUA, MCK, DTMU, DATM_DATU, NFCB, EDU,PWC, PEDU, REDU, DEDU, EDUC, EDUP, EDUR, EDUE, EMU_DEMU, DPMU, DCBM_DCOM, DHEU, ECOM, MFU, DDPM_DDPU, DFCU, DFCB None MPW, MCD, IASU, PTU, TMU, PSU, PMU, APMU, 3001C_MFU, TEU, TES, PBU, DPBU, RPBU, PPBU, SCU, MDU, UPEU, UEIU, FMU, FMUA, DTCU, GATM, DGPS, USCU, UBRI, FAN, EMU, PMU, TCU, PSU, UTRP None

None

None

DRRU, DRFU, MRRU, XRRU, MRFU, GRFU, GRRU, XRFU, BTS3900E None

None

TRX_30_OR_DRU, TRX_GPRS, PTRX, ETRX, RTRX, DTRX, RETR, DETR, EETR, PETR, MTR, TRU, QTRU

None

None

CDU, CDUC, CDUP, CDUR, CDUE, PCDU, RCDU, DCDU, EDU, EDUC, EDUP, EDUR, EDUE, PEDU, REDU, DEDU, DDPM_DDPU, DFCU, DFCB

None

None

CFGBM, CFGTC

None

None

CFGBM, CFGTC

None

None

NO, YES

None

YES

1~64 characters

None

None

LOGICIP, PORTIP, PPP/MP

None

LOGICIP

LOGICIP, PORTIP, PPP/MP

None

None

0~64 characters

None

None

CLOSE, OPEN

None

CLOSE

0~2047

None

None

0~2047

None

None

0~2047

None

None

0~2047

None

None

0~2047

None

None

BYIDX, BYNAME

None

None

BYNAME, BYID

None

None

0~2047, 65535

None

None

0.0.0.0~255.255.255.255

None

None

UNCONDITIONALSTART, ABISCONGESTS, PREFIXNUMBER

None

UNCONDITIONALSTART

0.0.0.0~255.255.255.255

None

None

BSC_Preprocessing, BTS_Preprocessing

None

BTS_Preprocessing

1~64 characters

None

None

1~64 characters

None

None

1~2048 characters

None

None

OFF, ON

None

ON

NO, YES

None

NO

2~32, step:2

dB

OFF, ON

None

OFF

1~256 characters

None

None

BTS30, 1~250 BTS312, BTS3001C, BTS3001CP, BTS3002C, None BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900B_GSM, BTS3900E_GSM, BTS3900L_GSM None

None

BTS3900B_GSM, BTS3900E_GSM None BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900L_GSM, BTS3900B_GSM, BTS3900E_GSM None

None

16

None

None

0~1000000

s

3

BIULOOP, TRXSELFTEST

None

None

NO_BAT, INSIDE_BAT, OUTSIDE_BAT

None

NO_BAT

10~255

s

YES, NO

None

NO

2~65534

None

None

2~65534

None

None

1000~3000

ms

60

1000

OFF, ON

None

None

0~200000

kbit/s

0

0~200000

kbit/s

0

0~100

per cent

20

0~100

per cent

15

0~200000

kbit/s

0

0~100

per cent

1

0~200000

kbit/s

0

0~100

per cent

0

0~100

per cent

5

0~200000

kbit/s

0

100~1000

per cent

FULL_DUPLEX, HALF_DUPLEX

None

0~100

per cent

25

20~100

per cent

80

BYIDX, BYNAME

None

None

C31NOTUSE, C31STANDARD

None

C31STANDARD

120

None

0~1

None

0

1~200 characters

None

None

0~8

None

None

NO, YES

None

None

NO, YES

None

YES

0~4095

None

None

NO, YES

None

YES

OFF, ON

None

None

GSM900, DCS1800, GSM850, PCS1900

None

GSM900

NULL, IPLGCPORT, RSCGRP

None

NULL

ETHER, IPLOGICPORT, TRUNK, PPP, MP

None

None

ETHPORT, TRUNK

None

None

NO, YES

None

NO

0~3

None

None

0.0.0.0~255.255.255.255

None

None

0~63

None

0~65535

None

30

None

5~180

s

15

NO, YES

None

4500~32767

byte

1~5

s

3

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

2

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

6

0~65535

None

DISABLE, ENABLE

None

0~255

s

15

20~100

per cent

80

0~63

None

46

10, 100, 1000

ms

0~100

per cent

0~42, step: 6

dB

0

0~36, Positive infinity, step: 6

dB

0

0~1023

None

None

AUTO, MANU

None

None

NO

4500

86

None

1000

90

0~1023

None

None

AUTO, MANU

None

None

0~50

None

0

0~42, step: 6

dB

0

0~36, Positive infinity, step: 6

dB

0

Permit, NoPermit

None

Permit

OUTDOOR_CELL, INDOOR_CELL

None

OUTDOOR_CELL

24.0~28.9 (step: 0.1)

V

283

43.3~57.6 (step: 0.1)

V

565

24.0~28.9 (step: 0.1)

V

268

43.2~57.5 (step: 0.1)

V

535

0~2047

None

None

0~2047

None

None

0~2047

None

None

0~2047, 65535

None

None

0~2047

None

None

0~2047

None

None

1~400 characters

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

Inner, Extra

None

None

1, 2, 3, 4

None

0~5000 characters

None

None

NO, YES

None

NO

0~255

None

1~64 characters

None

None

1~64 characters

None

None

1~64 characters

None

None

0~5000 characters

None

None

OP1, OP2, OP3, OP4, NONE

None

0~63

dB

0~63

None

1

1~20

None

4

3

80

255

30

NO, YES

None

YES

35.0~55.3 (step: 0.1)

V

2G, 3G

None

0~100

per cent

COMMON, MULTIPATH, INDOOR, HIGHWAY

None

COMMON

NO, YES

None

NO

40.0~79.0 (step: 0.1)

degree Celsius

500

-19.0~5.0 (step: 0.1)

degree Celsius

-100

0.0~100.0 (step: 0.1)

degree Celsius

800

-50.0~0.0 (step: 0.1)

degree Celsius

-200

NO, YES

None

0~63

dB

0~63

None

20~90

per cent

0~200 characters

None

None

NO, YES

None

None

NULL, IPLGCPORT, RSCGRP

None

NULL

430

2G

30

NO

20

1

80

AUTO, NORMAL

None

None

DISABLE, ENABLE

None

None

NO, YES

None

None

NO, YES

None

None

1~32 characters

None

None

G_15, G_16, G_17, G_18, G_19, G_20, G_21, G_22, G_23, G_24, G_25, G_26, G_27, G_28, G_29, G_30, G_31 None G_0, G_1, G_2, G_3, G_4, G_5, G_6, G_7, G_8, G_9, G_10, G_11, G_12, G_13, G_14, G_15, G_16, G_17, G_18, G_19, G_20, G_21, G_22, G_23, G_24, G_25, G_26, G_27, G_28, G_29, G_30, G_31 None

None

None

20~90

None

80

20~90

None

80

OFF, ON

None

None

1~32 characters

None

None

0~2

None

None

30~100

None

90

30~100

None

90

30~100

None

90

QUICK_HO_NCELL_TYPE_A, QUICK_HO_NCELL_TYPE_B

None

QUICK_HO_NCELL_TYP E_A

CHAINTORING, COMBINECHAINS

None

None

CAPABILITY, QUALITY, PSRELATIVELY, PSABSOLUTELY None

CAPABILITY

0~100

per cent

0

OFF, ON

None

0~100

per cent

0~65535

None

None

NO, YES

None

YES

NO, YES

None

NO

1~64

s

1~5

None

NO, YES

None

YES

MODE1, MODE2, MODE3

None

MODE2

MODE1, MODE2, MODE3

None

MODE2

0~511

None

None

0~511

None

None

5~20

None

10

5~20

None

10

NO, YES

None

OFF

100

10

5

NO

NO, YES

None

NO

ALDER32, CRC32

None

CRC32

SBFD, ARP, MBFD

None

None

0~12

h

None

1~7

None

None

0~169

None

None

0~7

None

None

TRXRFSELFLOOP, BIULOOP, BTSSPEECHLOOP, TRXSPEECHLOOP

None

None

FULLTCH, HALFTCH

None

None

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NOSENDING, SYSTEMOPT, SENDING

None

SYSTEMOPT

NO, YES

None

NO

OFF, ON

None

OFF

10~800

None

100

10~800

None

200

100~600000

ms

TCHFR, TCHHR, SDCCH8, MBCCH, CBCCH, BCH, BCCH_CBCH, SDCCH_CBCH, PBCCH_PDTCH, PCCCH_PDTCH, PDTCH, DPDCH

None

TCHFR

0~65535

None

None

0~65535

None

None

0~65535

None

None

0~65535

None

None

0~160

frame

0

1~12, step: 5

min

3

OFF, ON

None

1~100

per cent

1~60

s

NO, YES

None

YES

NO, YES

None

YES

NOTSENDING, SENDINGPRO, SENDING

None

NOTSENDING

1000

OFF

80

5

NOTSENDING, SENDINGPRO, SENDING

None

NOTSENDING

NO, YES

None

YES

NO, YES

None

YES

64~100000, step:64

kbit/s

None

0~22

dB

0~27

None

None

0~11

None

None

UNSUPPORT, SUPPORT

None

UNSUPPORT

NO, YES

None

NO

ERR_PFM_1E6, ERR_PFM_5E6, ERR_PFM_1E5, ERR_PFM_5E5, ERR_PFM_1E4, ERR_PFM_5E4, ERR_PFM_1E3

None

None

INCLK, BSCCLK, EXCLK, IPCLK, TRANSCLK, GPSCLK, UMCLK, PEERCLK

None

None

HW_DEFINED, PTP

None

PTP

GCUa, GCGa

None

GCUa

INT_CLK, TRCBSC_CLK, EXTSYN_CLK, IP_TIME, IP_TRANSFER, TRCGPS_CLK, UM_CLK, PEER_CLK

None

None

0~255

s

cleared, uncleared

None

0~255

s

22

255

None

255

1~200 characters

None

None

0~128 characters

None

None

0~19

None

None

1~3

None

None

0~62

None

None

0~62

None

0~62

None

None

0~62

None

None

0 None

None

0

1~60

s

30

0~4095

None

None

0~4095

None

None

0~31

None

None

0~3

None

None

NONE, AINTFBLOCK

None

NONE

1~150000

None

None

BTS3002C, BTS3012A, BTS3006A

None

None

BTS3012, BTS3012AE, BTS3006C, BTS3012_II, BTS3002E, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900_GSM_6RFC, BTS3900A_GSM_6RFC, BTS3036_6RFC, BTS3036A_6RFC

None

None

10000~50000

None

None

0~250

None

0

0~250

None

0

NO, YES

None

YES

1~1023

None

None

INACTIVE, ACTIVE

None

INACTIVE

BYSITE, BYCELL

None

0~10, step:0.1

dB

L0_FORBID, L1_FORBID, L2_FORBID, L3_FORBID, L4_FORBID, L5_FORBID, L6_FORBID, L7_FORBID, L8_FORBID, L9_FORBID

None

L0_FORBID0&L1_FORBIDNone 0&L2_FORBID0&L3_FORBID0&L4_FORBID0&L5_FORBID0&L6_FORBID0&L7_FORBID0&L8_FORBID0&L9_FORBID-0

LOWERCASE, UPPERCASE, DIGIT, SPECIALCHARACTER

None

None

1~100

None

NO, YES

None

NO

BYNAME, BYID

None

None

10~150

ms

15

10~150

ms

15

10~150

ms

15

45

100

10~150

ms

15

10~150

ms

25

10~150

ms

25

10~150

ms

25

10~150

ms

25

10~150

ms

25

10~150

ms

25

10~150

ms

50

10~150

ms

50

NO, YES

None

NO

0~335

None

None

NO, YES

None

NO

ALL, ONLY_SSL

None

None

INNER, EXTERNAL

None

None

0~60

s

4

1~200

s

6

NO, YES

None

NO

1~28

None

1~60

s

None

NO, YES

None

NO

0~7

None

None

OFF, ON, NOTSUPPORT

None

NOTSUPPORT

0dB, 2dB, 4dB, 6dB, 8dB, 10dB, 12dB, 14dB

dB

6dB

0~200 characters

None

None

DISABLE, ENABLE

None

None

10~2550, step: 10

ms

1~255

None

3

0~126, step: 2

dB

0

1~255

None

UNAVAILABLE, AVAILABLE

None

UNAVAILABLE

VOICEINF, MR, CALLAPPENDINF, CALLINNERINF

None

None

0~100

None

OFF, ON

None

OFF

None

RESINSUFF,UMABNOR M,TRAFFREJECT,MSCR EL

RESINSUFF, UMABNORM, TRAFFREJECT, MSCREL, MSCDISCON, BADQUALITY

5

10

255

5

0~100

per cent

100

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

None

None

0~7

None

None

0~100

per cent

0~7

None

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, MRHOFAIL, MRHOLATEST

None

OFF

COMMONUSRM, SPECUSRM

None

None

ABNORMREC, ALLBSCREC, ALLCELLREC

None

ABNORMREC

OFF, ON

None

None

OFF, ALL, AINTF, ABISINTF

None

OFF

30~100

per cent

LU, SMS, CALL

None

0~100

per cent

OFF, ON

None

OFF

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

None

None

100

5

90

CALL

50

0~7

None

None

0~100

per cent

0~7

None

ON, OFF

None

40000~50000

ms

45000

5000~150000

ms

30000

1000~2000

ms

1300

400~600

ms

500

7500~9500

ms

8200

80~120

ms

100

3000~6000

ms

5000

500~2000

ms

1500

1~100

ms

100

30~100

per cent

95

30~100

per cent

95

1~16777215

None

None

4BURST, RLC/MAC

None

4BURST

50

3

None

YES, NO

None

None

0~62

None

None

0~5

None

None

0~23

None

None

0~254

None

None

0, 2, 4, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26

None

None

0~27, 255

None

None

0~11, 255

None

None

ON, OFF

None

None

NO, YES

None

NO

0~99

None

None

10~255

min

1~63 character

None

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

30

None

4

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

NT14_5K, NT12K, NT6K, T14_4K, T9_6K, T4_8K, T2_4K, T1_2K, T600_BITS, T1200_75

None

NT14_5K-0&NT12K1&NT6K-1&T14_4K0&T9_6K-1&T4_8K1&T2_4K-1&T1_2K0&T600_BITS0&T1200_75-0

NOLIMIT, LIMIT

None

NOLIMIT

4

2000-1-1~2099-12-31

None

None

1~12

None

None

0~31

None

None

0~30

degree Celsius

Inner, Extra

None

None

0~2047

None

None

1~64 characters

None

None

BYNAME, BYID

None

None

0~255

None

None

0~255

None

None

0~255

None

None

0~255

None

None

35.0~55.6 (step: 0.1)

V

None

58.0~60.0 (step: 0.1)

V

580

43.3~55.5 (step: 0.1)

V

450

58.0~60.0 (step: 0.1)

V

580

0~32

None

2

0

500~60000

ms

1000

0~186

None

None

1~110 characters

None

None

INACTIVE, ACTIVE

None

INACTIVE

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

1~1000

None

None

BSC, BTS

None

None

BTS, BSC, DXX, OTHER

None

None

0~27

None

None

{0~11}

None

None

0~7

None

None

0~3071

None

None

0~255

s

None

3~10

None

OFF, ON

None

3

None

0~50 characters

None

None

0~35

None

None

0.0.0.0~255.255.255.255

None

None

LOGIC_IP

None

None

0~16383

None

None

0~23

None

None

0~254

None

None

NO, YES

None

YES

DEFAULTPORT, CUSTOMPORT

None

None

1~60

min

0.0.0.0~255.255.255.255

None

None

0~63

None

None

DISABLE, ENABLE

None

DISABLE

NO, YES

None

NO

MON_1~MON_31

None

None

SUN, MON, TUE, WED, THU, FRI, SAT

None

None

1~128 characters

None

None

1

1~256 characters

None

None

NO, YES

None

NO

NO, YES

None

YES

NO, YES

None

NO

0~15

s

NO, YES

None

0.5~4, step: 1/8

bit

4

0.5~4, step: 1/8

bit

4

0.5~4, step: 1/8

bit

4

N0, YES

None

3

None

N0

TCH:480~122400, step:480; SDCCH:470~119850, step:470 ms

3

1~30

dB

14

1~30

dB

14

1~30

dB

16

1~30

dB

16

16~1007

None

1~255

None

None

5

UNSUPPORT, SUPPORT

None

UNSUPPORT

0~63

dB

1~10

None

1~30

dB

16

1~30

dB

16

0~127

None

1~30

dB

18

1~30

dB

18

0~15

None

2

0~15

None

3

0~15

None

3

0~15

None

3

0~15

None

4

0~15

None

15

0~15

None

2

0~15

None

2

0~63

dB

20

3

0

35

0~70

None

40

1~100

None

90

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

2~255

None

2

2~255

None

8

2~255

None

60

2~255

None

2

1~30

dB

4

1~30

dB

8

1~100

None

100

0~3

None

0

0~7

None

0

0~7

None

2

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~7

None

2

0~63

dB

10

0~70

None

55

0~70

None

60

0~70

None

55

0~10

None

3

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

3

0~63

dB

20

0~63

dB

20

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

1

0~10

None

6

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

3

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

1

0~100

None

5

0~100

None

55

0~63

dB

45

0~63

dB

28

0~300

ms

140

0~255

s

0

1~255

None

5

0~63

dB

12

0~63

dB

17

0~63

dB

25

0~63

dB

23

0~63

dB

31

0~63

dB

63

0~63

dB

12

0~63

dB

18

0~255

None

None

0~255

None

None

0~255

None

None

CS1, CS2, CS3, CS4

None

CS2

MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9

None

MCS6

MCS1, MCS2, MCS3, MCS4, MCS7, MCS8, DAS5, , DAS6, DAS7, DAS8, DAS9, DAS10, DAS11, DAS12 None

DAS6

MCS1, MCS2, MCS3, MCS4, MCS7, MCS8, DAS5, , DAS6, DAS7, DAS8, DAS9, DAS10, DAS11, DAS12, UNFIXED None

UNFIXED

CS1, CS2, CS3, CS4, UNFIXED

None

UNFIXED

MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9, UNFIXED

None

UNFIXED

NO, YES

None

YES

NO, YES

None

NO

0~5000

ms

0~64

per cent

10

0~64

per cent

5

0~64

per cent

5

0~64

per cent

5

0~64

per cent

2

0~64

per cent

2

CLOSE, OPEN

None

0~25.5, step:0.1

dB

1~16383(BIT14), 1~65535(BIT16), 1~16777215(BIT24)

None

None

1~11 characters

None

None

0~31

None

None

0~31

None

0~31

None

None

STP, A, IUR_G, LB

None

None

2400

OPEN

30

0

0~186

None

None

0~182

None

None

0~128

dB

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

72

0~1

None

1

0~1

None

1

0~1

None

1

0~1

None

1

10~150

ms

60

10~150

ms

60

10~150

ms

60

10~150

ms

60

10~150

ms

80

10~150

ms

80

1~60

min

10

0~12

h

3

2~10

dB

2

NO, YES

None

0, 1, 2, 4, 8, 16, 32, 64

s

INACTIVE, ACTIVE

None

INACTIVE

0~335

None

None

YES

4

0~31(PEUa), 0~251(E1 of POUc), 0~335(T1 of POUc)

None

None

0~63

None

48

0~63

None

0

0~63

None

0~63

None

1~3600

s

0~27

None

None

0 to 21

None

None

0~27

None

None

0~21

None

None

0~21

None

None

0~30

s

YES, NO

None

NO

1~128 characters

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

None

0

180

15

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~335 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

None

0~100

per cent

85

NO, YES

None

YES

1~12

None

None

1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12

None

None

0, 1

None

None

0~1, 255

None

None

0~23

None

None

0~23, 255

None

None

0~53

None

None

0~53, 255

None

None

OFF, ON

None

OFF

FULL, HALF

None

FULL

0~12

h

None

1~24

h

None

0~59

min

None

0~59

s

None

10~80

None

20

0~63

None

20

0~2047

None

None

0~2047

None

None

0~15

None

None

10~3600

s

LEVEL0, LEVEL1, LEVEL2

None

0~8

None

NO, YES

None

YES

NOTSUPPORT, DDIVERSITY, DPBT

None

NOTSUPPORT

1~60

min

None

0~7

None

None

0~31

None

None

ACTIVE, ACTIVESTANDBY, SLAVE1, SLAVE2, UTRP

None

None

20

LEVEL0

2

0~83

None

None

0~7

None

None

16~19

None

None

E1, T1

None

None

0.0.0.0~255.255.255.255

None

None

0~49

dB

3

0~49

dB

30

NO, YES

None

1~2147483646

None

2000-1-1~2037-12-31

None

None

2000-1-1~2037-12-31

None

None

2000-1-1~2037-12-31

None

None

2000-01-01~2050-12-31

None

None

1~31

d

None

1~255

s

4

1~255

s

5

0~11

None

YES

2147483646

10

NO, YES

None

NO

0.5~16, step:0.5

s

4

0.5~16, step:0.5

s

6

0.5~16, step:0.5

s

1

0.5~16, step:0.5

s

4

0.5~16, step:0.5

s

1

0.5~16, step:0.5

s

6

YES, NO

None

None

NO, YES

None

YES

NO, YES

None

NO

0~31

None

16

0~31

None

7

DATE, WEEK, DATEWEEK

None

1~15

None

OFF, ON

None

OFF

ERR_PFM_5E6, ERR_PFM_1E5, ERR_PFM_5E5, ERR_PFM_1E4, ERR_PFM_5E4, ERR_PFM_1E3, ERR_PFM_5E3

None

None

0~63

None

None

None

15

NO, YES

None

NO

NoPriority, Priority4, Priority3, Priority2, Priority1, Priority0, PriorityB, PriorityA

None

Priority4

NO, YES

None

NO

0~7

None

None

0~7

None

2~4094

None

None

JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC

None

None

0.0.0.0~255.255.255.255

None

None

NO, YES

None

NO

ENABLED, DISABLED

None

None

A5/0, A5/1, A5/2, A5/3, A5/4, A5/5, A5/6, A5/7

None

A5/0-1&A5/1-0&A5/20&A5/3-0&A5/4-0&A5/50&A5/6-0&A5/7-0

AUTO, PLAINTEXT, ENCRYPTED

None

AUTO

AUTO, PLAINTEXT, ENCRYPTED

None

None

NO, YES

None

NO

1~65535

None

None

0~65535

None

None

0~65535

None

None

7

1~31

None

None

-99.0~40.0 (step: 0.1)

degree Celsius

JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC

None

None

0, 2, 4, 6

None

None

00:00~23:59

None

None

8~255

None

None

1~31, step:8

None

None

1~31

None

None

DISABLED, ENABLED

None

None

DISABLED, ENABLED

None

ENABLED

0~100

per cent

OFF, ON

None

OFF

OFF, ON

None

ON

1~255

s

5

0~63

dB

5

0~100

per cent

OFF, ON

None

0

70

20

ON

OFF, ON

None

ON

0~100

per cent

NO, YES

None

YES

M3UA_ASP, M3UA_IPSP

None

None

M3UA_SGP, M3UA_IPSP, M3UA_SS7SP, M3UA_SP

None

None

0~63

dB

OFF, ON

None

OFF

1~4294967295

None

None

NO, YES

None

NO

O1E3_R5E4, O5E4_R1E4, O1E4_R5E5, O5E5_R1E5, O1E5_R5E6, O5E6_R1E6

None

O5E4_R1E4

OFF, ON

None

OFF

0~63

None

None

0~7

None

None

0~7

None

2~4094

None

1~2147483646

None

500~60000

ms

80

63

0

None

2147483646

3000

CLOSE, OPEN

None

CLOSE

0~255

s

HOUR, MIN, SEC

None

None

2000-1-1 00:00:00~2037-12-31 23:59:59

None

None

00:00~23:59

None

None

ONE_BY_ONE, PARALLEL

None

None

2000-1-1 00:00:00~2037-12-31 23:59:59

None

None

00:00:00~23:59:59

None

None

00:00:00~23:59:59

None

None

1970-1-1 00:00:00~2538-12-31 23:59:59

None

None

2000-1-1~2037-12-31

None

None

00:00:00~23:59:59

None

None

LOGINEVENT, MANAGEEVENT, AUTHEVENT, OTHEREVENT

None

None

00:00:00~23:59:59

None

None

SUN, MON, TUE, WED, THU, FRI, SAT

None

None

FIRST, SECOND, THIRD, FOURTH, LAST

None

None

1~9 characters

V or A

0

0.02

1~9 characters

V or A

0

VOLTAGE, CURRENT

None

1~9 characters

V or A

100

1~9 characters

V or A

0

1~9 characters

V or A

0.02

1~9 characters

V or A

0

VOLTAGE, CURRENT

None

1~9 characters

V or A

100

1~9 characters

V or A

0

1~9 characters

V or A

0.02

1~9 characters

V or A

0

VOLTAGE, CURRENT

None

1~9 characters

V or A

100

1~9 characters

V or A

0

1~9 characters

V or A

0.02

1~9 characters

V or A

0

VOLTAGE, CURRENT

None

CURRENT

CURRENT

CURRENT

CURRENT

1~9 characters

V or A

100

1~9 characters

V or A

0

NoExclusive, Exclusive

None

NoExclusive

0~100

per cent

None

0~63

dB

30

0~63

dB

30

2048~5047

None

None

1~64 characters

None

None

5048~8047

None

None

1~64 characters

None

None

2048~5047

None

None

1~64 characters

None

None

CLOSE, OPEN

None

CLOSE

NO, YES

None

YES

EM0, EM1

None

EM0

60sec, 120sec, 240sec, 480sec, 960sec, 1920sec, 3840sec, 7680sec s

60sec

TYPE1, TYPE2, TYPE3

TYPE1

None

Normal_cell, DualTst_ExtCell

None

Normal_cell

SEND, NOTSEND

None

SEND

0~12750, step: 50

ms

NO, YES

None

NO

NO, YES

None

NO

OFF, ON

None

None

OFF, ON

None

OFF

0~63

dB

PLUS_1, MINUS_1

None

None

HIGH_SPEED, LOW_SPEED

None

None

55~100

None

None

CONTINUOUS, DISCRETE, DUTY_RATIO

None

None

NORMAL_FAN, IND_FAN

None

None

8

30

NO_SPEED_ADJUSTMENT, HW_AUTO_TEMPERATURE_CONTROL, SPECIFY_RATE, SOFTWARE_CONTROL None

SOFTWARE_CONTROL

IND_FAN, NORMAL_FAN

None

None

0~100

per cent

NO, YES

None

0

NO

OFF, ON

None

OFF

OFF, ON

None

None

CLOSE, OPEN

None

CLOSE

0~100

per cent

0~1999

None

0~1999

None

0

0~1999

None

0

0~1999

None

0

10~1999

None

0~1999

None

2~1999

None

None

0~62

None

None

0~62

None

None

0~100

per cent

None, 16bit, 32bit

None

16bit

None, 16bit, 32bit

None

16bit

ON, OFF

None

ON

55

None

None

0

85

43.2~57.5 (step: 0.1)

V

535

AUTO, MANU

None

None

AUTO, MANU

None

None

0~42, step: 6

dB

0

0~36, Positive infinity, step: 6

dB

0

0~1

None

None

0~16383

None

None

0~49

dB

0~3

None

2

-20, -6, -18, -8, -16, -10, -14, -12

dB

0

0~7

dB

0

Negative infinity, -28~28, step: 4

dB

8

RSCP, EcN0

None

-114~-84, step: 2

dBm

6

0~63

None

10

0~511

None

1~1000

None

10

RSCP

None

4

NO, YES

None

NO

0~1000

per mill

2

0~1000

per mill

4

0~1000

per mill

8

0~1000

per mill

16

0~1000

per mill

32

0~1000

per mill

64

0~1000

per mill

128

NO_FH, BaseBand_FH, RF_FH, Hybrid_FH

None

NO_FH

1~128 characters

None

None

1~200 characters

None

None

0~200 characters

None

None

0~128 characters

None

None

txt, csv

None

csv

0~32

None

FALSE, TRUE

None

None

NO, YES

None

NO

6

INACTIVE, ACTIVE

None

INACTIVE

0~100

per cent

0~65534

s

0

0~65534

s

0

DISABLE, ENABLE

None

60~65534

s

900

60~65534

s

900

FIX_16K_ABIS, FLEX_ABIS, SEMI_ABIS

None

FIX_16K_ABIS

OFF, ON

None

OFF

OFF, ON

None

OFF

0~65535

ms

4500

0~65535

ms

1000

OFF, ON

None

None

OFF, ON

None

ON

OFF, ON

None

ON

OFF, ON

None

ON

OFF, ON

None

ON

80

ENABLE

OFF, ON

None

None

0~20

None

10

0~20

None

10

0~20

None

10

0~20

None

10

0~20

None

10

0~20

None

10

0~20

None

10

0~20

None

10

0~200

None

0

CLOSE, OPEN

None

0~19

None

INDOOR, OUTDOOR

None

None

0~128 characters

None

None

1~100 characters

None

None

1~128 characters

None

None

0~128 characters

None

None

OPEN

5

0~100 characters

None

None

1~256 characters

None

None

1~256 characters

None

None

OPEN, CLOSE

None

OPEN

1~300

s

15

0~30

s

0

Close, Open

None

Close

NO, YES

None

NO

NO, YES

None

YES

0~31

None

None

0~23

None

None

1~30

ms

OFF, ON

None

None

OFF, ON

None

None

OFF, ON

None

None

128~1024

byte

-2715647~2715647

None

2

256

None

0~255

None

0

NO, YES

None

YES

ONTIME, RELATIVE

None

None

ONTIME, DAILY_T, DAILY_C, WEEKLY_T, WEEKLY_C, MONTHLY_T, MONTHLY_C

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

0~1023

None

None

NO, YES

None

NO

0~65535

None

PGSM900, EGSML25, EGSM35M, RGSML25, GSM900_RGSM39M, DCS1800, PCS1900, GSM850, EGSM24M, DCS1800_L, DCS1800_H

None

0~100

per cent

0~1023

None

None

LOOSE, TIGHT

None

LOOSE

1~800 characters

None

None

MainDiversity, MaximumMeanValue

None

MaximumMeanValue

NO, YES

None

YES

May_Use, Shall_Use, Shall_NOT_Use

None

Shall_Use

0~23

None

None

0~23

None

None

0~255

None

None

0~254

None

None

TXT, CSV

None

TXT

0~33

None

None

36671

None

25

1~33

None

None

0~33

None

None

0~255

dB

0~600

s

5

0.5~16, step:0.5

s

4

0~255

dB

0~600

s

1

0.5~16, step:0.5

s

6

0~200000

kbit/s

0

0~200000

kbit/s

0

0~100

per cent

20

0~100

per cent

15

0~200000

kbit/s

0

0~100

per cent

1

0~200000

kbit/s

0

0~100

per cent

0

0~100

per cent

5

20

10

0~200000

kbit/s

0

-100~100

per cent

0~100

None

A0, U1

None

0~31

None

hour{0~23} min{0~59}

None

0~100

None

OFF, ON

None

None

hour{0~23} min{0~59}

None

None

NO, YES

None

NO

OFF, ON

None

OFF

DEG, SEC

None

DEG

NO, YES

None

YES

NO, YES

None

YES

OFF, ON

None

None

0.5~4, step: 1/8

bit

NO, SupportAsInnPcu, SupportAsExtPcu

None

110

10

A0

12

None

40

20

NO

NO, SupportAsInnPcu, SupportAsExtPcu

None

NO

0dB, 2dB, 4dB, 6dB, 8dB, 10dB, 12dB, 14dB

dB

2dB

None

NONGPRS

dB

DB110

s

10sec

GPRS, EGPRSNORCH, EGPRSPRICH, EGPRSSPECH, DB110, DB108, DB106, DB104, DB102, DB100, DB98, NONGPRS DB96, DB94, DB92, DB90, DB88, DB86, DB84, DB82, DB80, DB78, DB76, DB74, DB72, DB70, DB68, DB66, DB64, DB62, DB60, DB58, DB56, DB54, DB52, DB50, 10sec, 20sec, DB48, no use 30sec, 40sec, 50sec, 60sec, 70sec, 80sec, 90sec, 100sec, 110sec, 120sec, 130sec, 140sec, 150sec, 160sec, 170sec, 180sec, 190sec, 200sec, 210sec, 220sec, 230sec, 240sec, 250sec, 260sec, 270sec, 280sec, 290sec, 300sec, 310sec, 320sec, no use

0~7

None

5

0db, 10db, 20db, 30db, 40db, 50db, 60db, infinity, no use

dB

10db

GPS, GLONASS, GPSGlonass

None

GPS

1~60

min

NO, YES

None

NO

0~100000000

None

None

0~100000000

None

None

0~65534

None

None

1~20 characters

None

None

0~512

None

0~2047

None

None

IP

None

None

10

0

LAC_CI, PLMN, LAC, CI

None

None

0~100

per cent

80

1~15

None

10

0~3

None

3

UNSUPPORT, SUPPORT None ECHOREPLY, UNREACH, SOURCEQUENCH, REDIRECT, ECHO, ROUTERADVERT, ROUTERSOLICIT, TIMXCEED, PARAMPROB, TSTAMP, TSTAMPREPLY, IREQ, IREQREPLY, MASKREQ, MASKREPLY None

SUPPORT

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

255.255.255.255

NO, YES

None

NO

0~255

dB

0~600

s

5

0.5~16, step:0.5

s

4

0~255

dB

0.5~16, step:0.5

s

NO, YES

None

NO

NO, YES

dB

NO

1000~600000

None

None

None

20

10

6

0~62

None

None

0.5~8, step:0.5

s

2

0.5~8, step:0.5

s

3

0~65535

None

65535

0~65535

None

65535

DCS1800, PCS1900

None

1~14

None

YES, NO

None

NO

NO, YES

None

NO

NO, YES

None

YES

NO, YES

None

YES

1~10

d

None

UNSUPPORT, SUPPORT

None

UNSUPPORT

SysOpt, OSubcell, USubcell, NoPrefer

None

SysOpt

NO, YES

None

NO

0~63

dB

10

0~63

dB

0

DCS1800

1

BYCELLNAME, BYCGI

None

None

1~64 characters

None

None

HOALGORITHM1, HOALGORITHM2

None

HOALGORITHM1

NO, YES

None

NO

0~16

None

3

0~16

None

3

0~63

dB

0.5~16, step:0.5

s

8

0.5~16, step:0.5

s

8

0~49

dB

0.5~16, step:0.5

s

FREE, INCELL, OUTCELL, OUTST, OUTBSC, OUTSYS, SPCELL

None

0~127

dB

68

0~61

dB

32

Pre_2G_Cell, Pre_3G_Cell, Pre_2G_CellThres

None

0~255

s

0~63

None

50

35

3

None

Pre_2G_CellThres

5

None

0~63

None

None

BaseBand_FH, RF_FH

None

None

NO, YES, NONE

None

YES

0~63

dB

OFF, ON

None

0~63

None

0~23

None

None

NO_FH, BaseBand_FH, RF_FH

None

NO_FH

0~63

dB

63

1~60

min

15

0~63

dB

50

NO, YES

None

0.5~16, step:0.5

s

10

0.5~16, step:0.5

s

10

0.5~16, step:0.5

s

4

SINGLEHOST, PRIMHOST, SLAVEHOST

None

SINGLEHOST

SINGLEHOST, PRIMHOST, SLAVEHOST

None

SINGLEHOST

25

OFF

0

YES

0~63

dB

25

0~63

dB

50

NO_HPANT, YES_HPANT, NONE

None

NONE

NO_HPANT, YES_HPANT

None

None

0~5

None

None

1~14

None

NO, YES

None

35.0~55.6 (step: 0.1)

V

NO, YES

None

NO

NO, YES

None

YES

NO, YES

None

YES

May_Use, Shall_Use, Shall_NOT_Use

None

Shall_Use

0~63

None

0~23

None

None

OFF, ON

None

OFF

0~254

None

None

SBFD, MBFD

None

None

1

NO

440

0

-99~70

degree Celsius

0~30

degree Celsius

None

DISABLE, ENABLE

None

ENABLE

CLOSE, OPEN

None

OPEN

1~9 characters

per cent

80

1~9 characters

per cent

10

0.0~100.0 (step: 0.1)

None

1000

0.0~100.0 (step: 0.1)

None

800

0.0~100.0 (step: 0.1)

None

0

0.0~100.0 (step: 0.1)

None

100

1~30

min

180~1260

s

1~60

min

None

E1PORT0, E1PORT1, E1PORT2, E1PORT3, OPTICALPORT0, OPTICALPORT1

None

None

MAINDOMU, SLAVEDOMU1, SLAVEDOMU2

None

None

60~600

s

0~23

dB

40

15

720

90

4

0~23

dB

10

NO, YES

None

0~10, Step: 0.5

s

4

TCH:480~1920, step:480; SDCCH:470~1880, step:470

ms

4

0~14

dB

0

0~14

dB

4

0~63

dB

7

NO, YES

None

0~10, Step: 0.5

s

OFF, ON

None

OFF

OFF, ON

None

OFF

0~23

dB

0~10, Step: 0.5

s

0~23

dB

13

0~31

dB

10

NO, YES

None

2~600

s

NO

NO

0

10

2

YES

4

0~63

dB

0

0~63

dB

0

0~22

dB

0

0~22

dB

0

0~63

dB

4

0, 1

None

0

5~40

None

20

NO, YES

None

0~63

dB

0

0~30

dB

7

0~10, Step: 0.5

s

5

0~16

None

4

0~63

None

0

2~600

s

8

0~50

dB

0~10

None

6

0~63

dB

4

NO

15

0~160

dB

110

0~23

dB

1

NO, YES

None

NO

OFF, ON

None

OFF

0~63

None

NO, UNDER, INNER, YES

None

UNDER

NO, YES

None

NO

0~23

dB

NO, YES, NULL

None

NO

DISABLE, ENABLE

None

ENABLE

44~1024

byte

64

0~63

None

22

0~63

None

20

0~63

None

18

1~30

None

None

1~30, 100~32767

None

None

0~65535

None

None

20

5

0~255

None

84

0~255

None

0~63

None

BYIDX, BYNAME

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

BYNAME, BYID, BYCGI

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

BYNAME, BYID

None

None

0~255

None

None

BYTLLI, BYIMSI

None

None

BYCELL, BYBSC

None

None

YES, NO

None

YES

0~3071

None

None

Positive, Minus

None

Positive

None

2

0~125

None

0

NO, YES

None

0~32

None

1~15 characters

None

1000~30000

ms

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

0~254

ms

4

1~5

None

2

NO, YES

None

NO

NO, YES

None

NO

0~255

bit

NO, YES

None

0~255

s

1~15 characters

None

None

1~15 characters

None

None

YES

1

None

5000

0

NO

10

500~60000

ms

10000

0~8

bit

4

1~30

d

3

0~360

degree

0~62

None

None

NO, YES

None

NO

0.5~16, step:0.5

s

8

0.5~16, step:0.5

s

10

CELLCAPCLASS, NACCRELATED

None

CELLCAPCLASS

CLOSE, OPEN

None

OPEN

0~39

None

25

0~39

None

12

0~50

W

8

0~3

None

1

0~3

None

0

0~2 None TS0, TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

2

360

None

NO, YES

None

NO

NO, YES

None

YES

0~2047

None

None

1~64 characters

None

None

NO, YES

None

NO

1~255

s

0~63

dB

0~100

per cent

0~335

None

None

0~23

None

None

0~15

None

None

Degree, D_min_sec

None

Degree

NO, YES

None

NO

0~27

None

None

0~23

None

None

0~11

None

None

0~254

None

None

10

5

90

2~3600

s

None

0~127

dB

INTBANI, INTBANII

None

0~127

dB

68

0~255

s

15

0.5~8, step:0.5

s

2

0.5~8, step:0.5

s

3

NO, YES

None

YES

NO, YES

None

YES

48~115

None

110

48~115

None

105

48~115

None

98

48~115

None

92

48~115

None

87

48~115

None

85

0~60

d

480~14880, step: 480

ms

67

INTBANII

3

20

NO, YES

None

NO

1~100

None

NO, YES

None

NO

NO, YES

None

NO

1~49

dB

20

0~49

dB

49

1~49

dB

5

1~91

dB

60

0~91

dB

91

1~91

dB

10

NO, YES

None

NO

{0~4}

None

OFF

1~240

h

72

1~10

s

1

0~31

None

1

0~63

dB

500~60000

ms

80

30

None

500~60000

ms

10000

NO, YES

None

YES

NO, YES

None

NO

500~60000

ms

NO, YES

None

0~49

dB

25

1~255

s

10

0~91

dB

30

0~255

None

None

0~31

None

None

1~1440

min

30~1024

d

None

NO, YES

None

NO

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

10000

None

30

0.0.0.0~255.255.255.255

None

255.255.255.255

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~100

per cent

10

0~100

per cent

5

No_HC, UDP/IP_HC, RTP/UDP/IP_HC

None

UDP/IP_HC

No_HC, UDP/IP_HC, RTP/UDP/IP_HC

None

UDP/IP_HC

0~5

None

None

0~5

None

None

0~12999

None

None

IP_OVER_FE/GE, IP_OVER_E1

None

IP_OVER_FE/GE

IP_OVER_FE/GE, IP_OVER_E1

None

None

NO, YES

None

NO

NO, YES

None

None

NO, YES

None

NO

UNSUPPORT, SUPPORT

None

None

UNSUPPORT, SUPPORT

None

None

NO, YES

None

NO

YES, NO

None

NO

NO, YES

None

YES

NO, YES

None

None

NO, YES

None

YES

NO, YES

None

NO

NO, YES

None

None

NO, YES

None

None

NO, YES

None

NO

STATIC, DYNAMIC

None

None

NO, YES

None

None

NO, YES

None

NO

YES, NO

None

None

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

YES, NO

None

None

NO, YES

None

NO

NO, YES

None

NO

NOT_CONFIG, CONFIG

None

NOT_CONFIG

1~64

None

None

1~30

None

None

TRUE, FALSE

None

None

0~65535

None

ABIS, A, ATER, IUR_G

None

None

PPP, MP

None

None

OVERLAID, UNDERLAID, NONE

None

NONE

CONVERT0, CONVERT1, CONVERT2, CONVERT3

None

CONVERT0

0.5~16, step:0.5

s

8

0.5~16, step:0.5

s

10

Normal_cell, Concentric_cell, EDB_cell

None

Normal_cell

OFF, ON

None

None

Hexadecimal, Character_String

None

Character_String

0~124 characters

None

None

0~124 characters

None

None

NULL, 1byte, 16byte, 64byte

None

None

OFF, ON

None

None

Hexadecimal, Character_String

none

Character_String

0~124 characters

None

None

65535

0~124 characters

None

None

NULL, 1byte, 16byte, 64byte

None

None

OFF, ON

None

None

Hexadecimal, Character_String

None

None

NULL, 1BYTE, 16BYTE, 64BYTE

None

None

0~64 characters

None

None

0~64 characters

None

None

ZERO, SPACE

None

None

DISABLE, ENABLE

None

None

1~255, (step: 20)

ms

None

DENY, ALLOW

None

DENY

NOT-INDICATE-END, INDICATE-END

None

None

0~63

dB

0

1~30

s

2

1~65533, 65535

None

None

1~65533, 65535

None

None

STATIC_LACP, MANUAL_AGGREGATION

None

None

1~5 characters

degree

None

0~90

degree

None

0~90

degree

None

0~59

minute

None

0~9

second

None

0~59

second

None

-90~90, step: 0.000001

degree

None

-90:00:00.000~90:00:00.000

SEC

None

100~10000, step:100

ms

2

0~100

None

4

0~10000

ms

0~15

None

3

0~15

None

8

1, 2, 3, 4

None

3

1, 2, 3, 4

None

3

0~100

None

0

0~300

s

25

20

0~300

s

30

CLOSE, PSDOWN, AMRC, CSPH, CSFHHO

None

CSFHHO

CLOSE, PSDOWN, AMRC, CSPH, CSFHHO

None

PSDOWN

CLOSE, PSDOWN, AMRC, CSPH, CSFHHO

None

AMRC

0~186

None

None

CRITICAL, MAJOR, MINOR

None

None

INFO, WARN, ERR, AST

None

None

ON, OFF

None

None

0~7

None

NO, YES, NONE

None

YES

NO, YES

None

YES

0~63

dB

2

0.5~16, step:0.5

s

4

0.5~16, step:0.5

s

6

0

OAM, TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, FR, HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Pb_TDM, A_TDM, Abis_IP, SAU None

None

TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, FR, HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Pb_TDM, A_TDM, Abis_IP

None

None

IP, Abis_IP

None

None

A/Gb, Abis/Ater/Pb/Gb

None

None

5120~5375

None

None

0~99

None

10

90~99

per cent

90

70~95

per cent

70

0~17407

None

None

DIFFERENCE, ALL

None

DIFFERENCE

64K, 2M

bit/s

64K

0~9 characters

None

1~8 characters None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

10

None

None

0~40

V

35

40~80

V

45

LUCENT_MODE, HUAWEI_MODE, ALCATEL_MODE

None

None

8K, 16K, 32K, 64K, 2M

None

None

M3UA_MASTER_MOD, M3UA_SLAVE_MOD

None

M3UA_MASTER_MOD

B0000, B0001, B0010, B0011, B0100, B0101, B0110, B0111, B1000, B1001, B1010, B1011, B1100, B1101, B1110, B1111

None

B1111

B0000, B0001, B0010, B0011, B0100, B0101, B0110, B0111, B1000, B1001, B1010, B1011, B1100, B1101, B1110, B1111

None

0~100

per cent

RANDOMALG, OTHERALG

None

1~10

s

0~1000

None

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

-64dB ~ 63dB

None

0~255

s

10

0~63

dB

63

1~255

s

10

1~63

dB

5

1~16

None

3

0~63

dB

NO, YES

None

B1111

80

RANDOMALG

4

100

0

25

NO

FORBID, PERMIT

None

PERMIT

0~63

None

40

0~100

per cent

60

0~100

per cent

85

NO, YES

None

YES

NOTSTADYNPDCH, DYNPDCHASOCCUPY, DYNPDCHASIDLE

None

DYNPDCHASIDLE

OFF, ON

None

None

0~65534

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~1023

None

None

0~1

None

None

0~35

None

None

0~35

None

None

1~200 characters

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

OFF, ON

None

ON

1024~65535

None

None

LFB, CL

None

None

NORMMODE, RAPMODENOSERV, RAPMODERESSERV

None

NORMMODE

30~100

per cent

90

30~100

per cent

90

NO, YES

None

None

0~988

None

None

0~5, 8~27

None

None

PFM_RESULT, HOST_PFM_RESULT, 30~100 per cent ACTIVE_DEF_MEAS_FILE, STANDBY_DEF_MEAS_FILE, PFM_SWITCHS, HISTORY_ALARM, HISTORY_FAULT, ALM_SYSTEM_CFG, SECURITY_LOG, OPT_LOG, 30~100 per cent OMU_LOG, BSC_CFG_MML, CELL_BASIC_INFO, BSC_SERIES_NO, DB_BAK, MEM_DB_BAK, BTS_BASIC_INFO, BTS_CHECK_LOG, BTS_DEBUG_LOG, BTS_CHR_LOG, TRX_LOG, BTS_NET_TABLE, ON, OFF None DEBUG_LOG, LAST_WORD, DSP_DEBUG_LOG, HOST_LOG, 2G_CHR_LOG, 2G_UNILATERAL_CONNECT, BSC_INFO, GCSR_LOG, GPSR_LOG, AIDG_LOG, BIOS_LOG None

80

80

ON

None

COMLOG, CMPLOG

None

None

1~5 characters

degree

None

0~180

degree

None

0~180

degree

None

0~59

minute

None

0~9

second

None

0~59

second

None

-180~180, step: 0.000001

degree

None

-180:00:00.000~180:00:00.000

SEC

None

1~3

None

None

BYLOCAL, BYREMOTE

None

None

OFF, ON

None

None

LOOPTYPE_TDM, LOOP_TYPE_LVDS, LOOPTYPE_MCC None

None

0~100

per cent

MSC, MS None NSSAINTF, NSSTCTOABIS, NSSTCTOA, NSSTNUTOABIS, NSSTNUTOA, NSSATERINTF, BSSATERINTF, BSSTCTOABIS, BSSTCTOA, BSSTNUTOABIS, BSSTNUTOA, BSSABISINTF, BTSTMU, BTSTRUDSP None

80

None

None

NO_LOOP, REMOTE_LOOP, LINE_REMOTE_LOOP, LOCAL_LOOP, PAYLOAD_LOOP, SIN_CHN_LOC, CIN_CHN_REM

None

None

NO_LOOP, REMOTE_LOOP, LOCAL_LOOP

None

None

60~600

s

180

1~100

None

1

NO, YES

None

NO

NO, YES

None

NO

OFF, ON

None

ON

OFF, ON

None

OFF

NO, YES

None

NO

NO, YES

None

NO

E1, TIMESLOT

None

None

0~988

None

None

FG2a/GOUa board:0~119;FG2c board:0~489, 512~767;GOUc board:0~499, 512~767;POUc(IP)board:0~988, 1024~1535

None

None

FG2a/GOUa/UOIa(IP) board:0~119;FG2c board:0~489, 512~767;GOUc board:0~499, 512~767;POUc(IP) board:0~988, 1024~1535

None

None

0~5, 8~27

None

None

Hub, Leaf

None

None

IR, LA

None

IR

DISABLE, ENABLE

None

DISABLE

35.0~55.6 (step: 0.1)

V

None

CLOSE, PSDOWN, AMRC, CSPH, CSFHHO

None

CSPH

EXCLUDE, INCLUDE

None

None

HORIZONTAL, VERTICAL

None

HORIZONTAL

HORIZONTAL, VERTICAL

None

HORIZONTAL

APPLICATION, SCNDCPU_PROG, BOOTROM, DATA, DSP, FAN

None

APPLICATION

OPTLOG, SECLOG

None

OPTLOG

OPTLOG, SECLOG

None

None

-99~70

degree Celsius

0

-99~99

degree Celsius

-1

2~255

None

2

2~255

None

8

2~255

None

60

2~255

None

2

0~12

None

0

14, 15, 16, 18, 20, 22, 24, 26, 28, 30, 33, 36, 88

None

20

18, 20, 22, 24, 26, 28, 30, 32, 35, 38, 41, 45, 88

None

30

DISABLE, ENABLE

None

1024~65535

None

ENABLE

2905

0~8191

None

None

0~100

per cent

None

0~100

per cent

None

CA_MA, Frequency_List, OPTIMIZED_CA_MA

None

CA_MA

0~499

None

None

NO, YES

None

YES

NO, YES

None

NO

00:00~23:59

None

None

0~3, Step:0.2

dB

00:00~23:59

None

1~64 characters

None

None

1~64 characters

None

None

0~35

None

None

0~1

None

0~9999

None

None

0~11

None

None

0~11

None

None

0

0:00

0

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

1~20 characters

None

None

1~20 characters

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

255.255.255.255

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~32

dB

0~254

None

None

64~100000, step:64

kbit/s

None

1~20

None

3

0~5

None

2

8

0~5

None

1

0~20

dB

1~2

None

1

1~2

None

1

24~1031

byte

1031

50~200

None

100

1~1500

byte

256

1~1500

None

None

1~255

None

None

10000~150000

None

None

100~100000 (step: 100)

W

0~254

None

0~100

None

3

0~8

None

8

0~100

per cent

0~5

None

1~255

d

10

125

None

30

5

None

1C, 2C, 3C, 4C, 5C, 6C, 7C, 8C, 9C, 10C, 11C, 12C, 13C, 14C, 15C, 16C, 17C, 18C, 19C, 20C, 21C, 22C, 23C, 24C, 25C, 26C, 27C, 28C, 29C, 30C, 31C, 32C, 33C, 34C, 35C, 36C, 37C, 38C, 39C, 40C, 41C, 42C, 43C, 44C, 45C, 46C, 47C, 48C, 49C, 50C, 51C, 52C, 53C, 54C, 55C, 56C, 57C, 58C, 59C, 60C, 61C, 62C, 63C, 64C, 65C, 66C, 67C, 68C, 69C, 70C, 71C, 72C, 73C, 74C, 75C, 76C, 77C, 78C, 79C, 80C, 81C, 82C, 83C, 84C, 85C, 86C, 87C, 88C, 89C, 90C, 91C, 92C, 93C, 94C, 95C, 96C, 97C, 98C, 99C

None

15C

5C, 7C, 10C, 12C, 15C, 18C, 20C, 22C, 25C

None

15C

1~255

None

1_Times, 2_Times, 4_Times, 7_Times

None

7_Times

1_Times, 2_Times, 4_Times, 7_Times

None

7_Times

1_Times, 2_Times, 4_Times, 7_Times

None

7_Times

1_Times, 2_Times, 4_Times, 7_Times

None

7_Times

1~746

byte

1~746

None

0~30

dB

2

0~30

dB

0

0~30

dB

0

0~255

None

62

0~31

None

20

OFF, ON

None

0~255

None

1~24

h

30

64

None

OFF

255

12

0~32

None

32

2~255

None

16

0~32

dB

1~999

d

None

0~511

None

None

0.0.0.0~255.255.255.255

None

None

0~3

None

0

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

2

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

6

0~2047

None

None

1~64 characters

None

None

3 digit

None

None

1~3 characters

None

None

4, 8

None

None

4(Use two bytes to present MC priority number, 4 classes), 8(Use four bytes to present MC priority number, 8 classes)

None

0~2047

None

None

1~64 characters

None

None

8

8

0~62

None

None

ON, OFF

None

OFF

CLASS0, CLASS1, CLASS2

None

CLASS0

0~7

None

None

0~7

None

1~20 characters

None

None

1~20 characters

None

None

NO, YES

None

NO

1~5

s

EnhMeasReport, ComMeasReport

None

ComMeasReport

1~1000

None

None

1~8191

None

None

LocalMep, RemoteMep

None

None

LONG, SHORT

None

LONG

LONG, SHORT

None

LONG

0~63

None

64~100000, step:64

kbit/s

0

3

15

None

0~49

dB

10

0~63

dB

0

10~3500

mA

170

10~3500

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

0~2000

mA

170

10~3500

mA

140

10~3500

mA

140

0~63

dB

16

60~3600

s

60

0~63

dB

10

10~1000

ms

100

10~1000

ms

100

10~1000

ms

100

10~1000

ms

100

0~11

None

None

0~11

None

None

UP, DOWN

None

None

2~3 digit

None

None

1~64 characters

None

None

50~95

per cent

MANUAL, AUTO, FREE

None

AUTO

SERVER, CLIENT

None

None

OFF, ON

None

None

GO, UO, GU

None

None

FIXED, CYCLE

None

None

MODE1, MODE2, MODE3, MODE4

None

None

CHECK_ON_INDEPENDENT_PORT, CHECK_ON_PRIMARY_PORT, CHECK_ON_STANDBY_PORT

None

None

MODE1, MODE2, MODE3

None

MODE1

MODE1, MODE2, MODE3

None

MODE1

80

MODE1, MODE2, MODE3

None

MODE1

MODE1, MODE2, MODE3

None

MODE1

MODE1, MODE2, MODE3

None

MODE1

MODE1, MODE2, MODE3

None

MODE1

30MINS, 60MINS, 120MINS, 240MINS

None

None

1~1440

h

None

0~12

None

None

0~600

m/s

35

0~100

per cent

10

0~100

per cent

5

0~31(PEUa), 0~167(POUc)

None

None

0~167

None

None

0~3

None

None

MODE1_1, MODE2_1, MODE3_1, MODE4_1, MODE5_1, MODE6_1, MODE16K

None

MODE4_1

0~1

None

None

DISABLE, ENABLE

None

ENABLE

MLPPP, MCPPP

None

MCPPP

0~27

None

None

0~11

None

None

NO, YES

None

YES

0~31

None

4

1~255

None

5

NOreport, Twice_ps, Once_ps, Once_2s, Once_4s

None

4~30

dB

4

4~30

dB

4

OFF, ON

None

OFF

OFF, ON_WITH_SDCCH, ON_WITHOUT_SDCCH

None

None

128~1500

None

1500

1~16

None

3

OFF, ON

None

0~65535

None

1800

1~10

None

1

0~1023

None

0

NO, YES

None

Once_ps

OFF

NO

OFFLOAD, NORMAL, UNAVAIL

None

NORMAL

R98_or_below, R99_or_above

None

R98_or_below

5000~40000

ms

1~32 characters

None

None

1~10 characters

None

None

1~10 characters

None

None

1~10 characters

None

None

1~10 characters

None

None

1~10 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

15000

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

NO, YES

None

NO

1_Times, 2_Times, 4_Times, 7_Times

None

4_Times

CLEAR, LOP, FS, MS, EXERS,

None

None

MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9

None

MCS5

10~80

None

0~254

None

0~63

dB

0~255

None

1000~3000

ms

1~600

s

0~31

None

ON, OFF

None

50~95

per cent

ALARM_METHOD, LOOP_METHOD

None

None

0~31(EIUa/OIUa), 0~63(POUc)

None

None

MET, IMP

None

MET

500~1500

None

256~1650

byte

0~1500

None

40

None

10

200

1000

45

2

None

85

800

None

1500

19.0~24.0, step:0.1

V

225

REPORT6, REPORT1, REPORT2, REPORT3

None

REPORT6

0~255

s

None

DISABLE, ENABLE

None

None

0~10

s

None

0~15

min

NO, YES

None

1~1500

ls

1~1500

ls

None

UDPMUX, ABISMUX, ATERMUX

None

None

0~12

None

1~16(FG2a/GOUa), 1~512(FG2c/GOUc)

None

1~3

None

3

5~254

None

5

34~254

None

34

29~254

None

29

OFF, ON

None

0

NO

1000

6

None

OFF

5~254

None

5

5~254

None

5

23~254

None

23

8~30

None

20

2~5

None

3

3~10

None

10

1~255

None

6

1~10

None

3

1~10

None

4

NO, YES

None

NO

1~49 characters

None

None

1~49 characters

None

None

1~31 characters

None

None

1~31 characters

None

None

1~31 characters

None

None

1~31 characters

None

None

1~49 characters

None

None

1~49 characters

None

None

1~31 characters

None

None

1~49 characters

None

None

1~31 characters

None

None

1~50 characters

None

None

NO, YES

None

NO

0~15

None

DISABLE, ENABLE

None

DISABLE

0~5047

None

None

1~64 characters

None

None

0~5047

None

None

1~64 characters

None

None

0~5047

None

None

1~64 characters

None

None

5048~8047

None

None

1~64 characters

None

None

OFF, ON

None

None

2

0~65535

None

None

1~65533, 65535

None

None

1~3 characters

None

None

1~3 characters

None

None

NO, YES

None

NO

NOTSUPPORT, SUPPORT

None

NOTSUPPORT

NO, YES

None

NO

0~7

None

0~7 SELECTION0_PERM, SELECTION1_PERM, SELECTION2_PERM, SELECTION3_PERM, SELECTION4_PERM, SELECTION5_PERM, SELECTION6_PERM, SELECTION7_PERM

None

0~255

None

1

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

4

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

4

0~127

dB

0

0~127

dB

60

0~127

dB

64

0~127

dB

68

None

SELECTION0_PERMNone 1&SELECTION1_PERM1&SELECTION2_PERM1&SELECTION3_PERM1&SELECTION4_PERMNone 1&SELECTION5_PERM1&SELECTION6_PERM1&SELECTION7_PERM1

0~127

dB

72

0~127

dB

74

0~127

dB

76

0~127

dB

80

0~7

None

0

0~7

None

0

NC0, NC1, NC2

None

NC0

NO, YES

None

YES

0.0.0.0~255.255.255.255

None

None

0~60

s

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

INT, INTB, NAT, NATB

None

None

1~62 characters

None

None

NMOI, NMOII, NMOIII

None

NMOII

4

0~255

None

None

0~255

None

None

0~255

None

None

0~255

None

None

40~45

V

43

55~59

V

57

40~45

V

43

55~59

V

57

40~45

V

43

55~59

V

57

40~45

V

43

55~59

V

57

40~45

V

43

55~59

V

57

40~45

V

43

55~59

V

57

NO, YES

None

NO

0~255

dB

2

0~255

dB

30

0~255

dB

1

0~255

dB

95

0~7

None

0~100

per cent

85

0~255

dB

14

0~255

dB

103

NO, YES

None

0~7

None

0~100

per cent

ABIS, A, BSC, TC, IUR_G

None

0~64

None

NO, YES

None

0~70

None

1~1000

Ah

OFF, ON

None

0

NO

2

25

None

8

NO

50

100

ON

NODRX, 0.24sec, 0.48sec, 0.72sec, 0.96sec, 1.20sec, 1.44sec, 1.92sec

s

100~10000

ms

2500

100~10000

ms

2500

FORBID, PERMIT

None

40.0~70.0 (step: 0.1)

degree Celsius

CLOSE, OPEN

None

5~1275, step:5

min

48

10~255

s

30

1~10

None

3

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

2

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

6

0~1023

None

None

0~1023

None

None

NO, YES

None

YES

0~65534

None

None

0~65534

None

None

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

0.24sec

PERMIT

500

CLOSE

2

North_latitude, South_latitude

None

None

0~65534

None

None

0~1023

None

None

0~30

degree Celsius

9

0~30

degree Celsius

16

1~255

None

10

0~100

per cent

0~100

per cent

0

0~100

per cent

0

0~100

per cent

0

0~100

per cent

0

0~63

None

None

OFF, ON

None

None

SITE, CELL, BOARD

None

None

BYCELL, BYTRX

None

None

0~499

None

None

0~499

None

None

None

ALL, BOARD, PORT, DSP

None

None

BTS, CELL, LOC, BOARD, PORT

None

None

CELL, TRX, CHN

None

None

OFF, ON

None

OFF

NO, YES

None

YES

NO, YES

None

NO

OFF, ON

None

None

4~255

s

0~63

None

0~256

kbit/s

64

0~256

kbit/s

64

0~7

None

0~7

None

2~4094

None

0~96

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

10

None

None

1

None

1

1~32 characters

None

None

1~16777215

None

None

1~16777215

None

None

0~4

None

None

PRIM, SEC

None

None

0~3

None

None

OPINDEX0, OPINDEX1, OPINDEX2, OPINDEX3

None

None

NORMAL, FORCE

None

None

BYCICRANGE, BYCICVALUE

None

None

BYTSRANGE, BYTSVALUE

None

None

BYTSRANGE, BYTSVALUE

None

None

BYCICRANGE, BYCICVALUE

None

None

0~255 characters

None

None

SysOpt, OSubcell, USubcell, NoPrefer

None

SysOpt

0~63

dB

35

0~255

bit

63

L0, L1, L2, L3, L4, L5, L6, L7

None

L0

SDH, SONET

None

None

MANUAL, FORCED, CLEARALARMA

None

None

FORBID, RESTORE

None

None

0~4

None

None

0~7

None

None

One_touch, Step_by_Step

None

Step_by_Step

1~200 characters

None

None

0~36

None

0~63

dB

NO, YES

None

500~60000

ms

10000

500~60000

ms

10000

NO, YES

None

0~100

per cent

80

0~50

W

15

0~63

dB

25

NO, YES

None

0

20

YES

NO

YES

1~255

s

1

1~255

s

5

0~63

dB

5

0~100 per cent TS0, TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

50

None

0~335

None

None

0~15

None

None

0~31

None

None

HIGH, LOW

None

HIGH

HIGH, LOW

None

HIGH

HIGH, LOW

None

HIGH

HIGH, LOW

None

HIGH

1.0~200.0 (step: 0.1)

W

None

30.0~53.0 (step: 0.1)

dB

None

0.1dB, 0.1W

None

None

0~100

per cent

NO, YES

None

90

YES

0~27

None

None

0~27

None

None

0~11

None

None

NO, YES

None

NO

NO, YES

None

NO

CLOSE, OPEN

None

CLOSE

1~60

s

0~255

None

10~3500

mA

320

10~3500

mA

320

10~3500

mA

185

10~3500

mA

280

10~3500

mA

280

10~3500

mA

155

100~10000

ms

1500

100~10000

ms

1500

1~255

s

15

None

15

40.0~70.0 (step: 0.1)

degree Celsius

580

50~95

per cent

90

50~95

per cent

85

50~95

per cent

80

50~95

per cent

75

NO, YES

None

NO

NO, YES

None

NO

10~65535

None

180

0~255

ms

255

10~65535

None

220

1~8

None

4

Pan_0, Pan_1, Pan_2, Pan_3, Pan_4, Pan_5, Pan_6, Pan_7, 255

None

Pan_1

Pan_0, Pan_1, Pan_2, Pan_3, Pan_4, Pan_5, Pan_6, Pan_7, 255

None

Pan_2

Pan_4, Pan_8, Pan_12, Pan_16, Pan_20, Pan_24, Pan_28, Pan_32, 255 None

Pan_20

L0, L1, L2, L3, L4, L5, L6, L7

None

L0

0~9999

None

None

0~99

None

None

ENABLED, DISABLED

None

DISABLED

0~65535

None

None

0~65535

None

None

0~25.5, step:0.01

dB

NO, YES

None

NO

QoS, BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

None

None

MAINCPU_PATCH, DSP_PATCH, UCODE_PATCH

None

None

DB0, DB2, DB4, DB6, DB8, DB10, DB12, DB14, DB16, DB18, DB20, DB22, DB24, DB26, DB28, DB30

dB

DB2

NO, YES

None

YES

0.5~16, step:0.5

s

0~127

dB

0.5~16, step:0.5

s

6

0~65535

None

2

TCH:480~7200, step:480; SDCCH:470~7050, step:470

ms

3

BCCH, PDCH

None

PDCH

0~31

None

None

0~31

None

None

79

4

68

0~31

None

None

0~31

None

None

NO, YES

None

NO

10~160

None

NO, YES

None

NO

NO, YES

None

NO

10~70

None

1~10

s

0~65534

None

None

0~65534

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~2047

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

80

70

5

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

255.255.255.255

1024~65535

None

None

1~63 characters

None

None

NO, YES

None

YES

0~255

s

10

0~63

None

30

0~255

s

255

1~60

s

5

15~720, step:15

min

None

Disable, Enable

None

Enable

Disable, Enable

None

Enable

NO, YES

None

YES

NO, YES

None

NO

0~2

None

2

10~1000

None

660

10~2000

None

660

100~600000

ms

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

None

None

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, , AF43, EF

None

None

NO, YES

None

YES

DISABLE, ENABLE

None

None

5~64

None

10

64~1024

byte

128

2~1500

byte

24~1031

byte

NO, YES

None

20~1500

byte

56

95~512

byte

128

0_level, 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use

None

0~10, step:0.2

dB

1000

None

1031

NO

12_level

0

0_level, 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use

None

13_level

0_level, 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use

None

14_level

0~10, step:0.2

dB

0_level, 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use

None

0~10, step:0.2

dB

0

100~10000, step:100

ms

10

0~1, step:0.001

None

30

A, ABIS

None

None

OFF, ON

None

None

0~600

s

None

30~100

per cent

60

30~100

per cent

60

50~400, step: 50

ms

2

2~15

None

5

CLOSE, OPEN, AUTO

None

30~100

per cent

50

30~100

per cent

50

0

16_level

OPEN

ON, OFF

None

ON

0~11

None

None

1~32

None

None

0~3

None

None

0~335

None

None

0~335

None

None

0~335

None

None

0~335

None

None

0~335

None

None

0~7

None

None

0~31(PEUa/EIUa), 0~62(E1 of OIUa), 0~83(T1 of OIUa), 0~251(E1 of POUc), 0~335(T1 of POUc)

None

None

0~31(PEUa/EIUa), 0~62(E1 of OIUa), 0~83(T1 of OIUa), 0~251(E1 of POUc), 0~335(T1 of POUc)

None

None

0~31(PEUa/EIUa), 0~62(E1 of OIUa), 0~83(T1 of OIUa), 0~251(E1 of POUc), 0~335(T1 of POUc)

None

None

0~7

None

None

0~11

None

None

0(OIUa), 0~3(POUc)

None

None

0~7

None

None

0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)

None

None

0~11

None

None

0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)

None

None

0~335

None

None

0~31

None

None

0~335

None

None

0~335

None

None

0~355

None

None

0~255

None

None

0~23

None

None

0~23

None

None

0~335

None

None

0~1

None

None

0~1

None

None

0~255

None

None

250~650

None

650

6~120

None

16

6~120

None

6

NotSupport, Support

None

0~9

None

2

0~9

None

2

0~250 characters

None

None

1~250 characters

None

None

21~65535

None

None

0~1

None

None

0~1

None

None

0~15

None

None

1~16

None

IP, HDLC

None

None

CLOSE, OPEN

None

CLOSE

ETHER, TRUNK

None

None

TOPEXTOUTPORT, TOPEXTINPORT

None

None

BCCHNorm, BCCHExt

None

BCCHNorm

BYBTSTYPE, BYBTS

None

None

Support

16

0.1~100.0 (step: 0.1)

kVA

CLOSE, OPEN

None

CLOSE

CLOSE, OPEN

None

CLOSE

CLOSE, OPEN

None

CLOSE

CLOSE, OPEN

None

CLOSE

CLOSE, OPEN

None

CLOSE

CLOSE, OPEN

None

CLOSE

0~1000

None

0~10, step: 0.2

dB

0

0~10, step: 0.2

dB

0

POWER_48_24, POWER_240_24

None

POWER_48_24

220VAC, N48VDC, P24VDC

None

220VAC

80W, 0~13 63W, 60W, 55W, 50W, 45W, 40W, 31W, 30W, 27W, None 26W, 25W, 24W, 21W, 20W, 19W, 18W, 17W, 16W, 15W, 14W, 13_3W, 13W, 12_5W, 12W, 11_5W, 11W, 10W, 9_5W, 9W, 8_5W, 8W, 7_5W, 7W, 6_5W, 6W, 5_5W, 5W, 4_5W, 4W, 3_7W, 3_1W, 3W, 2_5W, 2W, 200mW, DEFAULT None

125

100

0

DEFAULT

0~100

per cent

10

0~100

per cent

5

0~499

None

None

0~499

None

None

0~499

None

None

0~15

None

None

Disable, Enable

None

Disable

0~5

None

YES, NO

None

NO

ALLOWED, NOT_ALLOWED

None

NOT_ALLOWED

OFF, ON

None

OFF

1~255

None

1

0~255

None

60

0, 3, 4, 5, 6

None

6

NO, YES

None

NO

NO, YES

None

NO

30~100

per cent

60

30~100

per cent

60

30~100

per cent

50

30~100

per cent

50

2

ON, OFF

None

ON

PRIOR-1, PRIOR-2, PRIOR-3, PRIOR-4, PRIOR-5, PRIOR6, PRIOR-7, PRIOR-8, PRIOR-9, PRIOR-10, PRIOR-11, PRIOR-12, PRIOR-13, PRIOR-14, PRIOR-15, PRIOR-16 None

None

Prior-1, Prior-2, Prior-3, Prior-4, Prior-5, Prior-6, Prior-7, Prior-8, Prior-9, Prior-10, Prior-11, Prior-12, Prior-13, Prior14, Prior-15, Prior-16

None

Prior-1

0~100

per cent

0, 1, 2, 3, 4, 5, 6, 7, no use

None

2

0~99

None

0

0~99

None

0

HIGH, LOW

None

None

TDME1_O, TDME1_1, FE_E, FE_O, IPOE

None

None

1, 2

None

None

TDME1_O, TDME1_1, FE_E, FE_O, IPOE

None

None

0~200 characters

None

None

DEFAULT, CUSTOMIZDE, DISABLE

None

None

ITUT, ANSI, TTC

None

ITUT

Q933, ANSI

None

Q933

5~300

s

0~255

min

80

15

5

60~3600

s

300

ALL, SINGLE

None

None

ALL, SINGLE

None

None

ALL, PORT, SINGLE

None

None

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, ON

None

ON

OFF, ON

None

OFF

OFF, ON

None

ON

0~100

per cent

100

0~100

per cent

100

NO, YES

None

NO

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

None

None

0~7

None

None

0~7

None

4

1~16

None

6

NO, YES

None

NO

BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF

None

None

0~7

None

None

0~7

None

6

0~63

None

25

COMMONUSRM, SPECUSRM

None

-121~-104

dBm

-109

-121~-104

dBm

-109

OFF, ON

None

10~10000

None

100~600000

ms

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

None

ON

500

1000

NO, YES

None

YES

NO, YES

None

YES

0~63

None

NO, YES

None

None

ON, OFF

None

None

BOOL, VALUE

None

None

123~65534

None

None

0~31

s

GB_OVER_FR, GB_OVER_IP

None

None

BOOL, VALUE

None

BOOL

B8ZS, HDB3, AMI, AMI_ZCS

None

None

E1_DOUBLE_FRAME, E1_CRC4_MULTI_FRAME, T1_SUPER_FRAME, T1_EXTENDED_SUPER_FRAME

None

None

E1_DOUBLE_FRAME, E1_CRC4_MULTI_FRAME, T1_SUPER_FRAME, T1_EXTENDED_SUPER_FRAME

None

None

E1_DOUBLE_FRAME, E1_CRC4_MULTI_FRAME, T1_SUPER_FRAME, T1_EXTENDED_SUPER_FRAME

None

None

0~15

None

None

FE, GE

None

None

APM100, APM200, APM30, EPS4890, EPS4815, SC48200, CUSTOM None

None

35

0

0~200 characters

None

None

1~50 characters

None

None

1~50 characters

None

None

1~65535

ms

0~64 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

6~32 characters

None

None

0~31

None

None

BIT0, BIT1, BIT6, BIT7, BIT8, BIT9, BIT14, BIT15, BIT16, BIT17, BIT22, BIT23, BIT24, BIT25, BIT29, BIT30, BIT31

None

None

BIT0, BIT1, BIT2, BIT3, BIT4, BIT5, BI16, BIT7, BIT8, BIT9, BIT10, BIT11, BIT12

None

None

NO, YES

None

NO

NO, YES

None

NO

PWR2, PWR3

None

PWR3

0~3

None

NO, YES

None

YES

OnlyCurPwrLoc, ALLPwrLoc

None

ALLPwrLoc

500

1

CLASS0, CLASS1, CLASS2

None

None

0~720

min

NO, YES

None

YES

DB0, DB2, DB4, DB6, DB8, DB10, DB12, DB14, DB16, DB18, Default

None

Default

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, ON

None

OFF

0~63

None

None

0~63

None

None

0~63

None

None

0~63

None

None

0~63

None

None

Use_Qsearch_I, Always

None

Use_Qsearch_I

NO, YES

None

NO

1~10

None

0~255

s

1~10

None

5

3

15

2

-98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, -58, -54, Positive infinity(never)

None

TCH:480~15360, step:480; SDCCH:470~15040, step:470

ms

6

TCH:480~15360, step:480; SDCCH:470~15040, step:470

ms

2

NO, YES

None

-98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, -58, -54, Positive infinity(never)

None

15

-98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, -58, -54, Positive infinity(never)

None

15

NO, YES

None

1~16

s

3

1~16

s

5

NONE, DYNAMIC

None

3~20

None

6

3~20

None

6

0~4

dB

2

NO, YES

None

NO

NO, YES

None

NO

AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7

None

AU0-0&AU1-0&AU20&AU3-0&AU4-0&AU50&AU6-0&AU7-0

NO, YES

None

NO

15

NO

NO

NONE

INSIDE_100AH, INSIDE_50AH, OUTSIDE_300AH, OUTSIDE_400AH, OUTSIDE_500AH, OUTSIDE_650AH, OUTSIDE_200AH

None

INSIDE_50AH

007C, 010C, 015C

None

015C

INSIDE_BATTERY, OUTSIDE_BATTERY

None

INSIDE_BATTERY

AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7

None

AU0-0&AU1-0&AU20&AU3-0&AU4-0&AU50&AU6-0&AU7-0

NO, YES

None

NO

INSIDE_100AH, INSIDE_50AH, OUTSIDE_300AH, OUTSIDE_400AH, OUTSIDE_500AH, OUTSIDE_650AH, OUTSIDE_200AH

None

INSIDE_50AH

007C, 010C, 015C

None

015C

INSIDE_BATTERY, OUTSIDE_BATTERY

None

INSIDE_BATTERY

AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7

None

AU0-0&AU1-0&AU20&AU3-0&AU4-0&AU50&AU6-0&AU7-0

NO, YES

None

NO

INSIDE_100AH, INSIDE_50AH, OUTSIDE_300AH, OUTSIDE_400AH, OUTSIDE_500AH, OUTSIDE_650AH, OUTSIDE_200AH

None

INSIDE_50AH

007C, 010C, 015C

None

015C

INSIDE_BATTERY, OUTSIDE_BATTERY

None

INSIDE_BATTERY

0~255

None

0

0~255

None

0

0~255

None

0

0~255

None

None

0~255

None

None

0~255

None

None

-121~-104

dBm

0~63

dB

0~65535

None

5000

-121~-104

dBm

-109

0~7

None

NO, YES

None

0~255

None

0dB, 2dB, 4dB, 6dB, 8dB, 10dB, 12dB, 14dB, no use

dB

2dB

10M, 100M, AUTO

None

100M

ALG1, ALG2, NONE

None

ALG1

DISABLE, ENABLE

None

DISABLE

1~255

None

LASTRBP, APPOINTRBP

None

None

REC_ALL, REC_ERR, REC_NON

None

None

0~249

None

None

-109

16

1

YES

225

4

0~249

None

None

0~249

None

None

INDEPENDENT, DIVIDING, FOURDIVERSITY, MAINDIVERSITY, NONE

None

NONE

0~100

None

NO, YES

None

YES

Same_Band, Diff_Band

None

Diff_Band

0~70

None

50

0~70

None

40

0~63

dB

5

0~63

dB

30

NO, YES

None

YES

NO, YES

None

NO

20~99

None

30

0~70

None

60

NO, YES

None

NO

YES, NO

None

None

0~50

ms

96

10

0~768

None

3

0~31

None

0

0~31

None

0~31

None

0

0~31

None

0

OFF, ON

None

OFF

OFF, ON

None

OFF

NO, YES

None

NO

0~95

None

None

00:00:00~23:59:59

None

None

1~3600

s

REHOSTRIGHTNOW, REHOSTDELAY, REHOSTWHEN

None

REHOSTDELAY

NO, YES

None

None

0~62

None

None

NO, YES

None

NO

OFF, POWERSHARING, RF_FH

None

OFF

0~23

None

None

None

600

0~255

None

None

A, B, NONE

None

NONE

1~31 characters

None

None

1~250 characters

None

None

0~1023

None

None

0~65535

None

None

NO, YES

None

NO

0~7

None

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

YES

0~63

None

6

1~10

s

2

1~32

None

10

1~32

None

1

0~8

None

0

0~16

None

2

5

NO, YES

None

NO

0~65535

min

1~60

min

1~255

None

1~15

min

1~120

s

MSLOST, QUALITYBAD, CELLRESELECT

None

None

NO, YES

None

YES

NO, YES

None

NO

2~5

s

3

2~5

s

3

Noneed, Manually, Reset, Normally, Correlative, Configuration, Expired

None

0~86400

s

0~190

None

0

0~21

None

5

0~255

s

1~100

None

5

None

3

None

10

None

30

10

1

NO, YES

None

NO

RGPS, GPS

None

GPS

NO, YES None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

NO

1920~30720, step: 480

52_Times

ms

None

STANDALONETC, MASTERINPOOLTC, SLAVEINPOOLTC None

STANDALONETC

0~4095

None

None

0~16, 255

None

0~16

None

None

1~64 characters

None

None

0~200 characters

None

None

1~100

None

None

1~100

None

None

DISABLE, ENABLE, UNSUPPORT

None

DISABLE

0.48sec, 0.96sec, 1.92sec, 3.84sec, 7.68sec, 15.36sec, 30.72sec, 61.44sec

s

15.36sec

0.48sec, 0.96sec, 1.92sec, 3.84sec, 7.68sec, 15.36sec, 30.72sec, 61.44sec

s

0.96sec

20~99

None

255

20

NO, YES, NONE

None

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

2

TCH:0~14880, step:480; SDCCH:0~14570, step:470

ms

6

0~2047

None

None

SHARE

None

None

SHARE, EXCLUSIVE

None

None

0~255

s

5

0~63

dB

3

0~63

dB

30

BASIS_OF_B1, BASIS_OF_B2

None

None

None

None

dB

MINUS_2db

0~64

kbit/s

None

0~63

None

None

0~7

None

None

0~64

kbit/s

None

2~4094

None

None

MINUS_52db, MINUS_48db, MINUS_44db, MINUS_40db, MINUS_36db, MINUS_28db, MINUS_24db, BASIS_OF_B1,MINUS_32db, BASIS_OF_B2 MINUS_20db, MINUS_16db, MINUS_12db, MINUS_10db, MINUS_8db, MINUS_6db, MINUS_4db, MINUS_2db, Zerodb, 2db, 4db, 6db, 8db, 10db, 12db, 16db, 20db, 24db, 28db, 32db, 36db, 40db, 44db, 48db, no use

NO

0~96

None

4

COMMISSIONING, UPGRADE, RESTORE

None

0~127

dB

1~63 character

None

None

1~50 characters

None

None

OFF, ON

None

OFF

1~65535

ms

0~190

None

OFF, ON

None

None

0~4294967295

None

None

OFF, ON

None

None

OFF, ON

None

None

OFF, ON

None

None

OFF, ON

None

None

OFF, ON

None

None

0~4294967295

None

None

0~4294967295

None

None

None

68

3000

0

0~4294967295

None

None

0~3

None

NON-REVERTIVE, REVERTIVE

None

0~4294967295

None

1~5

per cent

OFF, ON

None

ON

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~15

None

None

0~100

per cent

12

0~100

per cent

25

500~60000

ms

1000

500~60000

ms

3000

500~60000

ms

1000

DISABLE, ENABLE

None

10~80

None

NEXTHOP, OUTIF

None

2

None

4294967295

1

DISABLE

30

None

0~1000

None

5

1~100

None

5

0~999

None

None

1~3000000

kbit/s

None

0~4000000

kbit/s

None

0~63

None

2

0~70

None

5

0~63

dB

8

NO, YES

None

0~70

None

60

0~70

None

42

0~70

None

41

0~70

None

40

0~70

None

50

0~70

None

49

0~70

None

48

0~70

None

47

NO

0~70

None

46

0~70

None

45

0~70

None

44

0~70

None

43

0~249

None

None

0~249

None

None

0~249

None

None

RXUNAME, RXUPOS, SRNSN

None

None

RXUNAME, RXUPOS, SRNSN

None

None

1~64 characters

None

None

1~64 characters

None

None

1~64 characters

None

None

1~6

None

None

1~6

None

None

1~6

None

None

DRRU, DRFU, MRRU, MRFU, GRRU, GRFU, BTS3900E

None

None

OFF, ON

None

OFF

48VDISABLE, RES0, RES1, RES2, 0~15 TSDISABLED, HSDISABLED, RES3, RES4

None

None

None

None

BT1_DISABLE(0), AH_DISABLE(1), AT1_DISABLE(2), AT2_DISABLE(3), BT2_DISABLE(4)

None

None

NO, YES

None

NO

NO, YES

None

NO

0~2

None

1

0~4

None

3

T1_DISABLE, ET_DISABLE, ET1_DISABLE, ET2_DISABLE, T2_DISABLE None

None

0~2047

None

None

BYNAME, BYID

None

BYNAME

1~16

None

0~100

per cent

1~64 characters

None

0~30240, step: 480

ms

WATER_IMMERSED, SMOG, GM_DISABLE WIDISABLE, SMDISABLE, IMDISABLE, GMDISABLE WILOW, SMLOW, IMLOW, GMLOW,

None

None

None

None

None

None

5

50

None

32

NO, YES

None

None

WS_DISABLE(0), SS_DISABLE(1), GS_DISABLE(2)

None

None

0~2047

None

None

1~64 characters

None

None

ADD0dB, ADD10dB, Automatic

None

ADD0dB

0~63

None

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

38

4

0~2047 None GERMAN, ENGLISH, ITALIAN, FRENCH, SPANISH, DUTCH, SWEDISH, DANISH, PORTUGUESE, FINNISH, NORWEGIAN, GREEK, TURKISH, HUNGARIAN, POLISH, GB2312, KOI8-R, KOI8-U, KOI8, WINDOWS-1251, 1~64 characters None ASMO_449, WINDOWS-1256, WINDOWS-874, WINDOWS1253, WINDOWS-1254, WINDOWS-1255, WINDOWS-1257, WINDOWS-1250, WINDOWS-1252, BINARY, UCS2, RCS-1, RCS-2, RCS-3, RCS-4, RCS-5 None

None

0~1

None

None

Valid command string, without the ';'at the end of the string.

None

None

BYBTSID, BYCELLID

None

None

0~23

None

None

0~511

None

None

1~2147483646

None

0~1199

None

None

None

1

None

2000-1-1~2037-12-31

None

None

2000-1-1~2037-12-31

None

None

2000-1-1~2037-12-31

None

None

7~90

d

None

1E-3, 1E-4, 1E-5, 1E-6, 1E-7, 1E-8, 1E-9

None

2000-01-01~2050-12-31

None

None

1~31

d

None

1~191

None

OFF, ON

None

0~10, step:0.1

s

0~63

dB

0~70

None

0~63

dB

0~70

None

NO, YES

None

YES

DISABLE, ENABLE

None

None

OFF, ON

None

OFF

1.00E-06

1

OFF

10

6

55

6

55

DISABLE, ENABLE

None

ENABLE

0~60

s

2

0~5

None

1

0~255

s

40

0~63

dB

30

0~63

None

48

HIGH, LOW

None

40~70

degree Celsius

0~65535

s

None

0~65535

s

None

35.0~55.6 (step: 0.1)

V

None

NO, YES

None

YES

1~63 characters

None

None

NO, YES

None

YES

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

None

53

NO, YES

None

YES

NoPriority, Priority4, Priority3, Priority2, Priority1, Priority0, PriorityB, PriorityA

None

NoPriority

NoPriority, Priority4, Priority3, Priority2, Priority1, Priority0, PriorityB, PriorityA

None

NoPriority

NO, YES

None

None

NO, YES

None

NO

NO, YES

None

YES

NO, YES

None

YES

0~6

None

None

SUPPORT, UNSUPPORT

None

UNSUPPORT

1000~65535

None

None

1000~65535

None

None

1~17 characters

None

None

0.0.0.0~255.255.255.255

None

None

SEPARATE, TOGETHER, AIP

None

SEPARATE

TDM, HDLC, HubBTS, IP

None

TDM

TDM, HDLC, IP

None

None

SYSTEM, CONFIG, MAINTAIN, STAT, ALARM

None

None

OML, RSL, EML, ESL, CSVOICE, CSDATA, PSHIGHPRI, PSLOWPRI, OTHERDATA

None

None

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

0~5

None

None

0~65535

None

1~20 characters

None

1~10

None

1

0~1023

None

0

NO, YES

None

NO

Release 98 or older, Release 99 onwards

None

Release 99 onwards

UNISTALL, ALLOW, DENY

None

ALLOW

50~95

per cent

0~27

None

None

NO, YES

None

NO

unshielded, shielded

None

None

1800

None

75

0~12

h

3

NO, YES

None

YES

NO, YES

None

NO

1~10

None

0~186

None

None

0~186

None

None

0~15

None

None

0~255

None

100

0~255

None

100

0~7

None

2

1~10

None

5

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

2

0~15

None

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

2

0~65535

ms

3000

1~32 characters

None

None

1~32 characters

None

None

4

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

1~32 characters

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

0~65535

None

None

0~255

None

0.0.0.0~255.255.255.255

None

None

0~35

None

None

E1SELFLOOP, IASUSELFLOOP

None

None

B0000, B0001, B0010, B0011, B0100, B0101, B0110, B0111, B1000, B1001, B1010, B1011, B1100, B1101, B1110, B1111

None

B0000

1~600

s

DATE, WEEK, DATEWEEK

None

None

0~3

None

None

NOTSUPPORT, INNER, OUTER

None

None

CLOSE, OPEN

None

OPEN

JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC

None

None

2~2000

None

0~27

None

255

300

10

None

0~3, 8~27

None

None

0, 2, 4, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26

None

None

0, 2, 4, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26

None

None

0~5, 8~27

None

None

0~5, 8~27

None

None

0~27

None

None

0~27

None

None

0~27

None

None

0~5, 8~27

None

None

0, 2, 4, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26

None

None

0~27

None

None

{0~27}

None

None

0~23

None

None

0~23

None

0, 2, 4, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26

None

None

0~27

None

None

0~23

None

None

6

0~27

None

None

0~7

None

None

NOCOMB, PBT, WBANDCOMB, DIVERSITY, DDIVERSITY, DPBT, DTIC, NONE None

NONE

SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA None

DOUBLE_ANTENNA

SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA None

DOUBLE_ANTENNA

SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA None

DOUBLE_ANTENNA

SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA None

DOUBLE_ANTENNA

SGL_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA

None

SGL_ANTENNA

1~60

min

None

1~16383(BIT14), 1~65535(BIT16), 1~16777215(BIT24)

None

None

BIT14, BIT16, BIT24

None

None

1~11 characters

None

None

0~65535

None

None

WNF, DNF

None

L11_FORBID, L12_FORBID, L13_FORBID, L14_FORBID, L15_FORBID

None

L11_FORBIDWNF 0&L12_FORBID0&L13_FORBID0&L14_FORBID0&L15_FORBID-0

ET_DISABLE0, ET_DISABLE1, SMDISABLE, WIDISABLE, GMDISABLE, ARRESTER1, ARRESTER2

None

None

SMDISABLE, WIDISABLE, GMDISABLE, ARRESTER1, ARRESTER2

None

None

1~12, step: 5

min

12

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

YES

NO, YES

None

NO

PSMODE, VGCSMODE

None

PSMODE

PSMODE, VGCSMODE

None

PSMODE

FR, EFR

None

FR

1000M, AUTO

None

None

0~63

dB

30

0~255

s

40

NO, YES

None

NO

NOTSPPRTBC, SPPRTSTANDARD, SPPRTSIMPLE

None

NOTSPPRTBC

NO, YES

None

NO

NO, YES

None

NO

UNSUPPORT, SUPPORT

None

UNSUPPORT

UNSUPPORT, SUPPORT

None

UNSUPPORT

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

UNSUPPORT, SUPPORT

None

UNSUPPORT

NO, YES

None

NO

YES, NO

None

None

0~4

None

None

SUPPORT, NOT_SUPPORT

None

NOT_SUPPORT

SUPPORT, NOT_SUPPORT

None

None

SUPPORT, NOT_SUPPORT

None

NOT_SUPPORT

0~2047

None

None

1~64 characters

None

None

0~2047

None

None

1~64 characters

None

None

0~65535

None

None

1~100 characters

None

None

1~4

None

None

1~4

None

None

HOALGORITHM1, HOALGORITHM2

None

HOALGORITHM1

0.0.0.0~255.255.255.255

None

None

1~65533, 65535

None

None

1~3 characters

None

None

1~1000

None

None

1~3 characters

None

None

0~335

None

None

BITS1-2MHZ, BITS2-2MHZ, BITS1-2MBPS, BITS2-2MBPS, GPS, 8KHZ, LINE1_8KHZ, LINE2_8KHZ, BITS1-T1BPS, BITS2-T1BPS None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

None

0~11

None

None

1~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~11

None

None

0~254

None

None

0~254

None

0~11

None

None

0~11

None

None

0~254

None

None

0~11

None

None

0 None

None

0~11

None

None

0~11

None

None

0

1~249 characters

None

None

0~5

None

None

MPS, EPS, TCS

None

None

DES, ASC

None

DES

0~255

None

100

0~255

None

100

GSM_PRIOR, UMTS_PRIOR

None

GSM_PRIOR

CSVOICE, CSDATA, PSHIGHPRI, PSLOWPRI

None

None

0~63

dB

63

20~99

per cent

75

30~100

per cent

85

20~99

per cent

80

30~100

per cent

85

TCH:480~15360, step:480; SDCCH:470~15040, step:470

ms

6

TCH:480~15360, step:480; SDCCH:470~15040, step:470

ms

2

0~7

None

None

0~7

None

None

1~2147483646

None

None

0~63

dB

HOUR, MIN, SEC

None

None

2000-1-1 00:00:00~2037-12-31 23:59:59

None

None

00:00~23:59

None

None

2000-1-1 00:00:00~2037-12-31 23:59:59

None

None

00:00:00~23:59:59

None

None

00:00:00~23:59:59

None

None

1970-1-1 00:00:00~2538-12-31 23:59:59

None

None

1~65535

None

None

NO, YES

None

YES

NO, YES

None

YES

0~65535

None

None

0~65535

None

None

1~31

None

None

-99.0~40.0 (step: 0.1)

degree Celsius

JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC

None

63

-100

None

NO, YES

None

YES

NO, YES

None

YES

0, 2, 4, 6

None

None

60~600

s

00:00~23:59

None

None

8~255

None

None

1~31, step:8

None

None

1~31

None

None

DISABLED, ENABLED

None

ENABLED

DISABLED, ENABLED

None

DISABLED

0~65535

None

None

0~62

None

None

2000-1-1~2037-12-31

None

None

1~32

None

None

NO, YES

None

NO

00:00:00~23:59:59

None

None

NO, YES

None

NO

240

OFF, ON

None

OFF

60~300

s

OFF, ON

None

OFF

0~23

None

None

HOUR{0~23}, MIN{0~59}, SEC{0~59}

None

None

0~23

None

None

0~254

None

None

0~7

None

None

00:00:00~23:59:59

None

None

BTS30, 1~31 BTS312, BTS3001C, BTS3001CP, BTS3002C, BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, BTS3900_GSM, BTS3900A_GSM, BTS3036, BTS3036A, BTS3900L_GSM, BTS3900B_GSM, BTS3900E_GSM

None

None

None

None

1~15

None

None

1~15

None

None

1~64 characters

None

None

16~1023

byte

352

16~1023

byte

352

1~50

None

120

None

1~124, 128~189

None

None

NO, YES

None

NO

NO, YES

None

NO

0, 2, 4, 6

None

None

0~65535

None

None

NO, YES

None

YES

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NOTSUPPORT, SUPPORT

None

NOTSUPPORT

UNSUPPORT, SUPPORT

None

UNSUPPORT

NOTSUPPORT, SUPPORT

None

NOTSUPPORT

UNSUPPORT, SUPPORT

None

UNSUPPORT

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

T_12, T_15, T_20, T_30, T_41, T_55, T_76, T_109, T_163, T_217

None

T_20

0.0.0.0~255.255.255.255

None

None

0~65535

None

None

CLOSE, OPEN

None

CLOSE

ON, OFF

None

None

OFF, ON

None

ON

CLOSE, OPEN

None

None

ON, OFF

None

None

SUN, MON, TUE, WED, THU, FRI, SAT

None

None

CLOSE, OPEN

None

None

ON, OFF

None

None

ON, OFF

None

None

BFD_OFF, BFD_ON

None

None

NO, YES

None

None

CLOSE, OPEN

None

None

NO, YES

None

YES

1~254

None

OFF, ON

None

10

OFF

0~4294967295

None

0

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, ON

None

OFF

OFF, ON

None

OFF

0~4294967295

None

0

0~4294967295

None

0

0~4294967295

None

0

3~5

None

None

OFF, ON

None

ON

FIRST, SECOND, THIRD, FOURTH, LAST

None

None

0~2500

None

SyncCase1, SyncCase2

None

None

AISS, GPS

None

AISS

CONSYN, INTERSYN

None

None

1~7

d

0

1

0~23

h

2

0~59

min

0

1~250 characters

None

None

1~250 characters

None

MBSC

0, 8~11

None

1~250 characters

None

None

NO, YES

None

YES

1~250 characters

None

BSC

1~250 characters

None

None

1000~30000

ms

1~60

s

30000~60000

ms

60000

800~1500

ms

1500

800~1500

ms

1500

2000~3000

ms

3000

800~1500

ms

1500

800~1200

ms

1200

10

3000

5

1000~120000

ms

3000

1~60

s

60~2400 (step: 10)

ms

12

5~1275, step: 5

ms

50

5~1275, step: 5

ms

50

10~2550, step: 10

ms

200

10~2550, step: 10

ms

60

10~2550, step: 10

ms

150

5~1275, step: 5

ms

60

5~1275, step: 5

ms

60

1~10

s

180000~360000

ms

360000

180000~360000

ms

360000

1400~2000

ms

2000

1000~10000

ms

10000

1~60

s

5

0~2550, step:10

ms

7

5

1

1~255

s

10

500ms, 1000ms, 1500ms, 2000ms, 2500ms, 3000ms, 3500ms, 4000ms

ms

500ms

0ms, 80ms, 120ms, 160ms, 200ms, 500ms, 1000ms, 1500ms

ms

500ms

0~1530, step: 6

min

20

5~30

s

10

800~1200

ms

1200

1000~10000

ms

5000

800~1200

ms

1200

1000~30000

ms

1000

800~1200

ms

1200

1000~10000

ms

3000

1000~10000

ms

3000

800~1200

ms

1200

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

4

NO, YES

None

NO

NO, YES

None

YES

0~255

bit

0

0.5~8, step:0.5

s

1

0~255

bit

0~255

s

0

TCH:480~14880, step:480; SDCCH:470~14570, step:470

ms

2

0~7

None

0.5~0.8, step:0.5

s

1

0~255

bit

63

0~25

None

10

0~25

None

10

1~12

None

None

1~12

None

None

30~300

s

90

60~300

s

90

1~254

None

1000~10000

ms

4000

0~500

mV

80

OFF, ON

None

255

None

170

ON

NO, YES

None

NO

0~100

per cent

60

0~1000

per mill

40

0~63

dB

0~70

None

55

0~1000

per mill

40

0~63

dB

0~70

None

0~60

s

2

0~10

None

3

NO, YES

None

1~600

s

OFF, ON

None

0~100

per cent

60

0~100

per cent

70

1~15

None

10

SEPERATE_PRINCIPAL, SEPERATE_SUBORDINATE, TOGETHER, SEPERATE_BSC_INTERFACE

None

6

6

55

YES

60

OFF

None

DISABLE, ENABLE

None

None

0~62

None

None

0~335

None

None

0~4095

None

None

0~5, 8~27

None

None

0~11

None

None

GTC, UTC, ITC

None

None

AUTO, Manual

None

None

AUTO, Manual

None

None

0~42, step: 6

dB

0

Negative infinity, -28~28, step: 4

dB

8

0~36, Positive infinity, step: 6

dB

0

0~1

None

0

0~16383

None

0

NO, YES

None

NO

NO, YES

None

NO

0~63

None

10

0~127

None

None

0~127

None

None

NO, YES

None

NO

0~1

None

None

0~100

per cent

20

0~100

per cent

15

0~5

None

None

0~5

None

None

0~127

None

CLOSE, OPEN

None

1~9 characters

degree Celsius

45

1~9 characters

degree Celsius

0

-50.0~100.0 (step: 0.1)

degree Celsius

500

-49.0~100.0 (step: 0.1)

degree Celsius

500

-50.0~100.0 (step: 0.1)

degree Celsius

0

-50.0~99.0 (step: 0.1)

degree Celsius

0

0.0~500.0 (step: 0.1)

mV

63

OPEN

800

1~64 characters

None

None

1~65535

None

None

32768~65535

None

None

1~64 characters

None

None

50~70

degree Celsius

65

-40.0~0.0 (step: 0.1)

degree Celsius

-100

-40.0~0.0 (step: 0.1)

degree Celsius

-100

NO, YES

None

1~615 characters(GB2312, KOI8-R, KOI8-U, KOI8, WINDOWS-1251, ASMO_449, WINDOWS-1256, 1~255 WINDOWS-874, WINDOWS-1253, WINDOWS-1254, WINDOWS-1255, WINDOWS-1257, WINDOWS-1250, WINDOWS-1252, UCS2), 1~2462 characters(BINARY), 1~1395 characters(others)

YES

s

30

None

None

OFF, ON

None

OFF

0~1023

h

None

0~65535

None

ACTIVE, STANDBY

None

None

0~255

None

None

0.0.0.0~255.255.255.255

None

None

0.0.0.0~255.255.255.255

None

None

65535

0~5, 8~27

None

None

0~11

None

None

5000~60000

ms

220~280

V

264

220~280

V

264

1~10

None

10

1~10

None

6

1~10

None

4

1~10

None

8

1~10

None

4

1~10

None

3

1~10

None

6

1~10

None

3

1~10

None

2

PERCENTAGE, BANDWIDTH

None

1~15

min

5

0~63

dB

30

5000

None

0~7

None

1

0.5~16, step:0.5

s

4

0~100

per cent

0.5~16, step:0.5

s

6

0~7

None

3

OFF, ON

None

0~63

dB

3~15

s

NOLIMIT, LIMIT

None

NOLIMIT

00:00:00~23:59:59

None

None

0, 5~1440

min

None

0~255

s

10

0~255

s

10

0~255

s

10

200~10000

ms

2000

1~65535

ms

3000

1~3

s

80

OFF

40

5

2

1~10

s

2

1~20 (step: 1)

ms

2

0~255

s

1~1024

None

NO, YES, NULL

None

0~255

s

30

10~255

s

40

1~30

s

8

1~15

min

5

7~365

d

None

0~4294967295

None

None

-99~70

degree Celsius

45

-19~5

degree Celsius

-19

-99~99

degree Celsius

-20

00:00~23:59

None

None

00:00~23:59

None

None

00:00~23:59

None

None

10

4

NO

00:00~23:59

None

None

00:00~23:59

None

None

00:00~23:59

None

None

14~163

None

None

0~163

None

None

1~120

min

None

NON_FDR, FDR

None

None

2~4

s

3

0~100

per cent

0

0~4294967294

None

0~100

per cent

8000~12000

ms

12000

30000~90000

ms

60000

0~276

None

None

TRRS, SATEL

None

TRRS

TRRS, SATEL

None

None

-120~-1, 1~120

min

None

None

0

0~7

None

0

0~62

None

None

0~23

None

None

0~254

None

None

NORMAL, FORMAT

None

None

0~5

None

None

1~30

s

30~100

per cent

60

30~100

per cent

60

30~100

per cent

50

30~100

per cent

50

ON, OFF

None

1~255

None

5

1~255

None

5

M3UA_OVERRIDE_MOD, M3UA_LOADSHARE_MOD

None

M3UA_LOADSHARE_MO D

TER_TRANS, SAT_TRANS, TER_AND_SAT_TRANS

None

None

0~27

None

None

8

ON

IP

None

None

IP, HDLC

None

None

IP, HDLC, TDM

None

None

IP, HDLC, TDM

None

None

HDLC IP

None

None

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

NO, YES

None

NO

ENABLE, DISABLE

h

None

5sec, 10sec, 15sec, 20sec, 30sec, 60sec, 120sec, 300sec, no use

s

10sec

0~100

None

0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)

None

None

0~5, 8~27

None

None

0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)

None

None

0~163

None

None

0~199

None

90

2

0~199

None

2

10~199

None

0~199

None

2

0~199

None

2

0~199

None

2

0~199

None

None

OFF, ON

None

None

0~11

None

None

0~11

None

None

0~11

None

None

TRXAid_NotAllow, AllowReForbid, AllowReImmed, AllowReCheckRes

None

AllowReCheckRes

5~10

s

None

0~63, 255

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

None

255

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

0~3071

None

None

1~120 characters

None

None

0~3071

None

None

0~63

None

None

0~71

None

None

0~8

None

None

0~7

None

None

0~7

None

None

NO, YES

None

YES

TRX, TRU, QTRU, DRRU, DRFU, MRRU, MRFU, GRFU, GRRU, BTS3900B, BTS3900E

None

None

8~255

None

None

1~31, step:8 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

None

2~4294967294

None

None

1~31 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

0~7

None

None

0~512

None

None

NO, YES

None

NO

0~65535

None

None

10~1440 (step: 10)

min

None

0~127

None

None

1~50 characters None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31 None

None

0~23

None

None

1~31

None

None

0~7

None

None

None

None

None

None

0

0~50

W

20

0~65535

ms

Close, Open

None

Open

8K, 16K, 32K, 64K

kbit/s

None

0~254

None

None

TRXLOOPBACK, CHLLOOPBACK, CHLCODEC, CPRILOOPBACK

None

None

0~31

None

None

SIMPLETEST, MANUALTEST

None

None

PIM

None

None

NO, YES

None

NO

CHAIN, RING

None

None

1~255

None

64

1~128

s

64

0~8

None

6

00:00~23:59

None

0:00

00:00~23:59

None

0:00

DISABLE, ENABLE, SLEEPING

None

5000

None

0~100

per cent

80

40~79

degree Celsius

50

-99~99

degree Celsius

68

1~60

s

5

1~60

s

10

1~60

s

5

1~60

min

10

1~60

min

5

1~60

s

5

1~60

s

5

TX_3, TX_4, TX_5, TX_6, TX_7, TX_8, TX_9, TX_10, TX_11, TX_12, TX_14, TX_16, TX_20, TX_25, TX_32, TX_50

None

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

TX_32

0~100 (step: 0.01)

W

0

0~100 (step: 0.01)

W

0

1~3000000

kbit/s

None

0~4000000

kbit/s

None

200~10000

ms

500

T_2, T_3, T_4, T_5, T_6, T_7, T_8, T_9, T_10, T_12, T_14, T_16, T_20, T_25, T_32, T_50 None

T_20

EPS, TCS

None

None

ANY_ERR_RETURN, ALL_END_RETURN

None

None

GSM900, DCS1800, GSM900_DCS1800, GSM850, PCS1900, GSM850_1800, GSM850_1900

None

None

BTS30, BTS312, BTS3001C, BTS3001CP, BTS3002C, OUTER, INNER BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, None BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900B_GSM, BTS3900E_GSM, BTS3900_GSM_6RFC, None GSM900, DCS1800, GSM850, PCS1900 BTS3900A_GSM_6RFC, BTS3036_6RFC, BTS3036A_6RFC, APM30, TMC, BBC, APM100, APM200, PS4890, OMB, RFC-6, BTS3900, BTS3900L, BTS3900AL, BTS3900AS, BTS3900B, BTS3900E, VIRTUAL None

INNER

None

None

GSM900, DCS1800

None

None

0~15

None

NO, YES

None

None

1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12

None

None

0~1, 255

None

None

0

0~23, 255

None

None

0~53, 255

None

None

0~15

None

NO, YES

None

None

1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12

None

None

0~1, 255

None

None

0~23, 255

None

None

0~53, 255

None

None

0~15

None

6

0~15

None

0

0~15

None

1

0~15

None

1

0~15

None

10

0~15

None

3

0~15

None

15

0~15

None

5

0~15

None

15

0

0~15

None

13

0~15

None

13

OFF, ON

None

OFF

NO, YES

None

NO

0~15

None

6

0~15

None

0

0~15

None

1

0~15

None

1

0~15

None

10

0~15

None

3

0~15

None

15

0~15

None

1

0~15

None

15

0~15

None

13

0~15

None

13

OFF, ON

None

OFF

NORTPCOMP, RTPCOMP

None

None

NORTPCOMP, RTPCOMP

None

None

1214~2001, 2005~3783, 3786~4783, 4785~65000

None

None

0~65535

None

None

Administrators, Operators, Users, Guests, Customs

None

Guests

0~99

None

80

0~64

None

64

300~1000

ms

0~9 Characters

None

1~8 characters

None

TCH:480~122400, step:480; SDCCH:470~119850, step:470 ms

1000

90

None

3

1~30

dB

14

1~30

dB

14

1~30

dB

16

1~30

dB

16

0.5~4, step:0.5

s

1

0.5~4, step:0.5

s

1

1~255

None

5

0~240

ms

180

1~64

None

15

0~63

dB

10

1~64

None

20

1~64

None

32

1~10

None

3

1~30

dB

16

1~30

dB

16

1~30

dB

18

1~30

dB

18

0~15

None

2

0~15

None

3

0~15

None

3

0~15

None

3

0~15

None

4

0~15

None

15

0~15

None

2

0~15

None

2

1~100

None

90

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

1~30

dB

6

1~30

dB

8

1~100

None

100

0~3

None

0

0~7

None

0

0~7

None

3

TCH:480~9600, step:480; SDCCH:470~9400, step:470

ms

5

0~7

None

3

0~63

dB

5

0~70

None

55

0~70

None

60

0~70

None

55

0~10

None

3

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

3

0~63

dB

18

0~63

dB

18

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

1

0~10

None

6

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

3

TCH:0~9120, step:480; SDCCH:0~8930, step:470

ms

1

0~100

None

6

0~100

None

75

0~63

dB

30

0~63

dB

18

0~63

dB

15

0~63

dB

19

0~63

dB

28

0~63

dB

23

0~63

dB

31

0~63

dB

63

0~63

dB

21

0~63

dB

25

NO, YES

None

1~64

None

NO, YES

None

0~255

s

GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus

None

GSM_PHASE_2

NO, YES

None

None

1~6

None

10~3500

mA

40

10~3500

mA

40

10~3500

mA

40

10~3500

mA

60

10~3500

mA

60

10~3500

mA

60

0~2047

None

None

0~2047

None

None

BYNAME, BYID

None

None

YES

32

NO

10

3

BYNAME, BYID

None

None

1~64 characters

None

None

1~64 characters

None

None

0~15

None

None

CS1, CS2, CS3, CS4

None

CS1

MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9

None

MCS2

10~70

None

MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, UAS7, UAS8, UAS9, UAS10, UAS11

None

MCS6

MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, UAS7, UAS8, UAS9, UAS10, UAS11, UNFIXED

None

UNFIXED

0~5000

ms

CS1, CS2, CS3, CS4, UNFIXED

None

UNFIXED

MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9, UNFIXED

None

UNFIXED

0~70

None

40

0~63

dB

30

10~255

s

30

0~96

None

None

NO, YES

None

YES

20

2000

0~2047

None

None

512~1535

None

None

1~16

s

4

0.1~1, step:0.1

None

6

1~16

s

5

NO, YES

None

0~300

ms

0~64

per cent

10

0~64

per cent

5

0~64

per cent

5

0~64

per cent

5

0~64

per cent

2

0~64

per cent

2

FORBID, PERMIT

None

PERMIT

BYTMSI, BYIMSI, BYMSISDN, BYIMEI

None

None

NOTSUPPORT, SUPPORT

None

NOTSUPPORT

1~32 characters

None

None

NO

120

1~32 characters

None

None

HOUR 0~23 MINUTE 0~59

None

None

HOUR 0~23 MINUTE 0~59

None

None

-99~99

degree Celsius

0~8

None

0~255

s

10

0~63

dB

35

NO, YES

None

1~255

s

5

1~63

dB

5

FDD, TDD

None

None

2 characters

None

None

0~190, 255

None

No_Priority, Public_Network_First, VGCS_First

None

0~190

None

50~95

per cent

NO, YES

None

50

3

NO

255

No_Priority

0

95

NO

NONE, LEVEL4, LEVEL3, LEVEL2, LEVEL1, LEVEL0, LEVELB, LEVELA

None

50~95

per cent

DISABLE, ENABLE

None

DISABLE

DISABLE, ENABLE

None

None

DISABLE, ENABLE

None

DISABLE

DISABLE, ENABLE

None

DISABLE

2~4094

None

None

2~4094

None

None

2~4094

None

2~4094

None

None

2~4094

None

None

2~4094

None

None

0~7

None

None

0~7

None

LEVEL0

90

2

0

NO, YES

None

Full_rate_Ver1, Full_rate_Ver2, Full_rate_Ver3, Half_rate_Ver1, Half_rate_Ver2, Half_rate_Ver3, Full_rate_Ver5

None

FULL_RATE_VER11&FULL_RATE_VER21&FULL_RATE_VER3NO 0&HALF_RATE_VER11&HALF_RATE_VER20&HALF_RATE_VER30&FULL_RATE_VER5-0

CLOSE, OPEN

None

OPEN

1~9 characters

V

28

1~9 characters

V

20

CLOSE, OPEN

None

1~9 characters

V

57

1~9 characters

V

42

14, 15, NO, YES 16, 18, 18, 20, 20, 0~12 22, 22, 24, 24, 26, 26, 28, 1~30 28, 30, 30, 33, 32, 36, 35, 88 38, 41, 45, 88

None

OPEN

YES

None

2

None

3

None

20

None

30

0~12

None

2

0~999

None

4000~33000

ms

27000

3000~34000

ms

34000

3000~34000

ms

26000

0~1000

s

280

1~30

s

15

None

0~60

s

4

0~1000

s

300

INACTIVE, ACTIVE

None

INACTIVE

CLOSE, OPEN

None

OPEN

NOLIMIT, LIMIT

None

NOLIMIT

East_Longitude, West_Longitude

None

None

INACTIVE, ACTIVE

None

INACTIVE

NO, YES

None

None

DENY, ALLOW

None

DENY

SUN, MON, TUE, WED, THU, FRI, SAT

None

None

M3UA_ASP, M3UA_IPSP

None

M3UA_ASP

0~24

h

NO, YES

None

5~1275, step:5

min

0~24

h

NO, YES

None

NO

Active, Standby

None

Active

22

NO

12

8

GSM_AND_UMTS, UMTS, GSM

None

GSM

GO

None

None

E1_UNBA, E1_BA, T1, E1

None

None

GMT-1200(GMT-12:00), GMT-1100(GMT-11:00), GMTE1, T1 None 1000(GMT-10:00), GMT-0930(GMT-09:30), GMT-0900(GMT09:00), GMT-0800(GMT-08:00), GMT-0700(GMT-07:00), GMT-0600(GMT-06:00), GMT-0500(GMT-05:00), GMT1~127 0430(GMT-04:30), GMT-0400(GMT-04:00), GMT-0330(GMT- None 03:30), GMT-0300(GMT-03:00), GMT-0200(GMT-02:00), GMT-0100(GMT-01:00), GMT(GMT), GMT+0100(GMT+01:00), GMT+0200(GMT+02:00), 30~300 s GMT+0300(GMT+03:00), GMT+0330(GMT+03:30), GMT+0400(GMT+04:00), GMT+0430(GMT+04:30), GMT+0500(GMT+05:00), GMT+0530(GMT+05:30), 60~300 s GMT+0545(GMT+05:45), GMT+0600(GMT+06:00), GMT+0630(GMT+06:30), GMT+0700(GMT+07:00), GMT+0800(GMT+08:00), GMT+0845(GMT+08:45), GMT+0900(GMT+09:00), GMT+0930(GMT+09:30), 30~60000 s GMT+1000(GMT+10:00), GMT+1030(GMT+10:30), GMT+1100(GMT+11:00), GMT+1130(GMT+11:30), GMT+1200(GMT+12:00), GMT+1245(GMT+12:45), GMT+1300(GMT+13:00), GMT+1400(GMT+14:00) None

E1

None

90

90

None

GMT+0800

Recommended Value

YES

Impact

Parameter Relationship

50 Cell

None

50 Cell

None

40 Cell

None

FALSE BTS

None

Cell

None

30 BSC

The value of this parameter should be smaller than "AbisFCTimer2".

60 BSC

The value of this parameter should be greater than "AbisFCTimer1".

IDLETSALLOC_0

BTS

None

CLOSE

BTS

None

90 BSC

None

BTS

None

15 Cell

None

NO

It is recommended that the value of this parameter is the same as that for "A Interface Tag". BSC

40 BSC6900

100 BSC

8BIT

Cell

The value of this parameter is the same as those of "Um Interface Tag" and "A Interface Tag".

None

None

None

0 Cell

None

NO

Cell

None

None

Cell

None

Usubcell

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

None

Cell

None

NEUTRAL

Cell

None

0 Cell

None

2 Cell

None

120 Cell

None

Enable

PPP link

None

YES

BTS

None

CLOSE

BSC

None

FLEX 4_75KBIT/S-1&5_15KBIT/S0&5_90KBIT/S-1&6_70KBIT/S0&7_40KBIT/S-1&7_95KBIT/S0&10_2KBIT/S-0&12_2KBIT/S-1

Cell

None

Cell

None

4_75KBIT/S-1&5_15KBIT/S0&5_90KBIT/S-1&6_70KBIT/S0&7_40KBIT/S-1&7_95KBIT/S-0

Cell

None

6_60KBIT/S-1&8_85KBIT/S1&12_65KBIT/S-1

Cell

None

NO

Cell

None

10 BSC6900

None

180 BTS

The value of this parameter must be smaller than "AC Voltage Upper Threshold".

2800 BTS

The value of this parameter must be greater than "AC undervoltage alarm threshold".

1800 BTS

The value of this parameter must be smaller than "AC overvoltage alarm threshold".

280 BTS

The value of this parameter must be greater than "AC Voltage Lower Threshold".

NO

Cell

None

None

BTS

None

0 BSC

None

2 BSC

None

0 BTS

None

None

BSC6900

None

None

BSC6900

None

2 Cell

None

OFF

BTS

None

None

BTS

None

UNLOCK

Cell

None

Unlock

TRX

None

Unlock

Current BFD session

None

None

BSC6900

None

10 BSC6900

None

OFF

BSC6900

None

None

BSC6900

None

None

BTS

None

None

BTS

None

BTS

This parameter can be configured only when "BTS Software Version 1" is configured.

None

CLOSE

400 Board

None

20 Board

None

-50 Board

None

0 Board

None

6 Board

None

Board

20 Board

4 Board

64_Times

Cell

If the number of echo cancellations None performed by AEC exceeds "AEC Detect Threshold" within the time specified by "AEC Detect Time", the If the isnumber echo cancellations TFO closedof forcibly. performed by AEC exceeds "AEC Detect Threshold" within the time specified by "AEC Detect Time", the TFO is closed forcibly.

None

48 Cell

None

None

None

None

None

Board

None

52_Times

Cell

None

32 Cell

None

None

None

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

None

BTS

None

15 Cell

None

None

BSC6900

None

None

BTS

None

NO

BSC

None

YES

BSC

None

YES

BSC

None

YES

BSC

None

YES

BSC

None

NO

BSC

None

ABIS

BSC

None

5 BSC

None

5 BSC

None

5 BSC

None

10 BSC

None

10 BSC

None

10 BSC

None

BSC

None

0 Board

None

-18 Board

None

6 Board

None

-4 Board

None

-23 Board

None

NO

FIXEDGAIN

Board

None

None

Transmission resource group

When "BWMODE" in "ADD RSCGRP" is set to HALF_DUPLEX, this parameter is None valid;if the "BWMODE" in "ADD RSCGRP" of upper class and lower class RSCGRP is set to None HALF_DUPLEX, the "AllBw" in "ADD RSCGRP" of upper class RSCGRP can not less than the "AllBwE" in "ADD RSCGRP" of lower class RSCGRP;The None "AllBw" in "ADD RSCGRP" of upper class RSCGRP can not less than the sum of "TxBw" and "RxBw" in "ADD RSCGRP" of lower class RSCGRP.

ALLOW

BSC

None

OFF

Cell

None

CLOSE

Board

5 BSC

3 BSC

100 Cell

NOTALLOW

BSC

4 Cell

100 Cell

The following condition must be met: "ALLOWAMRHALFRATEUSERPERC" <= "ALLOWHALFRATEUSERPERC".

None

None The following condition must be met: "ALLOWHALFRATEUSERPERC" >= "ALLOWAMRHALFRATEUSERPERC".

ALLCIC

E1/T1 link

None

ALLCIC

PBE1T1

None

30 BTS

None

30 BTS

None

30 BTS

None

30 BTS

None

30 BTS

None

30 BTS

None

None

BTS

None

YES

BTS

None

None

BTS

None

None

BTS

None

10 BTS

None

100 BTS

None

150 BTS

None

0 BTS

The Nonerecommended value of this parameter is greater than twice "Alarm Clear Accumulative Time Threshold" and greater than twice "Flash Alarm Occur Threshold".

0 BTS

None

0 BTS

The recommended value of this parameter is greater than twice "Alarm Clear Times Threshold".

0 BTS

None

NO

BTS

None

all

BSC6900

None

None

BTS

6 Cell

None

0 Cell

None

BSC6900

40 Cell

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

DISABLED

BTS

None

DISABLED

BTS

None

DISABLED

BTS

None

DISABLED

BTS

None

DISABLED

BTS

None

DISABLED

BTS

None This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.

16 Cell

ON

Cell

NO

Cell

5 Cell

0 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

None This parameter is valid when "PWRCTRLSW" in the "SET This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the "SET GCELLBASICPARA" command is set to YES.

0 Cell

3 Cell

5 Cell

2 Cell

8 Cell

33 Cell

25 Cell

NO

Cell

2 Cell

20 Cell

1 Cell

100 Cell

0 Cell

75 Cell

4 Cell

108 Cell

NO

Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: This parameter is valid "AMRDLQLTHRED" >=only when "PWRCTRLSW" in "SET "AMRDLQHTHRED". GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRDLQLTHRED" >= "AMRDLQHTHRED". This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET This parameter is valid only when GCELLPWRBASIC" command is set to "PWRCTRLSW" in "SET PWR2. GCELLPWRBASIC" is set to PWR2. The following condition must be met: This parameter is valid>= only when "AMRDLSSHTHRED" "PWRCTRLSW" in "SET "AMRDLSSLTHRED". GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRDLSSHTHRED" >= "AMRDLSSLTHRED". This parameter is valid only when "HOCTRLSWITCH" is set to This parameter is valid only when HOALGORITHM2. "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when to YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when to YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when to YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when to YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when to YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when to YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when to YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when to YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to YES.

4 Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set This parameter is valid only when to YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to YES. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.

0 Cell

None

Cell

None

55 Cell

None

3 Cell

15 Cell

8 Cell

2 Cell

0 Cell

0 Cell

8 Cell

YES

Cell

3 Cell

ON

NO

Cell

5 Cell

0 Cell

0 Cell

None This parameter is valid when "PWRCTRLSW" in the "SET This parameter is valid when is set to GCELLPWRBASIC" command "PWRCTRLSW" in the "SET PWR2. GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the "SET This parameter is validcommand only when GCELLBASICPARA" is set to "PWRCTRLSW" in "SET YES. GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRULQLOWTHRED" >= "AMRULQHTHRED".

3 Cell

5 Cell

3 Cell

6 Cell

30 Cell

18 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRULQLOWTHRED" >= "AMRULQHTHRED". This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET This parameter is valid only when GCELLPWRBASIC" command is set to "PWRCTRLSW" in "SET PWR2. GCELLPWRBASIC" is set to PWR2. The following condition must be met: This parameter is valid>= only when "AMRULSSHTHRED" "PWRCTRLSW" in "SET "AMRULSSLTHRED". GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRULSSHTHRED" >= "AMRULSSLTHRED".

2 BSC

None

2 MSC

None

6 Board

None

Board

None

12 Board

None

None

None

None

None

None

None

None

IP path

None

None

BSC6900

None

MODE0

Board

None

-13 Board

None

CLOSE

-48 Board

None

CLOSE

Board

None

None

Cell

None

0 BTS

None

NOPOWER

BTS

None

OFF

Board

None

NO

BTS

None

None

None

None

None

TRX

None

None

TRX

None

NULL

BTS

The setting of this parameter depends on "Board Type".

None

MTP3 link

None

None

SCTP link

None

None

BSC

None

20 BSC

None

1024 BSC

None

256 BSC

None

20 BSC

None

10 BSC

None

20 BSC

None

BSC

None

384 BSC

None

None

BSC

None

None

None

None

PRIMARY

None

None

CLOSE

50 TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

100 TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

100 TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

3 Ethernet port

None

3 Ethernet port

None

None

MTP3 link

None

None

ATERCONSL

None

None

MTP3 link

None

None

BSC6900

None

None

BSC6900

OFF

Cell

DISABLE

Cell

35 Cell

In an enhanced concentric cell, if "LOWRXLEVOLFORBIDSWITCH" is set to ON, this parameter and "OTOURECEIVETH" determine whether the current uplink receive level meets the condition for assigning channels of the overlaid subcell during the assignment of the underlaid subcell None channels and overlaid subcell channels. In a normal concentric cell, if "LOWRXLEVOLFORBIDSWITCH" is set None to ON, this parameter, together with "RECLEVTHRES" and "RECLEVHYST", determines whether the current uplink receive level meets None the condition for assigning channels of the overlaid subcell during the assignment of the underlaid subcell channels and overlaid subcell channels.

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

30 BSC

None

10000 Cell

None

30 BSC

None

60 MSC

60 MSC

None This parameter is used with "T18 -s" in flow control over the A interface. The value of this parameter should be smaller than "T18 -s". This parameter is used with "T17 -s" in flow control over the A interface. The value of this parameter should be greater than "T17 -s".

30 BSC

None

30 BSC

NO

30 BSC

None

20 MSC

None

Cell

2 Cell

10 Cell

YES

BSC

Open

BSC

85 BSC

None

MTP3 link

90 BSC

This parameter is valid only when "IUOTP" is set to Concentric_cell. This parameter is valid only when "ATCBHoSwitch" is set to OPEN, "IUOTP" is set to EDB_cell, or "TIGHTBCCHSWITCH" is set to ON. This parameter is valid only when "ATCBHoSwitch" is set to OPEN, "IUOTP" is set to EDB_cell, or "TIGHTBCCHSWITCH" is set to ON. If the resource usage on the Ater interface exceeds the value of None "AterCongstRatio" and this parameter is set to Open, the BSC preferentially selects TCHF when assigning traffic channels. This parameter is valid only when "AterCongHRFlag" is set to OPEN.

None

None

None

E1/T1 link

None

None

BSC

None

None

E1/T1 link

None

None

E1/T1 link

None

None

ATERCONSL

None

TDM

BSC

None

None

None

None

None

MTP3 link

None

YES

Cell

None

0 BTS

None

0 BTS

None

60 None

None

1 E1/T1 port

None

None

BSC6900

None

None

PPP link

None

None

MP group

None

None

BTS

None

None

PPP link

None

None

MP group

None

BTS

None This parameter is required only when "Validate protocol type" is set to "PAP_V" or "CHAP_V" with the "ADD PPPLNK" command.

None

PPP link

None

None

MP group

None

BTS

None This parameter is required only when "Validate protocol type" is set to "PAP_V" or "CHAP_V" in the "ADD PPPLNK" command.

NO_V

PPP link

None

NO_V

MP group

None

NO_V

BTS

None

ENABLE

Ethernet port

None

None

None

None

YES

Cell

None

YES

Cell

None

NO

BSC

None

ENABLED

BTS

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

GSM_PHASE_2 is recommended in Channelized common scenarios. If AMR services, optical port AU4 inter-RAT handover, eMLPP, or A over IP mode needs to be supported, "GSM_PHASE_2Plus" is recommended. BSC

None Generally, the value of this parameter is equal to "Um Interface Tag" and "Um Interface Tag".

None

None

None

LOW

BTS

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

None

BSC6900

None

None

BSC6900

None

55 Cell

None

ALLTLLI

BSC

None

None

BTS

None

None

None

None

None

Ethernet port

BYTRX

BTS

This Noneparameter can work with "BTSPOWEROFFLOCKBCCH" in "SET BTSLOCKBCCH" to determine whether to shut down the TRX that carries the main BCCH.

BTS

This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.

BYCOVER

1 Cell

None

1 Cell

None

1 Cell

None

20 Cell

None

None

None

None

None

BSC6900

None

For EPS4815 boards, the value of this parameter is always "Battery1Temp".

BTS

None

Battery1Temp

BTS

None

50 BTS

None

BTS

None

50 BTS

None

BTS

None

58000 SCTP link

None

NO

NO_BAT

8 TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

36 BTS

None

None

Cell

None

None

Cell

None

None

BTS

None

None

Cell

None

None

Cell

None

None

Cell

None

80 BSC

None

60 BSC

None

14 BSC

None

None BC If "Power System Type" is "APM30", the recommended value is "7". For other Power System Type, the recommended value is "15". BTS

None

565 BTS

NO

None

None The value of this parameter must be greater than "Float charging voltage" and at least two volts lower than "DC Voltage Upper Threshold".

BTS

None

8 Cell

None

4 Cell

None

2 Cell

None

SCCP

None

1 BSC

None

5 Cell

None

1 Cell

This Noneparameter is valid only when the ""INTERRATOUTBSCHOEN"" parameter regarding the "SET GCELLHOBASIC" command is set to YES. This This parameter parameter is is valid valid only only when when "BETTERCELLHOEN" is "HOCTRLSWITCH" is setset to to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. HOALGORITHM2. The following condition must be met: "BETTERCELLSTATTIME" >= "BETTERCELLLASTTIME".

NO

Cell

YES

Cell

4 Cell

None

6 Cell

This parameter is valid only when "BETTERCELLHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "BETTERCELLSTATTIME" >= "BETTERCELLLASTTIME".

Current BFD 3 session

None

Current BFD session

None

30 TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

ALL

Cell

None

None

BSC6900

None

4 Cell

None

2 Cell

None

1 Cell

None

None

BSC6900

If you set "Switch of stat blinking alarm" to "ENABLE", you need to set "Alarm switch of blinking filter" to "ENABLE".

None

BSC6900

None

None

BSC6900

None

BSC6900

If you set "Switch of stat blinking alarm" to "ENABLE", you need to set "Alarm switch of blinking filter" to "ENABLE".

None

4 BSC

None

10 BSC

None

None

Transport channel

None

None

Transport channel

None

None

Transport channel

1000 BSC

None This parameter is valid when "BMTCFFLAG" in the "SET BSCFCPARA" command is set to ON.

NO

MP group

None

None

BSC6900

None

NULL

BTS

None

BTS

The value of this parameter must be greater than or equal to "Position of Break Point 1".

NULL

YES

Cell

1 Cell

69 Cell

1 Cell

This parameter is valid only when "BQHOEN" is set to YES and None "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "BQSTATTIME" >= "BQLASTTIME". This parameter is valid only when "BQHOEN" is set to YES and None "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "BQSTATTIME" >= "BQLASTTIME".

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

BTS

None

None

None

None

None

BTS

None

None

Board

None

None

None

None

None

Ethernet port

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

None

None

The Nonesetting of this parameter must meet the following condition: "FallBack Start Time" > "Ring II Wait Time Before Switch" + "Ring II Try Rotating Duration Time".

0 BTS

None

None

Cell

None

60 Cell

None

BSC6900

1 Cell

None

None

None

BSC

None

NO

BSC

None

None

E1/T1 link

None

None

BSC

None

None

BSC6900

None

None

BSC6900

None

None

Adjacent node

None

None

Cell

None

5 BSC6900

None

None

BSC

None

None

BTS

The IP address must have been configured.

UNCONDITIONALSTART

BSC

None

None

BSC

None

YES

BSC

None

NO

BSC

This parameter is valid only when "BSCPMA" is set to YES.

None

BTS

None

BSC

YES

BSC

YES

BSC

When None "BSCPMA" is set to YES and "BSCQAD" is also set to Yes, highpriority calls try to preempt radio resources of low-priority calls firstly if None radio resources are insufficient. If no radio resources of low-priority calls can be preempted, then the high-priority calls Noneare put into the queue. When "BSCPMA" is set to NO and "BSCQAD" is set to Yes, high-priority calls are directly put into the queue if the radio resources are insufficient.

NO

BSC

This parameter is valid only when "BSCQAD" is set to YES.

65535 BSC

None

65535 BSC

None

65535 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

65535 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

65535 BSC

None

65535 BSC

None

65535 BSC

None

0 BSC

None

0 BSC

None

0 BSC

None

65535 BSC

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

E1/T1 link

When configure TC data, for example, select TC for "BM/TC config Flag", or MTP2 for "Application Type", the parameter should be set.

None

BSC

None

None

BTS

None

10 Cell

None

YES

2_M_PERIOD

Cell

This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_PreprocessingN.

4 Cell

None

Cell

None

1 Cell

None

1 Cell

None

NEITHERSTART

BSC

None

NONSUPPORT

MSC

None

YES

Cell

None

None

None

None

None

None

None

None

None

None

None

E1/T1 port

None

None

Cell

None

None

E1/T1 port

None

None

Board

None

None

Channelized optical port

None

None

IP logical port

None

None

E1/T1 port

None

None

BTS

None

None

BTS

None

None

BTS

The value range of this parameter varies with BTS type. Different types of BTSs support different type of boards.

None

BTS

None

None

BTS

None

None

BTS

None

None

E1/T1 link

None

None

ATERCONSL

None

YES

Cell

None

None

BTS

None

LOGICIP

BTS

None

None

BTS

None

None

BTS

None

CLOSE

BTS

None

None

Adjacent node

None

None

BTS

None

None

BSC6900

None

None

BTS

None

None

None

None

None

BSC6900

None

None

None

None

None

BSC6900

None

None

BTS

UNCONDITIONALSTART

BSC

None The value of BtsLsStartMode should be set when "BssLsGenMode" is set to BTSPRIORITY, BSCPRIORITY, or BTSONLY.

None

BTS

BTS_Preprocessing

Cell

If the value of this parameter is BSC_Preprocessing, the pre-processing None is performed on the BSC. In this case, the following parameters are invalid: "PRIMMESPPT", "BSMSPWRLEV", and "MRPREPROCFREQ".

None

BTS

None

None

BTS

None

None

None

None

ON

BTS

None

NO

BTS

OFF

Cell

None

None

None

BTS

None This parameter is valid when "PWRCTRLSW" in the "SET This parameter is used to caculate GCELLPWRBASIC" command is set to BindWidth of BTSAbisHDLCPath: PWR2. 1. When Transmission compression ratio is within range of [1, 200], BindWidth=16K*(amount of TRXs) + None 64K*(amount of TRXs)*(Transmission compression ratio)/100; 2. When Transmission compression ratio Noneis within range of [200, 250], BindWidth=16K*(amount of TRXs) + 64K*(amount of TRXs)*(200 + (Transmission compression ratio 200)*12)/100.

None

BTS

None

None

BTS

None

None

None

None

16 Cell

Current BFD 3 session

None

None

None

None

NO_BAT

BTS

The Nonesetting of this parameter must meet the following condition: "FallBack Start Time" > "Ring II Wait Time Before Switch" + "Ring II Try Rotating Duration Time".

60 BTS

NO

SCTP link

None

None

Cell

None

None

Cell

None

1000 BSC

None

None

IP logical port

0 BSC6900

None

0 BSC6900

None

20 BSC6900

None

15 BSC6900

None

0 BSC6900

None

1 BSC6900

None

0 BSC6900

None

0 BSC6900

None

5 BSC6900

None

0 BSC6900

None

120 IP logical port

None

The dynamic bandwidth switch is turned only when the IPPM function is activated through "ACT IPPM".

Transmission resource group

None When "GRPT" in "ADD RSCGRP" is set to IP, this parameter is valid.

25 IP logical port

None

80 TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

None

BSC6900

None

C31STANDARD

Cell

None

None

0 Cell

None

BTS

None

If this parameter is set to NO, the average call drop rate decreases. Nonesetting is applicable in suburbs None This or urban areas with poor coverage. Call reestablishment, however, may take Nonea long time. Therefore, the None subscriber may hang up the phone before the call is re-established. Generally, the recommended value is YES. Cell

None

None

None

None

None

None

YES

Cell

None

None

BTS

None

GSM900

BTS

This parameter has relations with DCOM，DCBM board

NULL

IP path

None

The CBA function applies to special None scenarios. If this parameter is set to IP logical port YES and "Cell Bar Qualify" is set to no, only handovers are allowed in a cell, Noneand direct access of an MS is None not allowed. This condition applies to a dual-network coverage cell. For a common cell, this parameter should be set to NO. Cell

None

None

None

None

BSC

None

None

BSC

None

30 BSC

None

BSC

None

None

15 BSC

NO

Cell

4500 IP logical port

3 BSC

2 Cell

6 Cell

None

None

None

None This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" is set to EnhMeasReport. This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" is set to EnhMeasReport.

None

BSC

None

None

BSC6900

None

15 Cell

None

80 Cell

None

46 BSC

None

1000 Ethernet port

None

90 Cell

None

0 Cell

None

0 Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

0 Cell

This parameter is valid only when "EDGE" in "SET GCELLGPRS" is set to YES.

0 Cell

None

0 Cell

None

Permit

Cell

None

OUTDOOR_CELL

Cell

565 BTS

None The value of this parameter must be greater than "Float charging voltage" and at least one volt lower than "DC overvoltage alarm threshold". The value of this parameter must be greater than "Float charging voltage" and at least three volts lower than "DC overvoltage alarm threshold".

268 BTS

The value of this parameter must be smaller than "Even Charging Voltage".

535 BTS

The value of this parameter must be smaller than "Even Charging Voltage".

283 BTS

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

BSC

None

None

Cell

None

None

Cell

None

None

None

None

None

Cell

None

3 Cell

None

None

Cell

None

NO

MSC

None

80 Cell

This parameter is valid only when "SDDYN" in "SET GCELLBASICPARA" is set to YES.

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

255 Cell

The parameter value corresponds to the power None of each passage on the MRRU. If the cell is configured only on one passage of the MRRU, then the power assigned to another passage of the operator must be set to 0.

30 Cell

None

1 Cell

None

4 Cell

None

YES

BTS

430 BTS

2G

None The value of this parameter must be smaller than "DC undervoltage alarm threshold".

Cell

None

30 Cell

None

COMMON

Cell

None

NO

Cell

None

500 BTS

-100 BTS

800 BTS

NO

The value of this parameter must be smaller than "Low Temp Alarm Assembled Bat2".

None The value of this parameter must be greater than "Lower Assembled Bat1 TEMP Measure".

-200 BTS

None

BTS

None

20 Cell

None

1 Cell

None

80 TRX

None

None

BSC6900

None

None

BTS

None

NULL

IP path

None

None

BTS

None

None

None

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

80 ATERCONSL

None

80 ATERCONSL

None

None

Cell

None

None

BSC6900

None

None

BTS

None

90 BSC

None

90 ATERCONSL

None

90 BSC

None

QUICK_HO_NCELL_TYPE_A

Cell

None

None

BTS

None

CAPABILITY

Cell

None

0 Cell

None

Cell

None

100 Cell

None

None

Cell

None

YES

Cell

None

NO

MSC

None

OFF

10 Cell

5 IP path

None When the value of "PATHCHK" in "ADD IPPATH" is set to ENABLED, this parameter is valid.

YES

BSC

None

MODE2

BTS

None

MODE2

BTS

None

None

None

None

None

None

None

NO

10 BTS

None

10 BTS

None

SCTP link

None

NO

SCTP link

None

CRC32

SCTP link

None

None

None

None

None

None

None

None

BTS

None

None

Board

None

None

Physical channel None

None

None

None

None

BTS

None

YES

MSC

None

YES

MSC

None

YES

MSC

None

YES

MSC

None

YES

MSC

None

YES

MSC

None

SYSTEMOPT

MSC

None

Cell

This parameter is valid only when "QTRUPWRSHARE" is not set to NONE.

NO

OFF

BSC

None

100 BSC

None

200 BSC

None

1000 BSC

None

TCHFR

Physical channel None

None

Cell

None

None

Cell

None

None

E1/T1 link

When the value of "OPMODE" of "BLK ACIC" is BYCICVALUE, the value of CIC needs to be set.

None

None

None

0 BSC

None

3 BSC

None

BSC

None

80 BSC

None

5 BSC

None

YES

MSC

None

YES

MSC

None

NOTSENDING

MSC

None

OFF

NOTSENDING

MSC

None

YES

MSC

None

YES

MSC

None

None

IP logical port

None

22 Cell

None

None

BSC6900

None

None

BSC6900

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT.

NO

BSC

None

ERR_PFM_5E6

Board

None

None

None

None

PTP

BTS

None

None

BSC6900

None

None

BTS

None

255 BTS

None

BSC6900

255 BTS

This parameter is valid only when "AntiTheftAllow" is set to YES.

None This parameter is valid only when "AntiTheftAllow" is set to YES.

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

None

BTS

None The value range of this parameter varies with BTS type. Different types of BTSs support a different number of cabinets. The value range of this parameter varies with BTS type. Different types of BTSs support a different number of cabinets.

0 BTS

None

BSC6900

None

None

None

None

None

None

None

30 Cell

None

None

MSC

None

None

NSE

None

None

BSC

None

None

None

None

NONE

BSC

None

None

BSC6900

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

None

None

None

None

None

YES

Cell

None

None

Cell

None

INACTIVE

BTS

None

None

BSC6900

None

L0_FORBID-0&L1_FORBID0&L2_FORBID-0&L3_FORBID0&L4_FORBID-0&L5_FORBID0&L6_FORBID-0&L7_FORBID0&L8_FORBID-0&L9_FORBID-0

None

45 Cell

This parameter is valid only when "PWRBCDALLOWD" is set to YES.

Cell

None

BSC6900

None

100 None

None

NO

Cell

None

None

BTS

None

IP/HDLC:15

BSC6900

None

IP/HDLC:15

BSC6900

None

IP/HDLC:15

BSC6900

None

IP/HDLC:15

BSC6900

None

25 BSC6900

None

25 BSC6900

None

IP/HDLC:25

BSC6900

None

IP/HDLC:25

BSC6900

None

IP/HDLC:25

BSC6900

None

IP/HDLC:25

BSC6900

None

50 BSC6900

None

50 BSC6900

None

NO

Cell

None

None

BSC6900

None

NO

None

None

None

BSC6900

None

None

BSC

None

NO

4 Cell

None

6 Cell

This parameter, together with "BANTIME", limits the handover frequency in the cell.

Ethernet port

None

5 Ethernet port

None

None

None

NO

TRX

This Noneparameter is valid only when "BSCDynSwitchTrxPAAllow" in "SET BSCDSTPA" and "DYNOpenTrxPower" in "SET GCELLBASICPARA" are set to YES.

None

BSC

None

NOTSUPPORT

BTS

None

6dB

Cell

None

None

BSC6900

None

None

BSC6900

None

10 Cell

None

3 Cell

None

0 Cell

None

255 BSC

UNAVAILABLE

None

SCTP link

None

BSC

This parameter is valid only when "CHR Output Mode" is set to "Common User Mode".

5 BSC

This parameter is valid only when "CHR Output Mode" is set to "Common User Mode".

BSC

This parameter is valid only when "CHR Output Mode" is set to "Specified User Mode".

RESINSUFF,UMABNORM,TRAFFR EJECT,MSCREL BSC

This parameter is valid only when "CHR Output Mode" is set to "Common User Mode".

None

OFF

When the interface type is Abis, 100 BSC6900 transmission type is IP, the parameter is AF43; When the interface type is A, Ater or Iur-g, the parameter is AF43. BSC6900

None

When the interface type is Abis and transmission type is HDLC, the parameter is 1.

When the value of "ITFT" in "ADD TRMMAP" is set to ABIS, this parameter is valid.

BSC6900

100 BSC6900

5 Cell

When the value of "ITFT" in "ADD TRMMAP" is set to A or ABIS, this parameter is valid.

None

None

BSC

This parameter is valid only when "CHR Output Mode" is set to "Common User Mode".

BSC

This parameter is valid only when "CHR Output Mode" is set to "Common User Mode".

OFF

BSC

This parameter is valid only when "CHR Output Mode" is set to "Common User Mode".

None

BSC

None

ABNORMREC

BSC

This parameter is valid only when "CHR Output Mode" is set to "Common User Mode".

ON

BSC

None

OFF

BSC

None

90 TRX

None

BSC

None

OFF

OFF

CALL

50 BSC6900 When OFF the interface type is Abis, BSC transmission type is IP, the parameter is EF; When the interface type is A, Ater or Iur-g, the parameter is EF. BSC6900

None This parameter is valid only when "CHR Output Mode" is set to "Specified User Mode". When the value of "ITFT" in "ADD TRMMAP" is set to A or ABIS, this parameter is valid.

When the interface type is Abis and transmission type is HDLC, the parameter is 1.

BSC6900

50 BSC6900

3 Cell

ON

BSC6900

When the value of "ITFT" in "ADD TRMMAP" is set to ABIS, this parameter is valid.

None

None

none

45000 None

None

30000 None

None

1300 None

None

500 None

None

8200 None

None

100 None

None

5000 None

None

1500 None

None

100 None

None

95 Board

None

85 Board

None

None

BSC6900

None

4BURST

Cell

None

None

None

None

BTS

None The value range of this parameter varies with BTS type. Different types of BTSs support a different number of cabinets.

None

BTS

None

None

BTS

None

None

BTS

None

None

Transmission resource group

None

None

BTS

None

None

BTS

None

OFF

BSC6900

None

NO

MSC

None

None

BTS

None

None

None

None

None

None

None

NT14_5K-0&NT12K-1&NT6K1&T14_4K-0&T9_6K-1&T4_8K1&T2_4K-1&T1_2K-0&T600_BITS0&T1200_75-0

NOLIMIT

4 Cell

None

4 Cell

None

Cell

None

BSC6900

None

None

BSC6900

None

None

BSC

None

If the coverage area in the underlaid None is large and tight frequency BTS subcell reuse is used in the overlaid subcell, the recommended value is Inner. If the coverage areas in the overlaid 2 BTS and underlaid subcells are similar and tight frequency reuse is used on the BCCH, the recommended value is Extra. Cell

None

None

None

None

Cell

None

None

Cell

None

None

Cell

None

BTS

None The value range of this parameter varies with BTS type. Different types of BTSs support a different number of cabinets.

None

BTS

The value range of this parameter varies with BTS type.

None

BTS

None

None BTS If "Power System Type" is "SC48200", the recommended value is "470". For Power System Type, the recommended value is "450". BTS

580 BTS

450 BTS

580 BTS

0 Cell

The Nonevalue of this parameter must be greater than "Battery power-off voltage", lower than "DC overvoltage alarm threshold", and at least two volts lower than "Float charging voltage". The value of this parameter must be greater than "DC undervoltage alarm threshold" and at least two volts greater The this parameter must be than value "Evenofcharging voltage". greater than "Battery power-off voltage", lower than "DC overvoltage alarm threshold", and at least three volts lower than "Float charging voltage". The value of this parameter must be greater than "DC Voltage Lower Threshold" and at least one volt greater than "Even charging voltage".

None

1000 Cell

None

None

SCCP

None

None

BSC6900

None

INACTIVE

BTS

None

None

Ethernet port

None

None

BSC6900

None

None

None

None

None

Ethernet port

None

None

BTS

None

None

BTS

None

None

BSC

This parameter is required when the Connection Type is Internal RNC.

None

BSC

This parameter is required when the Connection Type is Internal RNC.

None

BSC

This parameter is required when the Connection Type is Internal RNC.

None

Cell

None

2 Cell

None

Current BFD 3 session

None

BSC6900

None

OFF

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

None

Cell

None

None

BTS

None

None

BTS

None

YES

MSC

None

DEFAULTPORT

BSC6900

None

1 None

None

None

BSC6900

None

None

BSC6900

None

DISABLE

BTS

None

NO

Cell

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

None

NO

MSC

None

YES

Cell

None

NO

Cell

None

3 BSC

None

Cell

None

4 Cell

None

4 Cell

None

4 Cell

None

BTS

None

None

N0

3 Cell

14 Cell

14 Cell

16 Cell

16 Cell

None

NSVC

5 BSC

This parameter is valid only when This parameter isinvalid only when "PWRCTRLSW" "SET "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when "DLAFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SET "DLAFSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when >= "DLAFSREXQUALHIGHTHRED" "PWRCTRLSW" in "SET "DLAFSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when >= "DLAHSREXQUALHIGHTHRED" "PWRCTRLSW" in "SET "DLAFSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLAHSREXQUALHIGHTHRED" >= "DLAFSREXQUALLOWTHRED".

None

None

None Cell The recommended value is 20 when HUAWEI I Handover is used; The recommended value is 15 when HUAWEI II Handover is used. Cell

3 Cell

16 Cell

16 Cell

0 Cell

18 Cell

18 Cell

2 Cell

3 Cell

3 Cell

3 Cell

4 Cell

15 Cell

2 Cell

2 Cell

35 Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu. This parameter is valid when "FRINGEHOEN" is set to YES or "LOADHOEN" is set to YES. This parameter is valid only when This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to "PWRCTRLSW" in "SET YES. GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when "DLFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SET "DLFSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLFSREXQUALHIGHTHRED" >= "DLFSREXQUALLOWTHRED". This parameter is valid only when "PWRCTRLSW" in "SET None GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when>= "DLHSREXQUALHIGHTHRED" "PWRCTRLSW" in "SET "DLHSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLHSREXQUALHIGHTHRED" >= "DLHSREXQUALLOWTHRED". The setting of this parameter must meet the following condition: "DLTHF1" + "DLHYSTF1" < "DLTHF2" + "DLHYSTF2". The setting of this parameter must meet the following condition: "DLTHF2" + "DLHYSTF2" < "DLTHF3" + "DLHYSTF3". The setting of this parameter must meet the following condition: "DLTHF2" + "DLHYSTF2" < "DLTHF3" + "DLHYSTF3". The setting of this parameter must meet the following condition: "DLTHH1" + "DLHYSTH1" < "DLTHH2" + "DLHYSTH2". The setting of this parameter must meet the following condition: "DLTHH2" + "DLHYSTH2" < "DLTHH3" + "DLHYSTH3". The setting of this parameter must meet the following condition: "DLTHH2" + "DLHYSTH2" < "DLTHH3" + "DLHYSTH3". The setting of this parameter must meet the following condition: "DLTHWB1" + "DLHYSTWB1" < "DLTHWB2" + "DLHYSTWB2". The setting of this parameter must meet the following condition: "DLTHWB1" + "DLHYSTWB1" < "DLTHWB2" + "DLHYSTWB2".

None

40 Cell

90 BSC

5 Cell

2 Cell The recommended value is 8 when DTX is disabled. The recommended value is 14 when DTX is enabled. Cell

60 Cell

None This parameter is valid when "PWRCTRLSW" in the "SET None GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the "SET GCELLBASICPARA" command is set to The YES.setting of this parameter must meet the following conditions: "DLLTFERLOWTH" < "DLLTFERTGT"; "DLLTFERLOWTH" < "DLLTFERUPTH". The setting of this parameter must meet the following condition: "LTFERLOWTH" The setting of this parameter must meet < "DLLTFERTGT" < "LTFERUPTH". the following conditions: "DLLTFERUPTH" > "DLLTFERTGT"; "DLLTFERUPTH" > "DLLTFERLOWTH".

2 Cell

None

4 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

8 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

10 Cell

This parameter is valid when "PWRCTRLSW" in the "SET None GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the "SET This parameter is validcommand only when GCELLBASICPARA" is set to "PWRCTRLSW" in "SET YES. GCELLPWRBASIC" is set to PWR2. The following condition must be met: This parameter is valid only when "DLQLOWTHRED" >= "PWRCTRLSW" in "SET "DLQHIGHTHRED". GCELLPWRBASIC" is set to PWR2. The following condition must be met: This parameter is valid "DLQLOWTHRED" >= when "PWRCTRLSW" in the "DLQHIGHTHRED". "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the "SET GCELLBASICPARA" command is set to YES. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.

55 Cell

This parameter is valid only when "BQHOEN" in "SET GCELLHOBASIC" is set to YES.

100 BSC

0 Cell

0 Cell

2 Cell

5 Cell

2 Cell

60 Cell

None

55 Cell

None

3 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

20 Cell

This parameter is valid only when This parameter isinvalid only when "PWRCTRLSW" "SET "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only>= when "DLREXLEVHIGHTHRED" "PWRCTRLSW" in "SET "DLREXLEVLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLREXLEVHIGHTHRED" >= "DLREXLEVLOWTHRED".

1 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

6 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

3 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

1 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

5 Cell

This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.

3 Cell

20 Cell

55 Cell

45 Cell

28 Cell

This parameter is valid only when This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to "PWRCTRLSW" in "SET YES. GCELLPWRBASIC" is set to PWR2. The following condition must be met: This parameter is valid "DLSSHIGHTHRED" >=only when "PWRCTRLSW" in "SET "DLSSLOWTHRED". GCELLPWRBASIC" is set to PWR2. The following condition must be met: "DLSSHIGHTHRED" >= "DLSSLOWTHRED".

140 Cell

None

0 Cell

None

5 Cell

None

12 Cell

17 Cell

The setting of this parameter must meet the following conditions: "DLTHF1" < "DLTHF2"; "DLTHF1" + "DLHYSTF1" < "DLTHF2" + The setting of this parameter must meet "DLHYSTF2". the following conditions: "DLTHF2" < "DLTHF3"; The setting+of"DLHYSTF2" this parameter must meet+ "DLTHF2" < "DLTHF3" the following conditions: "DLHYSTF3". "DLTHF2" < "DLTHF3";

25 Cell

The setting+of"DLHYSTF2" this parameter must meet+ "DLTHF2" < "DLTHF3" the following conditions: "DLHYSTF3". "DLTHH1" < "DLTHH2";

23 Cell

The setting+of"DLHYSTH1" this parameter must meet "DLTHH1" < "DLTHH2" the following conditions: + "DLHYSTH2". "DLTHH2" < "DLTHH3";

31 Cell

The setting+of"DLHYSTH2" this parameter must meet "DLTHH2" < "DLTHH3" the following conditions: + "DLHYSTH3". "DLTHH2" < "DLTHH3";

63 Cell

The setting+of"DLHYSTH2" this parameter must meet "DLTHH2" < "DLTHH3" the following conditions: + "DLHYSTH3". "DLTHWB1" < "DLTHWB2";

12 Cell

The setting of+this parameter must ["DLTHWB1" "DLHYSTWB1" < meet the following conditions: "DLTHWB2" + "DLHYSTWB2". "DLTHWB1" < "DLTHWB2";

18 Cell

["DLTHWB1" + "DLHYSTWB1" < "DLTHWB2" + "DLHYSTWB2".

None

BTS

The setting of this parameter depends on "Board Type".

None

BTS

The setting of this parameter depends on "Board Type".

None

BTS

None

CS2

Cell

None

MCS6

Cell

None

DAS6

Cell

This parameter is valid only when "EGPRS2A" is set to YES.

UNFIXED

Cell

This parameter is valid only when "EGPRS2A" is set to YES.

UNFIXED

Cell

None

UNFIXED

Cell

None

YES

Cell

None

NO

Cell

None

2400 Cell

None

10 Cell

None

5 Cell

None

5 Cell

None

5 Cell

None

2 Cell

None

2 Cell

None

None

None

30 Cell

None This parameter is valid only when "PWRBCDALLOWD" is set to YES.

None

SCCP

When the value of "SPDF" in "ADD N7DPC" is set to DNF, this parameter is valid.

None

SCCP

None

None

E1/T1 link

None

0 E1/T1 link

None

None

BSC

None

None

SCCP

None

None

SCCP

None

None

BSC

DPX of Iur-g type

72 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

1 Cell

None

IP/HDLC:60

BSC6900

None

IP/HDLC:60

BSC6900

None

IP/HDLC:60

BSC6900

None

IP/HDLC:60

BSC6900

None

80 BSC6900

None

80 BSC6900

None

10 BTS

This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.

3 BTS

This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.

2 BTS

This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.

YES

Cell

None

4 Cell

None

INACTIVE

BTS

None

None

PPP link

None

None

MP link

None

48 SCTP link

None

0 Ethernet port

None

BSC6900

None

None

0 BTS

None

180 BSC

None

None

None

None

None

None

None

None

BSC6900

None

None

Board

None

None

BSC

This parameter is valid only when "IDXTYPE" is set to BYCELL.

15 BSC

None

None

BSC6900

None

None

None

None

None

IP route

None

None

Current BFD session

None

None

IP route

None

None

IP route

None

None

IP route

None

None

E1/T1 port

None

None

E1/T1 port

None The value of DTLOADTHRED must be set when "REASSEN" in the "SET GCELLBASICPARA" command is set to DIRECTRYEN.

85 Cell

YES

Cell

None

None

BTS

The setting of this parameter depends on "Board Type".

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

OFF

Cell

None

FULL

BTS

None

None

None

None

None

None

None

None

None

None

None

None

None

20 Cell

None

20 BSC6900

None

None

BTS

None

None

BTS

None

None

BTS

None

20 Cell

None

Cell

None

2 Cell

None

YES

Cell

None

NOTSUPPORT

Cell

None

None

None

None

None

None

None

None

BTS

None

None

None

None

LEVEL0

None

Channelized optical port

None

None

BTS

None

None BTS 1. For a 900/1800 MHz Co-BCCH cell, it is recommended that this parameter be set to Yes. None BTS 2. For a 1800 MHz cell in the dual-band network, it is recommended that this parameter be set to Yes. For other IP path None cells in the dual-band network, it is recommended that this parameter be set to No. 3. 3 Cell When the A5/4-7 encryption algorithm is used, it is recommended that this parameter be set to Yes. 4. When 30 Cell frequencies of the extended frequency band exist on a 900 MHz cell, it is recommended that this parameter be set to Yes. Cell

None

None A 3G neighboring cell can be added into the candidate cell when the When the value ofqueue "PATHCHK" in "ADD following conditions are met: IPPATH" is set to ENABLED, this "INTERRATOUTBSCHOEN" is set to parameter is valid. YES; "BET3GHOEN" is set to YES; the Ec/No of the 3G neighboring cell for a period of time is greater than the sun of "HOECNOTH3G" and "ECNOOFF".

None

None

2147483646 BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

None

None

BSC6900

This Noneparameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met: "EDBSTATTIME" >= This parameter is valid only when "EDBLASTTIME". "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met: "EDBSTATTIME" >= "EDBLASTTIME".

4 Cell

5 Cell

10 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

None

Cell

4 Cell

6 Cell

1 Cell

4 Cell

1 Cell

6 Cell

This parameter is valid only when This parameter valid only when or "GPRS" is set toisSupportAsInnPcu "HOCTRLSWITCH" SupportAsExtPcu. is set to HOALGORITHM2 and "FRINGEHOEN" is set to YES. The following condition This is valid only when mustparameter be met: "EDGEADJSTATTIME" >= "HOCTRLSWITCH" is set to "EDGEADJLASTTIME". HOALGORITHM2 and "FRINGEHOEN" is set to YES. The following condition This is valid only when mustparameter be met: "EDGEADJSTATTIME" >= "HOCTRLSWITCH" is set to "EDGEADJLASTTIME". HOALGORITHM2 and "FRINGEHOEN" is set to YES. The following condition This is valid only >= when mustparameter be met: "EDGESTAT" "HOCTRLSWITCH" is set to "EDGELAST". HOALGORITHM1 and "FRINGEHOEN" is set to YES. The following condition This is valid only when mustparameter be met: "EDGESTAT1" >= "HOCTRLSWITCH" is set to "EDGELAST1". HOALGORITHM2 and "FRINGEHOEN" is set to YES. The following condition This is valid only >= when mustparameter be met: "EDGESTAT" "HOCTRLSWITCH" is set to "EDGELAST". HOALGORITHM1 and "FRINGEHOEN" is set to YES. The following condition must be met: "EDGESTAT1" >= "EDGELAST1".

None

None

None

YES

Cell

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

None

16 Cell

None

7 Cell

None

BSC6900

15 Cell

None

None

OFF

MTP3 link

None

ERR_PFM_1E5

Board

None

None

BSC6900

None

NO

Cell

None

Priority4

Cell

None

NO

BSC

None

None

BSC6900

None

7 BSC

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

NO

BTS

None

None

None

None

A5/0-1&A5/1-0&A5/2-0&A5/30&A5/4-0&A5/5-0&A5/6-0&A5/7-0

Cell

None

AUTO

BSC6900

None

None

BSC6900

None

NO

BSC

None

None

BSC6900

None

None

E1/T1 link

When the value of "OPMODE" of "BLK ACIC" is BYCICRANGE, the value of ENDCIC needs to be set.

None

PBCIC

None

None

BSC

The setting of this parameter must meet the following condition: When "EndMonthDSTPA" and "StartMonthDSTPA" are set to the same value, "EndDayDSTPA" must be later than "StartDayDSTPA".

None

BSC

The value of this parameter must be greater than "Heater Startup Temperature". The setting of this parameter must meet the following condition: "EndMonthDSTPA" is the same as or is later than "StartMonthDSTPA".

None

BTS

None

BSC

When "BSCDynSwitchTrxPAAllow" is set to YES, the value of "EndTimeTACloseTrxPA" must be set.

E1/T1 link

When the value of "OPMODE" of "BLK ATERE1T1" is BYCICRANGE, the value of ENDTS needs to be set.

None

E1/T1 link

When the value of "OPMODE" of "BLK AE1T1" is BYCICRANGE, the value of ENDTS needs to be set.

None

BTS

None

None

BSC6900

None

0 BTS

None

None

ENABLED

BSC6900

70 Cell

This parameter is valid only when "UTOOTRAFHOALLOW" is set to YES. None The following condition must be met: "ENSOVERLDTHRSH" > "ENGOVERLDTHRSH" > "ENLOWLDTHRSH".

OFF

Cell

None

ON

Cell

None

5 Cell

5 Cell

20 Cell

ON

BSC

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. This parameter is valid only when This parameter is GCELL" valid onlyiswhen "IUOTP" in "ADD set to "UTOOTRAFHOALLOW" is set to YES. EDB_cell. The following condition must be met: "ENSOVERLDTHRSH" > "ENGOVERLDTHRSH" > "ENLOWLDTHRSH".

None

ON

BSC

80 Cell

This parameter is valid only when "UTOOTRAFHOALLOW" is set to YES. None The following condition must be met: "ENSOVERLDTHRSH" > "ENGOVERLDTHRSH" > "ENLOWLDTHRSH".

None

Cell

None

None

SCCP

None

None

SCCP

63 Cell

Negotiation with the peer network This parameter is valid only when element is required. "IUOTP" in "ADD GCELL" is set to Concentric_cell and "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2.

OFF

Board

None

None

BSC6900

None

NO

Cell

None

O5E4_R1E4

Board

None

OFF

Board

None

None

BSC6900

None

None

BSC6900

None

0 BSC

None

None

BSC6900

None

2147483646 BSC6900

None

3000 Cell

None

CLOSE

MSC

None

0 BTS

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

ONE_BY_ONE

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

Cell

None

None

BSC6900

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

BSC6900

None

None

None If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of "Upper Limit Noneof Signal Output of External Analog 1" is V; if "Sensor Type of External Analog 1" is set to CURRENT, the unit of "Upper Limit of Signal Output of External Analog 1" is A.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of "Lower Limit of Signal Output of External Analog 1" is V; if "Sensor Type of External Analog 1" is set to CURRENT, the unit of "Lower Limit of Signal Output of External Analog 1" is A. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of "Upper Limit Noneof Measurement Range of External Analog 1" is V; if "Sensor Type of If "SensorAnalog Type of 1" is External 1"External is set to Analog CURRENT, set to VOLTAGE, the unit of "Lower the unit of "Upper Limit of Measurement Limit ofof Measurement Range External Range External Analog 1" isofA. Analog 1" is V; if "Sensor Type of If "SensorAnalog Type of 2" is External 1"External is set to Analog CURRENT, set to VOLTAGE, the unit of "Upper the unit of "Lower Limit of Measurement Limit ofof Signal Output of External Range External Analog 1" is A. Analog 2" is V; if "Sensor Type of If "Sensor Type of External 2" is External Analog 2" is set to Analog CURRENT, set to VOLTAGE, the unit of "Lower the unit of "Upper Limit of Signal Output Limit of Signal Output ofA. External of External Analog 2" is Analog 2" is V; if "Sensor Type of External Analog 2" is set to CURRENT, the unit of "Lower Limit of Signal Output of External Analog 2" is A. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of "Upper Limit Noneof Measurement Range of External Analog 2" is V; if "Sensor Type of If "SensorAnalog Type of 2" is External 2"External is set to Analog CURRENT, set to VOLTAGE, the unit of "Lower the unit of "Upper Limit of Measurement Limit ofof Measurement Range External Range External Analog 2" isofA. Analog 2" is V; if "Sensor Type of If "SensorAnalog Type of 3" is External 2"External is set to Analog CURRENT, set to VOLTAGE, the unit of "Upper the unit of "Lower Limit of Measurement Limit ofof Signal Output of External Range External Analog 2" is A. Analog 3" is V; if "Sensor Type of If "Sensor Type of External 3" is External Analog 3" is set to Analog CURRENT, set to VOLTAGE, the unit of "Lower the unit of "Upper Limit of Signal Output Limit of Signal Output ofA. External of External Analog 3" is Analog 3" is V; if "Sensor Type of External Analog 3" is set to CURRENT, the unit of "Lower Limit of Signal Output of External Analog 3" is A. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of "Upper Limit Noneof Measurement Range of External Analog 3" is V; if "Sensor Type of If "SensorAnalog Type of 3" is External 3"External is set to Analog CURRENT, set to VOLTAGE, the unit of "Lower the unit of "Upper Limit of Measurement Limit ofof Measurement Range External Range External Analog 3" isofA. Analog 3" is V; if "Sensor Type of If "SensorAnalog Type of 4" is External 3"External is set to Analog CURRENT, set to VOLTAGE, the unit of "Upper the unit of "Lower Limit of Measurement Limit ofof Signal Output of External Range External Analog 3" is A. Analog 4" is V; if "Sensor Type of If "Sensor Type of External 4" is External Analog 4" is set to Analog CURRENT, set to VOLTAGE, the unit of "Lower the unit of "Upper Limit of Signal Output Limit of Signal Output ofA. External of External Analog 4" is Analog 4" is V; if "Sensor Type of External Analog 4" is set to CURRENT, the unit of "Lower Limit of Signal Output of External Analog 4" is A.

None

None

None

None

None

None

None

If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of "Upper Limit of Measurement Range of External Analog 4" is V; if "Sensor Type of If "SensorAnalog Type of 4" is External 4"External is set to Analog CURRENT, set to VOLTAGE, the unit of "Lower the unit of "Upper Limit of Measurement Limit ofof Measurement Range External Range External Analog 4" isofA. Analog 4" is V; if "Sensor Type of External Analog 4" is set to CURRENT, the unit of "Lower Limit of Measurement Range of External Analog 4" is A.

NoExclusive

Cell

None

25 Cell

None

30 Cell

This parameter is valid only when "PWRBCDALLOWD" is set to YES.

30 Cell

This parameter is valid only when "PWRBCDALLOWD" is set to YES.

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC6900

None

None

BSC6900

None

CLOSE

Cell

None

YES

BTS

None

EM0

Cell

None

60sec

Cell

None

TYPE1

Cell

None

Normal_cell

Cell

SEND

Cell

If "UPEXTTBFINACTDELAY" in the "SET None GCELLPRIVATEOPTPARA" command is set to 0, "EXTUTBFNODATA" must be 0. If "UPEXTTBFINACTDELAY" is not set to 0, "EXTUTBFNODATA" can be 0 or 1.

8 Cell

None

NO

Cell

None

NO

Cell

None

None

BTS

None

None

Cell

None

30 Cell

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

None

SOFTWARE_CONTROL

BSC6900

None

None

None If this parameter is set to "YES", the following condition must be met: The setting of this parameter must meet the None following condition: "FallBack Start Time" > "Ring II Wait Time Before Switch" + "Ring II Try Rotating Duration Time". None If this parameter is set to "NO", the following condition must be met: "FallBack Start Time" > "Ring I Wait Time Before Switch" + "Ring I Try Rotating Duration Time".

0 Cell

NO

BTS

OFF

Board

None

None

Ethernet port

None

CLOSE

BTS

None

75 TRX

None

None

Ethernet port

0 PPP link

0 MP group

0 IP logical port

None

BSC6900

0 Ethernet port

None

None This index can correspond with any threshold (maximum value of 80) in the None six queues. The following condition must be met: threshold x 64 x 1024 x logical port bandwidth < 4294967295(0xFFFFFFFF).

None

None

None

BSC6900

None

None

BTS

None

None

BTS

None

85 TRX

None

16bit

PPP link

None

16bit

MP link

None

None

None

None

535 BTS

The value of this parameter must be smaller than "Even charging voltage" and at least two volts higher than "DC undervoltage alarm threshold".

None

Cell

None

None

Cell

None

0 Cell

None

0 Cell

None

None

Cell

None

None

Cell

None

10 Cell

None

0 Cell

This Noneparameter is valid only when the ""INTERRATCELLRESELEN"" parameter regarding the "SET GCELLHOBASIC" command is set to YES.

0 Cell

None

8 Cell

None

Cell

None

6 Cell

None

10 Cell

None

Cell

None

4 None

None

2 Cell

RSCP

None

For the double-transceiver BTS and NGBTS, the default value is NO; for other BTS, this parameter is invalid.

Cell

None

2 Cell

None

4 Cell

None

8 Cell

None

16 Cell

None

32 Cell

None

64 Cell

None

128 Cell

None

NO_FH

Cell

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

csv

BSC6900

None

6 Cell

None

NO

None

BSC6900

None

Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

INACTIVE

ENABLE

FIX_16K_ABIS

BTS

None

80 BTS

None

0 BTS

None

0 BTS

None

BTS

None

900 BTS

None

900 BTS

None

BTS

None

When tight frequency reuse is used, the recommended value is ON. Cell

This parameter is valid when "FHMODE" in the "SET GCELLHOPTP" command is not set to NO_FH.

OFF

None

Cell

4500 BSC

None

1000 BSC

None

ON

Ethernet port

None

ON

PPP link

None

ON

MP group

None

ON

IP logical port

None

ON

Ethernet port

None

None

BTS

10 Cell

10 Cell

10 Cell

10 Cell

10 Cell

10 Cell

10 Cell

10 Cell

0 Cell

OPEN

BSC

This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: None This parameter+is"FLTPARAA2" valid only when "FLTPARAA1" + "RXQCKFALLHOEN" in "SET + "FLTPARAA3" + "FLTPARAA4" GCELLHOBASIC" is set to YES.+The "FLTPARAA5" + "FLTPARAA6" following condition must be met: = 80. "FLTPARAA7" "FLTPARAA8" This parameter+ valid only when "FLTPARAA1" +is"FLTPARAA2" + "RXQCKFALLHOEN" in "SET + "FLTPARAA3" + "FLTPARAA4" GCELLHOBASIC" is set to YES.+The "FLTPARAA5" + "FLTPARAA6" following condition must be met: = 80. "FLTPARAA7" "FLTPARAA8" This parameter+ valid only when "FLTPARAA1" +is"FLTPARAA2" + "RXQCKFALLHOEN" in "SET + "FLTPARAA3" + "FLTPARAA4" GCELLHOBASIC" is set to YES.+The "FLTPARAA5" + "FLTPARAA6" following condition must be met: = 80. "FLTPARAA7" "FLTPARAA8" This parameter+ valid only when "FLTPARAA1" +is"FLTPARAA2" + "RXQCKFALLHOEN" in "SET + "FLTPARAA3" + "FLTPARAA4" GCELLHOBASIC" is set to YES.+The "FLTPARAA5" + "FLTPARAA6" following condition must be met: = 80. "FLTPARAA7" "FLTPARAA8" This parameter+ valid only when "FLTPARAA1" +is"FLTPARAA2" + "RXQCKFALLHOEN" in "SET + "FLTPARAA3" + "FLTPARAA4" GCELLHOBASIC" is set to YES.+The "FLTPARAA5" + "FLTPARAA6" following condition must be met: = 80. "FLTPARAA7" "FLTPARAA8" This parameter+ valid only when "FLTPARAA1" +is"FLTPARAA2" + "RXQCKFALLHOEN" in "SET + "FLTPARAA3" + "FLTPARAA4" GCELLHOBASIC" is set to YES.+The "FLTPARAA5" + "FLTPARAA6" following condition must be met: = 80. "FLTPARAA7" "FLTPARAA8" This parameter+ valid only when "FLTPARAA1" +is"FLTPARAA2" + "RXQCKFALLHOEN" in "SET + "FLTPARAA3" + "FLTPARAA4" GCELLHOBASIC" is set to YES.+The "FLTPARAA5" + "FLTPARAA6" following condition must be met: = 80. "FLTPARAA7" + "FLTPARAA8" "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA3" + "FLTPARAA4" + "FLTPARAA5" + "FLTPARAA6" + "FLTPARAA7" + "FLTPARAA8" = 80. This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES.

None

5 Cell

None

None

BTS

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

none

BSC6900

None

None

None

None

None

None

None

OPEN

BSC

None

15 MSC

None

0 Board

None

Close

BSC

None

NO

Cell

None

YES

Cell

None

None

BTS

None

None

BTS

None

2 None

None

None

Cell

None

None

Cell

None

None

Cell

None

None

MP group

None

None

BSC6900

None

0 Cell

None

YES

Cell

None

None

BSC6900

None

None

BSC6900

None

None

TRX

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

NO

Cell

None

36671 Cell

None

BTS

None

25 Cell

None

None

Cell

None

LOOSE

TRX

None

None

BSC

None

MaximumMeanValue

Cell

None

YES

Cell

None

Shall_Use

Cell

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

TXT

BSC6900

None

None

The factor table index is configured by setting the value of "FTI" in "ADD FACTORTABLE".

None

None

None

BSC6900

None

None

BSC6900

None

20 Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.

5 Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.

4 Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.

6 Cell

This parameter is valid only when This parameter is valid only "HOCTRLSWITCH" is set towhen "HOCTRLSWITCH" is set to HOALGORITHM2. HOALGORITHM2. The following condition must be met: This parameter is valid only when "FULLTOHALFHODURATION" >= "HOCTRLSWITCH" is set to "FULLTOHALFHOPERIOD". HOALGORITHM2. The following condition must be met: "FULLTOHALFHOSTATTIME" >= "FULLTOHALFHOLASTTIME".

0 BSC6900

None

0 BSC6900

None

20 BSC6900

None

15 BSC6900

None

0 BSC6900

None

1 BSC6900

None

0 BSC6900

None

0 BSC6900

None

5 BSC6900

None

10 Cell

1 Cell

0 BSC6900

A0

110 BSC

None

10 BSC

None

Board

12 Cell

None

None

None

None

BSC6900

None

40 BSC6900

None

ON

BSC6900

None

None

BSC6900

None

NO

Cell

None

OFF

BSC

None

DEG

None

None

YES

Cell

None

YES

Cell

None

None

BSC6900

None

None

20 Cell

None

Cell

None

NO

Cell

None

2dB

Cell

None

NONGPRS

Physical channel None

DB110

Cell

None

10sec

Cell

None

5 Cell

None

10db

Cell

None

GPS

BTS

None

10 None

None

NO

Cell

None

None

BTS

None

None

BTS

None

None

BSC

None

None

BSC

None

0 BTS

None

None

Transmission resource group

None

None

Transmission resource group

None

LAC_CI

Cell

None

80 BSC6900

None

10 BSC

None

3 Cell

This parameter is valid when "MEASURETYPE" is set to EnhMeasReport.

SUPPORT

Cell

None

None

Ethernet port

None

None

BTS

None

255.255.255.255

BTS

None

NO

BSC

None

20 Cell

5 Cell

4 Cell

10 Cell

6 Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. This parameter is valid only when This parameter is valid only "HOCTRLSWITCH" is set towhen "HOCTRLSWITCH" is set to HOALGORITHM2. HOALGORITHM2. The following condition must be met: "HALFTOFULLHOSTATTIME" >= "HALFTOFULLHOLASTTIME". This parameter is valid only when This parameter is valid only "HOCTRLSWITCH" is set towhen "HOCTRLSWITCH" is set to HOALGORITHM2. HOALGORITHM2. The following condition must be met: "HALFTOFULLHOSTATTIME" >= "HALFTOFULLHOLASTTIME".

NO

BTS

None

NO

BTS

None

1000(application type is M3UA), 5000(application type is BBAP)

SCTP link

None

None

BTS

2 Cell

3 Cell

This Noneparameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: This parameter is valid only when "HCSSTATTIME" >= "HCSLASTTIME". "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "HCSSTATTIME" >= "HCSLASTTIME".

None

BTS

None

None

BTS

None

DCS1800

BSC

None

1 Cell

This parameter is valid only when "HIGHPRIUSERQUALFIRST" is set to YES.

NO

BSC

None

NO

Cell

None

YES

BTS

None

YES

Cell

None

None

BSC6900

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT.

SysOpt

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

NO

BSC

None

None

10 Cell

None

0 Cell

None

None

Cell

None

Cell

HOALGORITHM1

Cell

NO

Cell

When parameter ""Quick handover None enable"" is configured to "YES",then parameter ""Handover Direction The value of this parameter must be the Forecast Enable"" can be configuredinto same as that of "HOCTRLSWITCH" "YES".Furthermore,before "SET GCELLHOBASIC". open "Handover Direction Forecast Enable", parameter ""Chain Neighbour Cell Type"" of cell should be configured correctly.

3 Cell

"Handover Direction Forecast Statistic Times" >= "Handover Direction Forecast Last Times"

3 Cell

"Handover Direction Forecast Statistic Times" >= "Handover Direction Forecast Last Times"

50 Cell

8 Cell

8 Cell

35 Cell

3 Cell

None

Cell

68 Cell

32 Cell

Pre_2G_CellThres

Cell

5 Cell

None

Cell

None

This parameter is valid only when "QUICKHOEN" in "SET This parameter is valid when the GCELLHOBASIC" is setonly to YES. This parameter is valid following conditions areonly met:when "BET3GHOEN" is set to YES. The 1. following condition must be met: "" The ""INTERRATOUTBSCHOEN This parameter>= is "HODURT3G". valid only when "HOSTAT3G" regarding the "SET GCELLHOBASIC" "BET3GHOEN" is set to YES. The command is set to YES. following condition must be met: 2. The ""BET3GHOEN"" "HOSTAT3GTDD" >= parameter is set to YES. "HODURT3GTDD". 3. The ""FDDREP"" parameter regarding the "SET GCELLCCUTRANSYS" command This is setparameter to EcNo. is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "HOSTATICTIME" >= "HOLASTTIME".

None This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES. This parameter is valid only when "LOWRXLEVOLFORBIDSWITCH" is set This parameter is valid only when the to ON. ""INTERRATOUTBSCHOEN"" parameter regarding the "SET GCELLHOBASIC" command is set to YES. This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

None

None

Cell

None

None

Cell

None

YES

Cell

None

25 Cell

OFF

BSC

0 Cell

None

Cell

NO_FH

TRX

63 Cell

15 BSC6900

50 Cell

YES

MSC

10 Cell

10 Cell

4 Cell

SINGLEHOST

SCCP

SINGLEHOST

BTS

This parameter is valid only when "HOOPTSEL" is set to Pre_2G_CellThres.

None

Noneparameter depends on "FHMODE" This in "SET GCELLHOPTP". This parameter can be set to BaseBand_FH only Nonewhen "FHMODE" is set to BaseBand_FH or Hybrid_FH. This parameter can be set to RF_FH only when "FHMODE" is set to RF_FH or Hybrid_FH. This parameter is valid only when the following conditions are met: 1. The ""INTERRATOUTBSCHOEN"" None regarding the "SET GCELLHOBASIC" command is set to YES. 2. The ""BET3GHOEN"" parameter is set to YES. None 3. The ""FDDREP"" parameter regarding the "SET GCELLCCUTRANSYS" command is set to RSCP. This Noneparameter is valid only when "INTERRATOUTBSCHOEN" is set to YES and "BET3GHOEN" is set to YES. This parameter is valid only The following condition mustwhen be met: "INTERRATOUTBSCHOEN" is set to "HOSTAT3G" >= "HODURT3G". YES and "BET3GHOEN" is set to YES. The following condition must be met: "HOSTAT3GTDD" >= This parameter is valid only when "HODURT3GTDD". "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "HOSTATICTIME" >= "HOLASTTIME". When None the BTS or cell is activated,the host type of OPC must be single or primary if the host type of BTS is single. Otherwise, the host type of OPC must be consistent with that of the BTS.

25 Cell

None

50 Cell

This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.

NONE

Cell

None

None

Cell

None

None

BTS

None

1 Cell

NO

BTS

440 BTS

This parameter is valid only when "GRADEACCALLOW" is set to YES.

None The value of this parameter must be smaller than "DC Undervoltage Alarm Threshold".

NO

Cell

None

YES

Cell

None

YES

Cell

None

Shall_Use

Cell

None

0 Cell

None

BTS

None

OFF

Cell

This parameter is valid when "FHMODE" in the "SET GCELLHOPTP" command is not set to NO_FH.

None

BTS

None

None

Current BFD session

None

None

40 BTS

The value of this parameter must be greater than "Low Temperature Critical Point".

None

BTS

None

ENABLE

BTS

None

None

Board

None

None

Board

None

If "Power System Type" is None Board "SC48200", the recommended value is "900". For other types of Power System, the recommended value is "1000". BTS

None

If "Power System Type" is 800 BTS "SC48200", the recommended value is "100". For other types of Power System, the recommended value is "0". BTS

100 BTS

The value of this parameter must be greater than "Lower Threshold of Humidity Alarm". The value of this parameter must be greater than "Lower Threshold of Humidity Alarm". The value of this parameter must be smaller than "Upper Threshold of Humidity Alarm". The value of this parameter must be smaller than "Upper Threshold of Humidity Alarm".

15 BTS

None

720 SCCP

None

None

None

None

None

None

None

None

None

None

90 SCCP

4 Cell

None This parameter is valid only when "IBCASOFTBLKSWITCH" is set to YES.

10 Cell

NO

This parameter is valid only when "IBCASOFTBLKSWITCH" is set to YES.

Cell

None

4 Cell

None

4 Cell

None

0 Cell

None

4 Cell

None

Set this parameter to YES for the neighboring cell with co-channel 7 Cell interference and the neighboring cell that may cause interference; set this parameter to NO for other neighboring cells. Cell

None

None

0 Cell

None

OFF

Cell

None

OFF

Cell

None

10 Cell

None

2 Cell

None

13 Cell

None

10 Cell

None

Cell

None

4 BSC

None

YES

NO

0 Cell

None

0 Cell

None

0 Cell

None

0 Cell

None

4 Cell

None

0 Cell

None

20 Cell

None

Cell

None

0 Cell

None

7 Cell

None

5 Cell

None

4 Cell

None

0 Cell

None

It is recommended that you set the 8 BSC path loss offset of layer 1 neighboring cells of the serving cell to 15 dB and that of other neighboring cells to 25 dB. Cell

None

None

6 Cell

None

4 Cell

None

110 Cell

None

1 Cell

None

NO

Cell

None

OFF

Cell

None

20 Cell

None

UNDER

Cell

None

NO

Cell

None

5 Cell

None

Cell

None

BTS

None

NO For SingleRAN BTS, the recommended value is "ENABLE". For other types of BTS, the recommended value is "DISABLE".

64 IP path

When the value of "PATHCHK" in "ADD IPPATH" is set to ENABLED, this parameter is valid.

22 BSC

None

20 BSC

None

18 BSC

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

84 Board

None

None

2 Cell

In addition to the condition that the number of idle SDCCHs should be smaller than or equal to "IDLESDTHRES", the following three conditions must be met to trigger the conversion from the TCHF to the SDCCH: 1. "SDDYN" in "SET None GCELLBASICPARA" is set to YES. 2. In the cell, the value of (number of idle TCHFs + number of idle TCHHs/2) is greater than four and is greater than None the number of TRXs. Idle TCHFs exist in the cell. 3. Number of SDCCHs + 8 < "CELLMAXSD".

None

BSC6900

None

None

BSC6900

None

None

Cell

None

None

BSC

None

None

Cell

None

None

Cell

None

None

None

None

None

None

None

None

BSC

None

None

Subsystem

None

None

BSC

None

YES

Cell

None

None

IP route

None

Positive

BTS

None

0 BTS

YES

None

1 Cell

None

BSC

None

None This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.

None

5000 Cell

None

NO

Cell

None

NO

Cell

None

NO

Cell

None

4 Cell

None

2 Cell

None

Cell

None

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

NO

NO

0 Cell

NO

BSC6900

10 Cell

This parameter is valid only when "IMMASSTAALLOW" is set to YES.

None

None

None

BSC

None

None

Subsystem

This parameter is valid only when "IDXTYPE" is set to BYIMSI.

10000 Cell

None

NO

4 BSC6900

None

3 BSC6900

None

360 Cell

None

BTS

None

BTS

8 Cell

10 Cell

CELLCAPCLASS

BSC

None

Board

25 Cell

12 Cell

None

None

This parameter is valid only when "HOCTRLSWITCH" is set to None HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES. This parameter is valid only The following condition mustwhen be met: "HOCTRLSWITCH" is set to "INFHHOSTAT" >= "INFHHOLAST". HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES. The following condition must be met: "INFHHOSTAT" >= "INFHHOLAST". Set when Allow Info Exchange at Iur-g is set to Yes

None This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES. This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES.

8 TRX

None

1 Cell

None

0 Cell

None

2 Cell

None

BSC

None

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

YES

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

None

BSC6900

None

None

BSC6900

None

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

NO

NO

10 Cell

This parameter is valid only when "INNLOADHOEN" is set to YES.

5 Cell

This parameter is valid only when "INNLOADHOEN" is set to YES.

90 Cell

This parameter is valid only when "OUTLOADHOENABLE" is set to YES.

None

BSC

None

None

BTS

None

None

BTS

None

Degree

Cell

None

NO

Cell

This parameter is valid only when "SIGCHANHOEN" in "SET GCELLHOBASIC" is set to YES.

None

BSC

None

None

BTS

None

None

BSC

None

None

BTS

None

60 Cell

67 Cell

INTBANII Cell In densely populated urban areas, the recommended value is 68; in the suburbs, the recommended value is 72. Cell

15 Cell

2 Cell

3 Cell

Inter-layer HO threshold of the serving cell = "Inter-layer HO threshold" - "Interlayer HO Hysteresis". Inter-layer HO threshold of the neighboring cell = "Inter-layer HO threshold" + "Adjacent Cell Inter-layer None HO Hysteresis" - 64. The value of "Inter-layer HOAlgorithm" threshold"in When "Current HO Control can be set through "SET "SET GCELLHOBASIC" is set to GCELLHOBASIC". HOALGORITHM1(Handover algorithm I), "Inter-cell HO Hysteresis" should be set within the range of 64-127. When "Current HO Control Algorithm" in "SET None GCELLHOBASIC" is set to HOALGORITHM2(Handover algorithm II), "Inter-cell HO Hysteresis" should be set within the range of 0-127. This parameter is valid only when This parameter is valid only when "HOCTRLSWITCH" in "SET "INTERFHOEN" is set to YES and GCELLHOBASIC" is set to "HOCTRLSWITCH" is set to HOALGORITHM2. HOALGORITHM2. The following This parameter is valid condition must be met: only when "INTERFHOEN" is set to YES "INTERFERESTATTIME" >= and "HOCTRLSWITCH" is set "INTERFERELASTTIME". to HOALGORITHM2. The following condition must be met: "INTERFERESTATTIME" >= "INTERFERELASTTIME".

YES

Cell

None

YES

Cell

None

110 Cell

The setting of this parameter must meet the following condition: "INTERFTHRES0" > "INTERFTHRES1".

105 Cell

The setting of this parameter must meet the following condition: "INTERFTHRES1" > "INTERFTHRES2".

98 Cell

The setting of this parameter must meet the following condition: "INTERFTHRES2" > "INTERFTHRES3".

92 Cell

The setting of this parameter must meet the following condition: "INTERFTHRES3" > "INTERFTHRES4".

87 Cell

The setting of this parameter must meet the following condition: "INTERFTHRES4" > "INTERFTHRES5".

85 Cell

The setting of this parameter must meet the following condition: "INTERFTHRES4" > "INTERFTHRES5".

3 BSC6900

20 Cell

None

None

NO

Cell

80 BSC

NO

NO

None

Cell

None

Cell

When "Inter-RAT In BSC Handover Enable" is set to NO, this parameter must be set to NO.

20 BSC

None

49 BSC

None

5 BSC

None

60 BSC

None

91 BSC

None

10 BSC

None

NO

Cell

OFF

BSC

This Noneparameter is valid only when the ""INTERRATOUTBSCHOEN"" parameter regarding the "SET GCELLHOBASIC" command is set to YES.

72 BSC6900

None

1 BSC6900

None

1 Cell

None

30 Cell

None

None

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

None

10000 Cell In the hot-spot areas, densely populated urban areas, urban areas, Cell YES suburbs, and rural areas, the recommended value is YES; in the high-speed circumstances, the recommended value is NO. Cell

10000 Cell

None

None This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLHOEN" is set to YES.

None

None

BSC

None

25 BSC

None

10 BSC

None

30 BSC

None

None

BSC

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

NO

Cell

None

None

None

None

None

BSC6900

None

None

NSE

None

None

NSE

None

255.255.255.255

BTS

None

None

None

IP path

The "IPADDR" in "ADD IPPATH" can not be at one network segment with the peer IP address of SCTPLNK or None IPPATH whose local IP address is device IP address of FG2/GOU in this subrack;"IPADDR" and "PEERIPADDR" in "ADD IPPATH" must be at one None network segment; ("IPADDR","PEERIPADDR","PEERMAS K" in "ADD IPPATH") conflicts with other IPPATH whose type is IUPS.

None

BSC6900

None

None

Ethernet port

None

None

Ethernet port

None

None

BSC6900

None

None

Ethernet port

None

None

BSC

None

None

BSC

None

None

BTS

The setting of this parameter cannot be duplicate with "Slave Clock Server IP Address".

None

BSC

None

None

BTS

The value of this parameter cannot be the same as "Master Clock Server IP Address".

None

BSC

None

None

BSC

None

10 Ethernet port

None

5 Ethernet port

None

UDP/IP_HC

PPP link

None

UDP/IP_HC

MP group

None

None

Ethernet port

None

None

Ethernet port

None

None

None

None

IP_OVER_FE/GE

BTS

This parameter is valid only when "SERVICEMODE" in "MOD BTS" is set to IP.

None

BTS

None

NO

BTS

None

NO

BSC6900

None

NO

Cell

None

BTS

None

BTS

None If the redundancy configuration mode is not supported, only one clock server can be configured. Otherwise, two clock servers can be configured. If the redundancy configuration mode is not supported, only one clock server can be configured. Otherwise, two clock servers can be configured.

NO

BTS

None

NO

BTS

None

YES

Cell

None

None

Transmission resource group

None

YES

Cell

None

NO

TRX

None

None

BSC

None

None

BTS

None

NO

Cell

None

None

NSE

None

None

IP Path

None

NO

BSC6900

None

None

None

None

NO

BTS

NO

BTS

None This parameter can be set to YES only when "BssLsGenMode" in "SET BSSLS" is set to BTSPRIORITY, BSCPRIORITY, or BTSONLY.

NO

BSC

None

None

None

None

NO

None

None

NO

BTS

None

NOT_CONFIG

BTS

None

None

Cell

None

None

Cell

None

None

Cell

None

65535 Cell

None

None

BSC6900

None

None

IP route

None

NONE

TRX

This parameter is valid only when "IUOTP" in "MOD GCELL" is set to Concentric_cell.

CONVERT0

Cell

None

8 Cell

The following condition must be met: "IUOHOSTATIME" >= "IUOHODURATIME".

10 Cell

The following condition must be met: "IUOHOSTATIME" >= "IUOHODURATIME".

Normal_cell

Cell

None

OFF

Board

None

Character_String

None

None

SBS 155

Board

None

SBS 155

Board

None

16byte

Board

None

OFF

Board

None

Character_String

None

None

SBS 155

Board

None

SBS 155

Board

None

16byte

Board

None

OFF

Channelized optical port

None

None

None

None

None

Channelized optical port

None

None

None

None

None

Channelized optical port

None

SPACE

Board

None

None BTS When the disorder phenomenon is severe in the IP network, the recommended value is ALLOW; None BTS when there is no or little disordered packets, you are recommended to set this parameter to DENY to avoid extra transmission delay. BSC

None

MSP protect group

None

None

None

None

0 Cell

None

2 PPP link

None

None

Cell

None

None

Cell

None

None

Ethernet port

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

None

None

None

None

None

2 IP logical port

None

4 IP logical port

None

25 IP logical port

None

3 IP logical port

None

8 IP logical port

None

3 Cell

There are four network layers, that is, layer None 1 to layer 4. A lower layer No. indicates a higher priority. The cell priority is determined by both the network layer and the "PRIOR" parameter.

0 Cell

The parameter is independent of "Load Handover Support" and " Enhanced Load HO Allowed".

3 Cell

20 BSC

Lb Congestion Protection Timer 1
30 BSC

Lb Congestion Protection Timer 1
BSC

If this parameter is not set to CLOSE, it value must not be the same as "LDRSND", "LDRTRD", or "LDRFST".

BSC

If this parameter is not set to CLOSE, it value must not be the same as "LDRSND", "LDRTRD", or "LDRFOUH".

AMRC

BSC

If this parameter is not set to CLOSE, it value must not be the same as "LDRFST", "LDRTRD", or "LDRFOUH".

None

SCCP

None

None

BSC6900

None

None

BSC6900

None

ON

BSC6900

None

CSFHHO

PSDOWN

0 Ethernet port

None

YES

None

Cell

None

Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.

2 Cell

4 Cell

6 Cell

This Noneparameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "LEVHOEN" is set to YES. The following condition must This parameter is valid when be met: "LEVSTAT" >= only "LEVLAST". "HOCTRLSWITCH" is set to HOALGORITHM1 and "LEVHOEN" is set to YES. The following condition must be met: "LEVSTAT" >= "LEVLAST".

None

None

None

None

None

None

None

Board

None

None

None

None

None

None

None

10 BTS

None

90 None

None

70 None

None

None

LAPDLNK

None

DIFFERENCE

None

None

64K

MTP3 link

None

None

None

None

None

BTS

None

None

None

None

35 BTS

None

45 BTS

None

None

Board

None

None

BSC

None

M3UA_MASTER_MOD

BSC6900

None

B1111

SCCP

None

regarding the "SET GCELLHOINTERRATLDB" command is set to YES. 2. The ""InterRatServiceLoadHoSwitch"" parameter is not set to OFF. B1111

SCCP

80 Cell

RANDOMALG

When the cell is under the BSC, this None parameter is valid only when the ""LoadHoEn"" parameter regarding the "SET GCELLHOBASIC" command is set to YES.

MSC

None

4 BSC

None

100 BTS

None

NO

Cell

This parameter can be set only when "Load Handover Support" is set to Yes.

NO

Cell

None

NO

Cell

None

NO

Cell

The Noneparameter value cannot be larger than the value of "PBGT HO Threshold". The parameter takes effect only when "Enhanced Load HO Allowed" is enabled. This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2. This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2.

0 Cell

10 Cell

63 Cell

5 Cell

This parameter is valid only when "LOADHOEN" in "SET This parameter is valid when GCELLHOBASIC" is setonly to YES. "LOADHOEN" in "SET GCELLHOBASIC" is set to YES. The value of this parameter must be smaller than "LOADOFFSET".

3 Cell

The parameter takes effect only when the enhanced load handover algorithm is enabled.

10 Cell

25 Cell

NO

BTS

This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.

None

PERMIT

Cell

None

40 Cell

None

60 Cell

None

85 Cell

None

Cell

None

DYNPDCHASIDLE

Cell

The parameter is independent of "Load Handover Support" and "Enhanced Load HO Allowed".

None

BTS

None

None

BSC

None

None

BSC6900

None

None

MP group

None

None

BTS

The IP address must be in the same network segment as "Peer IP address".

None

BTS

The IP address must be in the same network segment as "Peer IP address".

None

NSE

None

None

BSC

None

None

BTS

None

None

BTS

None

None

BSC6900

None

YES

None

SCTP link

None

None

SCTP link

None

OFF

BSC6900

None

None

SCTP link

When the value of "MODE" in "ADD SCTPLNK" is set to Client, this parameter can be modified.

None

BSC6900

None

NORMMODE

None

None

95 Board

None

80 Board

None

None

None

None

SCTP link

This parameter determines whether "LOGPORTSN" and "LOGPORTNO" in "ADD SCTPLNK" are valid.

SCTP link

When the value of "LOGPORTFLAG" in "ADD SCTPLNK" is set to ON, this parameter is valid.

SCTP link

When the value of "LOGPORTFLAG" in "ADD SCTPLNK" is set to ON, this parameter is valid.

85 Board

None

70 Board

None

ON

Board

None

None

BSC6900

None

None

None

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

None

None

None

None

None

None

None

None

None

BC

None

ON

E1/T1 port

None

None

LAPDLNK

None

80 Cell

None

None

BSC

None

None

BSC

None

None

E1/T1 port

None

None

Loopback optical port None

180 BSC

None

1 IP logical port

None

NO

Cell

This parameter is valid when "FLEXABISMODE" in the "MOD BTS" command is set to YES.

NO

BTS

None

ON Cell You are advised to disable this function in the co-BCCH cell with the inter-site distance not more than 1500m. Cell

None

None

For EPS4815 boards, the value of this parameter is set to "NO".

BTS

None

NO

BTS

None

None

None

None

None

IP path

When the value of "CARRYFLAG" in "ADD IPPATH" is set to IP LGCPORT, this parameter is valid.

None

IP logical port

None

None

IP logical port

None

None

IP path

When the value of "CARRYFLAG" in "ADD IPPATH" is set to IP LGCPORT, this parameter is valid.

None

ATM logical port None

IR

Cell

None

If "Power System Type" is DISABLE BTS "SC48200", the recommended value is "475". For other Power System Type of APMU boards, the recommended value is "440". BTS

None

CSPH

BSC

The value of this parameter must be smaller than "DC Undervoltage Alarm Threshold". If this parameter is not set to CLOSE, it value must not be the same as "LDRSND", "LDRFST", or "LDRFOUH".

INCLUDE

BSC6900

None

None

None

None

HORIZONTAL

None

None

APPLICATION

None

None

None

BSC6900

None

OPTLOG

BSC6900

None

0 BTS

-1 BTS

2 Cell

8 Cell

60 Cell

The value of this parameter must be smaller than "High Temperature Critical Point".

None The setting of this parameter must meet the following conditions: "LTFERLOWTH" < "LTFERTGT"; "LTFERLOWTH" < "LTFERUPTH". The setting of this parameter must meet the following conditions: "LTFERLOWTH" < "LTFERTGT"; "LTFERTGT" < "LTFERUPTH". The setting of this parameter must meet the following conditions: "LTFERUPTH" > "LTFERTGT"; "LTFERUPTH" > "LTFERLOWTH".

2 Cell

None

0 Board

None

20 BTS

None

30 BTS For EPS4815, the recommended value is "DISABLE". For other types of APMU boards, the recommended value is "ENABLE". BTS

None

2905 SCTP link

None

None

None

None

None

10 Ethernet port

None

5 Ethernet port

None

CA_MA

Cell

None

None

Board

YES

Cell

None This parameter is valid when " MAINBCCHPWRDTEN " in the " SET GCELLOTHEXT " command is set to YES.

NO

Cell

None

Cell

None

Cell

None This parameter is valid when " MAINBCCHPWRDTEN " in the " SET GCELLOTHEXT " command is set to YES. This parameter is valid when " MAINBCCHPWRDTEN " in the " SET GCELLOTHEXT " command is set to YES. This parameter is valid when " MAINBCCHPWRDTEN " in the " SET GCELLOTHEXT " command is set to YES.

None

BTS

None

None

BTS

None

None

BTS

None

0 BTS

None

BTS

None

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

0 Cell

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

Cell

This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set to YES.

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

Ethernet port

None

None

Ethernet port

None

None

PPP link

None

None

MP group

None

None

BSC6900

None

None

Ethernet port

None

None

Ethernet port

None

None

BSC

None

255.255.255.255

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.

8 Cell 4(application type is M3UA), 10(application type is BBAP)

SCTP link

None

None

IP logical port

None

3 Cell

None

2 BSC

None

1 BSC

10 BTS

None This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.

1 Cell

None

1 Cell

None

1031 None

None

100 BSC

None

256 PPP link

None

None

MP group

None

None

BSC6900

None

None

BSC6900

None

125 BTS 2(application type is M3UA), 5(application type is BBAP)

SCTP link

None

3 BSC

This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.

8 TRX

None

30 Cell

None

5 BSC

None

None

BSC6900

None

None

15C

BTS

None

15C

BTS

None

30 Cell

None

7_Times

Cell

None

7_Times

Cell

None

7_Times

Cell

None

7_Times

Cell

None

64 PPP link

None

MP group

2 Cell

0 Cell

In Normal cell,the recommended value is 62;in Double Timeslot Extension Cell,the recommended value is 219.

OFF

0 Cell

None

None This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.

Cell

None

20 Cell

None

Cell

None

255 Cell

None

12 None

None

32 TRX

None

16 None

None This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.

8 Cell If the traffic volume on each frequency band is even and there is None no special requirements for the frequency band, the recommended value is 0; if the traffic volume on None frequency band is significantly each uneven and a frequency band is preferred for an MS, the recommended value is 3; if traffic None volume on each frequency band is not extremely uneven, the recommended value is 1 or 2. For details, see the GSM Rec. 05. 08.

BSC6900

None

None

None

None

None

Cell

None This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" is set to EnhMeasReport. This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" is set to EnhMeasReport.

2 Cell

6 Cell

None

BSC6900

None

None

BSC6900

None

None

Cell

None

None

Cell

None

None

MP group

None

8 BTS

This parameter is required when "MLPPP type" is set to "MCPPP" with the "ADD BTSMPGRP".

None

BSC6900

None

None

BSC6900

None

None

BTS

"BTSTYPE" identifies the value range of this parameter. The number of cabinets supported by the BTS depends on the type of the BTS. For details, see the parameter description of the command.

OFF

Cell

None

CLASS0

BTS

None

None

Board

None

0 Ethernet port

None

None

Ethernet port

None

None

Ethernet port

None

NO

Cell

None

3 BSC

Set when Allow Common Measurement at Iur-g is set to Yes

ComMeasReport

Cell

None

None

Ethernet port

None

None

Ethernet port

None

None

Ethernet port

None

LONG

MP group

None

LONG

BTS

None

15 Cell

None

None

IP logical port

None

10 Cell

0 Cell

"HOCDCMINDWPWR" and "HOCDCMINUPPWR". Different offset can be set for different neighboring cells. The following condition must be met for a neighboring cell to be added into the candidate cell queue: Neighboring cell uplink level >= ("HOCDCMINUPPWR" + None "MINOFFSET"); Neighboring cell downlink level >= ("HOCDCMINDWPWR" + "MINOFFSET").

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

170 BTS

None

140 BTS

None

140 BTS

None

16 Cell

60 Cell

10 Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1. A 3G cell can be added into the candidate cell queue when following This parameter is valid onlythe when conditions are met: "SDDYN" in "SET GCELLBASICPARA" "INTERRATOUTBSCHOEN" is set to is set to YES. YES; "BET3GHOEN" is set to YES; the RSCP of the 3G cell for a period of time is greater than the sum of "HORSCPTH3G" and "RSCPOFF".

100 Ethernet port

None

Current BFD 100 session

None

100 Ethernet port

None

Current BFD 100 session

None

None

Ethernet port

None

None

Ethernet port

None

None

Ethernet port

None

None

Cell

None

None

Cell

None

80 BSC

None

AUTO

BSC6900

None

None

SCTP link

None

OFF

BSC6900

None

None

BSC6900

None

None

None

None

None

MSP protect group

None

None

None

None

MODE1

BTS

None

MODE1

BTS

None

MODE1

BTS

None

MODE1

BTS

None

MODE1

BTS

None

MODE1

BTS

None

None

None

None

None

None

None

None

BTS

None

35 Cell

This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.

10 Ethernet port

None

5 Ethernet port

None

None

MP group

None

None

None

None

None

BTS

MODE4_1

BTS

None This parameter can be set to MODE5_1 or MODE6_1 only when "FLEXABISMODE" is set to FLEX_ABIS.

If "BTS Type" is "BTS3900E_GSM", the recommended value is "0". BTS

None

ENABLE

BTS

None

MCPPP

MP group

None

None

None

None

None

None

YES

Cell

None This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.

Once_ps

4 Cell

None

5 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

Cell

This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_PreprocessingN.

4 BTS

None

4 BTS

None

OFF

None

None

None

BSC

None

1500 BTS

None

3 BSC6900

OFF

NO

Cell

None

None

1800 MSC

None

1 BSC

None

0 BSC

None

BSC

None

NORMAL

MSC

None

R98_or_below

Cell

None

15000 Cell

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

NO

Cell

This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.

4_Times

Cell

None

None

MSP protect group

None

MCS5

Cell

None

40 Cell

None

ON

The value of this parameter must be smaller than or equal to "PDCH Downlink Multiplex Threshold".

BTS

None

10 Cell

None

200 Cell

None

1000 BSC

None

45 BSC

None

2 Cell

None

BSC6900

85 BSC

None

None

None

E1/T1 port

None

None

MTP3 link

None

MET

None

None

If "MTU" is set to a value smaller than 576, the DHCP procedure may fail800 SCTP link when the BTS tries to retrieve the IP address, and thus the BTS cannot work. The recommended value of1500 this Ethernet port parameter is 1500. Do not modify it unless in special scenarios, for example, at the bottom layer where the number of MTU is limited. BTS

None

None

None

REPORT6

DISABLE

225 BTS

None

Cell

None

5 Cell

This parameter is valid when "TCMUTEDETECTFLAG" is set to YES.

Cell

This parameter is valid when "TCMUTEDETECTFLAG" is set to YES.

4 Cell

None

0 Cell

None

Cell

None

1000 MP group

None

None MP group When the transmission quality is good, the recommended settings are as follows: "Ring II Wait Time Before None None Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 12; 6 BTS "T203" = 1; and "N200" = 3. When the transmission quality is bad, the recommended settings are as follows: None "Ring II Wait Time Before None Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 24; "T203" = 3; and "N200" = 3. BTS

None

NO

5 Cell

OFF

None

None

None

None N200ESTAB must be set when "N200PARASWITCH" is set to YES.

34 Cell

None

29 Cell

None

Cell

None

5 Cell

None

5 Cell

None

23 Cell

None

20 Cell

None

3 Cell

None

10 Cell

None

6 BC

None

3 BC

None

4 BC

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

BSC

None

NO

Cell

None

2 Cell

None

DISABLE

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.

NOTSUPPORT

BSC

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.

None SELECTION0_PERM1&SELECTION1_PERM1&SELECTION2_PERM1&SELECTION3_PERMNone 1&SELECTION4_PERM1&SELECTION5_PERM1&SELECTION6_PERM1&SELECTION7_PERM-1

Cell

None

Cell

None

Cell

None

1 Cell

None

4 Cell

This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.

4 Cell

None

0 BSC

60 BSC

64 BSC

68 BSC

The following condition must be met: "NcellInterFLevelThres1" > "NcellInterFLevelThres0". The following condition must be met: "NcellInterFLevelThres2" > "NcellInterFLevelThres1" > "NcellInterFLevelThres0". The following condition must be met: "NcellInterFLevelThres3" > "NcellInterFLevelThres2" > "NcellInterFLevelThres1". The following condition must be met: "NcellInterFLevelThres4" > "NcellInterFLevelThres3" > "NcellInterFLevelThres2".

72 BSC

74 BSC

76 BSC

80 BSC

0 Cell

0 Cell

The following condition must be met: "NcellInterFLevelThres5" > "NcellInterFLevelThres4" > "NcellInterFLevelThres3". The following condition must be met: "NcellInterFLevelThres6" > "NcellInterFLevelThres5" > "NcellInterFLevelThres4". The following condition must be met: "NcellInterFLevelThres7" > "NcellInterFLevelThres6" > "NcellInterFLevelThres5". The following condition must be met: "NcellInterFLevelThres7" > "NcellInterFLevelThres6". The setting of this parameter must meet the following condition: "NCHSTARTBLOCK"" <= "NCHOCBLOCKNUM". The setting of this parameter must meet the following condition: "NCHSTARTBLOCK"" <= "NCHOCBLOCKNUM".

NC0

Cell

None

YES

SCCP

None

None

None

None

4 Cell

None

None

BSC6900

None

None

IP route

None

None

None

None

None

BTS

None

None

SCCP

This parameter depends on network planning.

None

None

None

NMOII

Cell

None

None

BTS

The value range of this parameter varies with BTS type. Different types of BTSs support a different number of cabinets.

None

BTS

The value range of this parameter varies with BTS type.

None

BTS

None

None

BTS

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.

NO

2 Cell

30 Cell

1 Cell

95 Cell

0 Cell

85 Cell

14 Cell

103 Cell

NO

Cell

2 Cell

25 Cell

None

Adjacent node

8 Cell

NO

Cell

50 Cell

100 BTS

ON

Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is This is valid only when set toparameter YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is This is valid only when set toparameter YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is This is valid only when set toparameter YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is This is valid only when set toparameter YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is This is valid only when set toparameter YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is This is valid only when set toparameter YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is This is valid only when set toparameter YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is This is valid only when set toparameter YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is This is valid only when set toparameter YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is This is valid only when set toparameter YES. "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is set to YES.

None This parameter is valid only when "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES.

None This parameter is valid only when "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES.

None This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

0.24sec

PERMIT

Cell

None

2500 BTS

None

2500 BTS

None

Cell

None

500 BTS

CLOSE

BSC

The value of this parameter must be 8C smaller than "Derating TEMP Threshold".

None

48 TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

30 BTS

This parameter is valid only when "ENABLE" is set to YES.

3 None

2 Cell

6 Cell

None This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" is set to EnhMeasReport. This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" is set to EnhMeasReport.

None

BSC

None

None

BSC

None

YES

BSC

None

None

NSE

None

None

Cell

None This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2.

2 Cell

None

Cell

None

None

NSVC

None

None

NSVC

None

None

9 BTS

None

16 BTS

None

10 Cell

None

Ethernet port

None

0 PPP link

None

0 MP group

None

0 IP logical port

None

0 Ethernet port

None

None

Port queue

None

None

Port queue

None

None

None

None

None

None

None

None

BSC

None

None

BSC

None

None

BSC6900

None

None

BTS

None

None

None

None

OFF

Cell

None

YES

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

NO

BTS

None

OFF

BSC6900

None

10 BSC

None

None

BSC6900

None

Transport 64 channel

None

Transport 64 channel

None

BSC6900

None

1 BSC

None

None

BSC6900

1 BTS

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC

None

None

Cell

None

None

E1/T1 link

None

None

BSC

None

None

BSC

None

None

BSC

None

None

None

None

None

E1/T1 link

None

None

E1/T1 link

None

None

E1/T1 link

None

None

PBCIC

None

None

BSC

None

SysOpt

Cell

35 Cell

63 Cell

L0

TRX

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "OPTILAYER" is set to SysOpt. This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "OPTILAYER" is set to SysOpt. This parameter is valid only when "TRXPRIALLOW" is set to YES.

None

Board

None

None

None

None

None

BTS

None

None

BSC

None

None

BTS

None

Step_by_Step

None

None

None

Cell

None

0 BTS

None

YES

NO

YES

20 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

10000 Cell

None

10000 Cell

None

80 Cell

This parameter is valid only when This parameterinis"SET valid only when "LOADHOEN" "IUOTP" in "ADD GCELL" set to GCELLHOBASIC" is set toisYES. EDB_cell. The following condition must be met: "OUTSERIOVERLDTHRED" > "OUTGENOVERLDTHRED" > "OUTLOWLOADTHRED".

15 TRX

None

25 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

Cell

1 Cell

5 Cell

5 Cell

50 Cell

This parameter is valid only when "OUTLOADHOENABLE" is set to YES. This parameter is valid only when "OUTLOADHOENABLE" is set to YES. This parameter is valid only when "OUTLOADHOENABLE" is set to YES and "IUOTP" in "ADD GCELL" is set to This parameter is valid only when EDB_cell. "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met: "OUTGENOVERLDTHRED" > "OUTLOWLOADTHRED".

None

BSC

None

None

BSC

None

None

BTS

None

None

BTS

None

HIGH

BTS

None

HIGH

BTS

None

HIGH

BTS

None

HIGH

BTS

None

None

BTS

None

None

BTS

None

None

BTS

90 Cell

YES

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to None EDB_cell. The following condition must be met: "OUTSERIOVERLDTHRED" > "OUTGENOVERLDTHRED" > "OUTLOWLOADTHRED".

None

None

BSC

None

None

BSC

None

None

BSC

None

NO

Cell

None

NO

BSC

This parameter is valid only when "OUTSYSSERVICEHOEN" is set to YES.

CLOSE

BSC

None

15 BSC

None

BSC

None

320 BTS

None

320 BTS

None

185 BTS

None

280 BTS

None

280 BTS

None

155 BTS

None

1500 BTS

None

1500 BTS

None

15 Cell

None

None

580 BTS

The value of this parameter must be 8C greater than "Normal Work TEMP Threshold".

90 BSC

None

85 BSC

None

80 BSC

None

75 BSC

None

NO

BTS

None

NO

Cell

None This parameter is valid when "ALLOWG2FLOWCTRALGL" in the "SET BSCFCPARA" command is set to YES.

180 Cell

255 Cell

220 Cell

None This parameter is valid when "ALLOWG2FLOWCTRALGL" in the "SET BSCFCPARA" command is set to YES.

4 Cell

None

Pan_1

Cell

None

Pan_2

Cell

None

Pan_20

Cell

L0

TRX

This Noneparameter is valid only when "BSCDynSwitchTrxPAAllow" in "SET BSCDSTPA","DYNOpenTrxPower" in "SET GCELLBASICPARA" and "CPS" are set to YES.

None

BTS

None

None

BTS

None

DISABLED

IP path

None

None

IP path

None

None

IP path

None

79 Cell

This parameter is valid only when "PWRBCDALLOWD" is set to YES.

NO

Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.

QoS

IP path

None

None

None

None

DB2

Cell

None

YES

Cell

4 Cell In densely populated urban areas, the recommended value is 68; in the suburbs, the recommended value is 72. Cell

6 Cell

2 BSC

3 Cell

This parameter is valid only when "HOCTRLSWITCH" is set to This parameter is valid only when HOALGORITHM1. "HOCTRLSWITCH" is set to HOALGORITHM1 and "PBGTHOEN" is set to YES. The following condition must be met: "PBGTSTAT" >= "PBGTLAST". This Noneparameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "PBGTHOEN" is set to YES. The following condition must be met: "PBGTSTAT" >= "PBGTLAST". This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.

PDCH

Cell

None

None

PBCIC

None

None

BSC

None

None

PBE1T1

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsExtPcu.

NO

BTS

None

80 Cell

None

NO

Cell

None

NO

Cell

None

70 Cell

None

5 SCCP

None

None

BSC

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

MP group

None

None

None

None

BTS

The peer IP address and the local IP address specified by "Local IP address" must be on the same network segment.

None

None

BTS

The peer IP address and the local IP address specified by "Local IP address" must be on the same network segment.

None

SCTP link

None

None

SCTP link

None

IP path

"IPADDR" and "PEERIPADDR" in "ADD IPPATH" must be at one network None segment; ("IPADDR","PEERIPADDR","PEERMAS K" in "ADD IPPATH") conflicts with other IPPATH whose type is IUPS.

255.255.255.255

IP path

("IPADDR","PEERIPADDR","PEERMAS K" in "ADD IPPATH") conflicts with other IPPATH whose type is IUPS.

None

SCTP link

None

None

None

None

YES

Cell

None

10 Cell

None

30 Cell

None

255 Cell

None

5 IP path

When the value of "PATHCHK" in "ADD IPPATH" is set to ENABLED, this parameter is valid.

5 BSC

None

Enable

PPP link

None

Enable

MP link

None

YES

BTS

None

NO

NSE

None

2 BSC

None

660 BSC

None

660 BSC

None

Board

Nonephb of the traffic's transmission The path is determined like this: if the phb of this transmission path is QOS, use the traffic's None phb from TRMMAP; if the phb of this transmission path is BE,AF11,AF12,AF13,AF21,AF22,AF23, AF31,AF32,AF33,AF41,AF42,AF43,EF, use the phb of transmission path.

None

IP Path

None

YES

Cell

None

None

BSC6900

None

10 BSC6900

None

128 BSC6900

None

1000 BSC

None

BC

1031 BTS

None

12_level

Cell

None This parameter must meet the following requirements: The sum of the value of "Max subframe length" and 8 must be smaller than the value of this parameter. This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.

56 Ethernet port

None

128 Ethernet port

None

Cell

None

0 TRX

None

13_level

Cell

None

14_level

Cell

None

0 TRX

None

Cell

None

0 TRX

None

16_level

10 IP logical port

None

30 IP logical port

None

None

Board

None

None

Board

None

None

Board

None

60 Board

None

67 Board

None

2 Cell

None

5 Cell

None

Cell

None

50 Board

None

62 Board

None

OPEN

ON

Board

None

None

None

None

None

None

None

None

None

None

None

E1/T1 link

None

None

E1/T1 link

None

None

E1/T1 link

None

None

PBE1T1

None

None

BSC6900

None

None

Board

None

None

E1/T1 port

None

None

None

None

None

None

None

None

Loopback optical port None

None

BSC6900

None

None

Board

None

None

Channelized optical port

None

None

Ethernet port

If port 0 or port 4 of the FG2a board is set to the GE port, the port number can only be 0 or 4. Otherwise, the port number ranges from 0 to 7. If only port 0 is set to the GE port, ports 1-3 are unavailable. If port 4 is set to the GE port, ports 5-7 are unavailable.

None

IP logical port

None

None

None

None

None

E1/T1 port

None

None

E1/T1 port

None

None

E1/T1 port

None

None

PBSL

None

None

BTS

None

None

BTS

None

None

PPP link

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

650 Cell

None

16 Cell

None

Support

6 Cell

None

Cell

None

2 Cell

None

2 Cell

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

None

BTS

None

None

BTS

None

16 BTS

None

None

BSC6900

None

None

None

None

None

Ethernet port

None

None

BTS

None

BCCHNorm

Cell

If this parameter is BCCHExt,"CCCH Blocks Reserved for AGCH" must be more than 0.

None

None

None

125 BTS

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

100 BTS

None

0 Cell

None

0 Cell

None

POWER_48_24

BTS

None

220VAC

BTS

None

0 TRX

None

TRX

None

None

None

10 Ethernet port

None

5 Ethernet port

None

PPP link

None

None

MP link

None

None

IP logical port

None

None

PPP link

None

Disable

MP group

None

2 BSC6900

When the value of "PORTPROTYPE" in "ADD PORTFLOWCTRLPARA" is set to IP, this parameter should be set.

NO

BSC

None

NOT_ALLOWED

BSC

None

OFF

Cell

None

1 BSC

None

60 BTS

None

6 Cell

NO

BSC

NO

Cell

None This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_Preprocessing. This parameter None must be set to NO when "MPMODE" of the BTS that serving this cell is set to MODE4_1 and there are more than two SDCCHs.

60 Board

None

72 Board

None

50 Board

None

65 Board

None

ON

Board

None

None

Cell

None

Prior-1

Cell

This parameter, together with "LAYER", determines the priority of the cell.

80 BTS

None

2 Cell

None

0 SCCP

None

0 None

None

None

IP route

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BTS

None

ITUT

SCCP

None

Q933

BC

None

15 BTS

5 Cell

None This parameter is valid only when "TURNOFFENABLE" is set to YES.

300 BSC

None

ALL

E1/T1 port

None

None

Board

None

ALL

Channelized optical port

None

When "Mode Control" is set to "Common User Mode", the OFF BSC recommended value is OFF; when "Mode Control" is set to "Specified User Mode", the recommended value is ON. BSC

This parameter is valid only when "PS CHR Record Switch" is set to on.

When "Mode Control" is set to "Common User Mode", the ON BSC recommended value is OFF; when "Mode Control" is set to "Specified User Mode", the recommended value is ON. BSC

This parameter is valid only when "PS CHR Record Switch" is set to on.

ON

BSC

This parameter is valid only when "PS CHR Record Switch" is set to on. This parameter is valid only when "PS CHR Record Switch" is set to on.

100 BSC6900

None

100 BSC6900

None

NSE

None

BSC6900

When the value of "ITFT" in "ADD TRMMAP" is set to ABIS, this parameter is valid.

BSC6900

When the value of "ITFT" in "ADD TRMMAP" is set to ABIS, this parameter is valid.

NO When the interface type is Abis, the parameter is AF43. When the interface type is Abis and transmission type is HDLC, the parameter is 1.

NO

This parameter is valid only when "PS CHR Record Switch" is set to on.

4 Cell

None

6 Cell

None

Cell

None

When the interface type is Abis, transmission type is IP, the parameter is AF33. When the interface type is Abis and transmission type is HDLC, the parameter is 2.

None

BSC6900

When the value of "ITFT" in "ADD TRMMAP" is set to ABIS, this parameter is valid.

BSC6900

When the value of "ITFT" in "ADD TRMMAP" is set to ABIS, this parameter is valid.

6 Cell

None

25 Cell

None

BSC

This parameter is valid only when "PSRCDSW" is set to on.

-109 Cell

The value of this parameter must be smaller than "RACH Busy Threshold" in the "SET GCELLCCBASIC" command.

-109 BTS

None

BSC

None

500 BSC

None

1000 BSC

None

YES

BTS

None

For YES"Power System Type" is "APM30" or "EPS4815", the recommended value is "NO". For other types of Power System, the recommended value is "YES".

BTS

None

BTS

None

YES

BTS

None

YES

BTS

None

YES

BTS

None

YES

BTS

None

ON

YES

BTS

None

YES

BTS

None

35 Cell

None

None

BTS

None

None

BSC6900

None

None

None

None

None

BSC6900

None

0 Cell

None

None

NSE

None

BOOL

BTS

None

None

E1/T1 port

None

None

E1/T1 port

None

None

E1/T1 port

None

E1_CRC4_MULTI_FRAME

E1/T1 port

None

None

BTS

None

None

Ethernet port

None

None

BTS

None

None

BSC6900

None

None

BTS

None

None

None

None

500 BSC

None

None

BSC6900

None

None

BSC6900

None

None

None

None

None

BSC6900

None

None

None

None

None

None

None

None

None

None

NO

Cell

None

NO

Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

PWR3

Cell

None

1 Cell

None

YES

Cell

None

ALLPwrLoc

Cell

None

None

BTS

5 BTS

None This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.

YES

Cell

None

Default

TRX

None

OFF

BTS

None

OFF

BTS

None

OFF

BTS

None

None

Port queue

None

None

Port queue

None

None

Port queue

None

None

Port queue

None

None

Port queue

None

Use_Qsearch_I

Cell

None

Set this parameter to YES only in special scenarios such as highways. Cell

3 Cell

15 Cell

2 Cell

This Noneparameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "QCKSTATCNT" >= "QCKTRUECNT". This parameter is valid only when "QCKMVHOEN" in "SET This parameter is valid when GCELLHOBASIC" is setonly to YES. "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "QCKSTATCNT" >= "QCKTRUECNT".

NO

NO

15 Cell

None

6 Cell

None

2 Cell

None

Cell

None

15 Cell

None

15 Cell

None

Cell

3 Cell

5 Cell

NONE

Cell

6 BTS

6 BTS

2 Cell

This Noneparameter is valid only when "QTRUPWRSHARE" is not set to NONE. The following condition must be met: "QTRUDNPWRSTATTIME" >= This parameter is valid only when "QTRUDNPWRLASTTIME". "QTRUPWRSHARE" is not set to NONE. The following condition must be met: "QTRUDNPWRSTATTIME" >= "QTRUDNPWRLASTTIME".

None This parameter must be equal to or greater than 0.6x"CHKOFFTIMES" and equal to or less than "CHKOFFTIMES". This parameter must be equal to or greater than 0.6x"CHKONTIMES" and equal to or less than "CHKONTIMES". This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.

NO

Cell

None

NO

Cell

None

AU0-0&AU1-0&AU2-0&AU3-0&AU40&AU5-0&AU6-0&AU7-0 BTS

None

NO

None

BTS

INSIDE_50AH

BTS

This parameter is valid only when "R0BatAllow" is set to YES.

015C

BTS

This parameter is valid only when "R0BatAllow" is set to YES.

INSIDE_BATTERY

BTS

This parameter is valid only when "R0BatAllow" is set to YES.

AU0-0&AU1-0&AU2-0&AU3-0&AU40&AU5-0&AU6-0&AU7-0 BTS

None

NO

BTS

None

INSIDE_50AH

BTS

This parameter is valid only when "R1BatAllow" is set to YES.

015C

BTS

This parameter is valid only when "R1BatAllow" is set to YES.

INSIDE_BATTERY

BTS

This parameter is valid only when "R1BatAllow" is set to YES.

AU0-0&AU1-0&AU2-0&AU3-0&AU40&AU5-0&AU6-0&AU7-0 BTS

None

NO

BTS

None

INSIDE_50AH

BTS

This parameter is valid only when "R2BatAllow" is set to YES.

015C

BTS

This parameter is valid only when "R2BatAllow" is set to YES.

INSIDE_BATTERY

BTS

This parameter is valid only when "R2BatAllow" is set to YES.

0 Cell

None

0 Cell

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

None

Cell

None

None

Cell

None

None

Cell

None

-109 Cell

The value of this parameter must be smaller than "RACH Busy Threshold" in the "SET GCELLCCBASIC" command.

16 Cell

None

5000 Cell

None

-109 BTS

None

1 Cell

None

Cell

None

225 Cell

None

2dB

Cell

None

100M

BTS

None

ALG1

Cell

None

DISABLE

Cell

None

4 BSC

None

YES

None

BSC6900

None

REC_ALL

BSC6900

None

None

BTS

None

None

BTS

None

None

BTS

None

NONE

TRX

None

96 IP logical port

YES

Cell

Diff_Band

Cell

50 Cell

40 Cell

5 Cell

30 Cell

None

None This parameter is valid when "REASSEN" in the "SET GCELLCCBASIC" command is set to YES. This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "ENIUO" is set to OFF. This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "ENIUO" is set to OFF.

YES

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

NO

BSC

None

30 IP logical port

None

60 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

NO

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

None

Board

None

10 BSC

None

3 BSC

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

None

Board

None

NO

Board

None

None

BTS

None

None

Cell

None

None

Cell

None

REHOSTDELAY

Cell

None

NO

BSC6900

None

None

BTS

None

NO

BTS

None

OFF

BTS

None

None

BTS

None

None

BTS

None

NONE

BTS

None

None

BSC6900

None

None

IP route

None

None

NSE

None

None

Cell

None

NO

Cell

None

5 Cell

This parameter is valid when "REPEATDLFASET" is set to YES.

NO

Cell

None

NO

BTS

None

YES

BSC

None

6 Cell

None

2 Cell

None

10 Cell

None

1 Cell

None

0 Cell

None This parameter is valid when "DYNOpenTrxPower" in the "SET GCELLBASICPARA" command is set to YES.

2 Cell

NO

BSC

5 BSC

None

BSC6900

None This parameter is valid only when "ResetAlmDelaySwitch" is set to YES.

None

3 BSC

None

BTS

None

10 BSC

None

None

BSC

None

YES

BSC

None

None

BSC6900

None

None

None

3 PPP link

None

3 MP link

None

BSC6900

30 BSC

None

None Set when Allow Common Measurement at Iur-g is set to Yes or Allow Info Exchange at Iur-g is set to Yes

0 Cell

None

5 Cell

None

10 Cell

None

BSC6900

None

NO

BTS

None

GPS

BTS

None

NO

NSE

None

None

None

None

52_Times

Cell

None

STANDALONETC

BSC

RMTTCATERTRANSMODE must be set when "ISTCCENTRAL" in the "ADD SUBRACK" command is set to YES.

None

Cell

None

255 BSC

None

None

BSC

None

None

None

None

None

BSC6900

None

None

BSC

None

None

BSC

None

DISABLE

Cell

None

15.36sec

Cell

None

0.96sec

Cell

None

20 IP logical port

None

NO

Cell

2 Cell

6 Cell

None This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" is set to EnhMeasReport. This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" is set to EnhMeasReport.

None

AAL2 path

When the value of "ADDTORSCGRP" in "ADD AAL2PATH" is set to YES, this parameter is valid.

None

Transmission resource group

None

None

IP logical port

5 Cell

3 Cell

30 Cell

None A 3G cell can be added into the candidate cell queue when the following conditions are met: "INTERRATOUTBSCHOEN" is set to None YES; "BET3GHOEN" is set to YES; the RSCP of the 3G cell for a period of time is greater than the sun of "HORSCPTH3G" and "RSCPOFF".

None

None

Board

None

None

Board

None

MINUS_2db

Cell

None

None

Transport channel

None

None

BSC6900

None

None

BSC6900

None

None

Transport channel

None

None

BSC6900

None

4 BTS

None

None

BSC6900

None

Set this parameter to about 68 in densely populated urban areas and about 72 in suburban areas.

BSC

None

None

None

None

None

BSC6900

None

OFF

SCCP

When the value of "SPCBITS" is set to BIT14 or BIT24, this parameter is valid.

3000 PPP link

0 Cell

None This parameter is valid only when "EMCPRILV" in "SET GCELLCCAD" is not set to 15.

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

2 BSC

None

MSP protect group

4294967295 SCCP

None

None

None

None

1 BSC6900

None

ON

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

DISABLE

None

12 SCTP link

None

25 SCTP link

1000 SCTP link

None The value to be set should be larger than the value of "RTOMIN" in "ADD SCTPLNK" but smaller than the value of "RTOMAX".

3000 SCTP link

The value to be set should be larger than the value of "RTOMIN" in "ADD SCTPLNK".

1000 SCTP link

The value to be set should be smaller than the value of "RTOMAX" in "ADD SCTPLNK".

Cell

None

30 Cell

None

BTS

None

5 IP logical port

5 IP logical port

None

BTS

None

IP path

None

Transmission resource group

None When "GRPT" in "ADD RSCGRP" is set to ATM or "BWMODE" is set to FULL_DUPLEX, this parameter is valid;The sum of "TxBw" and "RxBw" in None "ADD RSCGRP" of upper class RSCGRP can not less than the "TxBw" and "AllBw" in "ADD RSCGRP"of lower None RSCGRP;The "TxBw" in "ADD class RSCGRP" of upper class RSCGRP can not less than the "TxBw" in "ADD RSCGRP" of lower class RSCGRP, and None the "RxBw" in "ADD RSCGRP" of upper class RSCGRP can not less than the "RxBw" in "ADD RSCGRP" of lower class RSCGRP.

2 Cell In dual-band networking mode for densely populated urban areas, the level drops rapidly due to multiple barriers. The propagation loss of the 5 Cell 1800 MHz frequency band is greater than the propagation loss of the 900 MHz frequency band. Considering 8 Cell the preceding factors, you can set this parameter to YES for the DCS1800 cell. Under normal conditions, set this parameter to No. Cell

None

60 Cell

None

42 Cell

None

41 Cell

None

40 Cell

None

50 Cell

None

49 Cell

None

48 Cell

None

47 Cell

None

None

None This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.

46 Cell

None

45 Cell

None

44 Cell

None

43 Cell

None

None

TRX

None

None

BTS

None

None

BTS

None

None

TRX

None

None

BTS

None

None

TRX

None

None

BTS

None

None

BTS

None

None

TRX

None

None

BTS

None

None

BTS

None

None

BTS

None

OFF

Board

None

None

Board

None

None

BTS

None

None

BTS

None

NO

BSC6900

This parameter is required when "Default DPC" is set to NO.

NO

Cell

This parameter is valid only when "PWRBCDALLOWD" is set to YES.

1 Cell

This parameter is valid only when "SAICALLOWED" in "SET GCELLPWRBASIC" is set to YES.

3 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

None

BTS

None

Cell

BYNAME

Cell

5 Cell

None

None This parameter is valid only when "TURNOFFENABLE" is set to YES. 1. This parameter is valid only when "TURNOFFENABLE" set to ENABLE. This parameter is validisonly when 2. The setting of this "TURNOFFENABLE" is set to YES. parameter must meet the following condition: "SAMECVGCELLLOADSTATTM" >= "SAMECVGCELLLOADLASTTM".

50 Cell

This parameter is valid only when "TURNOFFENABLE" is set to YES.

Cell

This parameter is valid only when "TURNOFFENABLE" is set to YES.

32 Cell

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

ADD0dB

Cell

None

38 BSC

4 Cell

None This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.

None

BSC6900

None

None

BSC6900

None

ENGLISH

Cell

None

None

None

None

None

BSC6900

None

BYCELLID

None

None

None

None

None

None

0 Cell

None

1 BSC6900

None

SCTP link

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

MSP protect 1.00E-06 group

None

None

None

None

None

BSC6900

None

1 BTS

None

Cell

None

10 Cell

None

6 Cell

None

55 Cell

None

6 Cell

None

55 Cell

None

YES

Cell

None

DISABLE

MSP protect group

None

OFF

Cell

None

OFF

ENABLE

None

TRX

None

2 Cell

None

1 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

40 Cell

None

30 Cell

None

48 BSC

None

MSP protect group

None

53 BTS

None

BTS

None

None BTS If "Power System Type" is "SC48200", the recommended value is "460". Otherwise, the recommended value is "430". BTS

None

YES

Cell

None

None

None

None

YES

BSC

None

NO

BSC

None

NO

Cell

None

NO

MSC

None

None

The value of this parameter must be smaller than "DC Voltage Lower Threshold".

YES

BSC

None

NoPriority

Cell

None

NoPriority

Cell

None

None

BTS

None

NO

BSC

None

YES

BSC

None

YES

BSC

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

None

BSC6900

None

SEPARATE

BSC

None

TDM

BTS

None

BTS

None The value range of this parameter varies with "BTS Type". Different types of BTSs support different types of services.

None

BSC6900

None

None

BTS

None

NO

BTS

None

NO

BTS

None

NO

BTS

None

NO

BTS

None

None

BTS

None

1800 BSC

None

BSC

None

None

1 BSC

This parameter is valid when "SGSNPOOLALLOW" is set to YES.

0 BSC

This parameter is valid when "SGSNPOOLALLOW" is set to YES.

NO

BSC

None

Release 99 onwards

Cell

None

ALLOW

BSC

None

75 BSC

None

None

BSC

None

NO

BTS

None

None

BSC6900

None

3 BTS

This parameter is valid only when the cell parameter "BAKPWRSAVMETHOD" is set to BYPWR and "SDFALG" in "SET GTRXDEV" is set to ENABLE.

YES

BSC

None

NO

Cell

None

4 BSC6900

None

None

SCCP

None

None

SCCP

None

None

BSC6900

None

None

100 NSE

None

100 NSE

None

2 BSC

None

5 BSC6900

None

2 Cell

None

None

2 Cell

None

None

3000 BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

BSC

None

None

Ethernet port

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BTS

None

None

BTS

None

None

None

None

B0000

SCCP

None

300 BSC

None

None

BSC6900

None

None

BSC

None

NOTSUPPORT

BSC

None

None

None

None

None

BSC6900

None

10 None

None

None

The number of CPU usage sampling times is at least twice the size of "Fast judgement window".

None

None

None

None

None

Transmission resource group

None

None

BSC6900

None

None

E1/T1 link

None

None

E1/T1 link

None

None

Transmission resource group

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

None

None

Cell

None

None

BSC

None

None

BTS

None

6 BTS

None

None

Board

None

None

Transmission resource group

None

None

BTS

None

None

BTS

None

None

BTS

None

NONE

TRX

None

DOUBLE_ANTENNA

BTS

None

DOUBLE_ANTENNA

BTS

None

DOUBLE_ANTENNA

BTS

None

DOUBLE_ANTENNA

BTS

None

SGL_ANTENNA

BTS

None

None

BSC6900

None

None

SCCP

When the value of "SPDF" is set to WNF, this parameter is valid.

None

SCCP

This parameter depends on network planning.

None

SCCP

When the value of "SPDF" is set to DNF, this parameter is valid.

None

PBE1T1

None

WNF

SCCP

When the value of "SPDF" in "ADD N7DPC" is set to WNF, this parameter is valid.

L11_FORBID-0&L12_FORBID0&L13_FORBID-0&L14_FORBID0&L15_FORBID-0

Cell

None

None

BTS

None

None

BTS

None

12 BSC

None

YES

MSC

None

YES

MSC

None

YES

MSC

None

NO

MSC

None

PSMODE

BTS

None

PSMODE

BTS

None

FR

BTS

None

AUTO

Ethernet port

None

30 Cell

None

40 Cell

None

NO

Cell

None

NOTSPPRTBC

BSC

None

NO

BSC

None

NO

BSC

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

NO

BSC

None

NO

BSC6900

This parameter is required when "Trunking MSC" is set to YES.

BSC

This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.

BSC

This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.

BSC

This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.

NO

BSC

This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.

NO

BSC

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

NO

BTS

None

None If the version of a GSM base station is BTS3000V100R009 or later, or if the version of a multi-mode 3900 If the software version of the series base station is V100R002 or None SingleRAN BTS is SRAN3.0 later, the recommended valueoroflater, this the parameter Is support SRAN parameter is SUPPORT. Otherwise, mode needs to be set to the recommended value of this SUPPORT(Support). If the software parameter is NOT_SUPPORT. version of the SingleRAN BTS is earlier than SRAN3.0, the parameter Is support SRAN mode needs to be set to NOT_SUPPORT(Not Support).

BSC6900

None

SCCP

None

BTS

None

BTS

None

NOT_SUPPORT

BTS

None

None

Cell

None

None

Cell

None

None

Cell

None

NO

NO

NO

None

Cell

None

None

Cell

None

None

BSC6900

None

None

None

None

None

None

None

HOALGORITHM1

Cell

The value of this parameter must be the same as that of "HOCTRLSWITCH" in "SET GCELLHOBASIC".

None

Current BFD session

None

None

Cell

None

None

Cell

None

None

Ethernet port

None

None

Cell

None

None

E1/T1 port

None

LINE1_8K and LINE2_8K are most commonly used.

None

None

None

E1/T1 port

None

None

None

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

E1/T1 link

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC

None

None

BSC

None

None

BTS

None

0 BTS

None

None

BSC

None

None

BSC

None

None

BTS

None

None

BTS

None

None

BTS

None

None

Control plane link

None

None

BSC6900

None

None

None

None

None

None

None

None

None

None

None

BSC6900

None

100 NSE

None

100 NSE

None

GSM_PRIOR

BTS

None

None

BTS

None

63 Cell

None

75 Board

None

85 Board

None

80 Board

None

80 Board

None

6 Cell

None

2 Cell

None

None

None

None

None

BSC

None

None

BSC6900

63 Cell

None

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

Cell

None

None

BSC6900

None

YES

BSC

None

YES

BSC

None

E1/T1 link

When the value of "OPMODE" of "BLK ACIC" is BYCICRANGE, the value of STARTTS needs to be set.

None

None

PBCIC

None

BSC

-100 BTS

None

BSC

The setting of this parameter must meet the following condition: When None "EndMonthDSTPA" and "StartMonthDSTPA" are set to the same value, "EndDayDSTPA" must be later than "StartDayDSTPA". The value of this parameter must be smaller than "Heater shutdown Temperature". The setting of this parameter must meet the following condition: "EndMonthDSTPA" is the same as or is later than "StartMonthDSTPA".

YES

BSC

None

YES

BSC

None

None

BTS

None

240 BTS

This parameter is valid only when "ENABLE" is set to YES.

BSC

This parameter is set only when "BSCDynSwitchTrxPAAllow" is set to YES.

E1/T1 link

When the value of "OPMODE" of "BLK ATERE1T1" is BYCICRANGE, the value of STARTTS needs to be set.

None

E1/T1 link

When the value of "OPMODE" of "BLK AE1T1" is BYCICRANGE, the value of STARTTS needs to be set.

None

BTS

None

ENABLED

BTS

None

DISABLED

BTS

None

None

E1/T1 link

None

None

BTS

None

None

None

None

BSC6900

None

BSC

To ensure that all the frequencies can be measured within 24 hours, the None following condition must be met: ("PERIOD" x 15) x (total number of frequencies to be measured/"STEP") < (24 x 60).

NO

MTP3 link

None

None

None

None

NO

Cell

None

OFF

Cell

120 BTS

None This parameter is valid only when "ENABLE" is set to YES.

OFF

SCCP

None

None

BTS

None

None

Cell

None

BTS

None

BTS

None

BTS

None If the added monitoring timeslot works at 64 kbit/s, the sub-timeslots are numbered from 0. If the added None monitoring timeslot works at 32 kbit/s, the sub-timeslots are numbered from 0 or 4. If the added monitoring timeslot works None at 16 kbit/s, the sub-timeslots are numbered from 0, 2, 4, or 6. If the added monitoring timeslot works at 8 kbit/s, the sub-timeslots are numbered from any value among 0 to 7.

None

BSC6900

None

None

BTS

None

BTS

None If "Work Mode for Auto Download Activation" is "TMUAUTOACT", the BTS type must be consistent with the actual BTS type.

None

E1/T1 link

When SUBBSC is selected for "BSC flag", this parameter should be set.

None

E1/T1 link

When SUBBSC is selected for "BSC flag", this parameter should be set.

None

None

None

352 None

352 BTS

None

BSC6900

This Noneparameter must meet the following requirements: The sum of the value of "Max Subframe Length" and 8 must be smaller than the value of "Maximum Frame Length".

None

None

BSC6900

None

NO

Cell

This parameter is valid when "FLEXABISMODE" in the "MOD BTS" command is set to YES.

NO

BTS

None

None

BTS

None

None

BTS

None

YES

BSC

None

None

None

None

None

None

None

NO

Cell

None

NOTSUPPORT

BSC

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu.

NOTSUPPORT

BSC

None

None

Cell

This parameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT.

NO

BSC

None

NO

BSC

None

NO

BSC

None

T_20

Cell

None

None

NSE

None

None

NSE

None

None

None

None

None

BSC6900

None

ON

BSC6900

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

None

None

None

BSC6900

None

None

BSC6900

None

None

None

None

None

BTS

None

CLOSE

BTS

None

YES

SCTP link

None

10 SCTP link

None

BSC6900

None

OFF

0 BSC6900

None

OFF

BSC6900

None

OFF

BSC6900

None

OFF

BSC6900

None

OFF

BSC6900

None

OFF

BSC6900

None

0 BSC6900

None

0 BSC6900

None

0 BSC6900

None

None

BTS

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

Cell

This parameter is valid only when "UTRANCELLTYPE" is set to TDD.

AISS

BTS

None

None

BTS

None

1 BTS

None

2 BTS

None

0 BTS

None

None

None

None

None

None

None

10 Cell

This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.

None

None

None

YES

BSC

None

None

None

None

None

None

None

3000 BSC

None

5 None

None

60000 MTP3 link

None

1500 MTP3 link

None

1500 MTP3 link

None

3000 MTP3 link

None

1500 MTP3 link

None

1200 MTP3 link

None

When the transmission quality is good, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 12; 3000 BSC "T203" = 1; and "N200" = 3. When the transmission quality is bad, the recommended settings are as follows: "Ring II Wait Time Before 5 None Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 24; "T203" = 3; and "N200" = 3. BTS

None

None The value of this parameter must be smaller than "T203".

50 Cell

None

50 Cell

None

200 Cell

None

60 Cell When the transmission quality is good, the recommended settings are as follows: "Ring II Wait Time Before 150 Cell Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 12; 60 Cell "T203" = 1; and "N200" = 3. When the transmission quality is bad, the recommended settings are as follows: "Ring II Wait Time Before 60 Cell Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 24; "T203" = 3; and "N200" = 3. BTS

None

None

None

None The value of this parameter must be greater than "T200".

360000 MTP3 link

None

360000 MTP3 link

None

2000 MTP3 link

None

10000 BSC

None

5 None

The value of this parameter must be smaller than or equal to "Time2[S]".

7 Cell

None

10 Cell

None

500ms

Cell

None

500ms

Cell

None

20 Cell

None

10 BC

None

1200 MTP3 link

None

5000 BSC

None

1200 MTP3 link

None

1000 BSC

None

1200 MTP3 link

None

3000 BSC

None

3000 BSC

None

1200 MTP3 link

None

4 Cell

None

NO

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

YES

Cell

None

0 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

1 Cell

This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "TAHOEN" is set to YES. The following condition must be met: "TASTATTIME" >= "TALASTTIME".

255 Cell

This parameter is valid only when "TAHOEN" in "SET GCELLHOBASIC" is set to YES.

0 Cell

2 Cell

None

None This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2.

63 Cell

This parameter is valid only when "TAHOEN" is set to YES and None "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "TASTATTIME" >= "TALASTTIME". This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. The following condition must be met: "TALIMIT" > "TATHRES".

10 Cell

None

10 Cell

None

BSC6900

1 Cell

None

BSC6900

None

None

None

None

90 BTS

90 BTS

170 MTP3 link

ON

This parameter is valid only when "OMLBKUP" is set to YES. This parameter must meet the following requirements: "FallBack Start Time" > "Ring I Wait Time Before Switch" + "Ring I Try Rotating Duration Time".

None

4000 BSC

None

80 BTS

None

BSC

None

NO

YES

TRX

None

60 Cell

None

40 Cell

None

6 Cell

None

55 Cell

None

40 Cell

None

6 Cell

None

55 Cell

None

2 Cell

None

3 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

BSC

60 Cell

OFF

None

70 Cell

"TCHTRICBUSYOVERLAYTHR" and None "TCHTRIBUSYUNDERLAYTHR" can be set only when "HRIUOLDRATESELALLOW" is set to "TCHTRICBUSYOVERLAYTHR" and YES. "TCHTRIBUSYUNDERLAYTHR" can be set only when "HRIUOLDRATESELALLOW" is set to YES.

10 MTP3 link

None

MTP3 link

None

Cell

60 Cell

None

None

DISABLE

Cell

None

None

BTS

None

None

Control plane link

None

None

Cell

None

None

Control plane link

None

None

Control plane link

None

None

None

None

None

Cell

None

None

Cell

None

0 Cell

None

8 Cell

None

0 Cell

None

Cell

None

0 Cell

None

NO

Cell

None

NO

Cell

None

10 Cell

None

None

None

Cell

None

None

Cell

None

NO

Cell

None

None

Cell

None

20 BSC6900

None

15 BSC6900

None

None

Control plane link

None

None

Control plane link

None

63 PBSL

None

None

None

None

None

None

None

None

None

None

500 BTS

This parameter must be at least 3C greater than "Lower ENV TEMP Alarm".

500 BTS

This parameter must be at least 4C greater than "Lower ENV TEMP Alarm".

0 BTS

This parameter must be at least 3C lower than "Upper ENV TEMP Alarm".

0 BTS

This parameter must be at least 4C lower than "Upper ENV TEMP Alarm".

800 BTS

None

None

Cell

None

None

None

None

None

None

None

None

None

None

65 BTS

None

BTS

None

-100 BTS

None

BSC

None

For EPS4815 boards, the value of this parameter is always "-1". For other types of APMU boards, the recommended value is "-100".

YES

None

Cell

The maximum length of this parameter is decided by "SCHEME": When None "SCHEME" is set to BINARY, the length of this parameter should not extend 2462 bytes; otherwise, the length should not extend 1395 bytes.

OFF

Board

None

None

None

None

30 BSC

65535 Cell

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

None

None

BSC6900

None

None

5000 BSC

None

264 BTS

None

264 BTS

None

10 Cell

None

6 Cell

None

4 Cell

None

8 Cell

None

4 Cell

None

3 Cell

None

6 Cell

None

3 Cell

None

2 Cell

None

BSC6900

5 BSC

30 Cell

None

None This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON.

1 Cell

4 Cell

6 Cell

This parameter is valid only when This parameter is valid only when "TIGHTBCCHSWITCH" in "SET "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON. GCELLCHMGBASIC" is set to ON. The following condition must be met: "TIGHTBCCHHOSTATTIME" >= "TIGHTBCCHHOLASTTIME".

3 Cell

This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON.

80 Cell

OFF

This parameter is valid only when This parameter is valid only when "TIGHTBCCHSWITCH" in "SET "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON. GCELLCHMGBASIC" is set to ON. The following condition must be met: "TIGHTBCCHHOSTATTIME" >= "TIGHTBCCHHOLASTTIME".

Cell

None

40 Cell

None

5 BSC

This parameter is valid when "MSCPOOLALLOW" is set to YES.

NOLIMIT

BSC6900

None

None

BSC6900

None

None

BTS

None

10 Cell

None

10 Cell

None

10 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

2000 Ethernet port

None

3000 None

None

2 Ethernet port

None

2 Ethernet port

None

2 BTS

None

10 Cell

None

4 Ethernet port

NO

None

Cell

None

30 Cell

None

40 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

8 Cell

None

5 BSC

This parameter is valid when "MSCPOOLALLOW" is set to YES.

None

BSC6900

None

None

Subsystem

This parameter is valid only when "IDXTYPE" is set to BYTLLI.

If "Power System Type" is 45 BTS "EPS4815", the recommended value is "0". For other types of Power System, the recommended value is "19". BTS

-20 BTS

None

None The value of this parameter must be at least two degrees smaller than "Temperature Alarm Upper Threshold".

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

None

None

The TRMMAP index is configured by setting the value of "TMI" in "ADD TRMMAP".

None

BC

None

None

None

None

3 Cell

None

None

BSC6900

None

None

BSC

None

None

BSC6900

None

12000 MTP3 link

None

60000 MTP3 link

None

None

BSC6900

None

TRRS

ATERCONSL

None

None

PBE1T1

None

None

BSC6900

None

0 Cell

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BSC6900

None

None

BTS

None

8 Cell

None

60 Board

None

67 Board

None

50 Board

None

62 Board

None

Board

None

ON

5 BSC

None

5 BSC

None

M3UA_LOADSHARE_MOD

SCCP

None

None

BTS

None

None

BSC

None

None

IP path

None

BSC6900

When the value of "ITFT" in "ADD TRMMAP" is set to IUB, IUR or IUCS, this parameter is valid.

None

BSC6900

When the value of "ITFT" in "ADD TRMMAP" is set to IUB, IUR or IUCS, this parameter is valid.

None

BSC6900

None

None

BTS

None

NO

BTS

None

NO

BTS

None

NO

BTS

None

NO

BTS

None

None

None

None

10sec

Cell

None

None

90 Cell

This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.

None

Ethernet port

None

None

BSC6900

None

None

Ethernet port

None

None

BSC6900

None

2 BSC6900

None

None

2 BSC6900

None

BSC6900

None

2 PPP link

None

2 None

None

2 IP logical port

0 None

The TRM load threshold parameter must None meet the following conditions: forward congestion recovery threshold < logical port bandwidth, backward congestion recovery threshold < logical port bandwidth.

None

BTS

None

None

IP logical port

None

None

None

None

None

Ethernet port

None

AllowReCheckRes

Cell

None

None

None

None

255 Physical channel None

None

TRX

None

None

BTS

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

Cell

None

None

BSC

None

None

None

None

None

Physical channel None

None

TRX

None

None

BTS

None

None

TRX

None

None

TRX

None

YES

Cell

None

None

TRX

None

E1/T1 link

When the value of "OPMODE" of "BLK ATERE1T1" is BYCICVALUE, the value of TS needs to be set.

None

E1/T1 link

When the value of "OPMODE" of "BLK AE1T1" is BYCICVALUE, the value of TS needs to be set.

None

Cell

None

None

None

BC

None

None

BTS

None

None

PPP link

None

None

MP link

None

None

BTS

None

None

Cell

None

None

BTS

None

NO

Cell

None

None

E1/T1 port

None

None

None

None

None

BTS

None

None

BSC6900

None

None

None

None

None

BTS

None

None

BTS

None

None

PBSL

None

0 Physical channel None

If the board is configured with two to four TRXs, the recommended value of this parameter is 20. If the board is configured with five TRXs, the recommended value of this parameter is 50. If the board is configured with six TRXs, the recommended value of this parameter is 48. TRX

None

Open

BSC

None

BTS

The value of "Fast Flux Measurement Period" cannot beisgreater than that of If this parameter set to “16K”, "In-BSC "FastTimeslot Flux Measurement TBF Time". Sub No." and "Out-BTS Sub Timeslot No." must be 0, 2, 4, or 6. If this parameter is set to “32K”, "In-BSC Sub NoneTimeslot No." and "Out-BTS Sub Timeslot No." must be 0 or 4. If this parameter is set to “64K”, "In-BSC Sub Timeslot No." and "Out-BTS Sub Timeslot No." must be 0.

None

BTS

None

None

None

None

None

None

None

None

None

None

None

None

None

NO

BSC

None

None

BTS

None

5000 BSC

64 Ethernet port

None

64 Ethernet port

None

None

Cell

None

Cell

This parameter is valid only when "TURNOFFENABLE" is set to ENABLE. When "TURNOFFCELLSTPTIME" < "TURNOFFCELLSTRTIME", it indicates This parameter is Cell validPower only when that the Dynamic Off feature "TURNOFFENABLE" is to aENABLE can be enabled for moreset than day. or SLEEPING. The following condition must be met: "TURNOFFCELLSTPTIME" < "TURNOFFCELLSTRTIME"..

DISABLE

Cell

None

6 Cell

TX_32

80 Cell

This parameter is valid only when "TURNOFFENABLE" is set to ENABLE.

50 BTS

The value of this parameter must be smaller than "Temperature Alarm Lower Threshold".

68 BTS

The value of this parameter must be at least two degrees greater than "Temperature Alarm Lower Threshold".

5 BSC6900

None

10 BSC6900

None

5 BSC6900

None

10 BSC6900

None

5 BSC6900

None

5 BSC6900

None

5 BSC6900

None

Cell

None

0 Board

None

0 Board

None

0 Board

None

0 Board

None

0 Board

None

0 Board

None

0 Board

0 Board

None

IP path

None

Transmission resource group

500 Ethernet port

When "GRPT" in "ADD RSCGRP" is set to ATM or "BWMODE" is set to FULL_DUPLEX, this parameter is valid;The sum of "TxBw" and "RxBw" in None "ADD RSCGRP" of upper class RSCGRP can not less than the "TxBw" and "AllBw" in "ADD RSCGRP"of lower None RSCGRP;The "TxBw" in "ADD class RSCGRP" of upper class RSCGRP can not less than the "TxBw" in "ADD RSCGRP" of lower class RSCGRP, and None the "RxBw" in "ADD RSCGRP" of upper class RSCGRP can not less than the "RxBw" in "ADD RSCGRP" of lower class RSCGRP.

None

T_20

Cell

None

None

None

None

ANY_ERR_RETURN

BSC6900

None

None

Cell

None

None

BSC

None

None

Cell

None

BTS

None The value range of this parameter varies with BTS type. Different types of BTSs support different types of cabinets.

None

Cell

None

0 BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

0 BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

6 BSC

None

0 BSC

None

1 BSC

None

1 BSC

None

10 BSC

None

3 BSC

None

15 BSC

None

5 BSC

None

15 BSC

None

13 BSC

None

13 BSC

None

OFF

MSC

None

NO

BSC

None

6 BSC

None

0 BSC

None

1 BSC

None

1 BSC

None

10 BSC

None

3 BSC

None

15 BSC

None

1 BSC

None

15 BSC

None

13 BSC

None

13 BSC

None

OFF

MSC

None

None

None

None

None

None

None

None

NSE

None

None

NSE

None

Guests

BSC6900

None

80 BTS

None

64 Cell

None

1000 E1/T1 port

None

None

None

None

None

BTS

None

1 Cell

This parameter is valid only when This parameter isinvalid only when "PWRCTRLSW" "SET "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when >= "ULAFSREXQUALHIGHTHRED" "PWRCTRLSW" in "SET "ULAFSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when "ULAFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SET "ULAFSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when >= "ULAHSREXQUALHIGHTHRED" "PWRCTRLSW" in "SET "ULAHSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. This parameter is valid only The following condition mustwhen be met: "BETTERCELLHOEN" is set to YES "ULAHSREXQUALHIGHTHRED" >= and "HOCTRLSWITCH" is set to "ULAHSREXQUALLOWTHRED". HOALGORITHM2. The following This parameter is valid condition must be met: only when "BETTERCELLHOEN" "ULBQSTATTIME" >= is set to YES and "HOCTRLSWITCH" is set to "ULBQLASTTIME". HOALGORITHM2. The following condition must be met: "ULBQSTATTIME" >= "ULBQLASTTIME".

5 BSC

None

3 Cell

14 Cell

14 Cell

16 Cell

16 Cell

1 Cell

In Abis over TDM transmission, the recommended value is 180; in Abis over IP transmission, the recommended value is 200.

Cell

None

15 BSC

None

10 Cell

This parameter is valid when "FRINGEHOEN" is set to YES or "RXQCKFALLHOEN" is set to YES.

20 BSC

None

32 BSC

None

3 Cell

16 Cell

16 Cell

18 Cell

18 Cell

2 Cell

3 Cell

3 Cell

3 Cell

4 Cell

15 Cell

2 Cell

This parameter is valid only when This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to "PWRCTRLSW" in "SET YES. GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when "ULFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SET "ULFSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when "ULFSREXQUALHIGHTHRED" >= "PWRCTRLSW" in "SET "ULFSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only when>= "ULHSREXQUALHIGHTHRED" "PWRCTRLSW" in "SET "ULHSREXQUALLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULHSREXQUALHIGHTHRED" >= "ULHSREXQUALLOWTHRED". The setting of this parameter must meet the following condition: "ULTHF1" + "ULHYSTF1" < "ULTHF2" + "ULHYSTF2". The setting of this parameter must meet the following condition: "ULTHF2" + "ULHYSTF2" < "ULTHF3" + "ULHYSTF3".

None The setting of this parameter must meet the following condition: "ULTHH1" + "ULHYSTH1" < "ULTHH2" + "ULHYSTH2". The setting of this parameter must meet the following condition: "ULTHH2" + "ULHYSTH2" < "ULTHH3" + "ULHYSTH3".

None The setting of this parameter must meet the following condition: "ULTHWB1" + "ULHYSTWB1" < "ULTHWB2" + "ULHYSTWB2".

2 Cell

The setting of this parameter must meet the following condition: "ULTHWB1" + "ULHYSTWB1" < "ULTHWB2" + "ULHYSTWB2".

5 Cell

This Noneparameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and "UPPCEN" in "SET GCELLBASICPARA" is set to YES.

6 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

8 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

90 BSC

55 Cell

This Noneparameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and This parameter is valid only when "UPPCEN" in "SET "PWRCTRLSW" in "SET GCELLBASICPARA" is set to YES. GCELLPWRBASIC" is set to PWR2. The following condition must be met: This parameter is valid "ULQLOWTHRED" >= only when "PWRCTRLSW" in "SET "ULQHIGHTHRED". GCELLPWRBASIC" is set to PWR2. The following condition must be met: "ULQLOWTHRED" >= This parameter is valid only when "ULQHIGHTHRED". "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and "UPPCEN" in "SET GCELLBASICPARA" is set to YES. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2. This parameter is valid only when "BQHOEN" in "SET GCELLHOBASIC" is set to YES and "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES.

60 Cell

None

55 Cell

None

100 BSC

0 Cell

0 Cell

3 Cell

5 Cell

3 Cell

5 Cell

3 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

3 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

18 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: This parameter is valid only>= when "ULREXLEVHIGHTHRED" "PWRCTRLSW" in "SET "ULREXLEVLOWTHRED". GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULREXLEVHIGHTHRED" >= "ULREXLEVLOWTHRED".

1 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

6 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

3 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

1 Cell

This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.

6 Cell

This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.

18 Cell

75 Cell

30 Cell

18 Cell

This parameter is valid only when This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to "PWRCTRLSW" in "SET YES. GCELLPWRBASIC" is set to PWR2. The following condition must be met: This parameter is valid "ULSSHIGHTHRED" >=only when "PWRCTRLSW" in "SET "ULSSLOWTHRED". GCELLPWRBASIC" is set to PWR2. The following condition must be met: The setting of this parameter must meet "ULSSHIGHTHRED" >= the following conditions: "ULSSLOWTHRED". "ULTHF1" < "ULTHF2";

15 Cell

The setting+of"ULHYSTF1" this parameter must meet+ "ULTHF1" < "ULTHF2" the following conditions: "ULHYSTF2". "ULTHF2" < "ULTHF3";

19 Cell

The setting of this parameter must meet "ULTHF2" + "ULHYSTF2" < "ULTHF3" + the following "ULHYSTF3".conditions: "ULTHF2" < "ULTHF3";

28 Cell

The setting+of"ULHYSTF2" this parameter must meet+ "ULTHF2" < "ULTHF3" the following conditions: "ULHYSTF3". "ULTHH1" < "ULTHH2";

23 Cell

The setting+of"ULHYSTH1" this parameter must meet "ULTHH1" < "ULTHH2" the following conditions: + "ULHYSTH2". "ULTHH2" < "ULTHH3";

31 Cell

The setting+of"ULHYSTH2" this parameter must meet "ULTHH2" < "ULTHH3" the following conditions: + "ULHYSTH3". "ULTHH2" < "ULTHH3";

63 Cell

21 Cell

The setting+of"ULHYSTH2" this parameter must meet "ULTHH2" < "ULTHH3" the following conditions: + "ULHYSTH3". "ULTHWB1" < "ULTHWB2"; "ULTHWB1" + "ULHYSTWB1" < "ULTHWB2" + "ULHYSTWB2".

The setting of this parameter must meet the following conditions: "ULTHWB1" < "ULTHWB2"; 25 Cell

YES

Cell

32 BSC

NO

"ULTHWB1" + "ULHYSTWB1" < "ULTHWB2" + "ULHYSTWB2". This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

None

Cell

None

10 Cell

None

It is recommended that the value of this parameter is the same as that for "A Interface Tag". BSC

Generally, the value of this parameter is equal to "A Interface Tag" and "Abis Interface Tag".

None

None

E1/T1 port

3 BSC

None

40 BTS

None

40 BTS

None

40 BTS

None

60 BTS

None

60 BTS

None

60 BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

BTS

None

None

Cell

None

CS1

Cell

None

MCS2

Cell

None

20 Cell

None

MCS6

Cell

This parameter is valid only when "EGPRS2A" is set to YES.

UNFIXED

Cell

This parameter is valid only when "EGPRS2A" is set to YES.

2000 Cell

None

UNFIXED

Cell

None

UNFIXED

Cell

None

40 Cell

None

30 Cell

None

30 BTS

This parameter is valid only when "ENABLE" is set to YES.

None

BTS

None

YES

Cell

None

None

Transmission resource group

When "ISFIRSTCLASSE" in "ADD RSCGRP" is set to NO, this parameter is valid.

None

None

None

NO

4 Cell

The following condition must be met: "UPRXLEVSTATICTIME" >= "UPRXLEVLASTTIME".

6 Cell

None

5 Cell

The following condition must be met: "UPRXLEVSTATICTIME" >= "UPRXLEVLASTTIME".

Cell

None

120 Cell

None

10 Cell

None

5 Cell

None

5 Cell

None

5 Cell

None

2 Cell

None

2 Cell

None

PERMIT

Cell

None

None

BSC

None

NOTSUPPORT

BSC

None

None

BSC6900

None

None

None

None

None

BTS

None

None

BTS

None

50 BTS

None

NO

3 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.

10 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

35 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

5 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

5 Cell

This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.

None

Cell

None

None

BTS

None

255 Cell

No_Priority

Cell

0 Cell

95 BSC

NO

Cell

"VGCSRSRVNUM"" <= "VGCSMAXNUM"。

None "VGCSRSRVNUM"" + PDTCH Number <= Cell total service Channels

None

None

LEVEL0

None

90 BSC

None

None

DISABLE

IP path

None

None

BSC6900

None

DISABLE

SCTP link

None

DISABLE

SCTP link

None

None

BSC6900

None

None

Ethernet port

None

2 BTS

This parameter is valid only when "VLANSWITCH" is set to YES.

None

Ethernet port

None

None

BSC6900

None

None

BSC6900

None

None

BSC6900

None

0 BTS FULL_RATE_VER11&FULL_RATE_VER21&FULL_RATE_VER3NO 0&HALF_RATE_VER11&HALF_RATE_VER20&HALF_RATE_VER30&FULL_RATE_VER5-0

None

This parameter is valid only when "VLANSWITCH" is set to YES.

BTS

None

Cell

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

YES

BTS

None

2 Cell

None

3 BTS

None

None

20 BTS

This parameter must be at least 0.2 smaller than "Serious VSW Alarm TH".

30 BTS

This parameter must be at least 0.2 greater than "Standing Wave Radio Alarm Threshold".

2 Cell

None

BTS

None

27000 Cell

None

34000 Cell

None

26000 Cell

None

280 BSC

15 Cell

Timer of MS Location Response from MS
None

4 Cell

300 BSC

None Timer of MS Location Response from MS
INACTIVE

BTS

None

None

None

None

NOLIMIT

BSC6900

None

None

Cell

None

INACTIVE

BTS

None

None

None

None

None

BSC

None

None

BSC6900

None

M3UA_ASP

SCCP

None

NO

22 TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

12 TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

8 TRX

This parameter is valid only when "WLNKALMFLAG" is set to YES.

NO

TRX

None

Active

BSC6900

None

GSM

BTS

None

None

None

None

None

E1/T1 port

None

E1

BTS

None

16 ATERCONSL

90 BTS

90 BTS MSP protect 600 group

None

BSC6900

None This parameter is valid only when "OMLBKUP" is set to YES. This parameter must meet the following requirements: "FallBack Start Time" > "Ring I Wait Time Before Switch" + "Ring I Try Rotating Duration Time".

None

None

Access

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Read & Write

Service Interrupted After Modification

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode) If the value of this parameter is modified to "Lock", forced handover is triggered to hand the ongoing services on the corresponding TRX to another TRX. Services will be disrupted if the handover fails. If the value of this parameter is modified to "Shutdown", the ongoing services are not affected but new service accesses are not allowed.

If the value of this parameter is modified to "Lock", forced handover is triggered to hand the ongoing services on the corresponding channel to another channel. Services will be disrupted if the handover fails. If the value of this parameter is modified to "Shutdown", the ongoing services are not affected but new service accesses are not allowed.

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Y

Y

Y

Y

Y

Y

Y

Y

Y

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (Impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (Impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Y

Y

Y

Y

Y

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

Services are disrupted when the BCCH frequency of a cell is changed.

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

If traffic handover fails after the modification of the parameter, the service is interrupted.

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Y

Y

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

Not involved

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

N (No impact on the UE in idle mode)

Not involved

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Y

Y

Not involved

N (No impact on the UE in idle mode)

Not involved

Y

Y

Y

Y

Not involved

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (Impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Y

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

Not involved

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Y

Y

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Y

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Y

Y

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Y

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

Not involved

Not involved

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

If traffic handover fails after the modification of the parameter, the service is interrupted.

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Y

Not involved

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Y

N (No impact on the UE in idle mode)

Not involved

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Y

Not involved

Y

Y

Y

Not involved

N (No impact on the UE in idle mode)

Not involved

Y

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Not involved

Y

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

N (No impact on the UE in idle mode)

Not involved

N (No impact on the UE in idle mode)

Interruption Scope

Interruption Duration(Min)

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

The services are disrupted until this parameter is set to Unlock.

TRX

Services will be disrupted until the value of this parameter is changed to "Unlock".

Channel

Services will be disrupted until the value of this parameter is changed to "Unlock".

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Ethernet port

Interrupt the service until the correct gateway is set or the port swapping or the changing of IP route is finished.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Interrupt the service until negotiate successfully again.

BSC6900

Interrupt the service until negotiate successfully again.

PPP link

Less than 5 minutes

BSC6900

Interrupt the service until negotiate successfully again.

BSC6900

Interrupt the service until negotiate successfully again.

PPP link

Less than 5 minutes

PPP link

Interrupt the service until negotiate successfully again.

BSC6900

Interrupt the service until negotiate successfully again.

PPP link

Less than 5 minutes

PPP link

Interrupt the service until negotiate successfully again.

BSC6900

Interrupt the service until negotiate successfully again.

PPP link

Less than 5 minutes

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Optical port

If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link

The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not Involved

IP path

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

IP path

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link

The services are interrupted until the SCTP link is working normally.

SCTP link

The services are interrupted until the SCTP link is working normally.

SCTP link

The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Channel

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not Involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

NSVC

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

PPP link

Interrupt the service until negotiate successfully again.

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

PS service of the cell will be interrupt until this parameter is set to "SupportAsInnPcu" or "SupportAsExtPcu.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

The services are interrupted until the signaling point is available.

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not Involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Ethernet port

The loopback keeps interrupting the services until the loopback is cancelled.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

NSE

Services are interrupted unless the NSVL configuration is the same as the SGSN configuration at the BSC.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

If the mode is not consistent, will interrupt service until it is consistent.

BSC6900

If the mode is not consistent, will interrupt service until it is consistent.

BSC6900

If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

BSC6900

If the mode is not consistent, will interrupt service until it is consistent.

BSC6900

If the mode is not consistent, will interrupt service until it is consistent.

BSC6900

If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Optical port

If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link

The services are interrupted until the SCTP link is working normally.

SCTP link

The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

SCTP link

The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link

The services are interrupted until the SCTP link is working normally.

SCTP link

The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

E1/T1 port

Not involved When the peer end unconditionally changes the bits in the check message, the services will not resume unless the switch is set to OFF.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

E1/T1 port

The loopback keeps interrupting the services until it is cancelled.

BSC6900

The loopback keeps interrupting the services until it is cancelled.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

IP path

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

IP path

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Services are disrupted until the cells are redistributed successfully.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link

The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

PPP link

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

SCTP link

The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

If the mode is not consistent, will interrupt service until it is consistent.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 10 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Ethernet port

If the value is too big, will interrupt service until it is set to the normal value.

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 15 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

PPP link

Less than 5 minutes

SCTP link

The services are interrupted until the SCTP link is working normally.

SCTP link

The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

SCTP link

The services are interrupted until the SCTP link is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

PPP link

Interrupt the service until negotiate successfully again.

BSC6900

Interrupt the service until negotiate successfully again.

PPP link

Less than 5 minutes

NSE

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Ethernet port

The loopback keeps interrupting the services until the loopback is cancelled.

Ethernet port

The loopback keeps interrupting the services until the loopback is cancelled.

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BC

Services are interrupted until the parameter is consistent with the SGSN at the peer end.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

NSE

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

BSC6900

Interrupt the service until negotiate successfully again.

BSC6900

Interrupt the service until negotiate successfully again.

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

NSE

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

The services are interrupted until the signaling point is available.

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

If the mode is not consistent, will interrupt service until it is consistent.

BSC6900

The services are interrupted until the M3DE is available.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 10 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC

Services are interrupted until the parameter is set to ALLOW or the cell is configured with a new SGSN.

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

NSE

Services are interrupted until "SIGLW" is not set to 0.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

The services are interrupted until the signaling point is available.

BSC6900

The services are interrupted until the signaling point is available.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Interrupt the service until negotiate successfully again.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

BTS

Less than 5 minutes

Not involved

Not involved

Subrack connection path

Less than 5 minutes

Subrack connection path

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

NSE

Services are interrupted until "SRVLW" is not set to 0.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BSC6900

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Subrack connection path

Less than 5 minutes

Subrack connection path

Less than 5 minutes

BSC

The services are interrupted until the PBSL is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not Involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Cell

Less than 5 minutes

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

Not involved

Not involved

PPP link

Less than 5 minutes

Cell

Less than 1 minute

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

BTS

Less than 5 minutes

Not involved

Not involved

BSC

The services are interrupted until the PBSL is working normally.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

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BSC

Less than 30 minutes

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NSE

Services are interrupted unless the NSVL configuration is the same as the SGSN configuration at the BSC.

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BTS

Less than 5 minutes

BTS

Less than 5 minutes

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BTS

Less than 5 minutes

BTS

Less than 5 minutes

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IP path

Less than 5 minutes

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SCTP link

The services are interrupted until the SCTP link is working normally.

SCTP link

The services are interrupted until the SCTP link is working normally.

BSC6900

If the mode is not set back, will interrupt service until it is set back.

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BSC6900

If the mode is not set back, will interrupt service until it is set back.

BSC6900

If the mode is not set back, will interrupt service until it is set back.

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BSC6900

Less than 5 minutes

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Caution

None

None The value of this parameter must be greater than five times the maximum value of the following parameter: "Filter Length for SD Length for TCH Level", "Filter Length for TCH Qual", "Filter Length for TA", "TA filter length for SDCCH level". If the parameter parameter must be greater than five times the value of "IBCA Assign Waiting Mr Time". If the parameter Waiting for "MR on SD parameter must be greater than the value of "Duration for Waiting MR on SDCCH".

None

None

None

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None

This parameter should be set to ON when the transmission delays of different 64 kbit/s timeslots are different over the Abis inte transmission delays usually occur in the DXX network mode or when the transmission paths of multiple E1 links are different un

None

None

None

None

None

If this parameter is set too high, a normal voice may be considered abnormal. If this parameter is set too low, an abnormal voic

None

None

None

None

None

None

None

None

None

None

None

None

The number of the chosen data rates must be from one to four. If this parameter involves only one full rate coding rate, the valu adjustable thresholds and hysteresis of AMR coding rate make no sense. This valid only when "BSSPAGINGCOORDINATION" in "SET GCELLPSBASE" setvalues to YES.of the following param If thisparameter parameterisinvolves two coding rates, the value of "AMR Starting Mode[F]" can be 0 or 1;isthe thresholds and hysteresis of AMR coding rate do not: "AMR UL Coding Rate adj.th1[F]", "AMR UL Coding Rate adj.hyst1[F]", "A The number of the chosen data rates must be from one to four. If this parameter involves only one half rate coding rate, the val Rate adj.hyst1[F]". ACS is usually set to 0and because system AMR information 7rate andmake 8 messages are seldom used in common cells. ACS should be set to adjustable thresholds hysteresis coding sense. If this and parameter involves three codingofrates, the value of "AMRno Starting Mode[F]" can be 0, 1, or 2; the values of the following a cell C2 is used for cell reselection. If this parameter involves two coding rates, the value of "AMR Starting Mode[H]" can be 0"AMR or 1; UL the Coding values of theadj.hyst1[F]", following para"A thresholds and hysteresis of AMR coding rate do not: "AMR UL Coding Rate adj.th1[F]", Rate thresholds and hysteresis of AMR coding rate do not: "AMR UL Coding Rate adj.th1[H]", "AMR UL Coding Rate adj.hyst1[H]", Rate adj.hyst1[F]", "AMR UL Coding Rate adj.th2[F]", "AMR UL Coding Rate adj.hyst2[F]", "AMR DL Coding Rate adj.th2[F]", a" Rate adj.hyst1[H]". If thisnumber parameter involves fullrates rate coding rates, the value of "AMR Mode[F]" can beone 0, 1,coding 2, andrate, 3; allthe the adjustabl The of the chosenfour data bethe from one three. If this Starting parameter of "A If this parameter involves three codingmust rates, value ofto"AMR Starting Mode[H]" involves can be 0,only 1, or 2; the values of thevalue following sense. adjustable thresholds and hysteresis of AMR coding rate make no sense. thresholds and hysteresis of AMR coding rate do not: "AMR UL Coding Rate adj.th1[H]", "AMR UL Coding Rate adj.hyst1[H]", " If thisadj.hyst1[H]", parameter involves coding Rate rates,adj.th2[H]", the value of"AMR "AMRUL Starting can be 0 "AMR or 1; the the following pa Rate "AMR two UL Coding CodingMode[WB]" Rate adj.hyst2[H]", DL values CodingofRate adj.th2[H]", thresholds and hysteresis of AMR coding rate do not: "AMR UL Coding Rate adj.th1[WB]", "AMR UL Coding Rate adj.hyst1[WB If this parameter involves four half rate coding rates, the value of "AMR Starting Mode[H]" can be 0, 1, 2, and 3; all the adjustab Coding sense. Rate adj.hyst1[WB]". If this parameter involves three coding rates, the value of "AMR Starting Mode[WB]" can be 0, 1, or 2; the values of the followin thresholds and hysteresis of AMR coding rate do not: "AMR UL Coding Rate adj.th1[WB]", "AMR UL Coding Rate adj.hyst1[WB Coding Rate adj.hyst1[WB]", "AMR UL Coding Rate adj.th2[WB]", "AMR UL Coding Rate adj.hyst2[WB]", "AMR DL Coding Rat adj.hyst2[WB]".

None

None

None

None

None

None

None

None

None

None

None.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None With a good anti-interference capability, AMR codes can support a lower carrier-to-interference ratio than non-AMR codes in a improves. In this case, the value of this parameter can be a little larger than that of "Radio Link Timeout".

With a good anti-interference capability, AMR codes can support a lower carrier-to-interference ratio than non-AMR codes in a improves. In this case, the value of this parameter can be a little larger than that of "SACCH Multi-Frames".

The parameter cannot be modified.

None With a good anti-interference capability, AMR codes can support a lower carrier-to-interference ratio than non-AMR codes in a improves. In this case, the value of this parameter can be a little larger than that of "Radio Link Timeout". With a good anti-interference capability, AMR codes can support a lower carrier-to-interference ratio than non-AMR codes in a improves. In this case, the value of this parameter can be a little larger than that of "SACCH Multi-Frames".

None

None

None

None

None

None

None If this parameter is set to a greater value, TRX mutual aid may not be triggered promptly in the case of BCCH TRX failure after smaller value, mutual aid may be decided mistakenly.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

This parameter is valid only when "SUPPORTEDA" is set to SUPPORT.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The adjacent node ID must be configured.

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

This parameter is valid only when "AqmSwitch" is set to OPEN.

This parameter is valid only when "AqmSwitch" is set to OPEN.

This parameter is valid only when "AqmSwitch" is set to OPEN.

This parameter is valid only when "AqmSwitch" is set to OPEN.

This parameter is valid only when "AqmSwitch" is set to OPEN.

This parameter is valid only when "AqmSwitch" is set to OPEN.

None

This parameter is valid only when "AqmSwitch" is set to OPEN.

None

None

None

None

None

None

To modify this parameter, run "STP GATEWAYCHK" first and then "STR GATEWAYCHK".

To modify this parameter, run "STP GATEWAYCHK" first and then "STR GATEWAYCHK".

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

Before enabling this function, ensure that the parameter "Directed Retry" of the cell is set to YES. To obtain MRs on the SDCCH MR on SDCCH Switch" and "IBCA Allowed" to YES.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

The ATT must be set to the same value for different cells in a same location area. If not, some MSs after power-on may not act specified by "T3212".

None

None

None

None

None

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

The port can be set to the DOWN or UP state when this parameter is modified. If the negotiation modes on the local and peer e

None

None

None

If this parameter is set to YES, the BSC load is increased early in every morning.

The auto negotiation mode of FE port on the IP-based interface board should be consistent with that of the port on the peer end disconnection.

None

None

None

If the mode is not consistent, will interrupt service until it is consistent.

None

None

None

None

None

None

None

Each backplane board 8K clock has only one clock source. You are not allowed to turn on the same backplane board 8K clock

Each backplane board 8K clock has only one clock source. You are not allowed to turn on the same backplane board 8K clock

None

None

None

None

None

To modify this parameter, run "STP GATEWAYCHK" first and then "STR GATEWAYCHK".

To modify this parameter, run "STP GATEWAYCHK" first and then "STR GATEWAYCHK".

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter modification should be negotiated with the peer end, and the BSC6900 should be reset after the modification. It modified when the system is running.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

To disable the alarm blink filter function, set this parameter to "0". To enable the alarm blink filter function, set this parameter to switch. See "SET ALMBLKSW" for setting the alarm blink filter switch.

To enable the alarm blink filter function, set "Alarm switch of blinking filter" and "Switch of stat blinking alarm" to "ENABLE".

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

If the value of this parameter is too small, the SCUs of the TC subrack may remain congested. If the value is too large, the call

The parameter cannot be modified.

None

None

None

None

None

When the M900/M1800 BSC is upgraded to BSC6000, this parameter needs to be set to 69. If this parameter is not set to 69 in parameter is invalid.

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None As defined in the protocol, the value of this parameter cannot be 0 in the following cases: The BSC needs to send system messages over the extended BCHs. CBCHs are configured. When the GSMR is enabled, NCHs are configured.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

If "MR.Preprocessing" is set to BTS_Preprocessing and this parameter is set to NO, the uplink-downlink balance associated tra algorithms that require power compensation are improper, such as PBGT handover, load handover, and concentric cell handov

A paging block (four continuous CCCH timeslots) can bear two IMSI paging messages, four TMSI paging messages, or two AG downlink is faulty when an MS is idle, the rule of downlink failure is based on the signaling downlink failure counter DSC. When None integer the closest to 90/N ("N" is BS_PA_MFRMS, number of multiframes in a cycle on a paging sub-channel, whose value ran messages over its paging sub-channels: Every time the MS succeeds in encoding a message, the DSC increases by 1 but can encoding a message, the DSC decreases by 4. If the DSC is smaller than or equal to 0, a signaling downlink failure occurs, wh varies with the BTS types.

None

None

None

None

This parameter is valid on a per cell basis and is valid only when "ACOOPERATPAGINGSWITCH" in the "SET BSCPSSOFTPA

None

None

None

If certain link is occupied, conversion from E1 to T1 or from T1 to E1 cannot be performed.

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

None

If BTS Bar Code is incorrect, the OML between the BTS and the BSC cannot be established. In this case, no alarm or status is BTS is replaced, you need to set a new BTS bar code for the BTS on the BSC.

None

None

This parameter cannot contain #.

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

This parameter can be set to BTS_Preprocessing only when the BTS supports the configured power control algorithm.

None

The parameter cannot be modified.

None

This parameter is required only by BTSs in IP transmission mode.

None

None

For a double-transceiver BTS or an NGBTS, the initial value is ON. For a BTS of any other type, the initial value is OFF and un

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

If the value of "Cell Bar Access" is YES and the value of "Cell Bar Qualify" is NO, new call access is prohibited but handover ac

The parameter cannot be modified.

None

None

None

None

If the value of "Cell Bar Access" is YES and the value of "Cell Bar Qualify" is NO, new call access is prohibited but handover ac

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

This parameter applies to only the EDGE trx.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing assignment complete messages containing cell lists, set this parameter to YES; otherwise, set

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The congestion start threshold must be greater than the congestion end threshold.

The congestion start threshold must be greater than the congestion end threshold.

None

None

None

The congestion start threshold must be greater than the congestion end threshold.

The congestion start threshold must be greater than the congestion end threshold.

The congestion start threshold must be greater than the congestion end threshold.

None

None

None

None

This function can be activated only when the "Switch for Abis Timeslot Detection" is "ON".

None

None

None

The purpose of setting this parameter is to avoid call connection failure when an MS supporting the full rate channel only reque rate channel only requests a full rate channel. In this way, the BSC can easily interconnect with an MSC of another vendor.

None

When the network status is poor, the check count should not be too small. Otherwise, the path state is affected.

None

None

None

The parameter cannot be modified.

None

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

The checksum mode need the negotiation with the peer. According to the RFC4960, the value should be set to CRC32.

The checksum mode need the negotiation with the peer. According to the RFC4960, the value should be set to CRC32.

None

The parameter cannot be modified.

None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

None

None

None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing assignment complete messages containing the Chosen Channel, set this parameter to YES; ot

The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing handover performed messages containing the Chosen Channel, set this parameter to YES; oth

The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing HO REQ ACK messages containing the Chosen Channel, set this parameter to YES; otherwise

The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process enc

The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process han

The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process ass complete message contains the Chosen Encryption Algorithm only when the encryption algorithm used by an MS in two cells c The setting of this parameter needs negotiation with the opposite network element MSC. this parameter is YES. SENDING: The HO REQ ACK message contains the Chosen Encryption Algorithm. NOSENDING: The HO REQ ACK message does not contain the Chosen Encryption Algorithm. SYSTEMOPT: If the encryption algorithm used by an MS in two cells changes before and after a handover, the HO REQ ACK m otherwise, the message does not.

None

None

None

None

The smaller the value of this parameter is, the more sensitively the BSC controls the arrival rate of channel request messages,

None

None

The CI can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214. 1. The block of A interface must be configured. 2. If A over IP is configured, the configuration does not support the operation.

The parameter cannot be modified.

None

None

None

None

None

The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process ass

The The setting setting of of this this parameter parameter needs needs negotiation negotiation with with the the opposite opposite network network element element MSC. MSC. In In this this way, way, the the MSC MSC can can process process ass HO NOSENDING: The assignment failure message does not contain the Circuit Pool List. SENDINGPRO: If the cause value of assignment failure is "Circuit pool mismatch" or "Switch circuit pool", the assignment failur message does not. SENDING: The assignment failure message contains the Circuit Pool List without restriction.

The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process HO

The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC does not support process assignment complete messages containing the Circuit Pool, the value YES of this parame

The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC does not support process assignment complete messages containing the Circuit Pool, the value YES of this parame

None

None

None

None

None

None

None

None

None

If you want to modify the value of "Clock board type" from "GCGa" to "GCUa", the board must not be configured with GPS.

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

The value of this parameter cannot be changed.

None

None

None

None

None

1. If you set "Upper count threshold of raised fault" and "Lower count threshold of raised fault" to "0", the accumulated number None 2. If "Upper count threshold of raised fault" is not "0", the value of "Lower count threshold of raised fault" cannot be "0" and you fault" is greater than "Lower count threshold of raised fault". 3. When "Upper count threshold of raised fault" is not "0" and "Alarm switch of blinking filter" and "Switch of stat blinking alarm" 1. you set "Upper count threshold of raised fault" "Lower count threshold of raised fault" to "0", the accumulated number to If "0". Otherwise, blink statistics of the alarm is not and performed. 2. If "Lower count threshold of raised fault" is not 0, the value of "Upper count threshold of raised fault" cannot be 0 and you mu smaller than "Upper count threshold of raised fault". 3. When "Upper count threshold of raised fault" is not "0" and "Alarm switch of blinking filter" and "Switch of stat blinking alarm" to "0". Otherwise, blink statistics of the alarm is not performed.

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

This parameter cannot be set to YES for the TRX that carries the main BCCH.

None

This parameter is not supported by the BTS3001C and BTS3001CP.

None

None

None

None

None

The settings of RXLEV-ACCESS-MIN and CRO should guarantee that cells with same priority have the same cell reselect offse

None

The parameter is related to practical networking.

None

None

None

None

The modification of the parameter affects the adjacent node that is configured with the factor table. After the successful modific cases: 1. New access subscriber. 2. Bandwidth modification of the existing subscriber The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modification, it and the bandwidth modification of an existing subscriber.

The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modification, it and the bandwidth modification of an existing subscriber. The modification of the parameter affects the adjacent node that is configured with the factor table. After the successful modific cases: 1. New access subscriber. 2. Bandwidth modification of the existing subscriber

The larger the value of this parameter, the higher the proportion of discarded messages during congestion. Therefore, the prior that of a less important service.

None

None

None

None

None

None

None

None

None The modification of the parameter affects the adjacent node that is configured with the factor table. After the successful modific cases: 1. New access subscriber. 2. Bandwidth modification of the existing subscriber

None The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modification, it and the bandwidth modification of an existing subscriber.

The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modification, it and the bandwidth modification of an existing subscriber. The modification of the parameter affects the adjacent node that is configured with the factor table. After the successful modific cases: 1. New access subscriber. 2. Bandwidth modification of the existing subscriber

The larger the value of this parameter, the higher the proportion of discarded messages during congestion. Therefore, the prior that of a less important service.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

If this parameter of an activated BTS is modified, the entire BTS chain is reset.

If this parameter of an activated BTS is modified, the entire BTS chain is reset.

None

The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process HO

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

When running this command, the source IP address and the destination IP address cannot be the local IP address and the pee

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

This parameter can be modified only when the BTS is deactivated.

None

None

None

None

None.

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

The parameter cannot be modified.

None

This parameter takes effect only when the SDCCH exists on the TRXs on different frequency bands.

None

None

None

None

The setting of this parameter needs negotiation with the MSC of the opposite network element. If the MSC supports processing assignment failure messages containing the cause value of direct retry, set this parameter to Y

None If the value of this parameter is YES, the intra-BSC handovers (including intra-cell handovers) in which the cell is the source or handovers.

If this parameter is set to 15, this protection is disabled.

None

This parameter applies to only the double-transceiver BTS and the corresponding distributed BTS.

This parameter applies to only the double-transceiver BTS and the corresponding distributed BTS.

None

None

None

None

None

None

None

This parameter is related to the actual physical connection of the BC. This parameter is modified only when the NSVC service i

If this parameter is set to a small value, the detection of service type is sensitive and may lead to ping-pong handover between

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

This parameter is used for the adaptivedoes adjustment function of AMR threshold. When thethe voice is in performance Generally, the value of this parameter not need adjustment. It isdownlink the lower limit for adjusting value of poor DLLongTermFER rate mode is more used in the adaptation, you can increase the value of this parameter; if the high rate mode is more used in th parameter. The adjustment range is from 4 to 20 and the adjustment step is 2. The target FER with the discontinuous transmission (DTX) enabled is a little higher than the one without the DTX enabled. It is to 14 when the DTX is enabled. Based on this value, you can make adjustments in the above mentioned principle according to

Generally, the value of this parameter does not need adjustment. It is the upper limit for adjusting the value of DLLongTermFER

Generally, the value of this parameter is fixed to 2, with no need of adjustment. The value of this parameter decides only the ad threshold. That is, the greater the value of this parameter is, the more frequently the threshold is adjusted. The setting of this pa adjustment of the threshold.

None

None

None

None

None

None

None

None

None

None

The setting of this parameter affects the triggering of a handover for poor quality in an AMR full rate call. The smaller the value due to a poor quality occurs.

The setting of this parameter affects the triggering of a handover for poor quality in an AMR half rate call. The smaller the value due to a poor quality occurs.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The downlink power control (at the BTS side) can support up to 15 levels, in each of which the power of 2 dB is dynamically con

During upgrade, pay more attention to the setting of this parameter. Be sure to check it. If an area is allowed for receiving short If the value of this parameter is YES, the MS in either idle or connected mode cannot occupy radio channel resources to send s

None

None

None

None

None

None

None

None

If you do not use a dual-antenna to receive signals, set this parameter to 0.

None

The parameter cannot be modified. 1. The block of A interface must be configured. 2. If A over IP is configured, the configuration does not support the operation.

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

This parameter can be added and modified. It cannot be deleted.

None

None

None

None

None

None

The parameter cannot be modified.

None

The priority of the signaling link should be the highest.

The parameter cannot be modified.

The existing networking can be affected when the relation between the VLAN and the DSCP are reset.

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

This parameter can be modified only when the BTS is deactivated.

None

This parameter can be modified only when the BTS is deactivated.

None

None

None

None

None

None

None

The parameter cannot be modified.

None

It is used for interworking with products of other manufacturers.

None

None

None

The address must exist and respond to the PING request.

None

None

It is recommended that this parameter be set to Yes on a multiband cell.

None

None

None

None 1. If you set the start date or end date of daylight saving time (DST) to a day of the week after a specific date, the specific date the month. For example, the last day of October is the 31st day. Then, the specific date cannot be later than the 25th (31 – 6) d October, this date is not included in the November of 2005. Therefore, the specific date is invalid. This date in 2006, however, i None follow this principle to ensure that a specific data is always valid. 2. You are not allowed to set the start date or end date of DST to February 29. This is because that the local time changes betw year, February 29 does not exist. Therefore, the local time cannot change between DST and non-DST. 3. The start month and end month of DST cannot be the same.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

For the modification of the parameter, See the ITU-T Q704.

None

The parameter cannot be modified.

None

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

None

The value of this parameter must be the same at both the BSS side and the NSS side. Whether the BSC6900 is encrypted and described in the MAP function process of the MSC. When setting the encryption algorithm type of the BSC6900, you must refer the functions of the MS.

None

None

None

None 1. The block of A interface must be configured. 2. If A over IP is configured, the configuration does not support the operation. 3. The difference between the end CIC and the start CIC is smaller than 256.

None

None

None

None

None

None 1. The block of Ater interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block operatio subrack. 1. The block of A interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the AE1T1 of the BM subrack. You are not allowed to perform the block operation subrack.

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None.

None

None

None

None

None

None

None

None

None

None

None

If the value of this parameter is too small, extension measurement reports are sent frequently. If the value is too large, feedbac extension measurement reports.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

This parameter can be modified only when the BTS is deactivated.

None

Negotiation fails if this parameter is modified.

Negotiation fails if this parameter is modified.

None

None

None

None

None

None

None

The value ranges of frequency numbers vary with corresponding band reporting.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

You must deactivate the cell before modifying this parameter and activate the cell after modifying this parameter.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

If this parameter is set to a small value, error is likely to occur during the detection of the burst packets.

None

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

The default value of "MS_TXPWR_MAX_CCH" in the GSM900 and GSM850 cells is 5; the default value of "MS_TXPWR_MAX

None

In "EXP ELABEL", the "FN" parameter cannot be a space or any of the following characters: '@', '#', '!', '%', '^', '&', '*', '[', ']', '\'', '\

None

None

None

None

None

None

None

None

None

None

When this parameter is set to YES, during the channel activation of the BSC6900, if the allocated channel speech version is ful rate speech version 2, the BSC6900 changes the speech version to full rate speech version 2 and sends it to the BTS. For the version viewed at the MSC side is still full rate speech version 1.

None

None

This parameter can be modified only when the BTS is deactivated.

The adjacent node ID must be configured.

None

None

None

No_HC: disable the header compression function; RTP/UDP/IP_HC: enable the RTP/UDP/IP/PPP function

None

For a BTS of the BTS3X series, the value of this parameter is invalid.

None

None

None

The value range of this parameter depends on the frequency range of the cell band.

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

If the BCCH frequency of a cell is changed, the BSC6900 forcibly hands over the calls in this cell to another cell and then reset

None

None

None

None

None

None

None

This parameter is valid in only the cells in the coverage area of the BTS3X.

None

None

None

This parameter can be modified only when the BTS is deactivated.

None

This parameter can be modified only when the BTS is deactivated.

None

The FACTORTABLE must be configured.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

This parameter determines whether to load data from the OMU or the FLASH when the BSC6900 or the board is restarted. The

The value of this parameter is valid only for the BTSs of the double-transceiver series and the distributed BTSs.

None

None

None

None

None

None

None

None

None

None

None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

This parameter is supported only by the BTS3002C.

This parameter is supported only by the BTS3002C.

If the TRXs in a cell under this BSC6900 are at a frequency on DCS1800, this parameter cannot be set to PCS1900, and vice v

None

None

When this parameter is set to No, Highest Priority cannot be configured.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The value of this parameter cannot be changed.

None

The value of this parameter must be the same as the attribute value of the TRX frequency hopping of this frequency hopping gr

None

None

None

None

The parameter cannot be modified.

After this parameter is modified, the services in the cell are handed over forcedly. The cell is reset after all the handover succee

None

None

None

None

None

None

None

Before the modification, the cell mapping table bound to the signaling point must be deleted.

None

Set this parameter properly to ensure that hierarchical handover and load-based handover can function properly. During hierarc received level of the target cell must be greater than this threshold.

None

None

None

None

None

None

None

None

None

None

None

HSNs are optional for the cells with frequency hopping enabled. The cells in the same frequency group must use different HSN same.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

This parameter is supported only by the BTS3012A and BTS3006A.

For details of the timer, see ITU-T Q.714. The modification is not recommended.

None

None

None

For details of the timer, see ITU-T Q.714. The modification is not recommended.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter IBCA Allowed of the serving cell and the neighbor cell should be set to Yes before the configuration of this para

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

When the network status is poor, the packet length should not be too large. Otherwise, the path state is affected.

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

This parameter can be modified only when the BTS is deactivated.

None

None

None

None

None

None

None

This parameter must be equal to or less than "OUTHOPWROVERLOADTHRESHOLD" to protect the other timeslots/cells from

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

This parameter can be modified only when the BTS is deactivated.

None

None

None

The parameter cannot be modified.

This parameter can be modified only when the BTS is deactivated.

The parameter cannot be modified.

This parameter can be modified only when the BTS is deactivated.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None 1. Interference band 0 is not counted in the traffic statistics. 2. In the following BTSs, the value range of this parameter is 115 to 85: BTS2X of all the versions, BTS3X 03.1130 of the earlie 3002C02.0820 of the earlier versions. If this parameter is set to a value beyond the range, the concerned cells cannot work. None 3. In the following BTSs, the value range is 115 to 48: BTS3X 03.1130 and its later versions, 3001c 07.0301 and its later versio transceiver BTSs. 4. If the value of this parameter is too great, the averaging result cannot accurately reflect changes. If the value is too small, fre of resources.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

No_HC: disable the header compression function; RTP/UDP/IP_HC: enable the RTP/UDP/IP/PPP function

The parameter cannot be modified.

The parameter cannot be modified.

None

This parameter depends on the type of the actual physical IP transport cable of the BTS.

This parameter must be set according to the medium type of the actual IP transmission cable used by the BTS.

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

Each cell can be configured with only one TRX that carries the main BCCH.

None

None

None

The parameter cannot be modified.

The parameter IPPATH must be configured in advance.

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

The setting of this parameter must be consistent with that on the peer.

The setting of this parameter must be consistent with that on the peer.

The setting of this parameter must be consistent with that on the peer.

None

None

The setting of this parameter must be consistent with that on the peer.

The setting of this parameter must be consistent with that on the peer.

The setting of this parameter must be consistent with that on the peer.

It is used for interworking with products of other manufacturers.

None 1. This command is applicable to the boards AOUa, POUa, AOUc, POUc, and OIUa. 2. It is used for interworking with products of other manufacturers.

None 1. This command is applicable to the boards AOUa and POUa. 2. It is used for interworking with products of other manufacturers.

The setting of this parameter must be negotiated with that on the interconnected side.

None

None

None

The setting of this parameter must be negotiated with that on the interconnected side.

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None.

None

None

None

None

None

The parameter cannot be modified.

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

This parameter must be less than "UHUMTHD".

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

None

None

None

The setting of this parameter must be consistent with that on the peer.

The parameter cannot be modified.

The parameter cannot be modified.

According to the MTP3 load sharing principle, the link selection mask must be set properly. If the value is not set properly, the l

The mask is calculated according to the link set to a destination entity.

None

None

This parameter is valid only when "NC2LoadResel" is set to SUPPORT.

None

None.

None

None

None

None.

None

None

None

None

The reciprocal of the parameter value is the ratio of the MSs to perform a load handover.

None

None

The function of cell load reselection is valid only when "NC2LoadResel" in "SET BSCPSSOFTPARA" is set to Support and "LO

None

None

None

None

None.

None

None

The parameter cannot be modified.

The local IP address and peer IP must be configured in the same network segment. The peer IP address cannot be the same w

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

The both end address of the SCTP is the parameter for the interconnection. The value can be modified after the negotiation wit

The both end address of the SCTP is the parameter for the interconnection. The value can be modified after the negotiation wit

None

The parameter can be modified when "MODE" in the command "ADD SCTPLNK" is set to Client.

None

None

None

None

None

It is valid when "LOGPORTFLAG[/PARA in the command "ADD SCTPLNK" is ON.

It is valid when "LOGPORTFLAG[/PARA in the command "ADD SCTPLNK" is ON.

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

1. When the peer end unconditionally changes the bits in the check message, the services are disrupted if the switch is set to O 2. When the switch is set to OFF, the alarm "Inconsistent Configurations at the Two Ends of the Link over the Ater Interface" wi

The parameter cannot be modified.

None

None

None

If this parameter is set to REMOTE_LOOP and LOCAL_LOOP, the service on this link is affected until the loopback is cancelle When the upper layer bearer is IMAGRP, IMAGRP is reset after the loopback is canceled. Otherwise, the state of the IMAGRP established.

When the loopback type is changed to REMOTE_LOOP or LOCAL_LOOP, the service is affected. The service becomes norma loopback type is set to LOCAL_LOOP, you cannot directly change it to REMOTE_LOOP. You must change it to NO_LOOP firs loopback type from REMOTE_LOOP to LOCAL_LOOP in the similar way.

None

None

None

None

For the BTS3002C, if each cell is configured with two TRXs (O2 or S2) and the value of this parameter is YES, the radio freque main diversity antennas. Only the BTS3002C has this parameter.

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

This parameter must be less than "UTEMTHD".

Generally, the value of this parameter does not need adjustment. It is the lower limit for adjusting the value of LongTermFERTa The value of this parameter decides whether the threshold is adjusted upwards or downwards. When the voice is in poor perfor the low rate mode is more used in the adaptation, you can increase the value of this parameter; if the high rate mode is more u channel quality), you can decrease the value of this parameter. If the DTX function is enabled, the value of this parameter must function is disabled.

Generally, the value of this parameter does not need adjustment. It is the upper limit for adjusting the value of LongTermFERTa

Generally, the value of this parameter is fixed to 2, with no need of adjustment. The value of this parameter decides only the ad threshold. That is, the greater the value of this parameter is, the more frequently the threshold is adjusted. The setting of this pa adjustment of the threshold.

The adjustment of the parameter setting changes the service distribution on the DSPs. The DSPs without LVDS links do not ca

None

None

None

The parameter modification should be negotiated with the peer end, and the BSC6900 should be reset after the modification. It modified when the system is running.

None

None

None

If there are fewer frequencies in a frequency hopping group, the mode of Frequency List can decrease the length of an assignm an MS.

The parameter cannot be modified.

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

The modification of the parameter affects the sensitivity of the SCTP link detection. The larger the value is, the longer the link d

None

None

None

None

None

None

None

1. In adjacent the earlier versions of be BSC6000V900R008C01B060SP06 and BSC6000V900R0086C01B060SP06, a maximum of 50 BT The node ID must configured. through the M2000 client. In BSC6000V900R008C01B060SP06 and BSC6000V900R0086C01B060SP06 and its later versions simultaneously on one BSC through the M2000 client. Therefore, the number of BTSs to be downloaded should take the inters BTSs supported by the M2000 client. 2. If the BTS software versions downloaded simultaneously are excessive, the CPU usage of the OMU increases. In this case,

None

The value of this parameter cannot be smaller than the maximum PPPMUX sub-frame length. The number sub-frame must be

None

None

None

The modification of the parameter affects the sensitivity of the SCTP link detection. The larger the value is, the longer the link d

None

None

None

None

None

None

None

You can increase this value when the handovers are slow or the handover success ratio is low due to bad clock or transmission following condition must be met: "Physical information MAX Retrans" x "Radio link invalid count" > Interval between the EST IN ms); otherwise the handovers will fail for sure.

None

None

None

None

None

If the PPP frame length is larger than this value, PPPMUX multiplexing cannot be performed. The value of this parameter cann length wMuxMfl and the number sub-frame must be larger than 2 as the enabling condition of PPPMUX (the relation between t multiplexing frame length is: MuxMaxSfL<=(wMuxMfl-8)/2 ).

None

None

None

If this parameter is set to a smaller value, the handover success rate may be affected.

None

None

None

Before performing single-point positioning, you need to remove GPS configuration history records.

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

This parameter is valid only when the MCPA algorithm is enabled.

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

The Enhanced Measurement Report supports the measurement of 3G neighboring cells to implement the interoperability betwe the service continuity.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

To modify this parameter, run "STP GATEWAYCHK" first and then "STR GATEWAYCHK".

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

The local end of the SCTP link is the server and the application type is NBAP, the working mode should not be modified as the For the SCTP link of the M3UA application, the working mode can be modified only when the upper layer application is deleted

None

None

None

The setting of this parameter must be negotiated with that on the interconnected side.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Because the measurement reports may not always be correctly decoded when the quality of a serving cell is poor, handovers m reports exceeds the value set by this parameter. You can set a relatively larger value for this parameter, thus enabling emergen

None

When this parameter is set to Noreport, the BTSs do not submit measurement reports to the BSC, which disables handovers an quality.

None

None

None

None

None

None

None

None

None

None

None

If the MSC pool function is enabled, and the value of this parameter is not NORMAL, the DPC is not selected for call access.

If the GSM BSC is connected to the GSM MSC, it is recommended that you set this parameter to R98_or_below. If the GSM BS that you set this parameter to R99_or_above.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

The interconnection may be affected if this parameter is modified.

None

This parameter is supported only by the BTS3012A and BTS3006A.

None

None.

None.

None.

If the value of this parameter is increased, the cell congestion rate increases. If the value of this parameter is decreased, one-w

If this parameter is set to YES, the call drop rate may increase.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

The adjacent node ID must be configured.

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

This parameter is valid only when "NC2SPT" in "SET GCELLGPRS" is set to YES and "NCO" in "SET GCELLPSBASE" is set t

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

This parameter is supported only by the following dual-density BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS

The parameter cannot be modified.

None

None

None

None

None

The parameter cannot be modified.

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

If this parameter is set to a larger value, the bandwidth of the service is smaller.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

None

The parameter cannot be modified.

The transmission priority of the service is affected if the queue DSCP value of the port is modified.

The transmission priority of the service is affected if the queue DSCP value of the port is modified.

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

If the parameter value is set relatively small, the sensitivity for detecting the OML when it is broken is improved. When the para intermittently disconnected, misjudgements may occur to the testing results. If the parameter value is set relatively large, the sensitivity for detecting the OML when it is broken is reduced. The testing resu

The parameter cannot be modified.

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

None

None

Before modifying this parameter, you must deactivate the cells bound to the OPC.

None

The parameter cannot be modified.

The parameter cannot be modified.

Primary operator index must be 0.

None

None

1. The block of A interface must be configured. 2. If A over IP is configured, the configuration does not support the operation. 1. The block of Ater interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block operatio subrack. 1. The block of A interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the AE1T1 of the BM subrack. You are not allowed to perform the block operation subrack.

The parameter cannot be modified.

None

None

None

None

None

The setting of this parameter must be consistent with that on the peer.

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, too many channel resources are occupied and the congestion occurs. If this parameter is set to a smaller value, the handover success rate may fall. If this parameter is set to a greater value, too many channel resources are occupied and the congestion occurs. If this parameter is set to a smaller value, the handover success rate may fall.

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the CPU may be overloaded. If this parameter is set to a smaller value, the call loss rate is high. If this parameter is set to a greater value, the CPU may be overloaded. If this parameter is set to a smaller value, the call loss rate is high. If this parameter is set to a greater value, the CPU may be overloaded. If this parameter is set to a smaller value, the call loss rate is high. If this parameter is set to a greater value, the CPU may be overloaded. If this parameter is set to a smaller value, the call loss rate is high.

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The local IP address and peer IP must be configured in the same network segment. The peer IP address cannot be the same w

The parameter cannot be modified.

None

None

The both end address of the SCTP is the parameter for the interconnection. The value can be modified after the negotiation wit

The both end address of the SCTP is the parameter for the interconnection. The value can be modified after the negotiation wit

The parameter cannot be modified.

The parameter cannot be modified.

The SCTP port number is the parameter for the negotiation. The value can be modified after the negotiation with the peer syste

None

None

None

None

None

When the network status is poor, the check period should not be too small. Otherwise, the path state is affected.

None

Negotiation fails if this parameter is modified.

Negotiation fails if this parameter is modified.

None

The SIGBVC must be reset after this switch is turned on. The BSC supports the PFC when the SGSN supports the PFC.

None If this parameter is set to a greater value, more paging messages are processed. When the BSC6900 is overloaded, the contro effect. If this parameter is set to a smaller value, some paging messages that can be processed by the BSC6900 are discarded, thus a If parameter set to a higher value, more PS messages canvalue be processed, thus increasing the BSC load. As a res If this the value of PgisState Period(ms) is changed, youpaging need to change the of this parameter accordingly. protect the BSC. If this parameter is set to a lower value, more PS paging messages are discarded, thus affecting the paging s set according to the actual PS paging volume and the CPU usage of the BSC. The setting of this parameter is closely related to that of "Paging Statistical Period". When the value of "Paging Statistical Perio adjusted accordingly. If this parameter is set to a smaller value, the control of the arrival rate of paging messages is sensitive. If this parameter is set to a greater value, the control is insensitive.

The parameter cannot be modified.

The adjacent node ID must be configured.

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

This parameter is valid for the EDGE TRX only.

None

None

This parameter is valid for the EDGE TRX only.

None

This parameter is valid only for EDGE TRXs and is invalid for ordinary TRXs.

None

None

None

If "Play switch" is set, the normal calls may be affected.

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified. 1. The block of Ater interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block operatio subrack.

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

None

When the loopback type is changed to REMOTE_LOOP or LOCAL_LOOP, the service is affected. The service becomes norma loopback type is set to LOCAL_LOOP, you cannot directly change it to REMOTE_LOOP. You must change it to NO_LOOP firs loopback type from REMOTE_LOOP to LOCAL_LOOP in the similar way.

None

The parameter cannot be modified. 1. This command is applicable to the boards AOUa and POUa. 2. It is used for interworking with products of other manufacturers.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

This parameter can be modified only when the BTS is deactivated.

None

None

None

None

None

None

None

None

If this parameter is set to a greater value, the error is small.

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

This parameter can be added and modified. It cannot be deleted.

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

ENABLE: the multiplexing frame function of the PPP link is enabled. DISABLE: the multiplexing frame function of the PPP link i

This parameter can be added or modified but cannot be removed.

None

None

None

When the sampling rate of pre-processed measurement reports is set to 1, the frequency of submitting pre-processed measure seconds or one report per four seconds.

None

None

None

None

None

None

None

None

None Each layer has 16 priorities, numbered 1-16 respectively. If the number of the priority is small, the priority is high. This paramete a cell. The priority affects the sequence of neighboring cells for handover. It also affects handover algorithms, such as PBGT ha For example, PBGT handovers can be performed only between the cells at the same layer and hierarchy. If a 1800 MHz cell an handover cannot be performed from the 1800 MHz cell to the 900 MHz cell. Consequently, handovers are performed slowly eve

None

None

None

The routing priority is modified. In the case of multiple routes to the same signaling point, the route priority is affected.

None

The parameter cannot be modified.

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified. 1. This command is applicable to the boards AOUa and POUa. 2. It is used for interworking with products of other manufacturers.

None

None

None

None

None The modification of the parameter affects the adjacent node that is configured with the factor table. After the successful modific cases: 1. New access subscriber. 2. Bandwidth modification of the existing subscriber The modification of the parameter affects the adjacent node that is configured with the factor table. After the successful modific cases: 1. New access subscriber. 2. Bandwidth modification of the existing subscriber

The SIGBVC must be reset after this switch is turned on. The BSC supports the PS HO when the SGSN supports the PS HO. The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modification, it and the bandwidth modification of an existing subscriber. The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modification, it and the bandwidth modification of an existing subscriber.

If this parameter is set to a larger value, more packets are discarded when the congestion occurs. Thus, the priority value of the service.

None

None

The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modification, it and the bandwidth modification of an existing subscriber. The modification of the parameter affects the adjacent node configured with the TRMMAP. After the successful modification, it and the bandwidth modification of an existing subscriber.

If this parameter is set to a larger value, more packets are discarded when the congestion occurs. Thus, the priority value of the service.

None

None

This parameter should be set on the basis of the actual receiver sensitivity of the BTS and the minimum access level of the MS even though there are signals detected.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

The line code must be consistent with that on the interconnected side. HDB3 (HDB3 code) and AMI (AMI code) are used for E1 are used for T1 ports.

The frame structure must be consistent with that on the interconnected side.

The frame structure must be consistent with that on the interconnected side.

The frame structure must be consistent with that on the interconnected side.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The transmission priority of the service is affected if the queue DSCP value of the port is modified.

The transmission priority of the service is affected if the queue DSCP value of the port is modified.

The transmission priority of the service is affected if the queue DSCP value of the port is modified.

The transmission priority of the service is affected if the queue DSCP value of the port is modified.

The transmission priority of the service is affected if the queue DSCP value of the port is modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

None

None

None

This parameter is supported only by the BTS3012A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

None

None

None

None

None

None

For BTS3X series double-transceiver BTSs, thisreceiver parameter does not MSand access but affects the reporting Thisthe parameter shouldand be set on the basis of the actual sensitivity of affect the BTS the minimum access level of of theCCC MS network side is greater than the RACH Busy Threshold, the CCCH_LOAD_IND is counted once whether the decoding is succe even though there are signals detected. Busy Threshold and whose decoding is successful is also counted. The measurement period is the Average RACH Load Times If the value of this parameter is too low, the BTS easily considers that the RACH timeslot is busy and reports overload message cannot determine the status of the RACH timeslot correctly. The settings of the BTS312, BTS3001C, BTS3001CP, BTS3002C, and double-transceiver BTS must be consistent with the me

None

None

None

None

None

None

None

If this parameter is set to Algorithm I, the BTS performs AMR rate adaptation according to the C/I value. If this parameter is set to Algorithm II, the BTS performs AMR rate adaptation according to the BER value. Algorithm II is valid o If this parameter is set to None, the AMR rate adaptation algorithm is not enabled, and a fixed coding rate is used.

None

None

None

None

None

None

None

None

None

None

To improve the success rate of reassignment, it is recommended that you use the default value Different Band. That is, the freq different from what is used in the original assignment.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

The parameter must be set to a value smaller than the number of TCHs available on the BCCH TRX to prevent the frequent en

None

None

None

None

None

None

The parameter cannot be modified.

The setting of this parameter requires negotiation with the MSC, so that the MSC can correctly process HO RQD messages.

None

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

Negotiation can succeed only when the configuration is consistent on the local and peer ends.

None

None

The range of this parameter is determined by the cell configuration. The lower limit is 0, and the upper limit is sum of TCHF, TC

If this parameter is set to a greater value, the BTS power decreases too much. If this parameter is set to a smaller value, the BT decrease effect is unsatisfactory.

None

None

None

None

The SIGBVC must be reset after this switch is turned on. The BSC supports the RIM when the SGSN supports the RIM.

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

The resource group must exist.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

None

None

None

The switch is off in the case of a signaling point to the single link. After the link to a signaling point is disconnected, the restart p

None

None

Change this parameter will impact the function interrelated with Parameter 1.

Change this parameter will impact the function interrelated with Parameter 10.

Change this parameter will impact the function interrelated with Parameter 2.

Change this parameter will impact the function interrelated with Parameter 3.

Change this parameter will impact the function interrelated with Parameter 4.

Change this parameter will impact the function interrelated with Parameter 5.

Change this parameter will impact the function interrelated with Parameter 6.

Change this parameter will impact the function interrelated with Parameter 7.

Change this parameter will impact the function interrelated with Parameter 8.

Change this parameter will impact the function interrelated with Parameter 9.

None

The setting of this parameter must be negotiated with that on the interconnected side.

The routing context must be unique and needs to be negotiated with the peer.

None

None

None

None

None

None

None

The value should be greater than "RTOMIN" and smaller than "RTOMAX" in the command "ADD SCTPLNK".

The value should be greater than "RTOMIN" in the command "ADD SCTPLNK".

The value should be smaller than "RTOMAX" in the command "ADD SCTPLNK".

None

None

None

None

None

None

None

None

None

For AMR calls, this parameter, together with "Interfere HO Qual Thresh n for Non-AMR FR", is used in interference handover d triggered if this parameter is set to a smaller value.

If the value of this parameter is too small, the required level of received signals is low. Therefore, many MSs attempt to camp o risk of call drops. In such a case, you must set the parameter based on the balance conditions of the uplink and downlink levels

None

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sm

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sm

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sm

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sm

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sm

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a too

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sm

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sm

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a too

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sm

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a too

This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sm

The parameter cannot be modified.

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

When the same coverage cell allows the load handover, this parameter should be set to a value lower than "Load HO Threshol

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

The setting of this parameter must be negotiated with that on the interconnected side. 1. If you set the start date or end date of DST to a day of the week after a specific date, the specific date must be six days or m example, the last day of October is the 31st day. Then, the specific date cannot be later than the 25th (31 – 6) day. If you set th not included in the November of 2005. Therefore, the specific date is invalid. This date in 2006, however, is October 31, which None ensure that a specific data is always valid. 2. You are not allowed to set the start date or end date of DST to February 29. This is because that the local time changes betw 29 does not exist. Therefore, the local time cannot change between the start date and the end date. 3. The start month and end month of DST cannot be the same.

None

If the parameter "IBCA Allowed" is set to YES, the BSC waits for MRs on the SDCCH for the duration specified by the paramete takes effect when the parameter "IBCA Allowed" is set to NO.

None

The level values 0 through 63 map to -110 dBm to -47 dBm. A smaller value indicates a lower receive level.

The parameter value corresponds to RQ (quality level: 0 to 7) multiplied by 10. A greater value indicates a poorer receive qualit

The level values 0 through 63 map to -110 dBm to -47 dBm. A smaller value indicates a lower receive level.

The parameter value corresponds to RQ (quality level: 0 to 7) multiplied by 10. A greater value indicates a poorer receive qualit

The SDCCH dynamic adjustment converts the TCHs to the SDCCHs, this reduces the available TCHs and decreases the TCH

The setting of this parameter must be negotiated with that on the interconnected side.

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

This parameter should be set on the basis of the negotiation with the MSC at the peer end.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

The ratio of the subscribers accessing this SGSN is affected when this parameter is modified.

The parameter cannot be modified.

None

None

None

None

If this SGSN is the last SGSN connecting this cell: 1. When the parameter is set to DENY, the services of all the online subscribers are interrupted and new subscribers cannot ac 2. When the parameter is set to UNINSTALL, the services of all the online subscribers are not interrupted and new subscribers

None

The parameter cannot be modified.

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The ratio of Gb interface signaling messages sent through NSVLs is affected when this parameter is modified. When this NSVL "SIGLW" is set to 0, the signaling exchange between the NSE and SGSN is interrupted.

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The source IP address can be: local IP address of the PPP link (PEUa/POUa/POS), local IP address of the MP group ((PEUa/P (FG2a/GOUa), and IP address of the local board.

The parameter cannot be modified.

None

None

None

The parameter cannot be modified.

None

The modified parameter takes effect after the BSC6900 is reset.

None

None

The value of this parameter cannot be changed.

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified. 1. The block of Ater interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block operatio subrack.

The parameter cannot be modified.

None

None

The parameter cannot be modified.

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

This parameter can be modified only when the BTS is deactivated.

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

This parameter should be set on the basis of the negotiation with the MSC at the peer end so that the MSC can process the as assignment request, if the speech/data indicator in the channel type is data, the assignment complete message does not carry parameter.

This parameter should be set on the basis of the negotiation with the MSC at the peer end so that the MSC can process the Ha handovers, the Handover Perform message does not carry speech_ver even if this parameter is set to Yes.

This parameter should be set on the basis of the negotiation with the MSC at the peer end so that the MSC can process the HO

This parameter should be set on the basis of the negotiation with the MSC at the peer end.

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

The port can be set to the DOWN or UP state when this parameter is modified. If the speed modes on the local and peer end a

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

Clock sources and priorities are in one-to-one mapping.

Clock sources and priorities are in one-to-one mapping.

None

None

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

Clock sources and priorities are in one-to-one mapping. Each backplane board 8K clock has only one clock source.

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified. 1. The block of Ater interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block operatio subrack.

None

None

The parameter cannot be modified.

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

This parameter can be modified only when the BTS is deactivated.

None 1. The command is used for the configuration when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack. 1. The command is used for the configuration when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack.

None

None

If the interface board clock source of the MPS/TCS subrack is set, you can set the 8 kHz output clock source. For the MPS and as the clock source of the interface board. For the EPS, you cannot perform the setting.

None The ratio of Gb interface signaling messages sent through local NSVLs is affected when this parameter is modified. When this "SRVLW" is set to 0, all the packet services of the local NSE are interrupted.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None In principle, you should not configure the frequencies on the P frequency band and on the E frequency band in one MA group. If the frequencies on the P frequency band and on the E frequency band are configured in one MA group, some MSs may not p In this case, you can set this parameter to No. After that, if some other MSs cannot process calls, set this parameter to Yes and divide the MA group.

None 1. The block of A interface must be configured. 2. If A over IP is configured, the configuration does not support the operation.

None

None

None

None

None

None

None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

None 1. The block of Ater interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block operatio subrack. 1. The block of A interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the AE1T1 of the BM subrack. You are not allowed to perform the block operation subrack.

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

The adjacent node ID must be configured.

None

None

None

None

None

None

None

None

None

None

When the simple cell broadcast function is enabled, the BSC6900 provides the simple cell broadcast service if the CBC is not p broadcast the messages that are not changed frequently. The simple cell broadcast function and the cell broadcast function provided by the CBC cannot be enabled simultaneously.

The high multislot class function requires the support from the MS. For an MS of a high multislot class 32, 33, or34, the extende more than three timeslots are required on the uplink.

None

The EDA requires the support from the MS.

None

This Noneparameter should be set according to the requirements of the existing network. If this parameter is set to Yes, the voice signals are encoded only once at the originating MS and decoded only once at the term call. The TFO function is performed only between an MS and another MS, not between a fixed-line phone and an MS. If the TFO fun occupied.

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

Change this parameter will impact the patch function controlled by switch 1.

Change this parameter will impact the patch function controlled by switch 10.

Change this parameter will impact the patch function controlled by switch 2.

Change this parameter will impact the patch function controlled by switch 3.

Change this parameter will impact the patch function controlled by switch 4.

Change this parameter will impact the patch function controlled by switch 5.

Change this parameter will impact the patch function controlled by switch 6.

Change this parameter will impact the patch function controlled by switch 7.

Change this parameter will impact the patch function controlled by switch 8.

Change this parameter will impact the patch function controlled by switch 9.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The physical information is sent over the FACCH. Every four TDMA frames are sent once over the FACCH, which takes 18 ms. T3105 timer expires for the first time, the physical information needs to be retransmitted. But at this time, the previous physical period is not reached).

None

It is recommended that you select a greater value, such as 16, 20, or 25, in the area with heavy traffic, but a smaller value, such as 2 or 3, in the area with light traffic. None To properly specify the value of this parameter, it is necessary to perform overall and long-term measurement on the entities in such as the processing capability of the MSC and BSC, and the load on the A interface, Abis interface, Um interface, HLR, and The location update period in the MSC must be greater than that in the BSC. In the GSM system, it is possible that a powered-on MS is identified as implicit off-line if the MS sends no location update reque None When the MS reselects another cell (in the same LAC), the MS is restarted through T3212 timeout if the T3212 of the new cell When this parameter differs in the cells of the same LAC, it is possible that the MS is identified as implicit off-line if the MS send case, system plays "The subscriber you dial is power off." even though the called MS is on. In an LAC, the value of this parameter should be the same in all cells.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

According to the GSM protocols, the BSC6900 performs CRC on each TRAU frame. If the CRC of a certain TRAU frame fails, t the BSC6900 performs smoothing on the invalid frame, thus eliminating the noise caused by the errors in parameter transmissi of all speech services except the FR service.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

Before switched on, please insure that all the TRXs in this cell are suitable version.

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified. 1. The command is used for the configuration when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack. 1. The command is used for the configuration when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

For the BTS3001C, BTS3001CP, and BTS3002C, this parameter is invalid. For other BTSs, this parameter is valid.

None

None

The IP address of the TGW cannot use the configured IP address of another TGW . The IP address of TGW cannot be the sam Otherwise, operation and maintenance channel for TGW fails.

The IP address of the TGW cannot use the configured IP address of another TGW. The IP address of TGW cannot be the sam Otherwise, operation and maintenance channel for TGW fails.

None

The IP address of the TGW cannot use the configured IP address of another TGW . The IP address of TGW cannot be the sam Otherwise, operation and maintenance channel for TGW fails.

None

This parameter is supported only by the BTS3012A and BTS3006A.

This parameter is supported only by the BTS3012A and BTS3006A.

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

Multi-band networks cannot use the TIGHT BCCH algorithm.

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

The parameter cannot be modified.

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The TRMMAP must be configured.

None

None

1. If you set "Upper time threshold of raised fault" and "Lower time threshold of raised fault" to "0", the accumulated alarm blink None 2. If "Upper time threshold of raised fault" is not "0", the value of "Lower time threshold of raised fault" cannot be "0" and you m greater than "Lower time threshold of raised fault". 3. When "Upper time threshold of raised fault" is not "0" and "Alarm switch of blinking filter" and "Switch of stat blinking alarm" a "0". Otherwise, blink statistics of the alarm is not performed.

1. If you set "Upper time threshold of raised fault" and "Lower time threshold of raised fault" to "0", the accumulated alarm blink None 2. If "Upper time threshold of raised fault" is not "0", the value of "Lower time threshold of raised fault" cannot be "0" and you m smaller than or equal to "Upper time threshold of raised fault". 3. When "Lower time threshold of raised fault" is not "0" and "Alarm switch of blinking filter" and "Switch of stat blinking alarm" a "0". Otherwise, blink statistics of the alarm is not performed.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

The TRM load threshold must be configured already.

The TRM load threshold must be configured already.

The TRM load threshold must be configured already.

The parameter cannot be modified.

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

This parameter specifies whether to enable the TRX aiding function. The parameter cannot modified. BCCH aiding: The mainbeBCCH is aided to another normal TRX in this cell. BCCH aiding switchback: BCCH aiding switchback functions after the originally configured BCCH TRX is recovered. Baseband FH aiding: When the TRX involved in baseband FH in the cell is faulty or BCCH aiding is performed in the cell, base non-hopping cell. The parameter cannot be modified. Baseband FH aiding switchback: When all the TRXs involved in baseband hopping in the cell are recovered and the originally c switchback can be performed and the cell is restored to the baseband FH mode. After TRX aiding (BCCH aiding or baseband FH aiding) or switchback occurs, the cell is re-initialized. For any types of BTS, no aiding is performed within 15 minutes after the cell is initialized.

None

After this parameter is modified, the services in the cell are handed over forcedly. The cell is reset after all the handover succee

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

After this parameter is modified, the services in the cell are handed over forcedly. The cell is reset after all the handover succee

None

None

The parameter cannot be modified.

The parameter cannot be modified.

None

The parameter cannot be modified. 1. The block of Ater interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the ATERTS of the BM subrack. You are not allowed to perform the block operatio subrack. 1. The block of A interface must be configured. 2. If the BSC is configured to the integrated BMTC or A over IP is configured, the configuration does not support the operation. 3. If the block operation is applicable to only the AE1T1 of the BM subrack. You are not allowed to perform the block operation subrack.

Loopback test, which cause the service interruption on this link

None

None

The parameter cannot be modified.

None

The modification of the PPP link that is between the BTS and the BSC will affect the services. The modification of the PPP link that is between the BTS and the lower-level BTSs will lead to intermittent services carried by th

None

None

None

None

None

None

None

None

None

None

None

None

None

If this parameter is set to a great value, the PS DSP load will be heavy.

None

None

None

None

None

None

None

None

The parameter cannot be modified.

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None.

None.

None.

None.

None.

None.

None.

None.

None

None

The parameter cannot be modified.

None

None

None

The value of this parameter cannot be changed.

The modified parameter takes effect after the BSC is reset.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

If this parameter is set to 0, the emergency call may be affected.

None

None

None

None When RAI alarms occur on the E1 link, services cannot be assigned again by default. After the switch is enabled, services can services.

None

None

None

None

None

None

None

None

None

None

None

None

The adjacent node ID must be configured.

None

The parameter cannot be modified.

None

None

The setting of this parameter must be greater than "LHUMTHD".

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

None

If this parameter is set to a small value, the detection of service type is sensitive and may lead to ping-pong switching between

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The setting of this parameter affects the triggering of BQ(Bad Quality) handover of AMR FR calls. If it is set to a smaller value, t

The setting of this parameter affects the triggering of BQ handover of AMR HR calls. If it is set to a smaller value, the uplink BQ

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

This parameter can be modified only when the BTS is deactivated.

None

The parameter cannot be modified.

None

This parameter can be modified only when the BTS is deactivated.

None

None

None

None

None

None

None

None

None

None

None

This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C, BTS3012AE, BTS3012 II, and BTS300

None In a GSM900 cell, the power control level of the MS ranges from 0 to 19. Generally, the maximum transmit power supported by transmit power supported by an MS is level 19 (mapping to 5 dBm). Other transmit power levels are reserved for high-power M In a GSM1800 or GSM1900 cell, the power control level of the MS ranges from 0 to 31. Generally, the maximum transmit powe The minimum transmit power supported by an MS is level 15 (mapping to 2 dBm). Other transmit power levels are reserved for

The parameter cannot be modified.

The parameter cannot be modified.

None

None

None

Pay special attention to the setting of this parameter during an upgrade. If sending short messages is allowed, this parameter m If this parameter is set to Yes, radio channels cannot be used to send short messages regardless of whether an MS is busy or

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The setting of this parameter must be greater than "LTEMTHD".

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

Incorrect setting of this parameter can lead to access failure to the target IP address.

The parameter cannot be modified.

None

The parameter cannot be modified.

Incorrect setting of this parameter can lead to access failure to the target IP address.

Incorrect setting of this parameter can lead to access failure to the target IP address.

The existing networking can be affected when the relation between the VLAN and the DSCP are reset.

None

None

None

None

None

None

None

None

None

None

If this parameter is set to a smaller value, the error is smaller.

None

None

None

None

None

None

None

None

None

If the timer is set to a greater value, the time of reserving channel resources for an emergency call is long. In this case, the cha If the timer is set to a smaller value, reserved channel resources may not be assigned to an emergency call. In this case, the ca

None

None

None

None

None

None

None

The parameter cannot be modified.

None

None

The parameter cannot be modified.

None

None

None

None

None

None

None

None

The conversion from E1 to T1 or from T1 to E1 takes effect after the board is reset.

None

None

None

None

The parameter cannot be modified.

None

Validation of Modification

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The radio link should be reestablished after the parameter modification.

The radio link should be reestablished after the parameter modification.

The radio link should be re-established after the parameter modification.

The radio link should be reestablished after the parameter modification.

The radio link should be re-established after the parameter modification.

The radio link should be re-established after the parameter modification.

The radio link should be reestablished after the parameter modification.

The radio link should be reestablished after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The radio link should be re-established after the parameter modification.

The radio link should be reestablished after the parameter modification.

The radio link should be reestablished after the parameter modification.

The radio link should be reestablished after the parameter modification.

The radio link should be reestablished after the parameter modification.

The radio link should be reestablished after the parameter modification.

The radio link should be reestablished after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The radio link should be re-established after the parameter modification.

The radio link should be re-established after the parameter modification.

The radio link should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The radio link should be reestablished after the parameter modification.

The radio link should be re-established after the parameter modification.

The radio link should be reestablished after the parameter modification.

The radio link should be reestablished after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The BSC should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BSC6900 should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The board should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification does not impact the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The radio link should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The board should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The radio link should be reestablished after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

Not involved

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The BTS should be reset to validate the parameter modification.

Not involved

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BSC6900 should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The transport path should be re-established after the parameter modification.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The transport path should be re-established after the parameter modification.

The transport path should be re-established after the parameter modification.

The BTS should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The BTS should be reset to validate the parameter modification.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification does not impact the equipment.

The parameter modification does not impact the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BSC should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BSC should be reset to validate the parameter modification.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The BTS should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification does not impact the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The transport path should be re-established after the parameter modification.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The radio link should be reestablished after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The BTS should be reset to validate the parameter modification.

Not involved

Not involved

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

Not involved

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The cell should be activated after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The cell should be activated after the parameter modification.

The BSC should be reset to validate the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The transport path should be re-established after the parameter modification.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

The parameter modification has no impact on the equipment.

Not involved

The parameter modification has no impact on the equipment.

Impact on Radio Network Performance

The smaller the value of this parameter is, the more MSs select a neighboring cell in directed retry. The smaller the value of this parameter is, the more MSs select a neighboring cell in directed retry. The setting of this parameter affects the access delay of parts of MSs.

None

None

None

None

None

None

None

None

None

None

None

None

None

None When the access control function is enabled, some MSs are caused to be inaccessible to the network for some time.

None

None

None

The throughput is affected.

None

None

None

None

None

None

None

The ACS may affect the MOS.

The ACS may affect the MOS.

The ACS may affect the MOS.

None

None

None

None

None

None The switching from an intra-cell handover procedure to an assignment procedure shortens the duration of the intra-cell handover.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to OPEN, the acoustic echo can be cancelled to improve the speech quality.

None

None If this parameter is set to higher value, channel resources may be wasted; if this parameter is set to lower value, the call drop rate may increase.

If this parameter is set to higher value, channel resources may be wasted; if this parameter is set to lower value, the call drop rate may increase.

None

Not involved If this parameter is set to higher value, channel resources may be wasted; if this parameter is set to lower value, the call drop rate may increase. If this parameter is set to higher value, channel resources may be wasted; if this parameter is set to lower value, the call drop rate may increase.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to OPEN, the voltage level can be adjusted automatically to improve the speech quality.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, the dynamic power adjustment range for the BTS is decreased. This may cause power waste and increase network interference when the downlink quality is good.

None When this parameter is set to YES and the value of the downlink threshold is not reasonable, the algorithm can be used to dynamically adjust the AMR downlink rate to increase the downlink speech MOS.

None

None

If this parameter is set to a smaller value, downlink power control may not be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a greater value, If this parameter is set to a greater value, uplink downlink power control may be performed when power the voice control may not be performed when the voice quality is bad, thus affecting the voice quality. quality is bad, thus affecting the voice quality. If this parameter is set to a smaller value, uplink power control may be performed when the voice quality is good, thus causing the power waste and increasing the interference.

None

None If this parameter is set to a greater value, downlink power control None may not be performed when the downlink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, If this parameter is set to a greater value, uplink downlink power control may be performed when power the downlink control may be performed when the downlink level is high, power is low, in this way, call drops may occur. thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, power If this switch is turned on, AMRwhen FR calls can be switched control may not be performed the downlink power isinto AMR HR calls to relieve the network congestion, but the low, this way, call drops occur. If thisinquality parameter is set to a may value, handover voice is decreased; ifgreater this switch is the turned off, AMR FR margin is increased in a short period and many are calls cannot be switched into AMR HR calls, thatMSs is, network handed over from TCHF to TCHH, thus affecting the voice congestion cannot be relieved through the handover from quality. TCHF to TCHH. If this parameter is set to a smaller value, the handover margin is enlarged slowly and it takes a long time to initiate a If this parameter is set toThus, a greater value, only MSscannot in the be TCHF-TCHH handover. network congestion center of the cell can meet the handover condition. Thus, relieved in time. is set to a greater value, the handover the If this parameter network congestion cannot be relieved in time. margin is increased in atoshort period and many MSs If this parameter is set a smaller value, MSs at the are edge of handed over from TCHF to TCHH, thus affecting the voice the cell can also meet the handover condition, thus affecting quality. the voice quality. If this parameter is set to a smaller value, the handover margin is enlarged slowly and it takes a long time to initiate a If this parameter is set toThus, a greater value, MSs at the edgebe of TCHF-TCHH handover. network congestion cannot the cell can also meet the handover condition, thus affecting relieved in time. the voice quality. If this parameter is set to a smaller value, only MSs in the If this parameter is set to a greater value, MSs with poor center of the cell can meet the handover condition. Thus, the quality also meetcannot the handover condition, networkcan congestion be relieved in time.thus affecting the voice quality. If this parameter is set to a smaller value, little MSs can meet If this parameter is set toThus, a greater value, the calls cannot be the handover condition. the network congestion cannot handed over to TCHH in a short period when the traffic be relieved in time. volume is increased greatly. Thus, the network congestion cannot be relieved in time. If this parameter is set to a smaller If this parameter is set toover a greater value, only MSs inthus the value, calls are handed to TCHH unnecessarily, center of the cell use the TCHH, thus leading to timeslot causing MOS loss of the customer. waste and the network congestion cannot be relieved in time. If this parameter is set to a smaller value, MSs at the edge of If this parameter is setquality to a greater value, be MSs at the over edgetoof the cell and with poor also cannot handed the cell and with poor quality also cannot be handed over to the TCHF, thus affecting the voice quality. the TCHF, thus affecting the voice quality. If this parameter is set to a smaller value, only MSs in the center of the cell use the TCHH, thus leading to timeslot waste and the network congestion cannot be relieved in time.

None

If this parameter is set to a greater value, handover cannot be triggered even when the quality is poor, thus affecting the voice quality; if this parameter is set to a smaller value, handover is triggered even when the quality is good, thus the If this parameter is set to a smaller value, calls are handed network congestion cannot be relieved in time. over to TCHH unnecessarily, thus causing MOS loss of the customer; if this parameter is set to a greater value, TCHFTCHH handover is performed only when the traffic volume is high, and thus network congestion may occur. If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater value, power waste may occur and network interference may be increased. If this parameter is set to a smaller value, fast power control cannot be realized. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to call drops. If this parameter is set to a smaller value, fast power control cannot be realized. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to call drops. If this parameter is set to a smaller value, fast power control cannot be realized. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to call drops. If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater value, power waste may occur and network interference may be increased.

None If this parameter is set to a greater value, power control may not be performed in time. If this parameter is set to a smaller value, power control may be performed frequently, thus increasing the signaling load. If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater value, call drops may occur.

None

None If this parameter is set to a greater value, cell congestion may not be relieved. If this parameter is set to a smaller value, TCHFs may be assigned unnecessarily, thus affecting the voice quality. When this parameter is set to YES and the value of the uplink threshold is not reasonable, the algorithm can be used to dynamically adjust the AMR uplink rate to increase the uplink speech MOS.

None If this parameter is set to a smaller value, downlink power control None may not be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a greater value, downlink power control may be performed when the voice quality is bad, thus affecting the voice quality.

If this parameter is set to a greater value, uplink power control may not be performed when the voice quality is bad, thus affecting the voice quality. If this parameter is set to a smaller value, uplink power control may be performed when the voice quality is good, thus causing the power waste and increasing the interference.

None

None If this parameter is set to a greater value, power control may not be performed when the uplink level is high, thus causing None the power waste and increasing the interference. If this parameter is set to a smaller value, downlink power control If thisbe parameter is when set to the a greater may performed uplink value, power uplink is low,power in this way, control may be performed when the uplink level is high, thus call drops may occur. causing the power waste and increasing the interference. If this parameter is set to a smaller value, power control may not be performed when the uplink power is low, in this way, call drops may occur.

None

None

None If this parameter is set to OPEN, the noise can be compensated automatically to improve the speech quality.

None

None

None

None

None

None

None

None If this parameter is set to OPEN, the noise can be depressed automatically to improve the speech quality.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

If this parameter is set to YES, the voice quality is enhanced and the handover times is reduced, but the call access delay is prolonged. The call access delay is affected by both the None setting of "Maximum Assigning Duration" and the duration for waiting MRs on the SDCCH. The maximum delay is the value of "Maximum Assigning Duration". Enabling this function may cause SDCCH congestion.

None

None

None

None

None

None

None

None

None If this parameter is set to a higher value, channel resources may be wasted and congestion occurs; if this parameter is set to a lower value, the assignment success rate may decrease.

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the overlaid subcell range in the algorithm is smaller than the actual range, thus leading to the unbalance between the traffic volume on the overlaid subcell and that on the underlaid subcell.

None If this parameter is set to a greater value, TCHFs are preferentially selected even when congestion occur on the None Ater interface, thus decreasing the system capacity. If this parameter is set to a lower value, TCHHs are selected when no congestion occur on the Ater interface, thus decreasing the voice quality.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the handover None cannot be performed in time, thus the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed.

If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, handovers cannot be performed in time. Thus the voice quality is decreased and call drops may occur.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the handover None cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed. If this parameter is set to a greater value, unnecessary None handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops may occur.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None The setting of this parameter may affect the MS paging response and performance of the system. A greater value may decrease the number of paging blocks, paging capacity, and paging success rate.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

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None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the number of paging None subchannels in a cell increases and the number of MSs on each paging subchannel decreases. This can prolong the average service life of MS batteries but increase the delay of paging messages and degrade the system performance.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Not involved

None

None

None

None

Not involved

None

None

None

None

None

None

None

None

None

None

None

Not involved

None

None

None

None

None

None

None If this parameter is set to BTS_Preprocessing, signaling on the Abis interface and BSC load are decreased, thus enhancing the response speed and the network performance.

None

Not involved

None

None

None If this parameter is set to a smaller value, the range of BTS dynamic power adjustment is decreased, and thus network interference is difficult to be reduced.

None

None

None

None

Not involved

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None Call reestablishment can decrease the call drop rate but waste channel resources.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, the status of RF resources is reported too frequently, thus burdening the None BSC6900. If this parameter is set to a greater value, the status of RF resources cannot be updated in time; therefore, the BSC6900 cannot handle the interference to the BTS, thus If this parameter is set channel to smaller value, the signaling flow causing unreasonable allocation. over the Abis interface increases, thus burdening the BSC6900. If this parameter is set to a greater value, the BSC6900 cannot handle the exceptions on the BTS in time, thus causing network congestion.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, dynamic None adjustment may not be triggered when there are insufficient SDCCHs in the cell, this affects the access success rate. If this parameter is set to a greater value, traffic volume on the TCH is decreased.

None

None

None

None

Not involved

None

None

None

None

None

None

Nonefeature only applies to the areas covered by both the This GSM network and the UMTS network. The UMTS network is preferentially used to perform the data services, and the GSM network is preferentially used to perform the speech None services. When a user is handed over to the GSM network during a call, the user must return to the UMTS network immediately after the call is complete. Thus, a location update is avoided.

None

None

None

None

None

None If this parameter is set too small, the congestion control duration is too long, and thus the transmission capability of signaling links cannot be fully used. If the difference between None the values of "CSTARTTHD" and "CENDTHD" is small, the signaling link is unstable and congestion control is performed frequently. In this case, the paging messages may be abandoned.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None The setting of this parameter depends on the actual physical location of the chain neighboring cell. Otherwise, fast PBGT handover may fail.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None This parameter can be used to limit the user access type to control the network load; however, some users may be adversely affected. Therefore, it is recommended that this parameter be disabled.

None

None

None

Not involved

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, handovers may be performed frequently; if this parameter is set to a greater value, handovers may not be performed in time and call drops may occur. If this parameter is set to a smaller value, handovers may be performed frequently; if this parameter is set to a greater value, handovers may not be performed in time and call drops may occur.

None

None

None

None The MS cannot respond to the paging during the location None thus decreasing the call completion rate in the update, system. If this parameter is set to a smaller value, pingpong location update None may occur, thus increasing the signaling load on the SDCCH. If this parameter is set to a greater value, the MS may not camp on an optimum cell for a long time after entering a new location area.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If the value of this parameter is too high, the congestion control is delayed, which leads to deteriorated performance on the signaling link and certain messages may be lost. None If the difference between the values of "CSTARTTHD" and "CENDTHD" is small, the signaling link is unstable and congestion control is performed frequently. In this case, the paging messages may be abandoned.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

If this timer is set to a greater value, channel resources may be wasted, thus causing congestion.

None

None

None

None

None

None

None

None

None

None

None

None

None If this timer is set to a greater value, channel resources may be wasted, thus causing congestion.

None

None

None

Not involved

None

None

None

None

None

None

None

None

None

None

None If this function is enabled, number of signaling channel handovers is increased and the access speed is decreased, but the congestion on the BCCH-compatible SDCCH can be relieved and the access success rate is enhanced.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, call drops may occur due to delayed handover; if this parameter is set to a greater value, unnecessary handover may be performed, thus affecting the voice quality. If the parameter is set to a relatively great value, down power adjustment may not be performed when the downlink quality None is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small If the parameter is set to a relatively great value, up power value, down power adjustment may be performed when the adjustment may be performed when the downlink quality is downlink quality is poor. In this case, call drops may occur. good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, up power adjustment may not be performed when the downlink quality is poor. In this case, call drops may occur. If the parameter is set to a relatively great value, down power adjustment mayof not beGPRS performed when the downlink quality The throughput the service is affected. is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small If the parameter is set to a relatively great value, up power value, down power adjustment may be performed when the adjustment may be performed when the downlink quality is downlink quality is poor. In this case, call drops may occur. good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, up power adjustment may not be performed when the downlink quality is poor. In this case, call drops may occur.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a relatively small value, the fast None power control on the downlink cannot be implemented. If this parameter is set to a relatively great value, the power control may be performed excessively on the downlink, thus leading If is set to and a relatively small value, call drops tothis poorparameter quality, low level, ping-pong power control. may occur due to delayed power control in the downlink. If this parameter is set to a relatively great value, the power control may be performed excessively on the downlink, thus leading to ping-pong power control.

None If this parameter is set to a smaller value, downlink power control None may not be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a greater value, If this parameter is set to a greater value, uplink power downlink power control may be performed when the voice control may notthus be performed when thequality. voice quality is bad, quality is bad, affecting the voice thus affecting the voice quality. If this parameter is set to a smaller value, uplink power control may be performed when the voice quality is good, thus causing the power waste and increasing the interference.

None

None If this parameter is set to a greater value, handover may not None be performed when the downlink voice quality is bad, thus leading to call drops. If this parameter is set to a smaller value, unnecessary handovers may be performed, thus decreasing the user experience and network traffic load.

If this parameter is set to a smaller value, the handovers due to bad downlink quality may increase, thus decreasing the handover success rate. If this parameter is set to a greater value, handovers due to bad downlink quality are less If this parameter set to a smallerthe value, due possible to occur,isthus increasing call the drophandovers rate. to bad downlink quality may increase, thus decreasing the handover success rate. If this parameter is set to a greater value, handovers due to bad downlink quality are less possible to occur, thus increasing the call drop rate.

None If this parameter is set to a greater value, decrease power control None may not be performed when the downlink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, If this parameter is set tomay a greater value, increase power decrease power control be performed when the downlink control may be performed when the downlink level is high, power is low, in this way, call drops may occur. thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, increase power control may not be performed when the downlink power is low, in this way, call drops may occur.

None

None

None

None

None If this parameter is set to a greater value, decrease power control None may not be performed when the downlink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, If this parameter is set tomay a greater value, increase power decrease power control be performed when the downlink control may be performed when the downlink level is high, power is low, in this way, call drops may occur. thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, increase power control may not be performed when the downlink power is low, in this way, call drops may occur. If this parameter is set improperly to a small value, the downlink assignment procedure may fail. Therefore, it is recommended that this parameter be greater than 80 ms.

None

None

The coding rate and MOS are affected.

The coding rate and MOS are affected.

The coding rate and MOS are affected.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None As the double antenna gain increases, the downlink power increases; as the double antenna gain decreases, the downlink power decreases.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

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None

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None

None

None

None

None

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None

None

None

None

None

None

None

None

None

None

None

None

None

None

Not involved

None

None

None

None

None If this parameter is set to a greater value, the corresponding neighboring 3G cell may be difficult to become the candidate neighboring cell of the serving cell. In this way, call drops None may occur because the handovers may not be performed timely. If this parameter is set to a smaller value, a call may be handed over to a neighboring 3G cell with low signal strength, thus affecting voice quality.

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater or a smaller value, the balance between the traffic volume on the overlaid subcell and that on the underlaid subcell may not be achieved.

None

None If this parameter is set to a greater value, the handover None cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, unnecessary If this parameter is set to a greater value, the handover handovers may be performed. cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, unnecessary If this parameter is set to a greater value, unnecessary handovers may be performed. handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, the voice quality is If this parameter is set to amay greater value, unnecessary decreased and call drops occur. handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops may occur.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell. The number of block retransmissions is decreased and the throughput is increased.

None If this parameter is set to a smaller value, congestion may occur in the underlaid subcell in a short time; if this parameter is set to a greater value, congestion in the overlaid subcell is difficult to be relieved. If this parameter is set to a greater value, congestion may occur in the underlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the overlaid subcell is If this parameter is set to a greater value, traffic load on the difficult to be relieved. underlaid subcell is increased, and thus congestion may occur in the underlaid subcell. If this parameter is set to a smaller value, traffic load on the overlaid subcell is increased, and thus congestion may occur in the overlaid subcell.

None

If this parameter is set to a greater value, the congestion None relieving speed in the underlaid subcell is decreased. If this parameter is set to a smaller value, traffic load on the overlaid If this parameter is set to thus NO, the forced handover and subcell is increased, and congestion may occur in call the delay caused by timeslot arrangement can be avoided, but overlaid subcell. this may cause some TCHF-only calls to fail. If this parameter is set to Yes, calls may fail when the timeslot arrangement fails and when the MS does not select the TCHF in the concentric cell.

None If this parameter is set to a greater value, congestion in the underlaid subcell may not be relieved in time. If this None parameter is set to a smaller value, many calls may be handed over from the underlaid subcell to the overlaid subcell in a shot period, thus causing network congestion in the overlaid subcell and handover failure. If this parameter is set to OPEN, the speech quality can be improved when the signal strength is low on the air interface.

None

None

None

None

None

None

None

None

None If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. If this timer is set to a smaller value, the success rate of immediate assignment may decrease.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the effectiveness of None power control is reduced, and thus the network interference can not be reduced effectively. If this parameter is set to a smaller value, call drops may occur due to excessive power If this parameter is set to a greater value, the effectiveness of control. power control is reduced, and thus the network interference can not be reduced effectively. If this parameter is set to a smaller value, call drops may occur due to excessive power control.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If this parameter is set to a smaller value, handover success rate may be decreased.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N".

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

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None

None

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None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to YES, the speech quality is improved.

None

None

None

None

None

None

None

None

None

The discontinuous transmission (DTX) function allows a transmitter to stop power transmission in the case of no voice transfer. This function hasthe theloss following benefits: reports This technology prevents of measurement In the uplink: decreasing the power consumption of the the MS caused by the BSIC that cannot be decoded, improves and reducing system interference system performance, and ensures the radio handover In the downlink: decreasing power consumption of the BTS, success rate of the BSC6900. reducing system interference, and reducing intermodulation inside the BTS From the network perspective, the inter-frequency interference is reduced and the network quality is improved.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

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None

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None

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None

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None

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None

None

None

None

None

None

None

None

None

None

None

None

None The setting of this parameter must be consistent with the actual frequency reuse pattern of the TRX. Otherwise, the speech quality will be bad.

None The discontinuous transmission (DTX) function allows a transmitter to stop power transmission in the case of no voice None transfer. This function has the following benefits: In the uplink: decreasing the power consumption of the MS and reducing system interference In the downlink: decreasing power consumption of the BTS, None reducing system interference, and reducing intermodulation inside the BTS From the network perspective, the inter-frequency interference is reduced and the network quality is improved.

None

None

None

None

None

None

None If this parameter is set to a smaller value, the duration of an None TCHF-TCHH handover is short after the handover is AMR If this parameter is set to a greater value, the voice quality triggered. Thus, few MSs can be handed over from TCHF to may be decreased. TCHH, and the congestion capability is decreased. If this parameter is set to a relieving smaller value, the congestion If this parameter is set to a greater value, the duration of an relieving capability may be decreased. AMR TCHF-TCHH handover is long after the handover is triggered. Thus, even the MSs on the edge of the cell are handed over from TCHF to TCHH, and the voice quality If this parameter is set to a greater value, the handover deteriorates. cannot be performed in time and network congestion may occur. If this parameter is set to a smaller value, unnecessary If this parameter is set to a greater value, network congestion handovers may be performed. may occur because the handover may not be performed If this parameter is set to a smaller value, the handover zone timely. is enlarged in a short thusvalue, manythe MSs are quality handed If this parameter is settime, to a and smaller voice over from TCHF to TCHH. may be decreased. If this parameter is set to a greater value, the handover zone is enlarged slowly and it takes a long time to initiate a TCHFTCHH handover. Thus, and the congestion relieving If this parameter is set to a greater value, unnecessary capability is decreased. handovers may be performed. If this parameter is set to a smaller value, network congestion may occur because the handover may not be performed timely.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, only an MS close to the overlaid subcell can be assigned TCHHs. Thus, timeslots are wasted. None If this parameter is set to a smaller value, an MS of bad quality on the edge of the overlaid subcell cannot be handed over from TCHH to TCHF. Thus, the voice quality of the call is decreased. If this parameter is set to a greater value, the TCHH-to-TCHF None handover cannot be performed in time, thus the voice quality If parameter is set to a greater value, only MSs in the is this decreased. center area of the overlaid subcell can be assigned TCHHs. If this parameter is set to a smaller value, unnecessary Thus, timeslots wasted and the congestion relieving handovers may are be performed. capability is decreased. If this parameter is set to a smaller value, MSs on the edge of the overlaid subcell also use the TCHH. Thus, the voice If this parameter to a greater value, unnecessary quality of the call isis set decreased. handovers may be performed. If this parameter is set to a greater value, the handover cannot be performed in time, and thus the voice quality is decreased.

None

None

None

If this parameter is set to a greater value, the MS takes a longer time to meet the conditions for triggering the handover and the handover cannot be performed in time. Thus, call drops None may occur or more handovers are triggered. If this parameter is set to a smaller value, the MS takes a shorter time to meet the conditions for triggering the handover, and thus network congestion may occur on the If this parameter is set to a greater value, congestion may macro cell. occur in the macro cell. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, call drops may occur or more handovers are triggered.

None

None

None

None

Not involved

None

None

None

None

None

None This parameter limits the number of candidate cells. If this parameter is set to a greater value, some desired cells may None be excluded from the candidate cells and call drops may occur. If this parameter is set to a smaller value, an unwanted This parameter the number of candidate cells. If this cell may becomelimits the candidate cell, thus leading to handover parameter is set to a greater value, some desired cells may failures or call drops. be excluded from the candidate cells and call drops may occur. If this parameter is set to a smaller value, an unwanted cell may become the candidate cell, thus leading to handover failures or call drops.

None

None

None If this parameter is set to YES, the probability of MS handover to the cell in the direction opposite to the moving direction during fast handover is reduced. If this parameter is set to a great value, there are strict restrictions on the judgement of the MS moving direction. If this parameter is set to a great value, there are strict restrictions on the judgement of the MS moving direction. If this parameter is set to a smaller value, unnecessary handovers may be performed. If this parameter is set to a greater value, call drops may If this parameter is handover set to a greater value, the handover occur because the may not be performed timely. cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, unnecessary If this parameter is set to a greater value, the handover handovers may be performed. cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed. If this parameter is set to a too great value, the handover cannot be performed timely, and the speech quality is deteriorated or call drop occurs. If this parameter is set to a too small value, unnecessary handovers may be performed. If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed.

None If this parameter is set to a greater value, call drops may occur because the handover may not be performed timely. If this parameter is set to a smaller value, unnecessary handovers may be performed. If this parameter is set to a smaller value, call drops may occur because the handover may not be performed timely. If this parameter is set to a greater value, unnecessary handovers may be performed.

None If this parameter is set to a greater value, congestion may occur in the underlaid subcell. If this parameter is set to a smaller value, ping-pong handovers may occur.

None

None

None If this parameter is set to YES, the probability that the BTS transmits at full power increases. This increases the interference but the handover success rate also increases.

None

None

None

None If greater value, it is difficult for the If this this parameter parameter is is set set to to a "NO_FH", the anti-interference MS to be handed over to the original cell, thus leading to call capability of the TRX is decreased. drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell again, thus leading to ping-pong handovers. If this parameter is set to a too great value, the handover None cannot be performed timely, and the speech quality is deteriorated or call drop occurs. If this parameter is set to a too small value, unnecessary handovers may be performed. If this parameter is set to a greater value, unnecessary None handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, the voice quality is If this parameter is set to amay greater value, unnecessary decreased and call drops occur. handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, call drops may occur because the handover may not be performed timely.

None

None

None If this parameter is set to a smaller value, unnecessary handovers may be performed. If this parameter is set to a greater value, call drops may occur because the handover may not be performed timely.

None

None

None

None

None The discontinuous transmission (DTX) function allows a transmitter to stop power transmission in the case of no voice None transfer. This function has the following benefits: In the uplink: decreasing the power consumption of the MS and reducing system interference In the downlink: decreasing power consumption of the BTS, None reducing system interference, and reducing intermodulation inside the BTS The discontinuous transmission (DTX) function allows a From the network the inter-frequency transmitter to stop perspective, power transmission in the case of no voice interference reducedhas andthe thefollowing network benefits: quality is improved. transfer. Thisisfunction In the uplink: decreasing the power consumption of the MS and reducing system interference In the downlink: decreasing power consumption of the BTS, None reducing system interference, and reducing intermodulation inside the BTS From the network perspective, the inter-frequency interference is reduced and the network quality is improved.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, congestion may occur in the cell.

If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, congestion may occur in the cell.

None If this parameter is set to a greater value, the call duration is prolonged; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced.

None

None

None

None

None If this parameter is set to a greater value, the handover duration is prolonged and thus the handover cannot be performed in time; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced.

None

None If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, congestion may occur in the cell. If this parameter is set to a greater value, the handover duration is prolonged and thus the handover cannot be performed in time; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced. If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, congestion may occur in the cell.

None

None If this parameter is set to a greater value, the accuracy of interference assessment in the IBCA algorithm may be reduced; if this parameter is set to a smaller value, the CPU occupancy for IBCA algorithm is increased.

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the handover duration is prolonged and thus the handover cannot be performed in time; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced.

None

None If this parameter is set to a greater value, the accuracy of interference assessment in the IBCA algorithm may be reduced; if this parameter is set to a smaller value, the CPU occupancy for IBCA algorithm is increased.

None

None

None

None

None If this parameter is set to YES, cell congestion may occur when the interference is strong.

None

None

None

None If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, congestion may occur in the cell.

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value and consequently there is a small number of requests for SDCCHs, the SDCCHs of a cell are in idle state and the TCH traffic volume during None busy time is decreased. if this parameter is set to a smaller value and consequently there is a large number of requests for SDCCHs, the requests cannot be met and the access success rate is decreased.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this timer is set to a greater value, channel resources may be wasted, thus causing congestion.

None

None If this parameter is set to a greater value, the call-completion None rate of MS increases but the BSC6900 load may also increase. If this parameter is set to a smaller value, the increase of the If this parameterrate is set to aobvious. greater value, the call-completion call completion is not rate of MS increases but the BSC6900 load may also increase. If this parameter is set to a smaller value, the increase of the call completion rate is not obvious. If this parameter is set to YES, the call completion rate of the MS increases but the BSC6900 load also increases.

None

None

None If this parameter is set to a smaller value, the channel load may increase and the access success rate may decrease.

None

None

If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion. If this parameter is set to a smaller value, the handover success rate may decrease.

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the traffic volume during busy time may be decreased. If this parameter is set to a smaller value, the voice quality may be decreased. If this parameter is set to a greater value, the traffic volume during busy time may be decreased. If this parameter is set to a smaller value, the voice quality may be decreased. If the value of this parameter is set too high, the power load of other timeslots or cells is burdened. The setting of this parameter affects the MOS. When the C/I ratio is satisfactory, the coding scheme of higher rate is recommended; otherwise, the coding scheme of lower rate is recommended. The setting of this parameter affects the MOS. When the C/I ratio is satisfactory, the coding scheme of higher rate is recommended; otherwise, the coding scheme of lower rate is recommended. The setting of this parameter affects the MOS. When the C/I ratio is satisfactory, the coding scheme of higher rate is recommended; otherwise, the coding scheme of lower rate is recommended.

None

None

None

None

None

None

None If this parameter is set to a greater value, congestion may occur in the underlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the overlaid subcell is difficult to be relieved.

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, call drops may None occur. If this parameter is set to a smaller value, handover may be performed frequently and the signaling load in the cell is If this parameter is set to a greater value, the handover increased. cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, unnecessary If this parameter is set to a greater value, unnecessary handovers may be performed. handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time, thus the voice quality is decreased or call drops may occur.

None

None

None

None

None

None

None

None

None

None

None

None

None

Not involved

None If this parameter is set to a relatively small value, the calls with low receive level are handed over to other cells. Thus, the handover success rate is decreased. If this parameter is set to a relatively great value, congestion occurs to inter-RAT neighboring cells in a short time. If this parameter is set to a relatively small value, the congestion in the current cell cannot be solved. If this parameter is set to a relatively great value, congestion occurs to inter-RAT neighboring cells in a short time. If this parameter is set to a relatively small value, the congestion in the current cell cannot be solved. If this parameter is set to a relatively small value, the calls with low receive level are handed over to other cells. Thus, the handover success rate is decreased.

None

None

None

None

None

None If this parameter is set to a greater value, congestion may occur in the underlaid subcell; If this parameter is set to a smaller value, handover success rate may be decreased.

None

If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. If this timer is set to a smaller value, the handover success rate may decrease.

None

None If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. If this timer is set to a smaller value, the handover success rate may decrease. If this parameter is set to a relatively great value, the None congestion in the current cell cannot be solved. If this parameter is set to a relatively small value, the calls with low receive level are handed over to other cells. Thus, the handover success rate is decreased.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Not involved

Not involved

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

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None

None

None

None

None

None

None

None

None

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None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

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None

None

None

None

None

None

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None

None

None

None

None

None

None

None

None

This parameter adjusts traffic distribution.

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, congestion may None occur in the macro subcell; If this parameter is set to a smaller value, unnecessary handovers may be performed, thus the voice quality is If this parameter is set to ahandovers greater value, decreased and ping-pong mayunnecessary be performed. handovers may be performed, thus the voice quality is decreased and ping-pong handover may occur. If this parameter is set to a smaller value, congestion may occur in the macro subcell.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

If this parameter is set to a too small value, the corresponding cell may reject some handover requests; thus the traffic None congestion on the neighboring cells with heavy traffic cannot be relieved. If this parameter is set to a too great value, the corresponding cell may be overloaded.

None

None

None

This parameter adjusts traffic distribution.

None

None

None If this parameter is set to a greater value, it is difficult for the MS be handed over to the serving cell, thus leading to call Thistoparameter adjusts traffic distribution. drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to If parameter is the set serving to a greater value, thus it is difficult bethis handed over to cell again, leadingfor to the MS to be handed over to the serving cell, thus leading to call ping-pong handovers. drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the serving cell again, thus leading to ping-pong handovers.

None If this parameter is set to a greater value, congestion may occur in the neighboring cells in a short time; if this parameter is set to a smaller value, congestion in the serving cell is difficult to be relieved.

This parameter adjusts traffic distribution.

None

None

None

None

None

None

None

This parameter adjusts traffic distribution.

None

None

None

None

None

None

None

None

Not involved

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Not involved

None

None

None

None

None

None

None

None

None

None

None

None When this parameter is set to "ON" and the level of the channel request received by the BSC6900 is low, the BSC6900 assigns only an underlaid channel to the MS. In the None case of heavy traffic, this may lead to congestion in the underlaid subcell but can prevent call drops due to the excessively low level when the MS accesses an overlaid channel.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Not involved

Not involved

None

None When this parameter is set to YES, the network KPIs may be deteriorated. When this parameter is set to YES, the network KPIs may be deteriorated.

None

None

None

None

None

Not involved

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Not involved

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater value, the power control may be performed excessively, thus leading to ping-pong power control.

None

None If this parameter is set to a smaller value, call drops may occur or voice quality may be decreased due to delayed handover; if this parameter is set to a greater value, unnecessary handover may be performed.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, the algorithm None cannot realize fast power control. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to poor quality, low level, and pingIf this power parameter is set to a smaller value, the algorithm pong control.. cannot realize fast power control. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to poor quality, low level, and pingIf this power parameter is set to a smaller value, the algorithm pong control.. cannot realize fast power control. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to poor quality, low level, and pingpong power control..

None

None

None If this parameter is set to a smaller value, the call drop rate may increase; if this parameter is set to a greater value, the speech quality may be affected.

None

results of six neighboring cells known and permitted by the NCC at the bands with the best signal regardless of the band at which the neighboring cell is located. If this parameter is set to 1, the MS reports the measurement result of a neighboring cell known and permitted by the NCC at each band with the best signal (the band serving the current cell not included). The MS reports the measurement result of the neighboring cell at the band serving the current None cell in the redundant position. If the redundant position is still available, the MS reports the measurement results of other neighboring cells regardless of the bands at which the neighboring cells are located. None If this this parameter parameter is is set set to to 2, a smaller may If the MS value, reportscall thedrops measurement occur to delayed power control; this permitted parameterbyis the set to resultsdue of two neighboring cell knownifand a greater value, the power control may be performed NCC at each band with the best signal (the band serving the excessively, thus leading to ping-pong power current cell not included). The MS reports the control. measurement result of the neighbor cell at the band serving the current cell in the redundant position. If the redundant position is still available, the MS reports the measurement results of other None neighboring cells regardless of the bands at which the neighboring cells are located. If this parameter is set to 3, the MS reports the measurement None of three neighboring cells known and permitted by the results NCC at each band with the best signal (the band serving the current cell not included). The MS reports the measurement result None of the neighboring cell at the band serving the current cell in the redundant position. If the redundant position is still available, the MS reports the measurement results of other neighboring cells regardless of the bands at which the neighboring cells are located.

None

None

None

None

None

None

None

None

None

None

None In scenarios with heavy traffic, the network performance can be improved if this switch is turned on.

None

None

Not involved

None

Not involved

None

None

None

None

Not involved

None

None

None

None

None

This parameter is used to limit the number of candidate cells for handovers. If this parameter is set to a greater value, some desired cells may be excluded from the candidate cells, thus leading to call drops. If this parameter is set to a smaller value, an unwanted cell may become a candidate cell, thus leading to handover failures.

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, the idle state of the current SDCCHs cannot be indicated correctly and consequently the rollback of SDCCHs immediately triggers adjustment and affects the access success rate. None If this parameter is set to a larger value, the channel allocation algorithm becomes less sensitive and consequently If this parameter to state a greater value, some desired the SDCCHs stayisinset idle and cannot be rolled backcells for a may be excluded from the candidate cells, thus leading to call long period of time, thus affecting the TCH traffic volume. drops. If this parameter is set to a smaller value, an unwanted cell may become a candidate cell, thus leading to handover failures.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Not involved

Not involved

None

None

None If the value of this parameter is set too high, the RSL congestion is likely to occur.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this timer is set to a greater value, the radio resources are None occupied for a too long time, thus affecting the channel resource usage. If this timer is set to a smaller value, the call reestablishment success rate decreases.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

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None

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None

None

None

None

None

None

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None

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None

None

None

None

None

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None

None

None

None This Noneparameter should be set as required: In the areas where the traffic volume is low, this parameter can be set to 4 or 7 to improve the success rate of MS access. In the areas where congestion occurs or in the micro cells where the traffic volume is high, it is recommended this parameter be set to 1.

None

None

None This parameter limits the number of candidate cells. If this parameter is set to a greater value, some desired cells may None be excluded from the candidate cells and call drops may occur. If this parameter is set to a smaller value, an unwanted cell may become the candidate cell, thus leading to handover failures or call drops.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None Only the BTS3X in G3BTS32.30000.04.1130 or later and the double-transceiver BTSs support the LAPDm N200 parameter. If this parameter is set to Yes, the BSC6900 sends the None LAPDm N200 parameter. If this parameter is set to OFF, the BSC6900 does not send the LAPDm N200 parameter. If a BTS does not support this parameter, the parameter should be set to No. Otherwise, the BTS cannot be initialized.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None When this parameter is set to ENABLE, the MOS can be increased in a call between MSs.

None

None

None

None

None

None

None

None

None

None

None

None The most significant three bits of BSIC for all cells map with the NCC. NCC Permitted should be set properly to avoid too None many call drops. The MS does not report the information on the neighboring cells in the network whose corresponding NCC bit is set to 0. Thus, this parameter should be set properly. Otherwise, an MS during an ongoing call cannot None perform normal handover and a cross-coverage call drop occurs. For details, see GSM Rec. 05. 08. During an ongoing call, the MS reports to the BTS the signal None information on neighboring cells. A report covers a maximum of six cells. Thus, the MS should report those possible target cells, rather than selecting cells only based on the signal level. None Generally, the MS does not report the information on the cells belonging to other GSM PLMNs. This function enables the MS to measure only those specified cells. This parameter specifies the codes of the NCCs to be None measured by the MS. On the SCH, the system constantly transmits the BSIC, the first three bits of which indicate the NCC. Thus, the MS needs to compare only this parameter with the adjacent NCCs None measured. Then, the MS reports the matched NCCs to the BTS and discards others. The setting of this parameter affects only those MSs during conversation, as well as boundary handovers.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, handovers are performed frequently; if this parameter is set to a greater value, handovers cannot be performed timely, thus leading to call drops.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to YES, FR calls can be switched into HR calls to relieve the network congestion, but the voice None quality is decreased; if this parameter is set to NO, FR calls cannot be switched into HR calls, that is, network congestion cannot be relieved through the handover from TCHF to TCHH.

If this parameter is set to a greater value, the handover margin is increased in a short period and many MSs are handed over from TCHF to TCHH, thus affecting the voice quality. If this parameter is set to a smaller value, the handover margin is enlarged slowly and it takes a long time to initiate a If this parameter is set toThus, a greater value, only MSs in the TCHF-TCHH handover. the network congestion cannot center of the cell can meet the handover condition. Thus, the bethis relieved in time. If parameter is set to a greater value, the handover network congestion cannot be relieved in time. margin is increased in atoshort period and many MSs If this parameter is set a smaller value, MSs at the are edge of handed over from TCHF to TCHH, thus affecting the voice the cell can also meet the handover condition, thus affecting quality. the voice quality. If this parameter is set to a smaller value, the handover margin is enlarged slowly and it takes a long time to initiate a If this parameter is set toThus, a greater value, MSs at the edgebe of TCHF-TCHH handover. network congestion cannot the cell can also meet the handover condition, thus affecting relieved in time. the voice quality. If this parameter is set to a smaller value, only MSs in the If this parameter setmeet to a the greater value,condition. MSs with Thus, poor the center of the cell is can handover quality can also meet the handover condition, thus affecting network congestion cannot be relieved in time. the voice quality. If this parameter is set to a smaller value, little MSs can meet If this parameter is set toThus, a greater value, the calls cannot be the handover condition. the network congestion cannot handed over to TCHH in a short period when the traffic be relieved in time. volume is increased greatly. Thus, the network congestion cannot be relieved in time. If this parameter is set to a smaller If this parameter is set toover a greater value, only MSs inthus the value, calls are handed to TCHH unnecessarily, center of the cell use the TCHH, thus leading to timeslot causing MOS loss of the customer. waste and the network congestion cannot be relieved in time. If this parameter is set to a smaller value, MSs at the edge of If this parameter is setquality to a greater value, be MSs at the over edgetoof the cell and with poor also cannot handed the cell and with poor quality also cannot be handed over to the TCHF, thus affecting the voice quality. the TCHF, thus affecting the voice quality. If this parameter is set to a smaller value, only MSs in the center of the cell use the TCHH, thus leading to timeslot waste and the network congestion cannot be relieved in time. If this parameter is set to a greater value, handover cannot be None triggered even when the quality is poor, thus affecting the voice quality; if this parameter is set to a smaller value, handover is triggered even when the quality is good, thus the If this parameter is set to a smaller value, calls are handed network congestion cannot be relieved in time. over to TCHH unnecessarily, thus causing MOS loss of the customer; if this parameter is set to a greater value, TCHFTCHH handover is performed only when the traffic volume is high, thus network congestion may occur.

None

None The Nonehandover decision is allowed only when the uplink receive quality is greater than or equal to the value of this parameter. Therefore, if this parameter is set to a greater value, the handovers due to no-downlink measurement report cannot be triggered.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None This parameter should be set to a small value because the signaling channel seizure duration is shorter than the traffic channel seizure duration for the MS.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller value, assignment success rate may be decreased. If this parameter is set to a greater value, assignment success rate may be decreased; if this parameter is set to a smaller value, congestion may occur in the underlaid subcell.

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, congestion may occur in the overlaid subcell; if this parameter is set to a smaller value, congestion may occur in the underlaid subcell. If the value of this parameter is set too small, frequent handovers are likely to occur. If this parameter is set to a greater value, congestion may occur in the overlaid subcell; if this parameter is set to a smaller value, congestion may occur in the underlaid subcell.

None

If this parameter is set to a greater value, congestion may occur in the overlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the underlaid subcell is difficult to be relieved. If this parameter is set to a greater value, congestion in the underlaid subcell is difficult to be relieved; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell in a short time. If this parameter is set to a greater value, congestion may occur in the overlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the underlaid subcell is difficult to be relieved. If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell.

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a smaller value, the BTS frequently reports overload indication messages to the BSC6900. As a None result, the BSC6900 frequently reports overload indication messages to the MSC and thus the MSC may initiate flow control. If this parameter is set to a greater value, the BTS sends None overload indication messages to the BSC6900 only when a large number of MSs access the network and when the system resources are insufficient. Therefore, the access requests on the RACH and all the messages on the PCH are discarded.

None

None

None

None

None

None

None

None

None

None Properly setting this parameter can increase the paging success rate. If this parameter is set to a greater value, paging overload may occur and the paging success rate may decrease.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed.

None If this parameter is set to a greater value, unnecessary handovers may be performed; if this parameter is set to a smaller value, handovers may not be performed in time and call drops may occur.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

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None

None

None If this parameter is set to a greater value, the target cell for None the previous handover will not be selected for the next handover, but the probability of call drop increases. If this parameter is set to a smaller value, the probability of handover failure increases.

None

None

None

None

None If this parameter is set to "YES", the user with high QoS requirement may occupy a great number of PS resources. In this case, the remaining resources for other users reduce. As a result, the KPIs for these users become bad.

None

None The MS calculates C1 and C2 of the serving cell at a minimum interval of 5s. When necessary, the MS reIf this parameter setof toall a lower value, cells the paging success calculates C1 andisC2 non-serving (neighboring rate may decrease. cells). The MS constantly checks whether a cell reselection is required by checking following conditions: Whether the path loss (C1) of the current serving cell drops below None 0 within 5s. If yes, the path loss is too large. C2 of an appropriate non-serving cell exceeds that of the serving cell in 5s and the following conditions are met: The C2 of a new cell in another LAC minus CRH (broadcast None in the system information 3 and 4 of the serving cell) exceeds C2 of the serving cell in 5s. A cell reselection is performed in the last 15s, and the C2 of the new cell minus 5 dB constantly exceeds the C2 of the None serving cell in 5s. A better cell exists if the above conditions are met. If a better cell exists, the MS reselects a cell, and does not select the previous cell within 5s.

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Not involved

Not involved

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Not involved

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Not involved

Not involved

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None If this parameter is set to "YES", the delay caused by cell reselection decreases.

None

None

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None

None

None

None

None

None

None If this parameter is set to a greater value, the call drop rate decreases but the traffic volume and paging success rate are affected.

None

None

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None

The setting of this parameter affects the GSM Phase II MS.

None

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None

None If the value of this parameter is set inappropriately high or small, the BTS cabinet top output power is inconsistent with the TRX output power.

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, unnecessary handovers between micro cells are performed, thus affecting the voice quality. If this parameter is set to a smaller value, congestion may occur in macro cells.

None If this parameter is set to a greater value, congestion may occur in macro cells. If this parameter is set to a smaller value, unnecessary handovers between micro cells are performed, thus affecting the voice quality.

None

None

None

None

None

None If this parameter is set to a greater value, downlink power insufficiency may not be solved in time, thus leading to call None drops. If this parameter is set to a smaller value, unnecessary If this parameter is set to a greater unnecessary handovers may be performed, thusvalue, the voice quality is handovers may be performed, thus the voice quality is decreased. decreased. If this parameter is set to a smaller value, downlink power insufficiency may not be solved in time, thus leading to call drops.

None

None If this parameter is set to a smaller value, the algorithm None cannot realize fast power control. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to poor quality, low level, and pingpong power control.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

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None

None

None If this parameter is set to a greater value, the call drop rate decreases but the traffic volume and paging success rate are affected. If this parameter is set to a smaller value, the BTS frequently sends the overload messages to the BSC6900. Thus, access the If this parameter is set to a smaller value, the random system resource usage decreases and MSs are difficult to success rate may decrease. access the network. If this parameter is set to a greater value, the BTS sends an overload message to the BSC6900 at a long interval. Thus, system faults may occur.

None

None If this parameter is set to a smaller value, the allowable error rate Nonefor the random access signal is high and an MS can easily access the network; however, the error report rate is high. If this parameter is set to a greater value, the error report rate of the MS is low but the MS cannot easily access the network.

None

None

None When this parameter is set to on, the MOS of a MS-initiated and MS-terminated call is improved.

None

None

None

None

None

None

None If this parameter is set to YES, the BSC6900 initiates a reassignment when receiving an assignment failure message None over the Um interface. This helps increase the call completion rate and improve the QoS of the network. The successful reassignment, however, results in an increase in the access delay of MSs and the load of the BSC6900.

None

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None If this parameter is set to a greater value, too many channels None may be reserved for the users with high priority, and the users with low priority may be failed to access channels. If this parameter is set to a smaller value, channels reserved for the users with high priority may be insufficient. If this parameter is set to a smaller value, the radio resource status None is reported too frequently, thus increasing the load of the BSC6900. If this parameter is set to a greater value, the radio resource status is not immediately reported and thus the BSC6900 cannot handle the interference to the BTS in time.

None

None

None

None If this parameter is set to a smaller value, the radio link is None vulnerable to failure, thus call drops are likely to occur. If this parameter is set to a greater value, the MS may not release the connection for a long time, thus decreasing the resource usage. The parameter is valid in the downlink.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

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None

None If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If this If this parameter is set to a greater some desiredrate cells parameter is set to a smaller value,value, handover success may be excluded from the candidate cells, thus leading to call may be decreased. drops. If this parameter is set to a smaller value, an unwanted cell may become a candidate cell, thus leading to handover failures.

None

None

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None

None When this parameter is set to on, the MOS of a MS-initiated and MS-terminated call is improved.

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the call drop rate decreases but the traffic volume and paging success rate are affected.

None

None

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None If this switch is set to ON, the call access delay may be prolonged, but the performance of the algorithms in which the SDCCH MRs are used are enhanced. The greater the value of this parameter is, the longer the call access duration is, the MRs are filtered more completely. Generally, you are advised to set this parameter to a value smaller than 20.

None

None

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None

None If this function is enabled after encryption is enabled, the network security can be improved.

The TRX is shut down automatically, and the capacity of the If this cell is parameter decreased.is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unexpected handovers may be performed due to incorrect MR when the call is initially set up, thus affecting handover success rate. If this parameter is set to a greater value, the handover to None micro cells becomes difficult, and congestion may occur in macro cells. If this parameter is set to a smaller value, unnecessary handovers are performed, thus affecting the If this quality. parameter is set to a greater value, the handover to voice micro cells becomes difficult, and congestion may occur in macro cells. If this parameter is set to a smaller value, unnecessary handovers are performed, thus affecting the voice quality.

None

None

None

None

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None

None When the neighboring 3G cell is configured and the intersystem cell reselection is enabled, the MS cannot receive the 2Quater message and thus cannot be reselected to the neighboring 3G cell if this parameter is set to NO.

None

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Not involved

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None This parameter can be used to control network load based on the MS access classes, thus preventing some MSs from accessing the network. It is recommended that this parameter be not used.

None

None

None

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None

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None

None If this parameter is set to a greater value, the handover to None micro cells becomes difficult, and congestion may occur in macro cells. If this parameter is set to a smaller value, more handovers If thisbe parameter is set a greater value, is the handover to may performed, thustothe voice quality decreased. micro cells becomes difficult, and congestion may occur in macro cells. If this parameter is set to a smaller value, more handovers may be performed, thus the voice quality is decreased.

None

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Not involved

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None

None If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call None drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell again, thus leading to pingpong handovers.

None

None

None

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None

None

If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call None drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell again, thus leading to pingpong handovers.

None

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Not involved

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None If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fails before the transmit end receives a response from the peer end. If timer N200 is set to a smaller None If timerthe T200 is set of to data a smaller value, the transmit endand maythe value, number retransmissions is reduced mistakenly regard that the link is faulty and the data success rate of transmission is reduced. If timers T200 and transmission beforevalues, the transmit end receives a N200 are set fails to greater the channels are seized all response from the peer end. If timer N200 is set to a smaller along when the linktois afaulty. Thus, resources are wasted. If timer T200 is set smaller value, the transmit end may value, the number of data retransmissions is reduced and the mistakenly regard that the linkisisreduced. faulty and the data success rate of transmission If timers T200 and transmission fails before the transmit end receives a N200 are set to greater values, the channels are seized all response from the peer end. If timer N200 is set to a smaller along when the linktois afaulty. Thus, resources are wasted. If timer T200 is set smaller value, the transmit end may value, the number of data retransmissions is reduced and the mistakenly regard that the linkisisreduced. faulty and the data success rate of transmission If timers T200 and transmission fails before the transmit end receives a N200 are set to greater values, the channels are seized all response from the peer end. If timer N200 is set to a smaller along when the linktois afaulty. Thus, resources are wasted. If timer T200 is set smaller value, the transmit end may value, the number of data retransmissions is reduced and the mistakenly regard that the linkisisreduced. faulty and the data success rate of transmission If timers T200 and transmission fails before the transmit end receives a N200 are set to greater values, the channels are seized all response from the peer end. If timer N200 is set to a smaller along when the linktois afaulty. Thus, resources are wasted. If timer T200 is set smaller value, the transmit end may value, the number of data retransmissions is reduced and the mistakenly regard that the linkisisreduced. faulty and the data success rate of transmission If timers T200 and transmission fails before the transmit end receives a N200 are set to greater values, the channels are seized all response from the peer end. If timer N200 is set to a smaller along when the linktois afaulty. Thus, resources are wasted. If timer T200 is set smaller value, the transmit end may value, the number of data retransmissions is reduced and the mistakenly regard that the linkisisreduced. faulty and the data success rate of transmission If timers T200 and transmission fails before the transmit end receives a N200 are set to greater values, the channels are seized all response from the peer end. If timer N200 is set to a smaller along when the link is faulty. Thus, resources are wasted. value, the number of data retransmissions is reduced and the success rate of transmission is reduced. If timers T200 and N200 are set to greater values, the channels are seized all along when the link is faulty. Thus, resources are wasted.

None

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None If this parameter is set to a smaller value, the paging success rate increases but the load on the SDCCH also increases, thus causing congestion on the SDCCH.

None

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None

If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary If this parameter is set to a greater value, the handover handovers may be performed. cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, the coverage area of the cell is reduced, and the traffic volume on the cell may be decreased.

None

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None If this parameter is set to a greater value, network congestion When this parameter set to a large value, may occur in the cell; is if this parameter is set the to avalues smallerof the new counters TCH call drops (DL FER) and TCH drops value, TCHHs are allocated even when the traffic call volume on (UL FER and DL FER) are reduced. When this parameter is the cell is light, this affects the voice quality. set to a small value, the values of the two counters are When this parameter set to aoflarge values of the increased. The overallisnumber call value, drops, the however, new counters TCH call drops (DL receive level) and TCH call remains unchanged and the performance of other counters is drops (UL receive level) are increased. When this parameter not affected. is set to a small value, the values of the two counters are When thisThe parameter is set to of a large value,however, the values of the reduced. overall number call drops, remains new counters TCH call drops (DL receive quality) and TCH unchanged and the performance of other counters is not call drops (UL receive quality and DL receive quality) are affected. reduced. When this parameter is set to a small value, the When parameter is setare to aincreased. large value, theoverall valuesnumber of the valuesthis of the two counters The new counters TCH call drops (UL FER) and TCH call drops of call drops, however, remains unchanged and the (UL FER and of DLother FER)counters are reduced. this parameter is performance is not When affected. set to a small value, the values of the two counters are When this parameter set to aoflarge values of the increased. The overallisnumber call value, drops, the however, new counters TCH call drops (UL receive level) and TCH call remains unchanged and the performance of other counters is drops (UL receive level and DL receive level) are increased. not affected. When this parameter is set to a small value, the values of the When this parameter is setThe to aoverall large value, theofvalues of the two counters are reduced. number call drops, new counters TCH call drops (UL receive quality) and TCH however, remains unchanged and the performance of other call dropsis(UL quality and DL receive quality) are counters notreceive affected. reduced. When this parameter is set to a small value, the values of the two counters are increased. The overall number of call drops, however, remains unchanged and the If this parameter is setcounters to a greater value, the handover performance of other is not affected. cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unexpected handovers may be performed due to incorrect MR when the call is initially set up, thus affecting handover success rate.

None

None If this parameter is set to a greater value, the half-rate If this parameter is set to smaller value, thethe handover channels are assigned to athe MS only when channel frequency is higher. seizure ratio of underlaid subcell is very high. Insufficient halfrate channels can be assigned to calls the MS. Thus, theover capacity ON, the arethe handed on If this parameter is set to a greater value, half-rate of the BSC is reduced. schedule.are Thisassigned increases the load of the BSC6900 but channels to the MS only when the channel If this parameter is setsecurity. to a smaller value, the half-rate improves the network seizure ratio overlaid subcell is only very when high. Insufficient channels areof assigned to the MS the channelhalfrate channels can be assigned to the MS. Thus, capacity seizure ratio of underlaid subcell is very low. Thethe calls use of the BSC is reduced. the half-rate channel even if there are enough full-rate If this parameter is set to a smaller value, the half-rate channels, which influences the voice quality. channels are assigned to the MS only when the channel seizure ratio of overlaid subcell is very low. The calls use the half-rate channel even if there are enough full-rate channels, which influences the voice quality.

None

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None

None If both TFO and AEC functions are enabled and the acoustic echo is detected, the TFO is disabled to cancel the echo so that the speech quality can be improved.

None

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None

None If this parameter is set to a greater value, the BCCH may idle while None non-BCCHs are congested, thus affecting the traffic volume during busy times. If this parameter is set to a smaller value, the assignment of the BCCH may fail, and thus the access success rate may be decreased.

If this parameter is set to a greater value, the assignment of the BCCH may fail, and thus the handover success rate may be decreased. If this parameter is set to a smaller value, the BCCH may idle If this non-BCCHs parameter isare set congested, to a greaterthus value, the BCCH may idle while affecting the traffic while non-BCCHs are congested, thus affecting the traffic volume during busy times. volume during busy times and the access success rate. If this parameter is set to a smaller value, unnecessary handovers may be performed, thus the voice quality is decreased.

None

None

None

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None

None If this parameter is set to a greater value, cell congestion may None be difficult to be relieved, thus affecting the traffic volume during busy times and the access success rate. If this If this parameter is set to a greater value, it is difficult for the parameter is set to a smaller value, handover success rate MS handed over to the original cell, thus leading to call maytobebedecreased. drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell again, thus leading to pingpong handovers. If this parameter is set to a greater value, call drop rate may be increased and congestion may occur in the overlaid subcell; if this parameter is set to a smaller value, handover success rate may be decreased.

None

None

None

None If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call None drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell again, thus leading to pingpong handovers.

None If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call None drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell again, thus leading to pingpong handovers. If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller value, handover success rate may be decreased.

None

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Not involved

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None When None this parameter is enabled, the fast flux monitoing frequency is increased, and the channel allocation can be adjusted more quickly to adapt to the service type. Thus, the terminal throughput and BSC PS resource usage can be increased.

None

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Not involved

None

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None If the number of RACH conflicts in a cell is small, T should be set to a great value. If the number of RACH conflicts in a cell None is large, T should be set to a small value. The increase in T and S prolongs the access time of an MS, thus affecting the access performance of the whole network. Therefore, appropriate values should be selected for T and S. None When the network traffic is heavy, the success rate of immediate assignment is low if the sum of S and T is low. Thus, the value of T should be properly adjusted to make the sum of S and T great. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell.

The parameter modification impacts the covered range of cell. The parameter modification impacts the covered range of cell.

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None

None

None If the parameter is set to a relatively great value, down power adjustment may not be performed when the uplink quality is None good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small If the parameter is set to a relatively great value, up power value, down power adjustment may be performed when the adjustment may be performed when the uplink quality is uplink quality is poor. In this case, call drops may occur. good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small If the parameter is set to a relatively great value, down power value, up power adjustment may not be performed when the adjustment may not be the uplink quality is uplink quality is poor. Inperformed this case, when call drops may occur. good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small If the parameter is set to a relatively great value, up power value, down power adjustment may be performed when the adjustment may be performed when the uplink quality is uplink quality is poor. In this case, call drops may occur. good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, up power adjustment may not be performed when the uplink quality is poor. In this case, call drops may occur. If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed. If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time and call drops may occur.

None

None

None If this parameter is set to a smaller value, call drops may occur due to delayed handover; if this parameter is set to a greater value, unnecessary handover may be performed, thus affecting the voice quality.

None

None If the parameter is set to a relatively great value, down power adjustment may not be performed when the uplink quality is None good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small If the parameter is set to a relatively great value, up power value, down power adjustment may be performed when the adjustment may be performed when the uplink quality is uplink quality is poor. In this case, call drops may occur. good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small If the parameter set to a relatively value, down power value, up power is adjustment may not great be performed when the adjustment may not be performed when the uplink quality uplink quality is poor. In this case, call drops may occur. is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small If the parameter is set to a relatively great value, up power value, down power adjustment may be performed when the adjustment may be performed when the uplink quality is uplink quality is poor. In this case, call drops may occur. good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, up power adjustment may not be performed when the uplink quality is poor. In this case, call drops may occur.

None

None

None

None

None

None

None

None

None If this parameter is set to a relatively small value, the fast None power control on the uplink cannot be implemented. If this parameter is set to a relatively great value, the power control may be performed excessively on the uplink, thus leading to If thisquality, parameter is set and to a ping-pong relatively small value, call drops poor low level, power control. may occur due to delayed power control in the uplink. If this parameter is set to a relatively great value, the power control may be performed excessively on the uplink, thus leading to ping-pong power control.

None If this parameter is set to a smaller value, downward power control None is not performed when the signal quality is good, thus causing power waste and increasing the interference. If this parameter is set to a greater value, downward power control If parameter set to athe greater upward is this performed evenis though signalvalue, quality is bad,power thus control may not be performed when the voice quality is bad, affecting the speech quality. thus affecting the voice quality. If this parameter is set to a smaller value, upward power control may be performed when the voice quality is good, thus causing the power waste and increasing the interference.

None

None If this parameter is set to a greater value, handover may not None be performed when the uplink voice quality is bad, thus leading to call drops. If this parameter is set to a smaller value, unnecessary handovers may be performed, thus If this parameter is quality. set to a smaller value, the handovers due affecting the voice to bad uplink quality may increase, thus decreasing the handover success rate. If this parameter is set to a greater value, handovers due to bad uplink quality are less possible If parameter is set to the a smaller value, tothis occur, thus increasing call drop rate.the handovers due to bad uplink quality may increase, thus decreasing the handover success rate. If this parameter is set to a greater value, handovers due to bad uplink quality are less possible to occur, thus increasing the call drop rate.

None

None

If this parameter is set to a greater value, downward power control may not be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, If this parameter set to may a greater value, upward downward poweriscontrol be performed when power the voice control may be performed when the voice quality is good, quality is bad, thus affecting the voice quality. thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, upward power control may not be performed when the voice quality is bad, thus affecting the voice quality.

None

None

None

None

None If this parameter is set to a greater value, downward power control None may not be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, If this parameter set to may a greater value, upward downward poweriscontrol be performed when power the voice control may be performed when the voice quality is good, quality is bad, thus affecting the voice quality. thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, upward power control may not be performed when the voice quality is bad, thus affecting the voice quality.

The coding rate and MOS are affected.

The coding rate and MOS are affected.

The coding rate and MOS are affected.

None

None

None

None

None

None

None

None If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If this parameter is set to a smaller value, handover success rate may be decreased.

None

None

None

None

None

None

None

None

None

None

None

None

Not involved

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed, thus affecting the voice quality.

None If this parameter is set to a greater value, unnecessary handovers may be performed, thus affecting the voice quality. If this parameter is set to a smaller value, the handover cannot be performed in time and call drops may occur.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, congestion may occur in the underlaid subcell. If this parameter is set to a smaller value, ping-pong handovers may occur.

None

None If this parameter is set to a greater value, congestion in the underlaid subcell is difficult to be relieved; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell in a short time. If this parameter is set to a greater value, congestion may occur in the overlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the underlaid subcell is difficult to be relieved.

None

None If this parameter is set to a high value and the VGCS has priority, public network services are likely to suffer from insufficient channels. Thus, this parameter needs to be set according to the actual service requirements. When preemption conditions are met, public network services can preempt channels of the VGCS if this parameter is set to Public Network First; the VGCS can preempt channels of public network services if this parameter is set to VGCS First. If this parameter is set to a high value and the VGCS has priority, public network services are likely to suffer from insufficient channels. Thus, this parameter needs to be set according to the actual service requirements.

None

None

None

None

None

None

None

None

None

None

None

Not involved

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion. If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion. If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion.

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

Introduced in Version

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BSC6900 V900R011

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

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Transport

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Transport

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

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Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Equipment

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Transport

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Transport

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Radio

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BSC6900 V900R011

Equipment

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Equipment

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Radio

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Radio

Versions earlier than BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Equipment

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Radio

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BSC6900 V900R011

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Equipment

BSC6900 V900R011

Equipment

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Radio

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Equipment

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Equipment

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Transport

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Transport

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BSC6900 V900R011

Equipment

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Transport

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Equipment

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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Equipment

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Equipment

Versions earlier than BSC6900 V900R011

Equipment

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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Equipment

Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Equipment

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Equipment

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Equipment

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

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Equipment

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Radio

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Radio

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BSC6900 V900R011

Transport

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BSC6900 V900R011

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

BSC6900 V900R011

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BSC6900 V900R011

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Radio

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Radio

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Transport

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Radio

Versions earlier than BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Transport

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Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

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Radio

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Radio

Versions earlier than BSC6900 V900R011

Radio

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Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Transport

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Transport

Versions earlier than BSC6900 V900R011

Transport

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Transport

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Transport

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Equipment

BSC6900 V900R011

Radio

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Radio

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Radio

Versions earlier than BSC6900 V900R011

Radio

BSC6900 V900R011

Radio

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Radio

Versions earlier than BSC6900 V900R011

Radio

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Radio

Versions earlier than BSC6900 V900R011

Radio

BSC6900 V900R011

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Equipment

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Radio

Versions earlier than BSC6900 V900R011

Radio

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Radio

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Radio

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BSC6900 V900R011

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Transport

BSC6900 V900R011

Equipment

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Transport

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Transport

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Transport

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BSC6900 V900R011

Equipment

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Equipment

BSC6900 V900R011

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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Equipment

BSC6900 V900R011

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Equipment

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

Transport

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Radio

BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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Equipment

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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Transport

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Radio

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BSC6900 V900R011

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Transport

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Transport

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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Transport

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BSC6900 V900R011

Equipment

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Equipment

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BSC6900 V900R011

Equipment

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Versions earlier than BSC6900 V900R011

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Transport

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Transport

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Transport

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

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BSC6900 V900R011

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Equipment

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Equipment

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Equipment

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Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Equipment

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Radio

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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Radio

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Equipment

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Radio

Versions earlier than BSC6900 V900R011

Radio

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Radio

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Radio

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Radio

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Radio

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Radio

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Radio

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Radio

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Radio

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Radio

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Transport

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BSC6900 V900R011

Equipment

BSC6900 V900R011

Radio

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Equipment

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Transport

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

Transport

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Radio

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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Equipment

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Equipment

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Transport

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Transport

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Transport

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Transport

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BSC6900 V900R011

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BSC6900 V900R011

Radio

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

Radio

Versions earlier than BSC6900 V900R011

Radio

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Radio

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BSC6900 V900R011

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Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

Versions earlier than BSC6900 V900R011

Equipment

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Radio

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Transport

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Radio

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Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

Equipment

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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Versions earlier than BSC6900 V900R011

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