No 1
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3
4 5
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9
10
11
Ericsson Parameter
Object
Nokia Default
Unit
Utran Cell accessClassNBarred 0 (=not barred) Indicates whether access class N (N=0 to 15) is barred or not. 0=not barred, 1=barred
Object
WCEL Define whether the cell is barred or not. UE will even for emergency call purpose.
Utran Cell cellReserved NOT_RESERVED WCEL Indicates if this cell shall be reserved for operator use. If it is reserved, there will be no service Indicates if this cell shall be reserved for operat to the UEs. service to the UEs.. When cell status is "not ba the UEs assigned to Access Class 11 or 15 ma PLMN. UEs assigned to Access Class in the ra if cell status "barred" is indicated.
Utran Cell treSelection 2 s WCEL Time-to-trigger for cell reselection in seconds. Value launched by System information (SIB3). The UE triggers the reselection of a new cell if The UE reselects new cell if the cell reselection criteria are fulfilled during this time interval. during the time interval Treselection. UtranCell
qQualMin
-18
dB
Minimum required (acceptable) quality level in the cell (dB). UtranCell
qRxLevMin
-115
WCEL
The minimum required quality level in the cell ( dBm
WCEL
Minimum required (acceptable) RX level in the cell.
The minimum required RX level in the cell.
ExternalUtranCell qQualMin 100 dB Minimum required (acceptable) quality level in neighbor cell (dB) for cell reselection to that cell. If neighbor cell belong to same RNC, then the Object of parameter will be UtranCell.100 : Indicates that the minimum quality level has not been specified by the operator. The parameter is then not present in SIB11 for this neighbour. The UE will use the serving cell value (UtranCell MO value) instead.
HOPI Determines the minimum required CPICH Ec/N measurement result of the inter-frequency neig becomes possible.
ExternalUtranCell qQualMin 100 dB Minimum required (acceptable) quality level in neighbor cell (dB) for cell reselection to that cell. If neighbor cell belong to same RNC, then the Object of parameter will be UtranCell.100 : Indicates that the minimum quality level has not been specified by the operator. The parameter is then not present in SIB11 for this neighbour. The UE will use the serving cell value (UtranCell MO value) instead.
HOPS Determines the minimum required CPICH Ec/N measurement result of the neighbouring cell be possible.
ExternalUtranCell qRxLevMin 100 dBm Minimum required (acceptable) RX level in neighbor cell (dBm). If neighbor cell belong to same RNC, then object parameter will be UtranCell. 100 : Indicates that the minimum Rx level has not been specified by the operator. The UE will use the serving cell value (UtranCell MO value) instead.
HOPS The parameter determines the minimum requir measurement result of the neighbouring cell m possible.
ExternalUtranCell qRxLevMin 100 dBm Minimum required (acceptable) RX level in neighbor cell (dBm). If neighbor cell belong to same RNC, then object parameter will be UtranCell. 100 : Indicates that the minimum Rx level has not been specified by the operator. The UE will use the serving cell value (UtranCell MO value) instead.
HOPI The parameter determines the minimum requir measurement result of inter-frequency neighbo selection is possible.
ExternalGsmCell qRxLevMin -105 Minimum required (acceptable) RX level in the cell. (dBm).
dBm
HOPG Determines the minimum required RSSI level w GSM neighbour cell must exceed before the ce
-
-
WCEL
-
-
Defines whether intra-frequency cell re-selectio barred. When a cell's status is "barred", the UE cell, except in some cases for an emergency ca
11
-
-
-
-
12
When the cell is barred, the UE must check be period’, whether the status of the barred cell ha
13
WCEL
UtranCell
qHyst1
0
dB
WCEL Qhyst1 is used for TDD and GSM cells, and for Hysterisis value that is read in the system information of serving cell, and used for cell ranking selection quality measure is set to CPICH RSC and cell reselction process. It is used when qualMeasQuantity is set to CPICH RSCP UtranCell
qHyst2
0
dB
14
WCEL Qhyst2 is used for FDD cells when cell selectio to CPICH Ec/No.
Hysterisis value that is read in the system information of serving cell, and used for cell ranking and cell reselction process. It is used when qualMeasQuantity is set to CPICH Ec/No
15
16
17
18
19
20
UtranCell maxTxPowerUl 24 dBm The maximum UE transmission power on the RACH when accessing the system.Used in UE functions for cell selection/reselection in idle mode and connected mode. Also used by UTRAN to control the maximum TX power level an UE may use.If the current UE uplink transmit power is above the indicated power value, the UE shall decrease the power to a level below the power value.
WCEL This parameter defines the maximum transmis It is signaled to UE in the Maximum allowed UL when a radio link is set up.
ExternalUtranCell maxTxPowerUl 100 dBm The maximum UE transmission power on the RACH when accessing the system.Used in UE functions for cell selection/reselection in idle mode and connected mode. Also used by UTRAN to control the maximum TX power level an UE may use.If the current UE uplink transmit power is above the indicated power value, the UE shall decrease the power to a level below the power value.Special values:100: Indicates that the maximum UL transmission power has not been specified by the operator. The parameter is then not present in SIB11 for this neighbour. The UE will use the serving cell value (UtranCell MO value) instead.
ADJI This parameter indicates the maximum transm when accessing inter-frequency neighbouring c parameter in the cell re-selection procedure. If lower than the value of the parameter, the UE a the minimum required CPICH Ec/No level, whic neighbouring cell must exceed before the cell r
ExternalUtranCell maxTxPowerUl 100 dBm The maximum UE transmission power on the RACH when accessing the system.Used in UE functions for cell selection/reselection in idle mode and connected mode. Also used by UTRAN to control the maximum TX power level an UE may use.If the current UE uplink transmit power is above the indicated power value, the UE shall decrease the power to a level below the power value.Special values:100: Indicates that the maximum UL transmission power has not been specified by the operator. The parameter is then not present in SIB11 for this neighbour. The UE will use the serving cell value (UtranCell MO value) instead.
ADJS
ExternalGsmCell maxTxPowerUl 100 dBm The maximum UE transmission power on the RACH when accessing the system.Used in UE functions for cell selection/reselection in idle mode and connected mode. Also used by UTRAN to control the maximum TX power level an UE may use.If the current UE uplink transmit power is above the indicated power value, the UE shall decrease the power to a level below the power value.Special values:100: Indicates that the maximum UL transmission power has not been specified by the operator. The parameter is then not present in SIB11 for this neighbour. The UE will use the serving cell value (UtranCell MO value) instead.
ADJG This parameter indicates the maximum transm when accessing the GSM neighbouring cell on in the cell re-selection procedure. If the maximu the value of the parameter, the UE adds the po minimum required CPICH Ec/No level, which th neighbouring cell must exceed before the cell r
UtranCell sIntraSearch 0 dB The decision on when measurements on intra frequencies shall be performed. If Squal <= sIntraSearch, UE performs intra-frequency measurements.
WCEL
UtranCell
WCEL
sInterSearch
0
dB
This parameter indicates the maximum transm when accessing the neighbouring cell on the R cell re-selection procedure. If the maximum out value of the parameter, the UE adds the power required CPICH Ec/No level, which the measur must exceed before the cell re-selection is pos
The threshold for intra-frequency measuremen Note: If no threshold is given, MS performs me
20
The decision on when measurements on inter frequencies shall be performed. If Squal <= sInterSearch, the UE performs inter frequency measurements.
The threshold for inter-frequency measuremen Note: If no threshold is given, MS performs me
21
UtranCell sRatSearch 2 dB The decision on when measurements on GSM frequencies shall be performed is made using this parameter in relation with Squal. If S_qual > this parameter, no need for UE to perform measurements on GSM cells. If S_qual <= this paramter, UE shall perform measurment on GSM cells.
WCEL The RAT-specific threshold for inter-RAT meas given, MS performs measurements.
-
WCEL
-
-
-
Threshold for skipping inter-RAT measurement threshold in the serving UTRA cell, the UE doe measurements. Needed only if HCS is used.
22
-
23
UtranRelation qOffset1sn 0 dB HOPI Signal strength offset between souce and target cells. used when the IE This parameter is used in the cell re-selection a "cell_selection_and_reselection_quality_measure" in SIB 11/22 is set to "CPICH RSCP". This value of this parameter is subtracted from the m is configured through UtranCell::qualMeasQuantity. frequency neighbour cell before the UE compa selection/ranking criteria.
24
UtranRelation qOffset1sn 0 dB HOPS Signal strength offset between souce and target cells. used when the IE This parameter is used in the cell re-selection a "cell_selection_and_reselection_quality_measure" in SIB 11/22 is set to "CPICH RSCP". This value of this parameter is subtracted from the m is configured through UtranCell::qualMeasQuantity. cell before the UE compares the quality measu criteria. GsmRelation
25
qOffset1sn
7
dB
HOPG
Signal strength offset between source and target cells. Dependencies:Used when the IE This parameter is used in the cell re-selection a "cell_selection_and_reselection_quality_measure" in SIB 11/12 is set to "CPICH RSCP". This cells. The value of this parameter is subtracted is configured through UtranCell::qualMeasQuantity. neighbour cell before the UE compares the qua selection/ranking criteria. HOPI
26
UtranRelation qOffset2sn 0 dB Signal strength offset between souce and target cells. used when the IE "cell_selection_and_reselection_quality_measure" in SIB 11/22 is set to "CPICH Ec/No".
27
UtranRelation qOffset2sn 0 dB Signal strength offset between souce and target cells. used when the IE "cell_selection_and_reselection_quality_measure" in SIB 11/22 is set to "CPICH Ec/No".
HOPS This parameter is used in the cell re-selection a value of this parameter is subtracted from the m cell before the UE compares the quality measu criteria.
-
-
-
-
This parameter is used in the cell re-selection a value of this parameter is subtracted from the m frequency neighbour cell before the UE compa selection/ranking criteria.
-
-
ADJG The parameter indicates whether the GSM neig Information Block 11&12&18 for the cell selecti GSM neighbour cell is included in the system in parameter is "yes". The parameter AdjgSIB doe CELL_DCH state of connected mode. That is, for the inter-system handover regardless of the
-
-
ADJI
28
-
29
-
This parameter indicates whether the inter-freq System Information Block 11&12&18 for the ce procedures. The inter-frequency neighbour cell when the value of the parameter is "yes". Note: interfrequency measurements in CELL_DCH st frequency neighbour cells are monitored for the the value of the parameter AdjiSIB ADJS
30
The parameter indicates whether the intra-frequ System Information Block 11&12&18 for the ce procedures. The intra-frequency neighbour cell when the value of the parameter is "yes".The p intrafrequency measurements in CELL_DCH st frequency neighbour cells are monitored for the value of the parameter AdjsSIB.
30
PlmnIdentityGroup 31
PlmnIdentityGroup 32
34
35
1 -
WCELL Unique country identification. MCC consist 3 di the PLMN uniquely (globally).
plmn.mnc
1 -
WCELL Unique network identification within country. MN together with MCC identifies the PLMN uniquel
The MNC part of a PLMN identity used in the radio network. Range: 0-999 UtranCell
33
plmn.mcc
The MCC part of a PLMN identity used in the radio network. Range: 0-999
primaryScramblingCode
The primary downlink scrambling code to be used in the cell.Disturbances:Changing this attribute may affect ongoing traffic.Range:0-511 UtranCell sHcsRat -105 dB RAT specific threshold in the serving cell used in the inter-RAT measurement rules.This parameter is used by the UE to decide when to start GSM measurements for cell reselection, if the serving cell is indicated to belong to a Hiearachical Cell Structure (HCS).GSM measurements in idle mode and state CELL_FACH are started by the UE when RSCP <= qRxLevMin + sHscRat.
WCEL The RAT specific threshold for inter-RAT meas used.
t3212 UtranCell Periodic update timer for LA update.
RNC The timeout value, in decihours (6 min), for per CS domain. (Part of CS domain specific NAS S location update shall not be used.
10
decihour(6min)
Paging 36
cnDrxCycleLengthCs 6 10(2^k)ms Core Network DRX cycle length coefficient (k) for UEs in idle mode, circuit switched. The cycle length is calculated as the k'th potential of 2, where k = 6..9. For example, 6 corresponds to cycle length 640 ms, 7 corresponds to cycle length 1280 ms, etc. Paging
37
cnDrxCycleLengthPs 7 10(2^k)ms Core Network DRX cycle length coefficient (k) for UEs in idle mode, packet switched. The cycle length is calculated as the k'th potential of 2, where k = 6..9. For example, 6 corresponds to cycle length 640 ms, 7 corresponds to cycle length 1280 ms, etc.
Paging 38
WCEL Identifies the downlink scrambling code of the P CPICH (Common Pilot Channel) of the Cell.
utranDrxCycleLength 5 10(2^k)ms The DRX cycle length coefficient (k) for UEs in URA_PCH. The DRX cycle length is the frequency with which the Ue listens on the paging channel. The parameter is applicable for both UTRAN and CN initiated paging in URA_PCH. Value mapping: The cycle length is calculated as the k'th power of 2, where k = 3..9. For example, 6 corresponds to cycle length 640 ms, 7 corresponds to cycle length 1280 ms, etc.
RNC The DRX cycle length used for CN domain to c reception. This parameter is given for CS doma duration of the DRX cycle is 2
k frame length coefficient for CN.) RNC The DRX cycle length used for CN domain to c reception. This parameter is given for CS doma duration of the DRX cycle is 2 k frame length coefficient for CN.)
WCEL The DRX cycle length used by UTRAN to coun reception.(The duration of the DRX cycle is 2 < where 'k' is the used DRX cycle length coefficie
Sid 39
noOfMaxDrxCycles 1 Paging notification duration. To notify UEs in IDLE mode about a system information update, the RNC sends a paging message on the PCH at every page occasion of a number of maximum DRX cycles. Sid
40
41
sib7ExpirationTimeFactor
1
-
WCEL
SIB7 use expiration time as re-read mechanism. The expiration time is sib7RepPeriod times sib7ExpirationTimeFactor. Note that the following mapping applies between the configured value and the value sent in the RRC message System Information Block Type 7: Configured value <=> IE value sent in SIB7. 1 <=> IE not sent , 2 <=> 1, 4 <=> 2, 8 <=> 3, 16 <=> 4, 32 <=> 5, 64 <=> 6, 128 <=> 7, 256 <=> 8
This parameter sets the SIB7 expiration timer f formula: MAX([320ms], SIB_REP x value of 'SI
UtranCell
-
fachMeasOccaCycLenCoeff
0
-
41
Fach Measurement Occasion Cycle Length coefficient.A factor used when the UE performs inter-frequency and inter-system measurements. The UE uses this parameter to calculate the interval length in order to determine the repeating cycle of the measurement. Value mapping: 0 : not broadcasted in SIB 11, 1 : not used, 2 : not used, 3 : used when inter frequency and GSM neighbours,4 : used when inter freqency or GSM neighbours,5 - 12 not used. UtranCell
42
43
interFreqFddMeasIndicator FALSE Inter-frequency FDD measurement indicator. Value mapping: FALSE = No, TRUE = Yes
-
-
44
HOPI This parameter is used in the cell ranking betw inter-frequency neighbour cell has the same HC neighbour cell has a different HCS priority leve cell re-selection between GSM and WCDMA ce Penalty Time) from the measured CPICH RSC The alternative values are the following: 3 dB, 6 and 'Infinity'.
-
-
-
HOPS This parameter is used in the cell ranking betw neighbour cell has the same HCS priority level has a different HCS priority level, the offset valu selection between GSM and WCDMA cells. Th Time) from the measured CPICH RSCP of the are the following: 3 dB, 6 dB, 9 dB, 12 dB, 15 d
-
-
-
HOPG This parameter is used in the cell ranking betw GSM neighbour cell has the same HCS priority neighbour cell has a different HCS priority leve cell re-selection between GSM and WCDMA ce Penalty Time) from the measured RSSI level o values are the following: 3 dB, 6 dB, 9 dB, 12 d
-
-
-
HOPI This parameter is used in the cell ranking betw frequency neighbour cell has the same HCS pr neighbour cell has a different HCS priority leve cell re-selection between WCDMA cells. The o from the measured CPICH Ec/No of the inter-fr values are the following: 2 dB, 3 dB, 4 dB, 6 dB
-
-
-
HOPS This parameter is used in the cell ranking betw cell has the same HCS priority level as the serv different HCS priority level, the offset value is a between WCDMA cells. The offset is subtracte measured CPICH Ec/No of the neighbour cell. 2 dB, 3 dB, 4 dB, 6 dB, 8 dB, 10 dB, 12 dB and
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-
-
-
-
-
-
-
47
-
-
-
46
-
-
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45
-
-
-
-
48 -
49
-
WCEL This parameter defines the HCS priority level fo HCS priority and value 7 indicates the highest H needed if HCS is not used.
WCEL
49
This parameter indicates whether the serving c Structure (HCS), or not.
50
-
-
-
WCEL Quality threshold level (CPICH Ec/No) for apply selection for a cell. Needed only if HCS is used
-
-
-
HOPI Defines the threshold level which must be exce frequency neighbour cell before the hierarchica
-
-
-
HOPS Defines the threshold level which must be exce neighbouring cell before the hierarchical cell re
-
-
-
HOPG Defines the threshold which must be exceeded GSM neighbour cell before the hierarchical cell
-
-
-
HOPI Defines the time period during which the Temp selection procedure for the inter-frequency neig
-
-
-
HOPS Defines the time period during which the Temp selection procedure for the neighbour cell in qu
-
-
-
HOPG Determines the time period during which the Te selection procedure for the GSM neighbour cel
-
-
-
WCEL The duration for evaluating the allowed amount reselections during the time period defined by T been detected. Needed only if HCS is used.
-
-
-
WCEL Cell reselection hysteresis for reverting from UE additional time period before UE reverts to lownumber of cell reselections during the time peri exceeds NCr, UE continues measurements dur TCrmaxHyst. Needed only if HCS is used.
-
-
-
WCEL This parameter defines the maximum number o reselections during the TCrmax time period exc been detected. Needed only if HCS is used. No
-
62
HOPG Defines the priority level of GSM neighbour cel procedure. 0 indicates the lowest HCS priority a Lower HCS priority values are meant for larger values are meant for smaller pico/micro cells.
-
61
-
-
60
-
-
59
-
-
58
HOPS Defines the priority level of neighbouring cell in procedure. 0 indicates the lowest HCS priority a Lower HCS priority values are meant for larger values are meant for smaller pico/micro cells.
-
57
-
-
56
-
-
55
-
-
54
HOPI Defines the priority level of the inter-frequency selection procedure. 0 indicates the lowest HCS HCS priority. Lower HCS priority values are me HCS priority values are meant for smaller pico/
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53
-
-
52
-
-
51
-
-
63
-
-
-
-
WCEL Threshold for intra and interfrequency measure the serving cell, the UE initiates measurements neighbouring cells of the serving cell
Nokia Parameter
Default
Unit
CellBarred 1 (=not barred) Define whether the cell is barred or not. UE will not allowed to camp on barred cell, even for emergency call purpose. Cell_Reserved 1 (=not reserved) Indicates if this cell shall be reserved for operator use. If it is reserved, there will be no service to the UEs.. When cell status is "not barred" and "reserved" for operator use, the UEs assigned to Access Class 11 or 15 may select/re-select this cell if in the home PLMN. UEs assigned to Access Class in the range 0 to 9 and 12 to 14 shall behave as if cell status "barred" is indicated.
Treselection 1 s The UE triggers the reselection of a new cell if the cell reselection criteria are fulfilled during the time interval Treselection. QqualMin
-18
dB
The minimum required quality level in the cell (Ec/No). QrxlevMin
-115
dBm
The minimum required RX level in the cell. AdjiQqualMin -18 dB Determines the minimum required CPICH Ec/No level which must be exceeded by the measurement result of the inter-frequency neighbour cell before the cell re-selection becomes possible.
AdjjsQqualMin -18 dB Determines the minimum required CPICH Ec/No level which must be exceeded by the measurement result of the neighbouring cell before the cell re-selection becomes possible.
AdjsQrxlevMin -115 dBm The parameter determines the minimum required CPICH RSCP level which the measurement result of the neighbouring cell must exceed before the cell re-selection is possible.
AdjiQrxlevMin -115 dBm The parameter determines the minimum required CPICH RSCP level which the measurement result of inter-frequency neighbouring cell must exceed before the cell reselection is possible.
AdjgQrxlevMin -101 dBm Determines the minimum required RSSI level which the measurement result of the GSM neighbour cell must exceed before the cell re-selection becomes possible. IntraFreq_Cell_Reselect_Ind
0 (=allowed)
-
Defines whether intra-frequency cell re-selection is allowed or not when the cell is barred. When a cell's status is "barred", the UE is not permitted to select/re-select this cell, except in some cases for an emergency call. Tbarred
20
s
When the cell is barred, the UE must check between the time interval ‘Cell barred period’, whether the status of the barred cell has changed. Qhyst1 0 dB Qhyst1 is used for TDD and GSM cells, and for FDD cells when cell selection and reselection quality measure is set to CPICH RSCP. Qhyst2 2 dB Qhyst2 is used for FDD cells when cell selection and re-selection quality measure is set to CPICH Ec/No.
UEtxPowerMaxDPCH 24 dBm This parameter defines the maximum transmission power level a UE can use on DPCH. It is signaled to UE in the Maximum allowed UL TX power IE of a proper RRC message, when a radio link is set up.
AdjiTxPwrRACH 24 dBm This parameter indicates the maximum transmission power level that a UE can use when accessing inter-frequency neighbouring cell on the RACH. The UE uses the parameter in the cell re-selection procedure. If the maximum output power of the UE is lower than the value of the parameter, the UE adds the power difference (dB value) to the minimum required CPICH Ec/No level, which the measurement result of the neighbouring cell must exceed before the cell re-selection is possible.
AdjsTxPwrRACH
24
dBm
This parameter indicates the maximum transmission power level that a UE can use when accessing the neighbouring cell on the RACH. The UE uses the parameter in the cell re-selection procedure. If the maximum output power of the UE is lower than the value of the parameter, the UE adds the power difference (dB value) to the minimum required CPICH Ec/No level, which the measurement result of the neighbouring cell must exceed before the cell re-selection is possible. AdjgTxPwrRACH 24 dBm This parameter indicates the maximum transmission power level that a UE can use when accessing the GSM neighbouring cell on the RACH. The UE uses the parameter in the cell re-selection procedure. If the maximum output power of the UE is lower than the value of the parameter, the UE adds the power difference (dB value) to the minimum required CPICH Ec/No level, which the measurement result of the neighbouring cell must exceed before the cell re-selection is possible.
Sintrasearch
14
dB
The threshold for intra-frequency measurements, and for the HCS measurement rules. Note: If no threshold is given, MS performs measurements. Sintersearch
8
dB
The threshold for inter-frequency measurements, and for the HCS measurement rules. Note: If no threshold is given, MS performs measurements. Ssearch_RAT 2 dB The RAT-specific threshold for inter-RAT measurement rules. Note: If no threshold is given, MS performs measurements.
Slimit_SearchRAT
0
dB
Threshold for skipping inter-RAT measurement rules in HCS. Above this RAT specific threshold in the serving UTRA cell, the UE does not need to perform any inter-RATm measurements. Needed only if HCS is used. AdjiQoffset1 0 dB This parameter is used in the cell re-selection and ranking between WCDMA cells. The value of this parameter is subtracted from the measured CPICH RSCP of the interfrequency neighbour cell before the UE compares the quality measure with the cell reselection/ranking criteria. AdjsQoffset1 0 dB This parameter is used in the cell re-selection and ranking between WCDMA cells. The value of this parameter is subtracted from the measured CPICH RSCP of the neighbour cell before the UE compares the quality measure with the cell re-selection/ranking criteria. AdjgQoffset1
dB
This parameter is used in the cell re-selection and ranking between WCDMA and GSM cells. The value of this parameter is subtracted from the measured RSSI of the GSM neighbour cell before the UE compares the quality measure with the cell reselection/ranking criteria. AdjiQoffset2
0.4
dB
This parameter is used in the cell re-selection and ranking between WCDMA cells. The value of this parameter is subtracted from the measured CPICH Ec/No of the interfrequency neighbour cell before the UE compares the quality measure with the cell reselection/ranking criteria. AdjsQoffset2 0.4 dB This parameter is used in the cell re-selection and ranking between WCDMA cells. The value of this parameter is subtracted from the measured CPICH Ec/No of the neighbour cell before the UE compares the quality measure with the cell re-selection/ranking criteria. AdjgSIB 1 (=YES) The parameter indicates whether the GSM neighbour cell is included in the System Information Block 11&12&18 for the cell selection and re-selection procedures. The GSM neighbour cell is included in the system information when the value of the parameter is "yes". The parameter AdjgSIB does not affect GSM measurements in CELL_DCH state of connected mode. That is, all GSM neighbour cells are monitored for the inter-system handover regardless of the value of the parameter AdjgSIB. AdjiSIB
Yes (1)
-
This parameter indicates whether the inter-frequency neighbour cell is included in the System Information Block 11&12&18 for the cell selection and re-selection procedures. The inter-frequency neighbour cell is included in the system information when the value of the parameter is "yes". Note: The parameter AdjiSIB does not affect interfrequency measurements in CELL_DCH state of connected mode. That is, all interfrequency neighbour cells are monitored for the inter-frequency handover regardless of the value of the parameter AdjiSIB AdjsSIB
Yes (1)
-
The parameter indicates whether the intra-frequency neighbour cell is included in the System Information Block 11&12&18 for the cell selection and re-selection procedures. The intra-frequency neighbour cell is included in the system information when the value of the parameter is "yes".The parameter AdjsSIB does not affect intrafrequency measurements in CELL_DCH state of connected mode. That is, all intrafrequency neighbour cells are monitored for the soft(er) handover regardless of the value of the parameter AdjsSIB. MCC 1 0-999 Unique country identification. MCC consist 3 digits. MCC together with MNC identifies the PLMN uniquely (globally). MNC 1 0-999 Unique network identification within country. MNC consists of two or three digits. MNC together with MCC identifies the PLMN uniquely (globally). PriScrCode Identifies the downlink scrambling code of the Primary CPICH (Common Pilot Channel) of the Cell. SHCS_RAT 1 dB The RAT specific threshold for inter-RAT measurement rules. Needed only if HCS is used.
CS_T3212 0 decihour(6min) The timeout value, in decihours (6 min), for periodic location updating. Given only for CS domain. (Part of CS domain specific NAS System information in SIB1). 0=periodic location update shall not be used. CNDRXLength 640ms (=6) The DRX cycle length used for CN domain to count paging occasions for discontinuous reception. This parameter is given for CS domain and PS domain separately. (The duration of the DRX cycle is 2 k frames, where 'k' is the used DRX cycle length coefficient for CN.) CNDRXLength 640ms (=6) The DRX cycle length used for CN domain to count paging occasions for discontinuous reception. This parameter is given for CS domain and PS domain separately. (The duration of the DRX cycle is 2 k frames, where 'k' is the used DRX cycle length coefficient for CN.) UTRAN_DRX_length 320 ms (5) The DRX cycle length used by UTRAN to count paging occasions for discontinuous reception.(The duration of the DRX cycle is 2 k frames, where 'k' is the used DRX cycle length coefficient for UTRAN.)
-
-
-
SIB7factor
1
-
This parameter sets the SIB7 expiration timer for the UE according to the following formula: MAX([320ms], SIB_REP x value of 'SIB7 expiration time factor').
-
-
-
-
-
-
-
AdjiTempOffset1 6 dB This parameter is used in the cell ranking between GSM and WCDMA cells when the inter-frequency neighbour cell has the same HCS priority level as the serving cell. If the neighbour cell has a different HCS priority level, the offset value is applied for the HCS cell re-selection between GSM and WCDMA cells. The offset is subtracted (during Penalty Time) from the measured CPICH RSCP of the inter-frequency neighbour cell. The alternative values are the following: 3 dB, 6 dB, 9 dB, 12 dB, 15 dB, 18 dB, 21 dB and 'Infinity'. AdjsTempOffset1 10 dB This parameter is used in the cell ranking between GSM and WCDMA cells when the neighbour cell has the same HCS priority level as the serving cell. If the neighbour cell has a different HCS priority level, the offset value is applied for the HCS cell reselection between GSM and WCDMA cells. The offset is subtracted (during Penalty Time) from the measured CPICH RSCP of the neighbour cell. The alternative values are the following: 3 dB, 6 dB, 9 dB, 12 dB, 15 dB, 18 dB, 21 dB and 'Infinity' AdjgTempOffset1 6 dB This parameter is used in the cell ranking between GSM and WCDMA cells when the GSM neighbour cell has the same HCS priority level as the serving cell. If the GSM neighbour cell has a different HCS priority level, the offset value is applied for the HCS cell re-selection between GSM and WCDMA cells. The offset is subtracted (during Penalty Time) from the measured RSSI level of the GSM neighbour cell. The alternative values are the following: 3 dB, 6 dB, 9 dB, 12 dB, 15 dB, 18 dB, 21 dB and 'Infinity'.
AdjiTempOffset2 10 dB This parameter is used in the cell ranking between WCDMA cells when the interfrequency neighbour cell has the same HCS priority level as the serving cell. If the neighbour cell has a different HCS priority level, the offset value is applied for the HCS cell re-selection between WCDMA cells. The offset is subtracted (during Penalty Time) from the measured CPICH Ec/No of the inter-frequency neighbour cell. The alternative values are the following: 2 dB, 3 dB, 4 dB, 6 dB, 8 dB, 10 dB, 12 dB and 'Infinity'
AdjsTempOffset2 3 dB This parameter is used in the cell ranking between WCDMA cells when the neighbour cell has the same HCS priority level as the serving cell. If the neighbour cell has a different HCS priority level, the offset value is applied for the HCS cell re-selection between WCDMA cells. The offset is subtracted (during Penalty Time) from the measured CPICH Ec/No of the neighbour cell. The alternative values are the following: 2 dB, 3 dB, 4 dB, 6 dB, 8 dB, 10 dB, 12 dB and 'Infinity' 1(R99) 0(HSDPA) HCS_PRIO This parameter defines the HCS priority level for a cell. Value 0 indicates the lowest HCS priority and value 7 indicates the highest HCS priority. This parameter is not needed if HCS is not used.
UseOfHCS
0 (=not used) 1 (=used)
-
This parameter indicates whether the serving cell belongs to a Hierarchical Cell Structure (HCS), or not. AdjiHCSpriority Defines the priority level of the inter-frequency neighbour cell in the hierarchical cell reselection procedure. 0 indicates the lowest HCS priority and 7 indicates the highest HCS priority. Lower HCS priority values are meant for larger macro cells and higher HCS priority values are meant for smaller pico/micro cells. AdjsHCSpriority Defines the priority level of neighbouring cell in the hierarchical cell re-selection procedure. 0 indicates the lowest HCS priority and 7 indicates the highest HCS priority. Lower HCS priority values are meant for larger macro cells and higher HCS priority values are meant for smaller pico/micro cells. AdjgHCSpriority Defines the priority level of GSM neighbour cell in the hierarchical cell re-selection procedure. 0 indicates the lowest HCS priority and 7 indicates the highest HCS priority. Lower HCS priority values are meant for larger macro cells and higher HCS priority values are meant for smaller pico/micro cells. -24 QHCS dB Quality threshold level (CPICH Ec/No) for applying prioritised hierarchical cell reselection for a cell. Needed only if HCS is used. AdjiHCSthreshold Defines the threshold level which must be exceeded by the CPICH Ec/No of the interfrequency neighbour cell before the hierarchical cell re-selection becomes possible AdjsHCSthreshold Defines the threshold level which must be exceeded by the CPICH Ec/No of the neighbouring cell before the hierarchical cell re-selection becomes possible AdjgHCSthreshold Defines the threshold which must be exceeded by the RSSI measurement result of the GSM neighbour cell before the hierarchical cell re-selection becomes possible AdjiPenaltyTime 0 s Defines the time period during which the Temporary Offset 1/2 is applied in the cell reselection procedure for the inter-frequency neighbour cell. AdjsPenaltyTime 0 s Defines the time period during which the Temporary Offset 1/2 is applied in the cell reselection procedure for the neighbour cell in question. AdjgPenaltyTime 0 s Determines the time period during which the Temporary Offset 1 is applied in the cell reselection procedure for the GSM neighbour cell in question. TCrmax 0 s The duration for evaluating the allowed amount of cell reselections. If the number of cell reselections during the time period defined by TCrmax exceeds Ncr, high mobility has been detected. Needed only if HCS is used. TCrmaxHyst 0 s Cell reselection hysteresis for reverting from UE high-mobility measurements. The additional time period before UE reverts to low-mobility measurements. When the number of cell reselections during the time period defined by TCrmax no longer exceeds NCr, UE continues measurements during the time period defined by TCrmaxHyst. Needed only if HCS is used. NCr 8 This parameter defines the maximum number of cell reselections. If the number of cell reselections during the TCrmax time period exceeds the value of NCr, high mobility has been detected. Needed only if HCS is used. Not used if TCrmax equals 'not used'
SsearchHCS 11 dB Threshold for intra and interfrequency measurement rules in HCS. Below this limit in the serving cell, the UE initiates measurements of all intra and inter-frequency neighbouring cells of the serving cell
No
Object
Ericsson Parameter
Default
Unit
Nokia Parameter
Object
Rrc 1
2
3
4
5
t305 3 RNC T305 The maximum time between adjacent Cell Updates (UE in CELL_FACH The periodic cell update/URA update timer (MS timer). state) or URA Update (UE in URA_PCH state). Infinity means no update. UtranCell rlFailureT Guard period before sending RL Failure. rlFailureT > (nInSyncInd * 10 ms)
10 s
RNC T_RLFailure If L1 timer T_RLFAILURE expires, a radio link is moved to the Out-of state. The Radio Link Failure procedure is triggered after a period of t after T_RLFAILURE has elapsed with a persisting out-of-sync indicat
UtranCell nOutSyncInd 10 Number of frames to be considered for out-of-sync detection.
RNC NOutSynchInd The T_RLFAILURE timer is started after a number of consecutive Ou indications equal to the value of N_OUTSYNC_IND are received.
UtranCell nInSyncInd 3 Number of frames to be considered for in-sync detection. (nInSyncInd * 10 ms) < rlFailureT
-
RNC NInSynchInd This parameter defines the number of successive in-sync indications which the BTS triggers the Synchronisation indication procedure. A ra is moved to the In-sync state after a number of consecutive In-sync indications equal to the value of N_INSYNC_IND.
Rcs
9
5min
-
-
1
-
-
-
SecurityHandling 6
ciphering
-
Indicates whether ciphering is used or not.The value of this attribute should reflect the configuration of the connected SGSN node.Value mapping:0=off, 1=on UeRcTrCh
7
cchWaitCuT
Waiting timer for cell update.
blerQualityTargetDl
BLER Quality Target DL.This attribute is valid only if CRC is used. MOM value = 10 Log10(transport channel highest quality (BLER)).Value mapping:-63: 0.0000005 = 0.00005 %...,-60: 0.000001 = 0.0001 %,...,25: 0.003 = 0.3 %,...,-20: 0.01 = 1 %,...,0: 1 = 100 %
RncFunction
emergencyCallRedirec OFF t
RNC EmergencyCallRedirect This parameter enables/disables the redirect feature for emergency c GSM on connection creation. When this parameter is enabled, all em calls are directed to the GSM network. 10
s
9
10
RNC CellDCHtestTmr The timer CellDCHtestTmr defines the maximum time an inactive MS allowed to remain in the CELL_DCH state. In the expiry of the timer, t is switched to the CELL_FACH state if the parameter ToCellFACHinT equal to 'Yes' and the procedures in the CELL_FACH state continue normal. If ToCellFACHinTest is equal to 'No', an Iu release procedure initiated and the MS is switched to the idle mode.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerDownlinkDCH Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on downlink DCH before release proc Default values: 8 kbps: 5 s 16 kbps: 5 s 32 kbps: 5 s 64 kbps: 3 s 128 s 256 kbps: 2 s 320 kbps: 2 s 384 kbps: 2 s ChannelSwitching
11
WCEL DLreferenceTargetBLER The parameter defines the downlink target BLER for the reference se the downlink power allocation.Reference service is used in the determ of themaximum downlink code channel transmission power.Value of t parameter is the log10 of the BLER value.
-
8
ChannelSwitching downswitchTimer DownswitchTimer from DCH to FACH/RACH
-
inactivityTimer
30
s
RNC
InactivityTimerDownlinkDCH128
11
12
13
14
15
16
17
18
19
Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on downlink DCH before release proc Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerDownlinkDCH16 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on downlink DCH before release proc Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerDownlinkDCH256 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on downlink DCH before release proc Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerDownlinkDCH32 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on downlink DCH before release proc Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerDownlinkDCH320 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on downlink DCH before release proc Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerDownlinkDCH384 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on downlink DCH before release proc Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerDownlinkDCH64 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on downlink DCH before release proc Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerDownlinkDCH8 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on downlink DCH before release proc Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerUplinkDCH Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on uplink DCH before release proced Default values: 8 kbps: 5 s 16 kbps: 5 s 32 kbps: 5 s 64 kbps: 3 s 128 s 256 kbps: 2 s 320 kbps: 2 s 384 kbps: 2 s ChannelSwitching
20
inactivityTimer
30
s
RNC
InactivityTimerUplinkDCH128
20
21
22
23
24
25
26
27
Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on uplink DCH before release proced Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerUplinkDCH16 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on uplink DCH before release proced Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerUplinkDCH256 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on uplink DCH before release proced Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerUplinkDCH32 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on uplink DCH before release proced Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerUplinkDCH320 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on uplink DCH before release proced Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerUplinkDCH384 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on uplink DCH before release proced Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerUplinkDCH64 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on uplink DCH before release proced Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
ChannelSwitching inactivityTimer 30 s RNC InactivityTimerUplinkDCH8 Time not including data transmission, after which UTRAN will send IU The time indicating how long the radio and transmission resources ar RELEASE REQUEST message to the CN for UEs in state CELL_FACH. reserved after silence detection on uplink DCH before release proced Timer is defined separately for each bit rate. Parameter value 255 (in means that NRT DCH inactivity supervision is not used.
-
-
28
-
RNC ExtendedULDLactivationTmr This parameter defines an extended Cell_FACH state inactivity super time used by the RNC instead of the normal UL_DL_Activation_Time to a value greater than zero, this value is used for all UEs not support Cell/URA_PCH state.
-
-
RNC
-
29
-
-
UL_DL_activation_timer
29
-
-
-
30
31
32
This timer is used on MAC -c to detect idle periods on data transmiss (NRT RBs and SRBs) for the UE, which is in Cell_FACH state. Based timer the MAC -c shall give the No_Data indication to the RRC, which can change the state of the RRC from Cell_FACH state to the Cell_P state (or URA_PCH state).
-
-
-
hsdschInactivityTimer 10 ChannelSwitching s Timer for sending of IU RELEASE REQUEST message to the CN for UE connections in RAB state PS Interactive 64/HS - HS-DSCH.
RNC MACdflowutilTimetoTrigger This parameter defines the low utilisation time to trigger the timer of t throughput measurement of the MAC-d flow.
ulRlcBufUpswitch RNC 256 bytes Uplink threshold for channel switching from FACH/RACH to dedicated channel.
RNC TrafVolThresholdULHigh The parameter defines the threshold of data in RLC buffer of RB in by This threshold triggers the uplink traffic volume measurement report w UE is in a Cell_DCH state and bit rate higher than 16 kbps is allocate radio bearer. The parameter is sent to the UE using the RRC: MEASUREMENT CONTROL message.
-
-
-
-
-
-
-
-
RNC MaxCellReselections Maximum allowed number of Cell Reselections in CELL_FACH or CELL_PCH state before transition to URA_PCH state. Amount of cel reselection is counted in both CELL_FACH and CELL_PCH states.
-
-
RNC StandAloneDCCHBitRate Parameter defines the bit rate to be used for the signalling radio bear RRC connection establishment. This bit rate is used for RRC signallin RAB has been established for the RRC connection.
33
-
-
-
34
-
-
35
-
-
36
37
-
RNC TrafVolThresholdULLow This parameter defines, in bytes, the threshold of data in the RLC buf SRB0, SRB1, SRB2, SRB3, SRB4 and all NRT RBs that triggers the traffic volume measurement report, when the UE is in Cell_FACH sta Otherwise, UE sends data on RACH. This parameter is sent to the UE an RRC: MEASUREMENT CONTROL message.
RNC TrafVolThresholdDLLow This parameter defines, in bytes, the threshold of data in the RLC buf SRB3, SRB4 and all NRT RBs that triggers the downlink traffic volum measurement report (capacity request) on MAC, when UE is in Cell_F state. Otherwise, RNC sends data on FACH.
psStreamingInactivityT RabHandling imer 30 s Timer for monitoring activity on the PS Streaming RAB. When the timer expires, RNC will request the CN to release the PS Streaming RAB.1=true, 0=False
-
38
RNC MSActivitySupervision The MSActivitySupervision timer is used in the RRC states CELL_PC URA_PCH for supervising the inactivity of NRT RAB(s). The timer sta when a state transition to either state is executed. The MSActivitySup timer stops when any activity of NRT RAB(s) is detected and the MS moved to the CELL_FACH or CELL_DCH state.
-
-
-
WCEL
-
InitialBitRateDL
38
The parameter defines the initial bit rate in the downlink that can be a by the PS in the schedule situation. The PS does not schedule downl DCH bit rates that are below the value of this parameter. The allocate rate corresponds to the highest bit rate in the TFS from which the TFC constructed. Note: If the maximum bit rate of the RAB is below the va the minimum allowed bit rate (MinAllowedBitRate) or initial bit rate, it allowed to schedule a lower NRT DCH bit rate. The maximum bit rate RAB is used as a new minimum allowed bit rate or initial bit rate for th connection in question.
-
-
-
39
-
-
-
Rcs 40
41
42
dchRcLostT 50 0.1s Timer that is started when all radio links for a connection are lost. At time-out, the radio connection is considered lost.
-
Rcs
hsDschRcLostT 100 0.1s Controls the RCS timer for supervision of UL synch of RLS containing the serving HS-DSCH Radio Link.Special values: 18000 indicates that the RCS function is switched off. Used for test purposes.
-
RncFunction
-
-
-
-
hsOnlyBestCell TRUE RNC wide switch for selecting only the best cell for HS. CoverageRelation
43
-
hsPathlossThreshold
170 dB Maximum pathloss allowed for Serving HS-DSCH cell selection to validate the target cell for selection. CoverageRelation
44
agpsEnabled
TRUE
-
Indicates if A-GPS is enabled or not for a cell. 45
47
48
-
-
-
-
coverageIndicator 1 Defines whether the coverage area of the source cell and the target cell are indicated to overlap, i.e. approximately the same coverage area, or whether the coverage area of the target cell is indicated to cover the source cell or it is contained in the source cell. ExternalUtranCell
46
WCEL InitialBitRateUL The parameter defines the initial bit rate in the uplink that can be alloc the PS in schedule situation. PS does not schedule uplink NRT DCH below the value of this parameter. The allocated bit rate corresponds highest bit rate in the TFS from which the TFCS is constructed. Note: maximum bit rate of the RAB is below the value of minimum allowed (MinAllowedBitRateUL) or initial bit rate, it is allowed to schedule a low DCH bit rate. The maximum bit rate of the RAB is used as a new min initial bit rate for the RRC connection in question.
-
WSMLC NetworkBasedAGPS This parameter enables and disables Network based AGPS using the external reference network feature. If the LCS functionality is disabled, the NW-based A-GPS is disabled as well.
tCell UtranCell Timing delay used for defining start of SCH, CPICH and the DL scrambling UtranCell codes. nmo 1 -
WCEL Tcell Each cell in a BTS uses a System Frame Number (SFN) counter, wh the Number (BFN) counter delayed by a number of chips RNCBTS Frame PS_NMO
Default = MODE_II = 1 Network operation mode that indicates whether the Gs interface
In Operation Mode I it is possible to have combined CS and PS side via SGSN. In Operation Mode II the combined paging procedure is no
att UtranCell TRUE Indicates to the UE whether IMSI attach/detach is allowed.This helps to facilitate the avoidance of unnecessary paging attempts. The value is sent on the BCCH.
RNC CSAttachDetachAllowed Defines whether IMSI attach and detach are allowed or not. 0 = MSs apply IMSI attach and detach procedure, 1 = MSs shall apply IMSI at detach procedure. Parameter is given only for CS domain. (Part of CS domain specific NAS System information in SIB1.)
-
-
-
-
-
-
-
-
WCEL T312Conn The timer for supervising successful establishment of a physical chan MS timer is used in connected mode)
-
-
WCEL N312Conn This parameter defines the maximum number of "in sync" indications received from L1 during the establishment of a physical channel (MS used in connected mode)
-
-
WCEL T313 The radio link failure timer (MS timer).
-
-
WCEL N313 This parameter defines the maximum number of successive "out of s indications received from L1 (MS counter)
-
-
WCEL N315 This parameter defines the maximum number of successive "in sync" indications received from L1 while T313 is being activated (UE counte
-
-
-
-
RNC T302 The CELL UPDATE/URA UPDATE retransmission timer (MS timer). RNC N302 CELL UPDATE/URA UPDATE retransmission counter (MS counter).
-
-
49 -
50 51
-
-
52 -
-
-
-
53 54 55
-
-
-
-
56 -
RNC T307 The timer for transition to idle mode, when the timer T305 has expired the MS detects an "out of service area" (MS timer)
Nokia Default
30 min (3) ate timer (MS timer).
Unit -
2 s , a radio link is moved to the Out-of-sync edure is triggered after a period of time with a persisting out-of-sync indication.
8 d after a number of consecutive Out-sync _OUTSYNC_IND are received.
8 er of successive in-sync indications after ronisation indication procedure. A radio link a number of consecutive In-sync _INSYNC_IND.
-
-
-
-
-
-
-2.2 nk target BLER for the reference service in erence service is used in the determination annel transmission power.Value of the R value.
Disabled (0) he redirect feature for emergency calls to en this parameter is enabled, all emergency work.
0 s s the maximum time an inactive MS is CH state. In the expiry of the timer, the MS ate if the parameter ToCellFACHinTest is in the CELL_FACH state continue as qual to 'No', an Iu release procedure is o the idle mode.
5 s adio and transmission resources are n downlink DCH before release procedures. s: 5 s 32 kbps: 5 s 64 kbps: 3 s 128 kbps: 2 kbps: 2 s 5 s
adio and transmission resources are n downlink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n downlink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n downlink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n downlink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n downlink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n downlink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n downlink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n downlink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n uplink DCH before release procedures. s: 5 s 32 kbps: 5 s 64 kbps: 3 s 128 kbps: 2 kbps: 2 s 5 s
adio and transmission resources are n uplink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n uplink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n uplink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n uplink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n uplink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n uplink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n uplink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
5 s adio and transmission resources are n uplink DCH before release procedures. ch bit rate. Parameter value 255 (infinity) upervision is not used.
0 s ed Cell_FACH state inactivity supervision he normal UL_DL_Activation_Timer. If set value is used for all UEs not supporting the 0 s
etect idle periods on data transmission which is in Cell_FACH state. Based on this o_Data indication to the RRC, which further rom Cell_FACH state to the Cell_PCH
0 s s used in the RRC states CELL_PCH and ctivity of NRT RAB(s). The timer starts ate is executed. The MSActivitySupervision RT RAB(s) is detected and the MS is LL_DCH state.
0 s lisation time to trigger the timer of the AC-d flow.
1024 bytes. 1KB bytes (7) old of data in RLC buffer of RB in bytes. raffic volume measurement report when the rate higher than 16 kbps is allocated for the nt to the UE using the RRC: sage.
256 bytes (256) bytes he threshold of data in the RLC buffers of 4 and all NRT RBs that triggers the uplink t, when the UE is in Cell_FACH state. CH. This parameter is sent to the UE using ROL message.
256 bytes (256) bytes he threshold of data in the RLC buffers of at triggers the downlink traffic volume uest) on MAC, when UE is in Cell_FACH a on FACH.
20 Reselections in CELL_FACH or to URA_PCH state. Amount of cell LL_FACH and CELL_PCH states.
13.6 kbps be used for the signalling radio bearer at the his bit rate is used for RRC signalling until a RRC connection. -
-
64 kbps
bit rate in the downlink that can be allocated n. The PS does not schedule downlink NRT alue of this parameter. The allocated bit t rate in the TFS from which the TFCS is m bit rate of the RAB is below the value of AllowedBitRate) or initial bit rate, it is DCH bit rate. The maximum bit rate of the llowed bit rate or initial bit rate for the RRC
64 kbps bit rate in the uplink that can be allocated by does not schedule uplink NRT DCH bit rates The allocated bit rate corresponds to the hich the TFCS is constructed. Note: If the elow the value of minimum allowed bit rate t rate, it is allowed to schedule a lower NRT te of the RAB is used as a new minimum or ion in question.
-
-
-
-
-
-
-
-
-
-
Disabled (0) bles Network based AGPS ork feature. If the NW-based A-GPS is
Frame Number (SFN) counter, which is unter delayed byNetwork a number of chips defined II (1) Mode -of Operation
to have combined CS and PS side paging he combined paging IMSIprocedure is not attach/detac h allowed (1)
detach are allowed or not. 0 = MSs shall not cedure, 1 = MSs shall apply IMSI attach and ven only for CS domain. (Part of CS rmation in SIB1.)
6 s ful establishment of a physical channel (this ode)
1 mum number of "in sync" indications lishment of a physical channel (MS counter 3
s
mer).
20 mum number of successive "out of sync" counter)
1 mum number of successive "in sync" T313 is being activated (UE counter).
1000 ms E retransmission timer (MS timer). 7 ransmission counter (MS counter).
30 s de, when the timer T305 has expired, and area" (MS timer)
No
Object
Ericsson Parameter Default
primaryCpichP 300 ower Power to be used for transmitting the PCPICH.
Nokia Unit
Object
Parameter
UtranCell
0.1dBm
1
UtranCell 2
3
bchPower -31 0.1 dB BCH power is the power to be used for transmitting on the BCH, relative to the primaryCpichPower value.
WCEL PtxPrimaryCPICH This is the transmission power of the primary common pilot channel.The P-CPI physical channel carries the common pilots of the cell, which is defined in the c The transmission power of the CPICH physical channel defines the actual cell s means that the power is determined by radio network planning. The default valu 10% of the maximum transmitting power of WCDMA BTS WCEL
PtxPrimaryCCPCH
BCH Power. This is the transmission power of the primary CCPCH relative to th transmission power.
primarySchPo wer UtranCell 12 dB WCEL PtxPrimarySCH Primary SCH power, relative to the primaryCpichPower value. This is the transmission power of the primary synchronisation channel. The pow relative to the [FDD-primary CPICH power]. The primary SCH consists of a mod code 256 chips in length: the Primary Synchronisation Code (PSC) transmitted every slot. The PSC is the same for every cell in the system, and it enables the slot synchronisation in the cell. UtranCell
secondarySch Power -35 0.1dB Secondary SCH power, relative to the primaryCpichPower value. 4
5
aichPower Rach -6 dB AICH power, to be used for transmitting on AICH, relative to the primaryCpichPower value.
WCEL PtxAICH This is the transmission power of one Aquisition Indicator (AI) compared to CPI power.
Fach
6
maxFach1Pow 18 er 0.1dB Maximum power, to be used for transmitting the first FACH channel, relative the primaryCpichPower value. The first FACH is used for logical channels BCCH, CCCH and DCCH, control signaling.
WCEL PtxSecSCH This is the transmission power of the secondary synchronisation channel relate Primary CPICH transmission power. The secondary SCH consists of repeatedly transmitting a length 15 sequence of modulated codes 256 chips in length. The Secondary Synchronisation Codes (SSC), transmitted in parallel with the prima This sequence on the secondary SCH enables the downlink frame synchronisa indicates, to which code group the cell downlink scrambling code belongs.
Fach
7
8
9
WCEL PtxSCCPCH1 This is the transmission power of the S-CCPCH channel, which carries a PCH (containing PCCH), a FACH (containing DCCH/BCCH/CCCH) and a FACH (con DTCH). Or alternatively (when standalone PCH is mapped to an another S-CCP carries a FACH (containing DCCH/BCCH/CCCH) and a FACH (containing DTC transmission power value is relative to the CPICH transmission power.
maxFach2Pow 15 0.1dB er Maximum power, to be used for transmitting the second FACH channel, relative the primaryCpichPower value. The second FACH is used for logical channel DTCH, traffic signaling. -
-
pchPower Pch -4 dB Maximum power to be used for transmitting the PCH, relative to the primaryCpichPower value.
WCEL PtxSCCPCH2 This is the transmission power of the S-CCPCH channel, which carries PCH (co PCCH) only. This parameter is not needed if PCH and FACH's are multiplexed S-CCPCH.
pichPower Pch -7 dB PICH power is the power to be used for transmitting on the physical channel carrying the paging indicators, relative to the primaryCpichPower value.
WCEL PTxPICH This is the transmission power of the PICH channel. It carries the paging indica tell the UE to read the paging message from the associated secondary CCPCH transmission power value is relative to the CPICH transmission power.
Fach 10
11
pOffset1Fach 0 0.25 dB Power offset for the TFCI. This parameter is applied to both FACH and PCH. Disturbances: Changing this attribute may affect ongoing traffic.Whenever its value is set, the FACH is disabled automatically and then re-enabled.
WCEL PowerOffsetSCCPCHTFCI Defines the power offset for the TFCI symbols relative to the downlink transmis power of a Secondary CCPCH. The TFCI field is offset relative to the power of field. The power offsets vary in time according to the bit rate. Proposed values a for 15 ksps; 3 dB for 30 ksps; and 4 dB for 60 ksps.
Fach
-
pOffset3Fach
0 0.25 dB Power offset for the pilot. This parameter is applied to both FACH and PCH. Disturbances: Changing this attribute may affect ongoing traffic.Whenever its value is set, the FACH is disabled automatically and then re-enabled. Rach
12
constantValue Cprach -27 dB Constant value used by the UE to calculate the initial power on PRACH according to the Open loop power control procedure.
-
-
-
-
Rach 13
maxPreamble Cycle 4 Maximum number of preamble ramping cycle.
-
Rach 14
WCEL RACH_tx_Max Maximum number of RACH preamble cycles defines how many times the PRAC amble ramping procedure can be repeated before UE MAC reports a failure on
powerOffsetP0
3 dB Power step when no acquisition indicator is received.
Rach 15
powerOffsetPp m -4 dB Power step between preamble and the message part.
WCEL PowerRampStepPRACHpreamble The power ramp step on PRACH preamble when no acquisition indicator (AI) is by the UE
WCEL PowerOffsetLastPreamblePRACHmessage The power offset between the last transmitted preamble and the control part of PRACH message (added to the preamble power to receive the power of the me control part).
Rach 16
17
18
preambleRetra nsMax 8 Maximum number of preambles in one preamble ramping cycle.
WCEL PRACH_preamble_retrans The maximum number of preambles allowed in one preamble ramping cycle.
PowerControl
-
dlInitSirTarget
41 0.1dB
Required DL Initial SIR target for all RABs.
-
PowerControl
-
cBackOff 0 0.25dB Used to back off the open loop power control estimate to a conservative starting point. PowerControl
19
20
21
ecNoPcpichDe fault -16 dB The default value to be used in power calculations for Ec divided by No. dlPcMethod PowerControl 65 dB Selects the DL power control method at establishment of the radio connection. sirMin PowerControl -82 0.1dB The minimum allowed SIR target. PowerControl
sirMax 100 0.1dB The maximum allowed SIR target for 10 ms TTI users. 22
-
23
-
-
-
-
-
-
-
-
RNC PowerBalancing This parameter defines whether Power Balancing is used or not.
WBTS SIRDPCCHInitialDCHMin This parameter defines the minimum SIR target value for the UL DPCCH when link only has DCHs configured in the uplink transfer direction. Minimum value o WBTS SIRDPCCHInitialDCHMax
This parameter defines the maximum SIR target value for the UL DPCCH when link only has DCHs configured in the uplink transfer direction. Maximum value o target is achieved by adding the value of the parameter to the initial SIR target WBTS
DLTPCPatternPowerCount
23
-
24
RNC StepSizeForDCHBLER Weighting coefficient which defines how big the DCH BLER target impact to the SIR is during the DCH Outer Loop Power Control Entity calculation.
-
-
-
RNC MinPrefChange When RNC calculates a new reference power for base stations, it is not update base stations if it does not differ from the existing reference power in the base s least by a value defined by this parameter.
-
-
-
RNC AdjustmentPeriod This parameter defines the period during which the DL transmitted power has to corrected to the reference power. Setting this parameter to a small value makes balancing faster, whereas setting it to a large value makes it slower.
-
-
-
RNC AdjustmentRatio This parameter defines the convergence rate (towards the reference power) use associated Adjustment Period.If the value is zero, power is corrected to the DL power.
-
-
-
RNC MaxAdjustmentStep Defines a time period (in terms of a number of slots) during which the accumula adjustment will be no more than 1dB. This value does not include the DL inner adjustment. A small amount of slots grants quick response times for power bala may cause overestimations.
-
28
-
-
27
-
-
26
-
-
25
This parameter is used to calculate the value of IE DL TPC pattern 01 count, w used when the uplink is out of synchronisation and the first radio link set toward is set up. The computed IE is used to generate a sequence of TPC commands progressively increase the UL DPCCH power by 0-24 dB over a four frame peri sequences are repeated until synchronisation has been achieved.
-
Nokia Default
Unit
33 dBm he primary common pilot channel.The P-CPICH mon pilots of the cell, which is defined in the cell setup. ICH physical channel defines the actual cell size, which ed by radio network planning. The default value is 5power of WCDMA BTS -5 dB
on power of the primary CCPCH relative to the CPICH
-3 dB he primary synchronisation channel. The power level is H power]. The primary SCH consists of a modulated ary Synchronisation Code (PSC) transmitted once or every cell in the system, and it enables the downlink
-3 dB he secondary synchronisation channel related to the er. The secondary SCH consists of repeatedly of modulated codes 256 chips in length. These are the s (SSC), transmitted in parallel with the primary SCH. SCH enables the downlink frame synchronisation, and cell downlink scrambling code belongs.
-8 dB one Aquisition Indicator (AI) compared to CPICH
0 dB he S-CCPCH channel, which carries a PCH aining DCCH/BCCH/CCCH) and a FACH (containing ndalone PCH is mapped to an another S-CCPCH) /BCCH/CCCH) and a FACH (containing DTCH).The e to the CPICH transmission power.
-
-
0 dB he S-CCPCH channel, which carries PCH (containing needed if PCH and FACH's are multiplexed into same
-8 dB he PICH channel. It carries the paging indicators which sage from the associated secondary CCPCH. The e to the CPICH transmission power.
2 dB FCI symbols relative to the downlink transmission e TFCI field is offset relative to the power of the data e according to the bit rate. Proposed values are: 2 dB 4 dB for 60 ksps. -
-
-
-
8 mble cycles defines how many times the PRACH preepeated before UE MAC reports a failure on RACH
2 dB preamble when no acquisition indicator (AI) is detected
2 dB transmitted preamble and the control part of the eamble power to receive the power of the message
8 es allowed in one preamble ramping cycle.
-
-
-
-
-
-
0 (=Power Balancing is not in use) ower Balancing is used or not.
um SIR target value for the UL DPCCH when the radio he uplink transfer6 direction. Minimum value dB - of the SIR
um SIR target value for the UL DPCCH when the radio he uplink transfer direction. Maximum value of the SIR alue of the parameter to the initial SIR target value 3
-
e the value of IE DL TPC pattern 01 count, which is chronisation and the first radio link set towards the UE d to generate a sequence of TPC commands which CCH power by 0-24 dB over a four frame period. These hronisation has been achieved.
0.3 dB s how big the DCH BLER target impact to the Delta Power Control Entity calculation.
3 dB ence power for base stations, it is not updated to the om the existing reference power in the base stations at rameter.
2 frame during which the DL transmitted power has to be Setting this parameter to a small value makes power t to a large value makes it slower.
0 dB gence rate (towards the reference power) used for the e value is zero, power is corrected to the DL reference
8 slot a number of slots) during which the accumulated power dB. This value does not include the DL inner loop PC ts grants quick response times for power balancing but
No
1
Ericsson Parameter
Object
Nokia Default
Unit
maximumTransmissionPower UtranCell 400 0.1 dBm WCEL Maximum power for all downlink channels added together, that is allowed Maximum value for the linear sum of the power of all downlink physi to be used simultaneously in a cell to be used in a cell. The maximum transmission power of the cell is parameters: PtxCellMax and MaxDLPowerCapability (the maximum
Hsdsch
numHsPdschCodes
5 -
WCEL
Number of codes of SF=16 used for the HS-PDSCH.
This parameter defines the HS-PDSCH code set. If the HSDPA dyn functionality cannot be used or it is deactivated, the code set contain code amount (5). If the HSDPA dynamic code allocation functionalit activated, the code set contains more than one code amounts
UtranCell
aseDlAdm 240 ASE Admission limit for admission on max capacity (ASE level) in DL. Used by Admission Control in subfunction Admission Request Handler.
-
UtranCell
-
2
3
Object
4
5
6
aseUlAdm
160 ASE Admission limit for admission on max capacity (ASE level) in UL. Used by Admission in subfunction Admission Request Handler. UtranCell Control hsdpaUsersAdm 10
-
Admission limit for the number of users assigned to the HS-PDSCH/HSSCCH in the cell. This limit is applicable both to HSDPA RAB setup and to channel switching.
-
UtranCell
compModeAdm
15 Admission limit for number of RL in compressed mode in a cell.
-
UtranCell
dlCodeAdm
80 % Admission limit used for admission based on DL channelization code tree usage (percentage of the tree in use).Used by Admission Control in subfunction Admission Request Handler.
-
UtranCell pwrAdm 80 % Admission limit for admission on DL cell carrier power.Rule: pwrAdm + pwrAdmOffset + pwrOffset <= 100% ; pwrAdm >= beMarginDlPwr
WCEL Maximum power for all downlink channels added together, that is all
UtranCell pwrAdmOffset Relative admission limit on DL cell carrier power. Rule: pwrAdm+pwrAdmOffset+pwrOffset <= 100%
WCEL The target value of the total transmitted power (PtxTarget) can be ex parameter before the cell is considered to be overloaded in downlink not admitted, if the total transmitted power exceeds the sum of the v the PtxTarget. PtxOffset is used to calculate the first downlink overlo RNC: PtxTargetBTS = PtxTarget+PrxOffset.
-
7
8
10 %
9
UtranCell
10
sf8Adm
8
-
10
Admission policy for admission on the number of Spreading Factor = 8 (traffic class=non-guaranteed, setup type=) simultaneous connections in a cell in DL (SF histogram). Default setting is to disable the admission policy. Actual setting can deviate from the default to limit the number of simultaneous high-bitrate connections in a cell, typically to deal with limitations in the Transport Network dimensioning (i.e. prevent all TN resources from being claimed by the non-guaranteed traffic class connections). Used by Admission Control in subfunction Admission Request Handler.
-
11
UtranCell
sf16Adm
16 Admission policy for admission on the number of Spreading Factor = 16 (traffic class=non-guaranteed, setup type=) simultaneous connections in a cell in DL (SF histogram). Default setting is to disable the admission policy. Actual setting can deviate from the default to limit the number of simultaneous high-bitrate connections in a cell, typically to deal with limitations in the Transport Network dimensioning (i.e. prevent all TN resources from being claimed by the non-guaranteed traffic class connections). Used by Admission Control in subfunction Admission Request Handler.
-
UtranCell
sf32Adm
-
UtranCell
sf16gAdm
16 Maximum number of radio links with Spreading Factor (SF) =16 in DL for which new guaranteed admission requests will continue to be allowed. Reaching or exceeding this number of radio links (any service class) using DL SF = 16 will block setup/adding any more guaranteed service class radio links requiring additional DL SF=16 for this cell.
-
UtranCell
sf4AdmUl
0 Admission limit (traffic class = non-guaranteed, admission class = handover or other) for number of radio links with UL SF = 4.
-
UtranCell
sf8AdmUl
8 Admission limit (traffic class = non-guaranteed, admission class = handover or other) for number of radio links with UL SF = 8.
-
UtranCell
sf16AdmUl
16 Admission limit (traffic class = non-guaranteed, admission class = handover or other) for number of radio links with UL SF = 16.
-
UtranCell
sf8gAdmUl
-
-
12
16 Admission policy for admission on the number of Spreading Factor = 32 (traffic class=non-guaranteed, setup type=) simultaneous connections in a cell in DL (SF histogram). Default setting is to disable the admission policy. Actual setting can deviate from the default to limit the number of simultaneous high-bitrate connections in a cell, typically to deal with limitations in the Transport Network dimensioning (i.e. prevent all TN resources from being claimed by the non-guaranteed traffic class connections). Note also that multiRAB (speech + packet) is considered to be a non-guaranteed traffic class connection and is affected by this admission policy.Used by Admission Control in subfunction Admission Request Handler.
-
13
14
15
16
17
18
8 Admission limit for RLs with spreading factor (SF) = 8 in UL (guaranteed admission requests). IubLink dlHwAdm 100 % Admission limit on RBS DL HW resource utilisation applicable to all admission requests.
-
-
-
IubLink 19
20
ulHwAdm 100 % Admission limit on RBS UL HW resource utilisation applicable to all admission requests.
-
UtranCell
WCEL The target for received total wideband interference power in a cell. A admitted if the estimated non-controllable power exceeds this thresh to calculate PrxTargetBTS, which is the first overload threshold for B value of the PrxTarget is relative to the system noise; it gives an upp
iFCong
621 Threshold at which UL congestion is detected in the cell. Default setting is to disable UL congestion measurements, in order to prevent problems during upgrading. UtranCell
21
iFHyst 6000 10ms Hysterese time setting for detection of congestion in the UL RTWP in a cell. The measured value has to be above the detection level (iFCong) for more than iFHyst time before the situation is detected as congestion. In the same way, UL congestion is considered to be resolved when the measured value is below the resolve level (ifCong - iFOffset) for more than iFHyst time (unless resolving of congestion is indicated earlier by one of the periodic measurement reports). Default setting is to disable UL congestion measurements, in order to prevent problems during upgrading. Actual setting depends on the duration of peaks in UL RTWP influenced by UE behaviour and power control settings (causes 'false' congestion detection).
-
-
-
22
UtranCell
pwrHyst
300 ms Hysterese time setting for detection of congestion in the DL transmitted carrier power. The measured value has to be above the detection level (pwrAdm + pwrOffset) for more than pwrHyst time before the situation is detected as DL cell congestion. In the same way, DL cell congestion is considered to be resolved when the measured value is below the resolve level (pwrAdm) for more than pwrHyst time (unless resolving of congestion is indicated earlier by one of the periodic measurement reports). Default setting is to avoid false DL cell congestion detection. Actual setting can deviate from the default depending on the duration of peaks in DL transmitted carrier power influenced by UE behaviour and power control settings (causes 'false' DL cell congestion detection).Used by Congestion Control.
-
UtranCell
pwrOffset
5 % Used by Congestion Control. Dependencies: pwrAdm + pwrOffset <= 100 %
-
UtranCell
releaseAseDl
1 ASE Amount of ASE in DL to be released with each periodic congestion resolve action targeting guaranteed traffic class connections in a cell. Default setting is a reference case setting. Actual setting can deviate from the default depending on the required speed to resolve the DL cell congestion situation and the characteristics of the guaranteed traffic class services in the network. Used by Congestion Control.
-
UtranCell
releaseAseDlNg
3 ASE Amount of ASE in DL to be released with each periodic congestion resolve action targeting non-guaranteed traffic class connections in a cell. Default setting is a reference case setting. Actual setting can deviate from the default depending on the required speed to resolve the DL cell congestion situation and the characteristics of the non-guaranteed traffic class services in the network.Used by Congestion Control.
-
UtranCell
tmCongAction
-
23
24
25
-
-
-
26
2000 ms
26
27
28
Interval between periodic congestion resolve actions on guaranteed traffic class connections in a cell. Default setting is a reference case setting. Actual setting can deviate from the default depending on the required speed to resolve the DL cell congestion situation and the characteristics of the guaranteed traffic class services in the network.Used by Congestion Control.
-
UtranCell
tmCongActionNg
800 ms Interval between periodic congestion resolve actions on non-guaranteed traffic class connections in a cell. Default setting is a reference case setting. Actual setting can deviate from the default depending on the required speed to resolve the DL cell congestion situation and the characteristics of the non-guaranteed traffic class services in the network.Used by Congestion Control.
-
UtranCell
tmInitialG
3000 ms Minimum time before congestion resolve actions are initiated on guaranteed traffic class connections in a cell (after detection of DL cell congestion).Default setting is a reference case setting. Actual setting can deviate from the default depending on the required speed to resolve the DL cell congestion situation and the characteristics of the non-guaranteed traffic class services in the network.Used by Congestion Control.
-
-
-
WCEL Parameter defines the target scheduling threshold for HSDPA powe to the HSDPA static resource allocation in RNC and ignored in the c resource allocation. Depending on the setting of the parameter HSD transmitted carrier power or the total non-controllable transmitted po equal to PtxTargetHSDPA before the first HS-DSCH MAC-d flow ca at least one HS-DSCH MAC-d flow is allocated in the cell, PtxTarge PtxTarget as a target of PtxnonHSDPA in NRT DCH scheduling. If H allocation is active, value of the parameter PtxMaxHSDPA added wi parameter PtxTargetHSDPA must not exceed the cell maximum tran the minimum of the following parameters: PtxCellMax and MaxDLPo WCEL This parameter defines the maximum allowed target level for DCH p or more MAC-d flows is set up in the cell. The target level is determi adjusted PtxTargetPS when HSDPA dynamic resource allocation is
-
-
29
-
30
-
-
-
-
WCEL Parameter defines the maximum allowed HSDPA transmission pow
-
-
WCEL This parameter defines the maximum downlink user bit rate allowed domain RAB.
-
-
WCEL Defines the noise level in the BTS digital receiver when there is no l figure). This parameter is needed in noise rise calculations.
-
-
WCEL This parameter defines how measurement values should be filtered common measurement of the received total wideband power in a ce value 2 means that both an old filtered measurement and a new me of 50%. This is an appropriate default value when the measurement reporting period 200 ms (two measurements to be filtered). A high v emphasises the old filtered measurement result. A low value empha measurement result. With value 0, old measurements are not consi concerns 3GPP-specified NBAP-interface only.
-
-
WCEL
-
-
-
-
32
-
-
33
-
-
34
-
-
35
-
-
-
31
-
-
35
-
-
-
36
-
-
WCEL This parameter defines the adjustment period - in terms of PtxTotal/ periods - of the target level for DCH packet scheduling (PtxTargetPS flows is/are set up in the cell when HSDPA dynamic resource alloca Conditions to adjust PtxTargetPS are checked every nth received m BTS, where n is defined by this parameter.
-
-
WCEL The target value of the total received power (PrxTarget) can be exce parameter before the cell is considered to be overloaded in uplink. R admitted if the total received power exceeds the sum of the values o PrxTarget. PrxOffset is used to calculate the first uplink overload thr PrxTargetBTS = PrxTarget+PrxOffset.
-
-
WCEL Parameter is applicable to the HSDPA static resource allocation.The transmitted non-HSDPA power (PtxTargetHSDPA) can be exceeded parameter before the cell is considered to be overloaded in the dow PtxNonHSDPA exceeds or equals PtxTargetHSDPA + PtxOffsetHSD setting of the parameter HSDPAPriority, overload control actions tar MAC-d flows or NRT DCHs are started.
-
-
-
37
-
38
This parameter defines how measurement values should be filtered common measurement of the received total transmitted carrier powe default value 2 means that both an old filtered measurement and a n weight of 50%. This is an appropriate default value when the measu and the reporting period 200 ms (two measurements to be filtered). parameter emphasises the old filtered measurement result. A low va measurement result. With value 0, old measurements are not consi concerns 3GPP-specified NBAP-interface only.
-
-
Nokia Parameter
Default
Unit
PtxCellMax 43 dBm Maximum value for the linear sum of the power of all downlink physical channels that is allowed to be used in a cell. The maximum transmission power of the cell is the minimum of the two parameters: PtxCellMax and MaxDLPowerCapability (the maximum BTS power capability).
HSPDSCHCodeSet This parameter defines the HS-PDSCH code set. If the HSDPA dynamic code allocation functionality cannot be used or it is deactivated, the code set contains just one code amount (5). If the HSDPA dynamic code allocation functionality can be used and it is activated, the code set contains more than one code amounts
-
-
-
-
-
-
-
-
-
-
-
-
-
PtxTarget 42 dBm Maximum power for all downlink channels added together, that is allowed to be used in a cell
PtxOffset 0.5 dB The target value of the total transmitted power (PtxTarget) can be exceeded by the value of this parameter before the cell is considered to be overloaded in downlink. Radio Access Bearer is not admitted, if the total transmitted power exceeds the sum of the values of this parameter and the PtxTarget. PtxOffset is used to calculate the first downlink overload threshold for BTS and RNC: PtxTargetBTS = PtxTarget+PrxOffset.
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
PrxTarget 30 dB The target for received total wideband interference power in a cell. An uplink RT RAB is not admitted if the estimated non-controllable power exceeds this threshold. PrxTarget is also used to calculate PrxTargetBTS, which is the first overload threshold for BSUL interference. The value of the PrxTarget is relative to the system noise; it gives an upper threshold for the noise
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
PtxTargetHSDPA 42 dBm Parameter defines the target scheduling threshold for HSDPA power allocation. It is applicable to the HSDPA static resource allocation in RNC and ignored in the case of HSDPA dynamic resource allocation. Depending on the setting of the parameter HSDPAPriority, either the total transmitted carrier power or the total non-controllable transmitted power has to be below or equal to PtxTargetHSDPA before the first HS-DSCH MAC-d flow can be allocated in the cell. If at least one HS-DSCH MAC-d flow is allocated in the cell, PtxTargetHSDPA is used instead of PtxTarget as a target of PtxnonHSDPA in NRT DCH scheduling. If HSDPA static resource allocation is active, value of the parameter PtxMaxHSDPA added with the value of the parameter PtxTargetHSDPA must not exceed the cell maximum transmission power defined by the minimum of the following parameters: PtxCellMax and MaxDLPowerCapability. Otherwise PtxTargetPSMax 40 dBm This parameter defines the maximum allowed target level for DCH packet scheduling when one or more MAC-d flows is set up in the cell. The target level is determined by the dynamically adjusted PtxTargetPS when HSDPA dynamic resource allocation is used in the cell.
PtxMaxHSDPA 42 Parameter defines the maximum allowed HSDPA transmission power.
dBm
MaxBitRateDLPSNRT 384 kbps This parameter defines the maximum downlink user bit rate allowed in a cell for an NRT PS domain RAB. PrxNoise -101.9 dBm dBm Defines the noise level in the BTS digital receiver when there is no load (thermal noise + noise figure). This parameter is needed in noise rise calculations. PrxMeasFilterCoeff 2 This parameter defines how measurement values should be filtered before Node B reports the common measurement of the received total wideband power in a cell to the RNC.The default value 2 means that both an old filtered measurement and a new measurement have the weight of 50%. This is an appropriate default value when the measurement period is 100 ms and the reporting period 200 ms (two measurements to be filtered). A high value of this parameter emphasises the old filtered measurement result. A low value emphasises the new measurement result. With value 0, old measurements are not considered. This parameter concerns 3GPP-specified NBAP-interface only. PtxMeasFilterCoeff
2 -
This parameter defines how measurement values should be filtered before Node B reports the common measurement of the received total transmitted carrier power in a cell to the RNC. The default value 2 means that both an old filtered measurement and a new measurement have the weight of 50%. This is an appropriate default value when the measurement period is 100 ms and the reporting period 200 ms (two measurements to be filtered). A high value of this parameter emphasises the old filtered measurement result. A low value emphasises the new measurement result. With value 0, old measurements are not considered. The parameter concerns 3GPP-specified NBAP-interface only. PtxTargetPSAdjustPeriod 10 s This parameter defines the adjustment period - in terms of PtxTotal/PtxNonHSPA reporting periods - of the target level for DCH packet scheduling (PtxTargetPS) when one or more MAC-d flows is/are set up in the cell when HSDPA dynamic resource allocation is used in the cell. Conditions to adjust PtxTargetPS are checked every nth received measurement report from the BTS, where n is defined by this parameter. PrxOffset 6 dB The target value of the total received power (PrxTarget) can be exceeded by the value of this parameter before the cell is considered to be overloaded in uplink. Radio Access Bearer is not admitted if the total received power exceeds the sum of the values of this parameter and the PrxTarget. PrxOffset is used to calculate the first uplink overload threshold for BTS and RNC: PrxTargetBTS = PrxTarget+PrxOffset. PtxOffsetHSDPA 0.5 dB Parameter is applicable to the HSDPA static resource allocation.The target value of the transmitted non-HSDPA power (PtxTargetHSDPA) can be exceeded by the value of this parameter before the cell is considered to be overloaded in the downlink. If the averaged PtxNonHSDPA exceeds or equals PtxTargetHSDPA + PtxOffsetHSDPA, depending on the setting of the parameter HSDPAPriority, overload control actions targeted either to HS-DSCH MAC-d flows or NRT DCHs are started.
Ericsson No
Object
Nokia
Parameter
Default
Unit
Object
Parameter
Hsdsch operationalState ENABLED (1) The operational state of the HSDPA resources in the cell.
WCEL HSDPAenabled The parameter enables / disables the use of HSDPA in the cell. If the parameter is enabled (1) the system checks that the maximum amount o HSDPA-capable BTSs and cells is not exceeded. If it is not possible to activate HSDPA for a new BTS or cell then the activation does not succe and error is printed out.
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WCEL MaxNbrOfHSSCCHCodes This parameter defines the maximum number of HS-SCCH codes (SF 12 that can be reserved in one cell. More than one HS-SCCH code can be u if the HSDPA code multiplexing functionality is in use. The actual numbe reserved codes depends on for example HSDPA capabilities and HSDPA code multiplexing support (RNC and BTS).
1
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-
-
2
-
-
3
Carrier hsPowerMargin 2 dB The power margin the HSDPA scheduling is using when allocating the remaining power of the cell carrier. The margin is relative the maximum available power (Maximum Transmission Power) of the RbsLocalCell.
-
4
Carrier supportOf16qam TRUE This parameter controls the 16QAM support in the cell. If set to TRUE, the capability of the UE decides whether 16QAM or QPSK is used.
5
Hsdsch cqiFeedbackCycle 8 ms The duration of the CQI feedback cycle on HS-DPCCH.
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6
Hsdsch initialCqiRepetitionFactor 1 The initial number of repetitions for CQI report messages on HSDPCCH. Must be set less than or equal to cqiFeedbackCycle / 2ms. Hsdsch initialAckNackRepetitionFactor 1 The initial number of repetitions for ACK/NACK feedback transmissions on HS-DPCCH.
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7
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8
Hsdsch deltaCqi1 4 The power offset for CQI report messages on HS-DPCCH for UE Connections using one RLS.
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9
Hsdsch deltaCqi2 6 The power offset for CQI report messages on HS-DPCCH for UE Connections using two or more RLSs.
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10
Hsdsch deltaAck1 5 The power offset for acknowledgement messages on HS-DPCCH for UE Connections using one RLS. Hsdsch deltaAck2 7 The power offset for acknowledgement messages on HS-DPCCH for UE Connections using two or more RLSs. -
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11
Hsdsch deltaNack1 5 The power offset for non-acknowledgement messages on HSDPCCH for UE Connections using one RLS.
-
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12
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13
Hsdsch deltaNack2 7 The power offset for non-acknowledgement messages on HSDPCCH for UE Connections using two or more RLSs. Carrier
-
14
hsScchMaxCodePower
-20 0.1dB
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-
-
-
-
-
-
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14
HS-SCCH maximum code power relative PCPICH reference power. This parameter also determines the fixed power level for HS-SCCH. RncFunction hsCellChangeAllowed TRUE (1) Overall On/Off switch for serving HS-DSCH cell change
15
16 -
RNC HSDPAMobility Parameter enables/disables serving HS-DSCH cell change & SHO of the associated DPCH. If the value is disabled, basic mobility handling with switching to FACH/D is utilised. If the value is enabled, SHO of the associated DPCH and serv HS-DSCH cell change are utilised.
DirectedRRCForHSDPALay erEnabled WCEL Enables / disables the use of the Directed RRC connection setup for the HSDPA layer in the cell.
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-
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-
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WCEL SectorID This parameter gives a unique identifier to a sector of the base station w the cell belongs to. The RNC uses the sector identifier in order to integra cells (carrier frequencies) which have equal coverage areas within one b station. A cell does not belong to any particular sector when the value of sector indentifier is zero
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DRRCprxOffset WCEL This parameter determines the threshold level which the uplink load of th source cell must exceed before the Admission control of the RNC may d the RRC connection setup to another cell within the sector. The Admissio control calculates the threshold level by adding the value of the paramete the target value of the total received power (PrxTarget)
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WCEL
-
17 -
18
DirectedRRCEnabled WCEL The parameter enables/disables the use of the directed RRC connection setup in the cell.
DirectedRRCForHSDPALay erEnhanc RNC When this parameter is enabled and the Directed RRC connection setup HSDPA layer is enabled (DirectedRRCForHSDPALayerEnabled parame enabled) in the cell, the following enhancements are in use: 1. The RNC takes into account the service requested in the RRC connec request when making the decision of Directed RRC connection setup to HSDPA layer. The services are defined with the DRRCForHSDPALayerServices parameter. 2. The RNC supports more than 2 layers. 3. The RNC supports HSDPA load sharing between layers. 4. The RNC supports simultaneous use of Directed RRC Connection Se and Directed RRC Connection Setup for HSDPA layer features (the DirectedRRCEnabled and DirectedRRCForHSDPALayerEnabled parame are enabled).
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19
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20
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21
DRRCptxOffset
This parameter determines the threshold level which the downlink load o source cell must exceed before the Admission control of the RNC may d the RRC connection setup to another cell within the sector. The Admissio control calculates the threshold level by adding the value of the paramete the target value of the total transmitted power (PtxTarget)
21
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DRRCprxMargin WCEL This parameter determines the threshold level which the uplink load of th may not exceed in order for the Directed RRC Connection Setup to be possible from another cell (source cell) of the same sector. The Admissio control of the RNC calculates the threshold level by adding the value of t parameter to the total received power level of the source cell.
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DRRCptxMargin WCEL This parameter determines the threshold level which the downlink load o cell may not exceed in order for the Directed RRC Connection Setup to b possible from another cell (source cell) of the same sector. The Admissio control of the RNC calculates the threshold level by adding the value of t parameter to the total transmitted power level of the source cell.
22
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23
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Nokia Default
Unit
Enabled(1) sables the use of HSDPA in the cell. If the e system checks that the maximum amount of cells is not exceeded. If it is not possible to BTS or cell then the activation does not succeed
3 maximum number of HS-SCCH codes (SF 128) cell. More than one HS-SCCH code can be used xing functionality is in use. The actual number of n for example HSDPA capabilities and HSDPA RNC and BTS). -
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-
-
-
-
-
-
-
-
-
-
-
-
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-
Enabled(1) s serving HS-DSCH cell change & SHO of the
ic mobility handling with switching to FACH/DCH abled, SHO of the associated DPCH and serving utilised.
1 carrier: 0(disabled), 2 carriers F1 Enabled(1) and F2 Disable(0) of the Directed RRC connection setup for the
1 carrier site: Disable(0) 2 carriers site: Enabled(1) for both F1&F2 ables the use of the directed RRC connection
Enabled(1) abled and the Directed RRC connection setup for irectedRRCForHSDPALayerEnabled parameter is owing enhancements are in use: ount the service requested in the RRC connection ecision of Directed RRC connection setup to are defined with the vices parameter. than 2 layers. PA load sharing between layers. taneous use of Directed RRC Connection Setup ion Setup for HSDPA layer features (the DirectedRRCForHSDPALayerEnabled parameters
sector 1=1 sector 2=2 sector 3=3 sector 6=1 sector 7=2 sector 8=3 que identifier to a sector of the base station where C uses the sector identifier in order to integrate which have equal coverage areas within one base ong to any particular sector when the value of the
-1 dB the threshold level which the uplink load of the fore the Admission control of the RNC may direct to another cell within the sector. The Admission hold level by adding the value of the parameter to received power (PrxTarget)
-3 dB
the threshold level which the downlink load of the fore the Admission control of the RNC may direct to another cell within the sector. The Admission hold level by adding the value of the parameter to transmitted power (PtxTarget)
0 dB the threshold level which the uplink load of the cell the Directed RRC Connection Setup to be source cell) of the same sector. The Admission es the threshold level by adding the value of the ved power level of the source cell.
-0.5 dB the threshold level which the downlink load of the er for the Directed RRC Connection Setup to be source cell) of the same sector. The Admission es the threshold level by adding the value of the mitted power level of the source cell.
Ericsson No
Object
Nokia
Parameter
Default
Unit
Object
1
UeMeasControl filterCoefficient1 2 Coefficient for layer 3 filtering before intra-frequency reporting evaluation.
2
UeMeasControl measQuantity1 2=EcNo Used by UE functions for intra-frequency measurements (in CELL_DCH). Quantity to measure for the chosen mode. The value of this attribute will set the message data CPICH_Ec/No or CPICH_RSCP accordingly -
3
4
Handover maxActiveSet 3 Maximum number of cells in active set.This attribute also controls the reporting deactivation threshold, used to control intra-frequency measurements (event 1a).reporting deactivation threshold = maxActiveSet-1.The attribute also controls the replacement activation threshold, used to control intra-frequency measurements (event 1c).replacement activation threshold = maxActiveSet
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FMCS This parameter determines the maximum number of cells soft/softer handover.
UtranCell individualOffset 0 dB Used in UE function event-reporting. This offset is added to the measured quantity before the UE evaluates if an event has occured. -
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ADJS The CPICH Ec/No Offset determines an offset value, whic Ec/No measurement result of the neighbouring cell before with the reporting criteria
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-
-
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RNC This parameter indicates a user plane procedure support o information is given separately for each neighboring RNC. If the user plane is not supported between SRNC and DRN procedure is not possible. HOPS Parameter indicates whether the neighbouring cell can par is controlled by a RNC other than the local RNC.
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ADJI This parameter indicates whether the inter-frequency neigh System Information Block 11&12&18 for the cell selection The inter-frequency neighbour cell is included in the system of the parameter is "yes".
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ADJS The parameter indicates whether the intra-frequency neigh System Information Block 11&12&18 for the cell selection The intra-frequency neighbour cell is included in the system of the parameter is "yes".
5 6 7 8
9
UeMeasControl reportingRange1a 6 (=3dB) 0.5dB Used by UE functions for intra-frequency measurement reporting (in CELL_DCH). Threshold used for addition-window in evaluation criteria for event type 1a.
FMCS Addition Window determines the relative threshold (A_Win the reporting range of event 1A. The threshold is either rel measurement result of the best active set cell (M_best), or measurement results (M_sum), depending on the value of Weighting Coefficient (W). When the CPICH Ec/No measu cell (M_new) enters the reporting range, the UE transmits RNC in order to add the monitored cell into the active set: W )* M_best - A_Win
UeMeasControl
FMCS
10
11
w1a
0
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11
Weight factor to include active set cells other than the best in evaluation criteria for Active Set Weighting Coefficient (W) is used to weight eith event 1a. the best active set cell (M_best) or the sum of measureme Used by UE functions for intra-frequency measurement reporting (in CELL_DCH). (M_sum) when the UE calculates the reporting range for th 1B (dropping of cell). The formula is: W * M_sum + ( 1 - W
UeMeasControl hysteresis1a 0 dB Hysteresis used in addition-window in evaluation criteria for event 1a to avoid ping pong effects. Used by UE functions for intra-frequency measurement reporting in CELL_DCH.
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12
UeMeasControl timeToTrigger1a 11 (=320ms) ms Time in milliseconds (ms) between detection of event 1a and sending of the measurement report.
FMCS When a monitored cell enters the reporting range (addition continuously stay within the reporting range for a given per send a Measurement Report to the RNC in order to add th 1A). The length of this period is controlled by the paramete
UeMeasControl reportingInterval1a 3 (=1s) s Interval of event-triggered periodical reporting in case of 'cell addition failure' or 'cell replacement failure'. Indicates the interval in seconds (s) of periodical reporting triggered by event 1a. Used by UE functions for intra-frequency measurement reporting in CELL_DCH.
FMCS When a monitored cell enters the reporting range and trigg the UE transmits a Measurement Report to the RNC. If the monitored cell to the active set, the UE continues reporting reverting to periodical measurement reporting. The parame determines the interval between periodical measurement r triggered by the event 1A.
UeMeasControl reportingRange1b 10 (=5dB) dB Used by UE functions for intra-frequency measurement reporting (in CELL_DCH). Threshold used for dropwindow in evaluation criteria for event 1b.
FMCS Drop Window determines the relative threshold (D_Win) w calculate the reporting range of event 1B. The threshold is Ec/No measurement result of the best active set cell (M_b measurement results (M_sum), depending on the value of Weighting Coefficient (W). When the CPICH Ec/No measu cell (M_old) leaves the reporting range, the UE transmits a RNC in order to remove the cell from the active set: M_old M_best - D_Win
UeMeasControl w1b 0 Weight factor to include active set cells other than the best in evaluation criteria for event 1b. Used by UE functions for intra-frequency measurement reporting (in CELL_DCH).
FMCS Active Set Weighting Coefficient (W) is used to weight eith the best active set cell (M_best) or the sum of measureme (M_sum) when the UE calculates the reporting range for th 1B (dropping of cell). The formula is: W * M_sum + ( 1 - W
UeMeasControl hysteresis1b 0 dB Hysteresis used in the drop window in evaluation criteria for event type 1b. Used by UE functions for intra-frequency measurement reporting in CELL_DCH.
-
13
14
15
16
17
-
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18
19
UeMeasControl timeToTrigger1b 12 (=640ms) ms Time in milliseconds (ms) between detection of event 1b and sending of the measurement report.
FMCS When an active set cell leaves the reporting range (drop w continuously stay outside the reporting range for a given p can send a Measurement Report to the RNC in order to re set (event 1B). The length of this period is controlled by the
UeMeasControl
FMCS
hysteresis1c
2 (=1dB)
dB
19
Used by UE functions for intra-frequency measurement reporting (in CELL_DCH). When the number of cells in the active set has reached the Hysteresis used in replacement threshold in evaluation criteria for event 1c to avoid parameter MaxActiveSetSize and a monitored cell become ping pong effects. cell, the UE transmits a Measurement Report to the RNC i cell with the monitored cell (event 1C). The parameter Rep the margin by which the CPICH Ec/No measurement resul must exceed the CPICH Ec/No measurement result of the before the UE can send the event 1C triggered Measurem >= MInAs + ReplacementWindow / 2
UeMeasControl timeToTrigger1c 11 (=320ms) ms Time in milliseconds (ms) between detection of event 1c and sending of the measurement report.
FMCS When the number of cells in the active set has reached the cell enters the reporting range (replacement window), the m continuously stay within the reporting range for a given per send a Measurement Report to the RNC in order to replac monitored cell (event 1C).
UeMeasControl reportingInterval1c 3 (=1s) s Interval of event-triggered periodical reporting in case of 'cell addition failure' or 'cell replacement failure'. Indicates the interval in seconds (s) of periodical reporting triggered by event 1c.
FMCS When the number of cells in the active set has reached the cell becomes better than an active set cell, the UE transm the RNC in order to replace the active cell with the monitor is not able to replace the active cell with the monitored cel after the initial report by reverting to periodical measureme Replacement Reporting Interval determines the interval of reports when such reporting is triggered by the event 1C
UeMeasControl hysteresis1d 15 (=7.5dB) dB Used by UE functions for intra-frequency measurement reporting (in CELL_DCH). Hysteresis used in dropwindow in evaluation criteria for event type 1d.
RNC Parameter determines the maximum allowed difference be serving HS-DSCH cell. The window is relative to the best c serving HS-DSCH cell change is outside of the window, se procedure is initiated. The measured quantity is CPICH Ec periodically from the UE.
23
UeMeasControl hsHysteresis1d 10 (=1dB) Sets the Event 1D hysteresis value specific for HS connections
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24
UeMeasControl timeToTrigger1d 14 (=2560ms)ms Time in milliseconds (ms) between detection of event 1d and sending of the measurement report.
25
UeMeasControl hsTimeToTrigger1d 640 ms Sets the Event 1D Time to Trigger value specific for HS connections
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UeMeasControl filterCoefficient2 2 Coefficient for layer 3 filtering before inter-frequency measurement reporting evaluation. dB UeMeasControl usedFreqRelThresh4_2bEcno -1
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20
21
22
26
27
dB
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Relative threshold for event 2b vs event 2d, when the 2d measurement with measurement quantity CPICH EC/NO was started.This parameter is used to compute the absolute 2b Ec/No used frequency threshold, by adding it to the current 2d Ec/No threshold (absolute 2b Ec/No used frequency threshold = usedFreqThresh2dEcno + usedFreqRelThresh4_2bEcno). If the sum of the calculation exceeds the maximum 3GPP value, the absolute 2b Ec/No threshold value will be adjusted to the maximum value allowed by 3GPP before a Measurement Control message is encoded and sent to the UE. UeMeasControl
28
usedFreqRelThresh4_2bRscp
-3
dB
-
28
29
Relative threshold for event 2b vs event 2d when the 2d measurement with measurement quantity CPICH RSCP was started.This parameter is used to compute the absolute 2b Rscp threshold, by adding it to the current 2d Rscp threshold (absolute 2b Rscp used frequency threshold = usedFreqThresh2dRscp + usedFreqRelThresh4_2bRscp).If the sum of the calculation exceeds the maximum 3GPP value, the absolute 2b Rscp threshold value will be adjusted to the maximum value allowed by 3GPP before a Measurement Control message is encoded and sent to the UE. UeMeasControl usedFreqW4_2b 0 Weighting factor for measurement 4 event 2b for the currently used frequency.
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30
UeMeasControl hyst4_2b Hysteresis for measurement 4 event 2b.
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31
ms UeMeasControl timeTrigg4_2b 100 Time between detection of event 2b and sending of the measurement report, for measurement 4.
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32
dB UeMeasControl nonUsedFreqThresh4_2bEcno -13 Threshold for measurement 4 event 2b for the non-used frequencies when the measurement quantity is Ec/No.
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33
dBm UeMeasControl nonUsedFreqThresh4_2bRscp -105 Threshold for measurement 4 event 2b for the non-used frequencies when the measurement quantity is RSCP.
34
UeMeasControl nonUsedFreqW4_2b 0 Weighting factor for measurement 4 event 2b for the non-used frequencies.
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35
dB UtranCell usedFreqThresh2dEcno -12 Threshold for event 2d for the used frequency when the measurement quantity is Ec/No.
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36
dBm UtranCell usedFreqThresh2dRscp -104 Threshold for event 2d for the used frequency when the measurement quantity is RSCP.
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37
dB UeMeasControl usedFreqThresh2dEcnoDrnc -12 Threshold for event 2d for the used frequency for cells located in DRNC when the measurement quantity is Ec/No.
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38
dBm UeMeasControl usedFreqThresh2dRscpDrnc -100 Threshold for event 2d for the used frequency for cells located in the DRNC when the measurement quantity is RSCP.
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39
ms UeMeasControl timeToTrigger2dEcno 320 Time in milliseconds (ms) between detection of event 2d and sending of the measurement report, when the measurement quantity is CPICH EC/NO.
40
UeMeasControl usedFreqW2d 0 Weighting factor for event 2d for the used frequency.
-
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41
UeMeasControl hysteresis2d Hysteresis for event 2d.
dB
42
ms UeMeasControl timeToTrigger2dRscp 320 Time in milliseconds (ms) between detection of event 2d and sending of the measurement report, when the measurement quantity is CPICH RSCP. UeMeasControl
43
usedFreqRelThresh2fEcno
10 (=1dB)
dB
-
0
-
-
-
-
-
-
-
-
3
dB
-
43
Relative threshold for event 2f vs event 2d for the used frequency when the measurement quantity is Ec/No.Note 1: The threshold for event 2d is configured per cell in usedFreqThresh2dEcno. For DRNC cells, the global value usedFreqThresh2dEcnoDrnc is used instead.Note 2: This parameter is used for calculation of a threshold value for the used frequency for 2f events. The calculated value is sent to the UE in a RRC Measurement Control message. If the sum of the calculation (usedFreqRelThresh2fEcno + usedFreqThresh2dEcno), or (usedFreqRelThresh2fEcno + usedFreqThresh2dEcnoDrnc) for DRNC cells, exceeds the maximum 3GPP value 0dB, the value sent to the UE will be 0dB
44
UeMeasControl usedFreqRelThresh2fRscp 3 dB Relative threshold for event 2f vs event 2d for the used frequency when the measurement quantity is RSCP.Note 1: the threshold for event 2d is configured per cell in usedFreqThresh2dRscp. For DRNC cells, the global value usedFreqThresh2dRscpDrnc is used instead.Note 2: This parameter is used for calculation of a threshold value for the used frequency for 2f events. The calculated value is sent to the UE in a RRC Measurement Control message. If the sum of the calculation (usedFreqRelThresh2fRscp + usedFreqThresh2dRscp), or (usedFreqRelThresh2fRscp + usedFreqThresh2dRscpDrnc) for DRNC cells, exceeds the maximum 3GPP value -25dBm, the value sent to the UE will be 25dBm -
45
UeMeasControl usedFreqW2f 0 Weighting factor for event 2f for the used frequency.
-
46
UeMeasControl hysteresis2f Hysteresis for event 2f.
dB
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47
ms UeMeasControl timeToTrigger2fEcno 1280 Time in milliseconds (ms) between detection of event 2f and sending of the measurement report, when the measurement quantity is CPICH EC/NO.
-
48
ms UeMeasControl timeToTrigger2fRscp 1280 Time in milliseconds (ms) between detection of event 2f and sending of the measurement report, when the measurement quantity is CPICH RSCP. -
-
0
-
-
-
-
-
-
FMCI This parameter indicates whether an inter-frequency hando absolute CPICH Ec/No of the serving cell is enabled. When the inter-frequency handover is enabled, the RNC s CPICH Ec/No measurement in order to monitor the absolu cell. The measurement reporting criteria of the intra-frequency are defined by the Intra-frequency Measurement Control p
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FMCI This parameter indicates whether an inter-frequency hando absolute CPICH RSCP of the serving cell is enabled. Whe is enabled, the RNC shall set up an intra-frequency CPICH to monitor the absolute CPICH RSCP of the serving cell.T criteria of the intra-frequency CPICH RSCP measurement frequency Measurement Control parameters (FMCS objec
-
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FMCS
49
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50
-
51
If the inter-frequency or inter-RAT (GSM) handover caused CPICH Ec/No is enabled, the RNC starts the inter-frequen compressed mode when all active set cells have triggered CPICH Ec/No. The RNC cancels the event 1F of an active measurement result of the active set cell becomes better t HHoEcNoCancel and the UE transmits the corresponding Measurement Report to the RNC. The parameter HHoEcN time period during which the CPICH Ec/No of the active se threshold HHoEcNoCancel before the UE can trigger the r
51
-
-
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FMCS If the inter-frequency or inter-RAT (GSM) handover caused CPICH Ec/No is enabled, the RNC starts the inter-frequen compressed mode when all active set cells have triggered CPICH Ec/No. The RNC cancels the event 1F of an active measurement result of the active set cell becomes better t HHoEcNoCancel and the UE transmits the corresponding Measurement Report to the RNC.
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-
FMCS If the inter-frequency or inter-RAT (GSM) handover caused CPICH Ec/No is enabled, the UE transmits an event 1F tri the RNC when the CPICH Ec/No measurement result of a worse than or equal to an absolute CPICH Ec/No threshold HHoEcNoThreshold determines the absolute CPICH Ec/N the UE to trigger the reporting event 1F. When the measur set cells has become worse than or equal to the threshold inter-frequency or inter-RAT (GSM) measurements in com of hard handover
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FMCS If the inter-frequency or inter-RAT (GSM) handover caused CPICH Ec/No is enabled, the UE transmits an event 1F tri the RNC when the CPICH Ec/No measurement result of a worse than the threshold HHoEcNoThreshold. The parame determines the time period during which the CPICH Ec/No stay worse than the threshold HHoEcNoThreshold before t reporting event 1F.
-
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FMCS If the inter-frequency or inter-RAT (GSM) handover caused CPICH RSCP is enabled, the RNC starts the inter-frequen compressed mode when all active set cells have triggered CPICH RSCP. The RNC cancels the event 1F of an active measurement result of the active set cell becomes better t HHoRscpCancel and the UE transmits the corresponding e measurement report to the RNC.
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FMCS The parameter HHoRscpCancelTime determines the time CPICH RSCP of the active set cell must stay better than th before the UE can trigger the reporting event 1E.
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-
FMCS
52
-
53
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54
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55
56 -
57
If the inter-frequency or inter-RAT (GSM) handover caused RSCP is enabled, the UE transmits an event 1F triggered RNC when the CPICH RSCP measurement result of an ac than or equal to an absolute CPICH RSCP threshold. The determines the absolute CPICH RSCP threshold which is reporting event 1F.
57
-
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FMCS The parameter HHoRscpTimeHysteresis determines the ti CPICH RSCP of the active set cell must stay worse than th HHoRscpThreshold before the UE can trigger the reporting
-
-
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ADJI This parameter determines the minimum required CPICH averaged measurement result of the best inter-frequency n before the quality reason inter-frequency handover is poss
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ADJI This parameter indicates the maximum transmission powe the DPCH in the neighbouring cell. The RNC uses the para algorithm of the inter-frequency handover. If the maximum lower than the value of the parameter, the RNC adds the p the minimum required CPICH RSCP level, which the meas neighbour cell must exceed before the handover is possibl
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ADJI This parameter determines the margin by which the averag measurement result of the best inter-frequency neighbour CPICH Ec/No measurement result of the best active set ce inter-frequency handover is possible
-
-
-
ADJI This parameter determines the minimum required CPICH averaged measurement result of the best inter-frequency n before the coverage reason inter-frequency handover is po
-
-
-
ADJI This parameter determines the margin by which the averag best active set cell must exceed the averaged propagation frequency neighbour cell before the coverage reason interpossible.
58 59 -
60
61 62 63 64
65
UeMeasControl utranFilterCoefficient3 2 Coefficient for layer 3 filtering of UTRAN quality before inter-RAT reporting evaluation.
-
UeMeasControl gsmFilterCoefficient3 1 Coefficient for layer 3 filtering of GSM quality before inter-RAT reporting evaluation. -
66
67
UeMeasControl utranRelThresh3aEcno 2 dB Relative threshold for event 3a vs event 2d, when the 2d measurement with measurement quantity CPICH EC/NO was started.This parameter is used to compute the absolute 3a Ec/No threshold, by adding it to the current 2d Ec/No threshold (absolute 3a Ec/No threshold = usedFreqThresh2dEcno + utranRelThresh3aEcno).If the sum of the calculation exceeds the maximum 3GPP value, the absolute 3a Ec/No threshold value will be adjusted to the maximum value allowed by 3GPP before a Measurement Control message is encoded and sent to the UE. dB UeMeasControl utranRelThresh3aRscp 3 -
67
Relative threshold for event 3a vs event 2d when the 2d measurement with measurement quantity CPICH RSCP was started.This parameter is used to compute the absolute 3a Rscp threshold, by adding it to the current 2d Rscp threshold (absolute 3a RSCP threshold = usedFreqThresh2dRscp + utranRelThresh3aRscp).If the sum of the calculation exceeds the maximum 3GPP value, the absolute 3a RSCP threshold value will be adjusted to the maximum value allowed by 3GPP before a Measurement Control message is encoded and sent to the UE. -
68
UeMeasControl utranW3a Weighting factor for event 3a for UTRAN.
-
69
UeMeasControl timeToTrigger3a 6 (=100ms) ms Time in milliseconds (ms) between detection of event 3a and sending of the measurement report. -
70 71
72
0
-
-
-
-
FMCG GSM HO caused by CPICH Ec/No
-
-
-
FMCG GSM HO caused by CPICH RSCP
ExternalGsmCell individualOffset 0 dB Used in UE function event-reporting.This offset is added to the measured quantity before the UE evaluates if an event has occured.
-
-
ADJG The parameter indicates whether the GSM neighbour cell Information Block 11&12&18 for the cell selection and re-s neighbour cell is included in the system information when "yes".
-
-
-
73 -
75
76
77
78
-
-
-
-
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GsmRelation qOffset1sn 7 dB Signal stength offset between source and target cells. Used when the IE "cell_selection_and_reselection_quality_measure" in SIB 11/12 is set to "CPICH RSCP". This is configured through UtranCell::qualMeasQuantity.
HOPG This parameter is used in the cell re-selection and ranking cells. The value of this parameter is subtracted from the m the neighbouring cell before the UE compares the quality m selection/ranking criteria
dBm UeMeasControl gsmThresh3a -95 Threshold for event 3a for GSM. Range is valid for GSM carrier RSSI.
HOPG This parameter determines the minimum required GSM RS RSSI value of the GSM neighbour cell must exceed before reason handover to GSM is possible
UeMeasControl hysteresis3a Hysteresis for event 3a.
0
dB
HOPG This parameter determines the minimum required GSM RS RSSI value of the GSM neighbour cell must exceed before reason handover to GSM is possible
ExternalGsmCell bandIndicator 0 = DCS1800 Indicates the frequency band of the external GSM cell.
ADJG This parameter indicates how to interpret the value of the p
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ADJG This parameter indicates the maximum transmission powe a TCH in the GSM neighbour cell. The RNC uses the para of the inter-RAT (GSM) handover. If the maximum output p the value of the parameter, the RNC adds the power differ minimum required GSM RSSI level, which the measureme neighbour cell must exceed before the handover is possibl
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Nokia Parameter
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MaxActiveSetSize 3 This parameter determines the maximum number of cells which can participate in a soft/softer handover.
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AdjsEcNoOffset 0 dB The CPICH Ec/No Offset determines an offset value, which the UE adds to the CPICH Ec/No measurement result of the neighbouring cell before it compares the Ec/No value with the reporting criteria Supported (1) IurUPSupport This parameter indicates a user plane procedure support of the Iur connection. This information is given separately for each neighboring RNC. If the user plane is not supported between SRNC and DRNC, initiation of a soft handover procedure is not possible. EnableInterRNCsho Yes(1) Parameter indicates whether the neighbouring cell can participate in a soft handover, if it is controlled by a RNC other than the local RNC. AdjiSIB Yes (1) This parameter indicates whether the inter-frequency neighbour cell is included in the System Information Block 11&12&18 for the cell selection and re-selection procedures. The inter-frequency neighbour cell is included in the system information when the value of the parameter is "yes". AdjiSIB Yes (1) The parameter indicates whether the intra-frequency neighbour cell is included in the System Information Block 11&12&18 for the cell selection and re-selection procedures. The intra-frequency neighbour cell is included in the system information when the value of the parameter is "yes". AdditionWindow 3 dB Addition Window determines the relative threshold (A_Win) used by the UE to calculate the reporting range of event 1A. The threshold is either relative to the CPICH Ec/No measurement result of the best active set cell (M_best), or to the sum of active set measurement results (M_sum), depending on the value of the parameter Active Set Weighting Coefficient (W). When the CPICH Ec/No measurement result of a monitored cell (M_new) enters the reporting range, the UE transmits a Measurement Report to the RNC in order to add the monitored cell into the active set: M_new >= W * M_sum + ( 1 W )* M_best - A_Win
ActiveSetWeightingCoefficient
0
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Active Set Weighting Coefficient (W) is used to weight either the measurement result of the best active set cell (M_best) or the sum of measurement results of all active set cells (M_sum) when the UE calculates the reporting range for the events 1A (cell addition) and 1B (dropping of cell). The formula is: W * M_sum + ( 1 - W )* M_best
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AdditionTime 320 ms When a monitored cell enters the reporting range (addition window), the cell must continuously stay within the reporting range for a given period of time before the UE can send a Measurement Report to the RNC in order to add the cell into the active set (event 1A). The length of this period is controlled by the parameter Addition Time
AdditionReportingInterval 1 s When a monitored cell enters the reporting range and triggers event 1A (cell addition), the UE transmits a Measurement Report to the RNC. If the RNC is not able to add the monitored cell to the active set, the UE continues reporting after the initial report by reverting to periodical measurement reporting. The parameter Addition Reporting Interval determines the interval between periodical measurement reports when such reporting is triggered by the event 1A.
DropWindow 6 dB Drop Window determines the relative threshold (D_Win) which is used by the UE to calculate the reporting range of event 1B. The threshold is either relative to the CPICH Ec/No measurement result of the best active set cell (M_best) or to the sum of active set measurement results (M_sum), depending on the value of the parameter Active Set Weighting Coefficient (W). When the CPICH Ec/No measurement result of an active set cell (M_old) leaves the reporting range, the UE transmits a Measurement Report to the RNC in order to remove the cell from the active set: M_old <= W * M_sum + ( 1 - W )* M_best - D_Win
ActiveSetWeightingCoefficient 0 Active Set Weighting Coefficient (W) is used to weight either the measurement result of the best active set cell (M_best) or the sum of measurement results of all active set cells (M_sum) when the UE calculates the reporting range for the events 1A (cell addition) and 1B (dropping of cell). The formula is: W * M_sum + ( 1 - W )* M_best -
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DropTime 640 ms When an active set cell leaves the reporting range (drop window), the cell must continuously stay outside the reporting range for a given period of time before the UE can send a Measurement Report to the RNC in order to remove the cell from the active set (event 1B). The length of this period is controlled by the parameter Drop Time
ReplacementWindow
2
dB
When the number of cells in the active set has reached the maximum specified by the parameter MaxActiveSetSize and a monitored cell becomes better than an active set cell, the UE transmits a Measurement Report to the RNC in order to replace the active cell with the monitored cell (event 1C). The parameter Replacement Window determines the margin by which the CPICH Ec/No measurement result of the monitored cell (MNew) must exceed the CPICH Ec/No measurement result of the an active set cell (MInAS) before the UE can send the event 1C triggered Measurement Report to the RNC: MNew >= MInAs + ReplacementWindow / 2
ReplacementTime 200 ms When the number of cells in the active set has reached the maximum, and a monitored cell enters the reporting range (replacement window), the monitored cell must continuously stay within the reporting range for a given period of time before the UE can send a Measurement Report to the RNC in order to replace an active set cell with the monitored cell (event 1C).
ReplacementReportingInterval 1 s When the number of cells in the active set has reached the maximum, and a monitored cell becomes better than an active set cell, the UE transmits a Measurement Report to the RNC in order to replace the active cell with the monitored cell (event 1C). If the RNC is not able to replace the active cell with the monitored cell, the UE continues reporting after the initial report by reverting to periodical measurement reporting. The parameter Replacement Reporting Interval determines the interval of periodical measurement reports when such reporting is triggered by the event 1C
HSDPAServCellWindow 4 dB Parameter determines the maximum allowed difference between the best cell and the serving HS-DSCH cell. The window is relative to the best cell in the active set. If the serving HS-DSCH cell change is outside of the window, serving HS-DSCH cell change procedure is initiated. The measured quantity is CPICH Ec/No, which is received periodically from the UE.
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IFHOcauseCPICHEcNo Enabled(1) This parameter indicates whether an inter-frequency handover caused by low measured absolute CPICH Ec/No of the serving cell is enabled. When the inter-frequency handover is enabled, the RNC shall set up an intra-frequency CPICH Ec/No measurement in order to monitor the absolute CPICH Ec/No of the serving cell. The measurement reporting criteria of the intra-frequency CPICH Ec/No measurement are defined by the Intra-frequency Measurement Control parameters (FMCS object)
1st carrier:Disable(0) IFHOcauseCPICHrscp 2nd carrier:Enabled(1) This parameter indicates whether an inter-frequency handover caused by low measured absolute CPICH RSCP of the serving cell is enabled. When the inter-frequency handover is enabled, the RNC shall set up an intra-frequency CPICH RSCP measurement in order to monitor the absolute CPICH RSCP of the serving cell.The measurement reporting criteria of the intra-frequency CPICH RSCP measurement are defined by the Intrafrequency Measurement Control parameters (FMCS object) HHoEcNoCancelTime
640
ms
If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH Ec/No is enabled, the RNC starts the inter-frequency or GSM measurement in compressed mode when all active set cells have triggered the reporting event 1F for CPICH Ec/No. The RNC cancels the event 1F of an active set cell if the CPICH Ec/No measurement result of the active set cell becomes better than or equal to the threshold HHoEcNoCancel and the UE transmits the corresponding event 1E triggered Measurement Report to the RNC. The parameter HHoEcNoCancelTime determines the time period during which the CPICH Ec/No of the active set cell must stay better than the threshold HHoEcNoCancel before the UE can trigger the reporting event 1E.
HHoEcNoCancel dB -9 If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH Ec/No is enabled, the RNC starts the inter-frequency or GSM measurement in compressed mode when all active set cells have triggered the reporting event 1F for CPICH Ec/No. The RNC cancels the event 1F of an active set cell if the CPICH Ec/No measurement result of the active set cell becomes better than or equal to the threshold HHoEcNoCancel and the UE transmits the corresponding event 1E triggered Measurement Report to the RNC.
HHoEcNoThreshold dB -12 If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH Ec/No is enabled, the UE transmits an event 1F triggered measurement report to the RNC when the CPICH Ec/No measurement result of an active set cell becomes worse than or equal to an absolute CPICH Ec/No threshold. The parameter HHoEcNoThreshold determines the absolute CPICH Ec/No threshold which is used by the UE to trigger the reporting event 1F. When the measured CPICH Ec/No of all active set cells has become worse than or equal to the threshold in question, the RNC starts inter-frequency or inter-RAT (GSM) measurements in compressed mode for the purpose of hard handover
HHoEcNoTimeHysteresis ms 200 If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH Ec/No is enabled, the UE transmits an event 1F triggered measurement report to the RNC when the CPICH Ec/No measurement result of an active set cell becomes worse than the threshold HHoEcNoThreshold. The parameter HHoEcNoTimeHysteresis determines the time period during which the CPICH Ec/No of the active set cell must stay worse than the threshold HHoEcNoThreshold before the UE can trigger the reporting event 1F.
1st carrier: -96 HHoRscpCancel 2nd carrier: -93 dBm If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute CPICH RSCP is enabled, the RNC starts the inter-frequency or GSM measurement in compressed mode when all active set cells have triggered the reporting event 1F for CPICH RSCP. The RNC cancels the event 1F of an active set cell, if the CPICH RSCP measurement result of the active set cell becomes better than or equal to the threshold HHoRscpCancel and the UE transmits the corresponding event 1E triggered measurement report to the RNC.
HHoRscpCancelTime 640 ms The parameter HHoRscpCancelTime determines the time period during which the CPICH RSCP of the active set cell must stay better than the threshold HHoRscpCancel before the UE can trigger the reporting event 1E. HHoRscpThreshold
1st carrier: -101 2nd carrier: -98
dBm
If the inter-frequency or inter-RAT (GSM) handover caused by a low measured CPICH RSCP is enabled, the UE transmits an event 1F triggered measurement report to the RNC when the CPICH RSCP measurement result of an active set cell becomes worse than or equal to an absolute CPICH RSCP threshold. The parameter HHoRscpThreshold determines the absolute CPICH RSCP threshold which is used by the UE to trigger the reporting event 1F. HHoRscpTimeHysteresis ms 200 The parameter HHoRscpTimeHysteresis determines the time period during which the CPICH RSCP of the active set cell must stay worse than the threshold HHoRscpThreshold before the UE can trigger the reporting event 1F. AdjiMinRSCP dBm -96 This parameter determines the minimum required CPICH RSCP level which the averaged measurement result of the best inter-frequency neighbour cell must exceed before the quality reason inter-frequency handover is possible AdjiTxPwrDPCH dBm 24 This parameter indicates the maximum transmission power level that a UE may use on the DPCH in the neighbouring cell. The RNC uses the parameter in the decision algorithm of the inter-frequency handover. If the maximum output power of the UE is lower than the value of the parameter, the RNC adds the power difference (dB value) to the minimum required CPICH RSCP level, which the measurement result of the neighbour cell must exceed before the handover is possible
AdjiEcNoMargin 2 dB This parameter determines the margin by which the averaged CPICH Ec/No measurement result of the best inter-frequency neighbour cell must exceed the averaged CPICH Ec/No measurement result of the best active set cell before the quality reason inter-frequency handover is possible AdjiMinEcNo dB -10 This parameter determines the minimum required CPICH Ec/No level which the averaged measurement result of the best inter-frequency neighbour cell must exceed before the coverage reason inter-frequency handover is possible. AdjiPlossMargin dB 2 This parameter determines the margin by which the averaged propagation loss of the best active set cell must exceed the averaged propagation loss of the best interfrequency neighbour cell before the coverage reason inter-frequency handover is possible. -
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GSMcauseCPICHEcNo GSM HO caused by CPICH Ec/No
Disable(0)
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GSMcauseCPICHrscp GSM HO caused by CPICH RSCP
Enabled(1)
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AdjiSIB Yes (1) The parameter indicates whether the GSM neighbour cell is included in the System Information Block 11&12&18 for the cell selection and re-selection procedures. The GSM neighbour cell is included in the system information when the value of the parameter is "yes". AdjgQoffset1 0 dB This parameter is used in the cell re-selection and ranking between WCDMA and GSM cells. The value of this parameter is subtracted from the measured GSM carrier RSSI of the neighbouring cell before the UE compares the quality measure with the cell reselection/ranking criteria dBm AdjgRxLevMinHO -100 This parameter determines the minimum required GSM RSSI level which the averaged RSSI value of the GSM neighbour cell must exceed before the coverage (or quality) reason handover to GSM is possible dBm AdjgRxLevMinHO -100 This parameter determines the minimum required GSM RSSI level which the averaged RSSI value of the GSM neighbour cell must exceed before the coverage (or quality) reason handover to GSM is possible AdjgBandIndicator This parameter indicates how to interpret the value of the parameter AdjgBCCH. AdjgTxPwrMaxTCH 33 dBm This parameter indicates the maximum transmission power level that an UE may use on a TCH in the GSM neighbour cell. The RNC uses the parameter in the decision algorithm of the inter-RAT (GSM) handover. If the maximum output power of the UE is lower than the value of the parameter, the RNC adds the power difference (dB value) to the minimum required GSM RSSI level, which the measurement result of the GSM neighbour cell must exceed before the handover is possible