ENTERPRISE V5.0.2 ASSET3G for GSMGPRS Tool User PS-TR-PDF-TC-E101-V5.0.2-2
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ASSET3G for GSM-GPRS Tool User
The information in this document is subject to change without notice and describes only the product defined in the introduction of this documentation. This document is intended for the use of AIRCOM Internationals’ customers only for the purposes of the agreement under which the document is submitted, and no part of it may be reproduced or transmitted in any form or means without the prior written permission of AIRCOM International. The document has been prepared to be used by professional and properly trained personnel, and the customer assumes full responsibility when using it. AIRCOM International welcomes customer comments as part of the process of continuous development and improvement of the documentation. The information or statements given in this document concerning the suitability, capacity, or performance of the mentioned hardware or software products cannot be considered binding but shall be defined in the agreement made between AIRCOM International and the customer. However, AIRCOM International has made all reasonable efforts to ensure that the instructions contained in the document are adequate and free of material errors and omissions. AIRCOM International will, if necessary, explain issues, which may not be covered by the document. AIRCOM Internationals’ liability for any errors in the document is limited to the documentary correction of errors. AIRCOM International WILL NOT BE RESPONSIBLE IN ANY EVENT FOR ERRORS IN THIS DOCUMENT OR FOR ANY DAMAGES, INCIDENTAL OR CONSEQUENTIAL (INCLUDING MONETARY LOSSES), that might arise from the use of this document or the information in it. This document and the product it describes are considered protected by copyright according to the applicable laws. ASSET3G is a registered trademark of AIRCOM International. Other product names mentioned in this document may be trademarks of their respective companies, and they are mentioned for identification purposes only. Copyright © AIRCOM International 2005. All rights reserved.
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Document Control
Document Control Change History Version
Date
Author
Description
1
26/05/2005
D. Ramirez
Initial revision of existing V5.0.1 document
1
27/05/2005
F. Martinez
Review and approve
2
08/06/2005
D. Ramirez
Polygons screenshots updated, Exercise 7.5 revised, Carrier Layer Global Edit section revised, Neighbours section revised
2
10/06/2005
F. Martinez
Review and approve
Reviewers Name
Description
F. Martinez
Competence Development Services Manager
Related Documents Reference
Document Number
Title
1
PS-TR-TC-E101-V5.0.1-2
Asset3G for GSM-GPRS Tool User V5.0.1
2
PS-TR-TC-E101-V5.0.2-1
Asset3G for GSM-GPRS Tool User V5.0.2
© AIRCOM International
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Contents Document Control ................................................................................................. 3 Change History ..................................................................................................... 3 Reviewers ..................................................................................................... 3 Related Documents ................................................................................................. 3 Scope and Course Objectives ............................................................................ 10 Scope ................................................................................................... 10 Course Objectives ................................................................................................. 10 Sessions ................................................................................................... 11 Course Timetable .................................................................................................. 12 1 1.1 1.2 1.3 1.3.1 1.3.2
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1.3.3 1.3.4 1.4 1.4.1 1.5 1.6
Introduction to ENTERPRISE.................................................. 13 Objectives of this session .......................................................... 13 The ENTERPRISE Tools Suite.................................................. 13 Support and Website information............................................... 14 Obtaining Help On-Screen......................................................... 14 Printing Copies of the ENTERPRISE User Reference Manuals ..................................................................................... 15 Obtaining Support ...................................................................... 15 Linking to the AIRCOM Website ................................................ 15 The ENTERPRISE Database .................................................... 15 Database Contents .................................................................... 16 Two-Stage Commit .................................................................... 16 Summary Checklist ;........................................................... 18
2 2.1 2.2 2.3 2.3.1 2.3.2 2.3.3 2.3.4 2.3.5 2.3.6 2.3.7 2.4 2.4.1 2.5 2.6 2.7
Setting up a New Project......................................................... 19 Objective of this session ............................................................ 19 Starting ENTERPRISE............................................................... 19 Creating a New Project .............................................................. 21 Co-ordinate System ................................................................... 22 Map data directories .................................................................. 23 User data directories.................................................................. 23 Map Data Extents ...................................................................... 24 Region Load............................................................................... 25 Info ............................................................................................. 25 Override Database Directory Settings ....................................... 25 Starting the Project .................................................................... 25 Viewing settings for the current project...................................... 26 Message Log Window................................................................ 26 Exercise: Starting a Project ................................................ 27 Session Summary Checklist ; .............................................. 28
3 3.1 3.2 3.3 3.4
Using the GIS and other Visual tools..................................... 29 Objective of this session ............................................................ 29 Introduction ................................................................................ 29 Opening the 2D View window .................................................... 29 Map View Toolbar ...................................................................... 30
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Contentsl
3.4.1 3.4.2 3.4.3 3.4.4 3.4.5 3.4.6 3.4.7 3.4.8 3.4.9 3.4.10 3.4.11 3.4.12 3.4.13 3.4.14 3.4.15 3.4.16 3.5 3.5.1 3.6 3.7 3.8 3.9
Displaying Map Data...................................................................31 Key/Legend.................................................................................32 Selecting Items on the Map ........................................................33 Selection Expert Toolbox............................................................33 Zooming......................................................................................33 Zoom Box ...................................................................................34 Panning.......................................................................................34 3D View ......................................................................................34 Settings.......................................................................................35 Zooming In and Out ....................................................................36 Solid View ...................................................................................36 Wireframe View ..........................................................................36 Printing the 3D Map View ...........................................................37 Searching the 2D View ...............................................................37 Printing Maps..............................................................................37 Export to MapInfo .......................................................................38 2D View ‘Context’ menu .............................................................38 Favourites ...................................................................................39 Map View Gadgets Window........................................................40 Exercise: Using the 2D View and Favourites .........................42 Master View Window ..................................................................42 Session Summary Checklist ;...............................................45
4 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 4.10 4.11
Polygons and Vectors ..............................................................46 Objective of this session .............................................................46 Overview.....................................................................................46 Creating a user Polygon .............................................................46 Adding Segments to a Polygon ..................................................49 Adding Attributes to a Polygon ...................................................50 Viewing Attributes .......................................................................52 Creating your own Vector ...........................................................53 Adding Segments to a Vector .....................................................56 Importing Vector Data.................................................................57 Exercise: Creating Polygons and Vectors ..............................58 Session Summary Checklist ;...............................................59
5 5.1 5.2 5.2.1 5.2.2 5.2.3 5.2.4 5.2.5 5.2.6 5.3 5.4 5.4.1 5.4.2
Setting up a GSM Network.......................................................60 Objectives of this session ...........................................................60 Setting Up ...................................................................................60 Importing Antennas.....................................................................61 Setting up a Propagation Model .................................................62 XML Imports ...............................................................................65 Setting the Nominal Cell Radii ....................................................67 Setting the Display Characteristics .............................................68 Defining a Site Template ............................................................70 Exercise: Setting up a GSM Network .....................................73 Adding Sites/Cells to a GSM Network ........................................74 Adding Network Elements from the 2D View..............................74 Creating cellular connections to provide network hierarchy .....................................................................................76
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5.4.3 5.4.4 5.4.5 5.5 5.6 5.6.1 5.6.2 5.7 5.7.1 5.8 5.9
Locating elements in the 2D view or Site Database .................. 77 Viewing Property Information for a Network Element ................ 77 Re-orienting antennas................................................................ 78 Predicting the Pathloss .............................................................. 78 Displaying Coverage.................................................................. 80 Coverage Bands & Colours ....................................................... 83 Service Areas............................................................................. 85 Analysing Coverage................................................................... 86 Array Manager ........................................................................... 88 Exercise: Starting to Plan Coverage .................................... 89 Session Summary Checklist ; .............................................. 90
6 6.1 6.2 6.2.1 6.3 6.3.1 6.4 6.5 6.6 6.6.1 6.6.2 6.7 6.8 6.9 6.10 6.11 6.12 6.13 6.14
Fields, Filters & Visualisers .................................................... 91 Objectives of this session .......................................................... 91 Status Fields .............................................................................. 91 Viewing Fields for Sites or Links ................................................ 92 Filters ......................................................................................... 93 Filters can be used to:................................................................ 94 Creating a Dynamic Filter using the Filter Wizard...................... 95 Creating a Static Filter using the Filter Wizard......................... 101 Creating a Filter using the Selection Expert tool...................... 101 The Selection Expert tool:........................................................ 101 The Selection Filter: ................................................................. 101 Editing Filters ........................................................................... 104 Deleting Filters ......................................................................... 104 Exporting Filters using XML Export.......................................... 105 Advice on how to create ‘faster-running’ Filters ....................... 106 Visualisers................................................................................ 107 Creating Visualisers ................................................................. 107 Customising Visualisers........................................................... 108 Session Summary Checklist ; ............................................ 111
7 7.1 7.2 7.3 7.4 7.5 7.6 7.6.1 7.6.2 7.6.3 7.6.4 7.6.5 7.6.6 7.6.7 7.6.8 7.7 7.8
Traffic Planning on a GSM Network ..................................... 112 Objectives of this session ........................................................ 112 Introduction .............................................................................. 112 Terminal Types ........................................................................ 112 Traffic Raster ........................................................................... 116 Exercise: Producing a Traffic Density Raster ...................... 123 Traffic Analysis Process........................................................... 125 Process .................................................................................... 125 Channel-to-Transceiver Maps.................................................. 126 Frequency Bands..................................................................... 127 Carrier Layers .......................................................................... 128 Cell Layers ............................................................................... 134 Allocating Cell & Carrier Layers using Global Editor................ 137 Capturing Traffic ...................................................................... 139 Calculating Carrier Requirements............................................ 141 Exercise: Traffic+Carrier Requirement Planning ................. 144 Session Summary Checklist ; ............................................ 147
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8 8.1 8.2 8.3 8.4 8.4.1 8.4.2 8.4.3 8.5 8.6 8.7 8.8 8.9
Planning Neighbours..............................................................148 Objectives of this session .........................................................148 Introduction to Neighbours........................................................148 Neighbours in the database......................................................148 Graphical Neighbour Design.....................................................151 Displaying Neighbours..............................................................151 Adding Neighbours ...................................................................153 Deleting Neighbours .................................................................153 Exercise: Manual Neighbour Planning ...............................154 Automatic Neighbour Generation .............................................154 Analysing Neighbours...............................................................159 Exercise: Automatic Neighbour Creation ............................161 Session Summary Checklist ;.............................................162
9 9.1 9.2 9.2.1 9.2.2 9.3 9.4 9.4.1 9.4.2 9.4.3 9.5 9.5.1 9.5.2 9.5.3 9.6
Interference and Frequency Planning ..................................163 Objectives of this session .........................................................163 Interference Tables...................................................................163 Interference Table Wizard ........................................................163 Viewing the Interference Table .................................................167 Exercise: Creating Interference Tables ...............................168 Frequency Planning..................................................................169 Manual Frequency Planning .....................................................169 Group Planning.........................................................................170 Group Planning within ASSET3G .............................................170 Analysing the Frequency Plan ..................................................173 Interference Arrays ...................................................................173 Cell Info Reporter......................................................................178 Frequency Re-use Display .......................................................180 Session Summary Checklist ;.............................................182
10 10.1 10.2 10.3 10.3.1 10.3.2 10.3.3 10.3.4 10.3.5 10.4 10.5 10.6 10.6.1 10.6.2 10.6.3 10.6.4 10.7 10.8
Candidate Planning ................................................................183 Objectives .................................................................................183 Nominal and Candidate Functionality .......................................183 Nominal and Candidate Configuration......................................183 Candidate Functionality Field ...................................................184 Automate Field..........................................................................184 Nominal Restrictions Field ........................................................185 Candidate Restrictions Field.....................................................185 Candidate’s BTS Equipment Field............................................185 Site Database View ..................................................................185 2D View Functionality ...............................................................187 Assigning Candidates ...............................................................187 Using the search area button....................................................187 Using the Make Candidates button...........................................189 Displaying Candidates ..............................................................190 De-Assigning Candidates .........................................................190 Exercise: Candidate Planning ...........................................191 Session Summary Checklist ;.............................................192
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11 11.1 11.2 11.3 11.4 11.5 11.5.1 11.5.2 11.5.3 11.5.4 11.6 11.7 11.8
Dual Band Networks .............................................................. 193 Objective of this session .......................................................... 193 Introduction .............................................................................. 193 Overview .................................................................................. 194 Pre-requisites........................................................................... 194 Dual-band Configuration .......................................................... 195 Sharing Antennas .................................................................... 195 Configuring a Dual Band system ............................................. 196 Defining Two Cells (Method one)............................................. 196 Define a Single Cell with Two SubCells (Method Two)............ 200 Dual-Band Coverage ............................................................... 205 Exercise: Dual-Band Planning .......................................... 206 Session Summary Checklist ; ............................................ 207
12 12.1 12.2 12.3 12.4 12.4.1 12.4.2 12.5 12.6 12.6.1 12.6.2 12.6.3 12.6.4 12.6.5 12.7 12.7.1 12.7.2 12.7.3 12.7.4 12.7.5 12.7.6 12.7.7 12.8 12.8.1 12.8.2 12.8.3 12.9 12.10 12.11 12.12
Macrocell Model Tuning ........................................................ 208 Objectives of this session ........................................................ 208 Introduction .............................................................................. 208 The Standard Macrocell Model ................................................ 208 Required Mapping Data ........................................................... 209 Countrywide Dataset................................................................ 210 Urban Datasets ........................................................................ 210 Recommended CW Data ......................................................... 210 The Calibration Process........................................................... 211 Loading Survey Data ............................................................... 213 Setting the Options for CW Measurement Data....................... 214 Displaying Survey Data............................................................ 216 Analysing CW Data.................................................................. 217 CW Measurement Graphs ....................................................... 219 Manual Calibration of the Std Macrocell Model ....................... 221 K1 and K2 (Intercept and Slope).............................................. 221 K7 (Diffraction Parameter) ....................................................... 223 K3 and K4 ................................................................................ 223 K5 and K6 ................................................................................ 224 Effective Antenna Height Algorithm ......................................... 224 Diffraction Algorithm................................................................. 224 Clutter Offset Calibration.......................................................... 225 Performing Auto Tuning with Modelcal .................................... 226 Tuning Model Parameters Automatically ................................. 227 Applying Tuned Parameters to a Propagation Model .............. 228 Viewing and Configuring a Model's Clutter Parameters........... 228 Extracting CW data from another Database ............................ 228 Generating Measurement-based pathloss files ....................... 231 Comparison of Model Performance ......................................... 232 Session Summary Checklist ; ............................................ 233
13 13.1 13.2 13.3 13.4
Generating Reports ............................................................... 234 Objectives of this session ........................................................ 234 Introduction .............................................................................. 234 Site Reporter............................................................................ 234 Frequency Plan Reporter......................................................... 235
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13.5 13.6 13.7 13.7.1 13.7.2 13.7.3 13.7.4 13.8
GSM Cell Info Report................................................................236 Delta Report..............................................................................238 Printing/Plotting.........................................................................239 Print Setup ................................................................................240 Print Preview.............................................................................240 Print ..........................................................................................241 Print Area..................................................................................241 Session Summary Checklist ;.............................................242
14 14.1 14.2 14.3 14.3.1 14.3.2 14.3.3 14.3.4 14.3.5 14.4 14.5 14.6 14.6.1
Planning GSM Data Services.................................................243 Objectives of this session .........................................................243 Introduction ...............................................................................243 GPRS Overview........................................................................244 Defining the Targets of the GPRS Service ...............................244 Updating the Plan with Actual Network Data ............................245 Defining Data Service Settings .................................................245 Cell Layers................................................................................250 Setting Cell Parameters............................................................250 Calculating and Analysing the GPRS Service Area..................252 Defining Terminal Types using Data Service............................252 Distributing Terminals and Creating Traffic Arrays ...................255 Calculating the GPRS Data Rate, Average Data Rate and Service Area Data Rate .....................................................259 Capturing Cell Traffic and Calculating the required Capacity....................................................................................260 Complete the Radio Network Plan............................................262 Exercise: GPRS Planning ................................................263 EGPRS Overview .....................................................................264 Defining the EGPRS Service Targets.......................................264 Updating the Plan with actual Network Data ............................264 Defining Data Service Settings .................................................264 Cell Layers................................................................................268 Setting Cell Parameters............................................................270 Calculating and Analysing the EGPRS Service Area ...............271 Defining Terminal Types using Data Service............................272 Distributing Terminals and Creating Traffic Arrays ...................275 Calculating the EGPRS Data Rate, Average Data Rate and Service Area Data Rate .....................................................277 Capturing Cell Traffic and Calculating Required Capacity........278 Complete the Radio Network Plan............................................280 Session Summary Checklist ;.............................................281
14.6.2 14.6.3 14.7 14.8 14.8.1 14.8.2 14.8.3 14.8.4 14.8.5 14.8.6 14.8.7 14.8.8 14.8.9 14.8.10 14.8.11 14.9
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ASSET3G for GSM-GPRS Tool User
Scope and Course Objectives Scope This document provides notes and supporting material for the ASSET3G for GSM-GPRS Tool User Training Course. It is assumed that the software tool has been installed and the system administrator has configured a suitable Oracle database. Details of how to install the software tool and how to setup a new database source are covered by the ENTERPRISE Administration Course.
Course Objectives The ASSET3G V5.0.2 Course is designed for radio planners who are migrating from other planning tools to ASSET3G. The course is equally beneficial to beginners in the field of Radio Planning. It is advisable that course delegates have previously attended AIRCOM’s technology courses on GSM Radio Planning, UMTS technology or equivalent. At the end of the course, delegates should gain knowledge to enable them to have a solid grasp of the ASSET3G Tool. Delegates will also be able to complete the following objectives: •
Successfully set up the Software Tool
•
Define new projects or use existing project data
•
Understand how to use the Geographic Information System (GIS)
•
Carry out coverage planning
•
Perform Neighbours Planning
•
Comprehend the planning of multi-layered networks
•
Complete traffic planning and analyse the carrier requirements
•
Generate coverage and interference analysis reports
•
Gain an understanding of the GPRS & EDGE functionality in ASSET3G
For detailed and precision handling of GSM & GPRS/EDGE networks, specially overlaid with UMTS, AIRCOM has developed a Monte Carlo Simulation engine for GSM & GPRS/EDGE. This is an additional module available with V5.0.2 and is specifically recommended for those operators with large networks and technology covering: GSM, (E)GPRS, or GSM, GPRS/EDGE & UMTS. This manual covers the use of ASSET3g without simulation; if this is required a separate document will be provided in addition to this training material.
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Scope and Course Objectives
Sessions This course is divided into the following sessions: 1. Introduction to ENTERPRISE 2. Setting up a New Project 3. Using the GIS and other Visual tools 4. Polygons and Vectors 5. Setting up a GSM Network 6. Fields, Filters & Visualisers 7. Traffic Planning on a GSM Network 8. Planning Neighbours 9. Interference and Frequency Planning 10. Candidate Planning 11. Dual Band Networks 12. Macrocell Model Tuning 13. Generating Reports 14. Planning GSM Data Services
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Course Timetable Day 1
Day 2
Period
Plan
Period
Plan
0930-1000
Introduction
0930-1000
Session 5 – Setting up a GSM Network
1000-1045
Session 1 – Introduction to ENTERPRISE
1000-1045
Session 6 – Fields, Filters & Visualisers
1045-1100
Break
1045-1100
Break
1100-1145
Session 2 – Setting up a New Project
1100-1145
Session 6 – Fields, Filters & Visualisers
1145-1230
Session 3 – Using the GIS and other Visual Tools
1145-1230
Session 7 – Traffic Planning on a GSM Network
1230-1330
Lunch
1230-1330
Lunch
1330-1415
Session 3 – Using the GIS and other Visual Tools
1330-1415
Session 7 – Traffic Planning on a GSM Network
1415-1500
Session 4 – Polygons and Vectors
1415-1500
Session 8 – Planning Neighbours
1500-1515
Break
1500-1515
Break
1515-1600
Session 5 – Setting up a GSM Network
1515-1600
Session 8 – Planning Neighbours
1600-1630
Session 5 – Setting up a GSM Network
1600-1630
Session 9 – Interference and Frequency Planning
Day 3
Day 3
Period
Plan
Period
Plan
0930-1000
Session 9 – Interference and Frequency Planning
1330-1415
Session 12 – Macrocell Model Tuning
1000-1045
Session 9 – Interference and Frequency Planning
1415-1500
Session 13 – Generating Reports
1045-1100
Break
1500-1515
Break
1100-1145
Session 10 – Candidate Planning
1515-1600
Session 14 – Planning GSM Data Services
1145-1230
Session 11 – Dual Band Networks
1600-1630
Course Evaluation and Feedback
1230-1330
Lunch
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© AIRCOM International
Introduction to ENTERPRISE
1
Introduction to ENTERPRISE
1.1
Objectives of this session
During this session you will learn about:
1.2
The ENTERPRISE Tools Suite
The ENTERPRISE Database and its contents
The Two-Stage Commit concept
The ENTERPRISE Tools Suite
ENTERPRISE is the name given by AIRCOM for the collection of software applications which form a powerful network systems management tool suite. The ENTERPRISE tools can share a common Windows (2000 / XP) platform, Geographical Information System (GIS) and Relational Database core. Within ENTERPRISE V5.0.2 the following tools are available: ASSET3g
2G & 2.5G Radio Network Planning for GSM, GPRS, EDGE AMPS and TDMA. Radio Network Planning for UMTS FDD/TDD, and CDMA2000.
NEPTUNE
GSM & GPRS Test Mobile Logging and Analysis
CONNECT
Microwave Link Planning
DIRECT
Transmission and Capacity Planning
OPTIMA
Network Performance Monitoring and Management.
TARGET
Data sharing and Consolidation Tool
ADVANTAGE
Automatic Cell Planning and Network Optimisation
DATASAFE
Network Data and Configuration Management.
RANOPT
3G Networks Post Processing and Analysis
QUALITA
QoS Management Tool
WEBWIZARD
Web-based GIS and Report distribution tool
UTILITIES
A set of utility tools common to all members of the ENTERPRISE family.
This training course focuses on how to use the ASSET3g tool for GSM and GPRS/EDGE Network planning.
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ENTERPRISE can be ‘run’ in a number of configurations: •
In an office environment over a Local Area Network (LAN)
•
Between offices using a Wide Area Network (WAN)
•
Standalone on a laptop computer in the office or field.
The following diagram depicts the key functional elements of the system and their interrelationships:
Relational Database
LAN/WAN
NT Workstations
Printer/Plotter
1.3
1.3.1
Support and Website information
Obtaining Help On-Screen
The ENTERPRISE Suite has an in-built system of on-screen Help which you can access in three ways: 1) From the Help menu, click Help Contents. Scroll through the table of contents and choose a relevant topic to display. 2) To search for something particular, from the Help menu, click Help Contents and on the Index tab, type in a word. 3) Context-sensitive help is available for most of the dialog boxes. Therefore, to get relevant Help about using a dialog box, in the dialog box, press the F1 key.
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Introduction to ENTERPRISE
1.3.2
Printing Copies of the ENTERPRISE User Reference Manuals
If you prefer to read information in manual form, rather than online help, you can view the manuals supplied as PDFs (Adobe portable document format) on the ENTERPRISE CD, or print out your own copies of them on a postscript printer. You can choose to install the PDFs on your PC when installing. You can also download these PDFs from the Customer Support area of the Aircom website.
Note: Adobe and Acrobat are trademarks of Adobe Systems, Incorporated.
1.3.3
Obtaining Support
If you have any difficulties that you cannot resolve yourself using the online Help, or you believe that you have found a fault in the software, please contact the AIRCOM Product Support Group. If you are in
Email
Phone
Fax
North America South America Singapore and Asia Middle East and Africa India South Africa Rest of World
[email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected]
+1 214 360 7240 +55 12 3941 2199 +65 372 0548 +971 4 391 2640 +91 124 5102445 +27 11 745 1475 +44 1737 775777
+1 214 360 7241 +55 12 3911 3727 +65 372 0350 +971 4 391 8660 +91 124 5102450 +27 11 465 1517 +44 1737 775770
1.3.4
Linking to the AIRCOM Website
For additional information about AIRCOM International products and services, check the AIRCOM International website at http://www.aircom.co.uk.
1.4
The ENTERPRISE Database
The ENTERPRISE Database is common to all the tools. ENTERPRISE 5.0.2 supports only Oracle 9i. The supported Windows platforms are either:
Windows 2000
Windows XP Pro
The database would typically reside on a dedicated server computer connected to your network. The ENTERPRISE software would then be installed and run from client Windows 2000 or Windows XP workstations connected to the same network. In an optional stand-alone configuration, it would be necessary to install the Oracle database on the same PC as the ENTERPRISE client.
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1.4.1
Database Contents
The ENTERPRISE database stores all of the parameters required to fully describe the network being modelled. For ASSET3G this includes details of items such as (but not limited to):
Project definition settings (e.g. map projections, directory settings, etc.)
Switching Equipment
Physical Locations
Base Station Sites
Cells & Cell Layers
Carriers & Carrier Layers
Neighbours & Exceptions
Propagation Models
Antenna Radiation Patterns
Radio Equipment Details (e.g. Feeders, Mast Head Amplifiers, etc.)
The full list of items is too large to present here but can be found in the database table descriptions included in the DATABASE Reference guide.
1.5
Two-Stage Commit
Data is stored in the database in two types of tables: 1. The COMMIT Tables, which contain the master set of data accessible to all users. 2. The DIFFERENCE (DIFF) Tables, which contain provisional changes to the master Committed tables, for each individual user. When a user makes a change to the database, the change is first “APPLIED”, which means that the change is stored in that user’s “DIFF” tables and can only be seen by that user. When the user is satisfied that the change is correct and that all users should be aware of the new network data, it can then be “COMMITTED” to the master tables using the ‘COMMIT’ or ‘COMMIT ALL’ buttons. The COMMIT button saves selected changes within an open window to the database, whereas the COMMIT ALL button saves everything within that window to the database. This two-stage process for storing data in the database enables users to experiment with new designs without affecting other users, until satisfied with that particular change.
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Introduction to ENTERPRISE
Note: If a change has only been ‘Applied’ to the database it is possible to use the RESTORE button in the Site or Link Database window to revert back to the previous Committed state.
Database
COMMIT Tables
DIFF Tables COMMIT
APPLY
Enterprise User 1
User 1 User 2
Enterprise User 2
The changes committed to the database by one user will not be visible to another user until the project is re-started (i.e. after logging off and on again).
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1.6
Summary Checklist
;
This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session: ¾ An overview of the ENTERPRISE tools suite
F
¾ Introduction to the ENTERPRISE database and its contents
F
¾ Comprehension of the Two-Stage Commit
F
Additional Notes:
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Setting up a New Project
2
Setting up a New Project
2.1
Objective of this session
In this session you will learn how to:
2.2
Start the ENTERPRISE suite application.
Login to the ENTERPRISE database.
Create a new project.
Set up the project with the appropriate co-ordinates and map data directories.
Starting ENTERPRISE
Once your system administrator has set-up the ENTERPRISE database and created a user account for you, it is then possible to start ENTERPRISE and create a new project ready for planning work. To start ENTERPRISE go to the Windows ‘Start Menu’ and look for: Start → Programs → AIRCOM International → Enterprise V5.0→ AIRCOM Enterprise Suite Once successfully started, the ENTERPRISE Toolbar will appear along the top of the screen, with tabs corresponding to the different ENTERPRISE modules (the precise modules appearing will depend on which modules have been licensed).
To proceed further, it is necessary to log in to the ENTERPRISE database.
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This is done through the ‘Database Login’ window, which appears as below:
Select the appropriate database, using the drop down menu, from the ‘Data Source’ field and enter your ENTERPRISE username and password, given to you by your Administrator. Note: Your administrator generally creates the ENTERPRISE database, User Id’s and Passwords. The database, User Id and Password creation process is not covered on this course, but is covered in detail on the ENTERPRISE Administration course. Now click on the ‘Login’ button, which will bring up the ‘Start Project’ window:
In the example above, one project has already been created in the chosen database.
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Setting up a New Project
2.3
Creating a New Project
To add a new project you must first be logged in to the database as a user with “Create Project” permissions – if this is not the case the ‘Add’ button in the ‘Start Project’ window will be greyed-out. Presuming that you have the correct permissions, click on the ‘Add’ button. The ‘Table Selection’ window will then appear, only if a project has been created beforehand (as with our example):
Within the Table Selection window you can choose to create a completely new, standalone project or to share existing network data from another project. Projects created using the ‘New Project data’ option have a unique set of data tables*, whereas projects created using the ‘Share existing Project data’ option will make use of the same data tables as the project selected to share with. Each project has its own co-ordinate projection settings and directory paths where the mapping and user created data are stored. *Antennas are the exception to the rule. When a project is created using the ‘New Project data’ option, then the data is unique to that project. When importing new antenna patterns from the manufacturer’s data files, it is possible to make the new antennas available to all projects in the database. This means they don’t have to be imported every time you set up a new project. The question people often ask at this point is “So why would I want to share project data between projects, when I could just use one project?” The reason for having this feature is for countries where the radio network spans more than one co-ordinate projection system. For example, a network in Australia could span seven different Universal Transverse Mercator (UTM) projection zones, each requiring different settings to obtain the correct co-ordinate conversion between spherical co-ordinates (e.g. Lat/Long) and Cartesian co-ordinates (e.g. x/y grid). Nevertheless the user may wish to store all of the network data in one set of data tables. In this case it would be possible to set up seven different projects, one for each set of map data, all connected to the same set of data tables.
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After selecting whether or not to share data from an existing project, just click on the ‘Continue’ button to continue to the ‘Modify Project’ window:
To set up the project you first need to give it a name and then complete the entries in each of the tabbed sections of the window. Note: The various ‘directory paths’ that specify the location of the relevant project map data and any user-created data (e.g. vectors, favourite views) are normally stored in the database. As a consequence, these settings are available to all users logging into that project. If a user wishes to temporarily alter these settings without affecting other users (e.g. trials with a different set of map data), it is possible to specify a locally defined set of directories. This is done by selecting the ‘Override Database Directory Settings’ check box, consequently these settings will be stored in the ‘aienterprise.ini’ file, which is stored in the WINNT directory. The overridden settings are not stored in the database and will not therefore affect other users.
2.3.1
Co-ordinate System
Within this tab we specify the map co-ordinate projection settings which correspond to the digital map data we are going to use. The suppliers of the map data provide these settings. They specify how to convert between spherical co-ordinates (e.g. Latitude and Longitude) as used on the real “spherical” earth and those used on the flat, two-dimensional maps we use for planning.
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Setting up a New Project
Although ENTERPRISE supports most popular co-ordinate systems, those, which are unique to a particular region, may not be supported. In these cases it is recommended that you contact AIRCOM Product Support for a solution. A full explanation of how to set up the Co-ordinate System, Map Projections, Ellipsoid and Datum information is included in the ENTERPRISE User Reference Guide.
2.3.2
Map data directories
In this tab the location of the available map data is specified. Note: Not all of the data categories listed in this tab will be available for every project. If this is the case leave the category field blank. Use the browse button to locate the network directory where each type of data is stored and then click on the ‘OK’ button. The directory location will then automatically be entered.
Note: If you are accessing map data on a remote network computer it is best to enter the full network path including computer name (e.g. \\computer\map_data\country\data_type), rather than the path to a locally mapped network drive (e.g. F:\map_data\country\data_type). This will avoid problems with different users having different mapped network drive letters. This can be achieved using the ‘Browse’ feature by navigating through the Network Neighbourhood item to the remote computer and from there to the relevant data directory.
2.3.3
User data directories
All of these settings should be completed; the same ‘Browse’ technique can be used as for the map data settings.
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Depending on the policy decided upon by your administrator you may store some of these items in shared directories or you may have your own local directories. The directories relate to: User preferences:
Specifies a directory where favourite views can be stored and accessed.
Prediction Directory:
Stores coverage predictions created within ENTERPRISE for later use.
Colour palette:
Specifies which colour palette file to use in preference to the default Windows colour palette. This is simply a text file containing a list of RGB numbers in the order that the desired colours should appear in the palette. If less than 256 colours are specified, the remaining palette entries come from the default Windows palette.
Coverage Array Directory:
This specifies the default location to store any coverage, traffic or Interference arrays by the user(s).
User Line data:
Stores user created vectors or polygons generated within the ENTERPRISE suite.
Note: It is important that a unique directory is used to store the predictions for each project. The predictions are stored using a numbering scheme based on the database key numbers relating to the project, site and cell – these numbers can be reused between projects. To ensure the predictions are stored correctly they should be kept in separate directories.
2.3.4
Map Data Extents
Within this tab the maximum and minimum easting (x) and northing (y) values of the available map data are displayed. These ‘extents’ are required so when the map view is first opened the view is targeted at the correct part of the world. You can either enter these values manually or click on the ‘Calculate’ button, which will instruct the application to compute the correct values based on the map data in the directories you specified previously.
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Setting up a New Project
2.3.5
Region Load
The Region Load tab enables the user to only load sites in a specified region. This is useful when you have large numbers of sites and properties in a database but are only interested in some of them, for example those in a particular region.
2.3.6
Info
The info tab allows the user to attach additional descriptions and comments against the project definition.
2.3.7
Override Database Directory Settings
The various ‘directory paths’ that specify the location of the relevant project map data and any usercreated data (e.g. vectors, favourite views) are normally stored in the database. As a consequence, these settings are available to all users logging into that project. If a user wishes to temporarily alter these path settings without affecting other users (e.g. trials with a different set of map data), it is possible to specify a locally defined set of directories. This is done by selecting the ‘Override Database Directory Settings’ check box; consequently these settings will be stored in the machine’s Registry. The overridden path settings are not stored in the database and will not therefore affect other users. These Override Settings will affect the following tabs: Map Data directories, User Data directories, Map Data Extents and Region Load. That completes the project set up. Click the ‘OK’ button to save the set-up. The set-up can be modified at a later stage if required, by returning to the Start Project window, highlighting the desired project and then clicking on Info>>.
2.4
Starting the Project
Select the appropriate project and then click the ‘Start’ button. ENTERPRISE will open the project and all the buttons on the toolbar will become active. Select the ASSET3G tab.
The following table summarises the users of the icons in the toolbar both specific to ASSET3G and general to the ENTERPRISE suite:
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Exit:
Closes the current project (if open), logs out of the database and exits from ENTERPRISE.
Login:
Logs into an ENTERPRISE database.
Logout:
Logs out of the current ENTERPRISE database.
Open Project:
Brings up the ‘Start Project’ window from which the required project can be opened.
Close Project:
Closes the current project, but remains logged into the current database.
2D Map View:
Opens a new 2D Map View. The main way of displaying geographical data.
Site Database:
Opens the site database window, in which all network elements and property data is stored and displayed.
Predictor:
Opens the Coverage Predictor window, in order to create prediction calculations on the sites in your network.
Monte Carlo Wizard:
Opens the Monte Carlo Wizard for UMTS, GSM or both.
Wastebasket:
Opens the wastebasket, which is part of the two-stage delete feature. Deleted items from both the site and link databases will be moved into the wastebasket and can be restored until they are deleted from the wastebasket.
2.4.1
Viewing settings for the current project
Once a project is open, you can view its setting by clicking on File → View Project Settings…. You cannot modify the settings from this window, to edit: close the current project by clicking on File → Close Project, click then on File → Open Project and select ‘Info>>’. Edit as needed.
2.5
Message Log Window
The message log window opens automatically when a project is started and contains confirmation Messages, Warnings and other types of messages,. It’s very useful for troubleshooting purposes.
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2.6
Exercise: Starting a Project
This exercise will enable you to set-up a new project prior to commencing Radio Planning. To start, we suggest: 9 “Launch’ the ENTERPRISE suite from the Windows ‘Start Menu’. 9 Select the correct data source, login to the database with the appropriate user name and password: Data Source: User Name: Password: 9 In the ‘Start Project’ window click on the ‘Add’ button. 9 Select the ‘New Project data’ option, in the Table selection window, before clicking the ‘continue’ button. 9 Within the ‘Modify Project’ window name your new project “JerseyCom” 9 Under the ‘Co-ordinate System’ tab, click the ‘Change’ button and choose the following settings: Group:
Universal Transverse Mercator
System:
Zone 30N (6W to 0W)
Datum:
WGS84
Linear Unit:
METERS
9 Load all available mapping data into the under the Map data directories tab. 9 Complete all settings within the ‘user data directories’ tab. 9 Click the ‘calculate’ button within the ‘Map Data Extents’ tab. 9 Click the ‘OK’ button in the ‘Modify Project’ window. 9 Highlight your newly created “JerseyCom” Project in the ‘Start Project’ window and click on ‘Start’.
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2.7
Session Summary Checklist
;
This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session: ¾ How to successfully start the ENTERPRISE suite application
F
¾ Successfully log into the ENTERPRISE database
F
¾ Create a New Project
F
¾ Correctly configure a project prior to starting the planning process
F
Additional Notes:
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Using the GIS and other Visual tools
3
Using the GIS and other Visual tools
3.1
Objective of this session
In this session you will learn how to use the Geographic Information System (GIS) to capture and display different types of mapping data. This session will also cover the use of other visual tools that are available to the user for planning.
3.2
Introduction
The GIS is a fundamental part of the ENTERPRISE suite in which you can view the different data available within ENTERPRISE including site data, connectivity and mapping data. The GIS is also referred to as the Map View window and 2D View window. The Map View window and Site Database window are fully synchronised so that changes made in one window are reflected in the other. Similarly, when you click on a network element or property in the 2D View, an open Site Database window will update dynamically to display the selected item.
3.3
Opening the 2D View window
Once you have started a project you can open a new 2D View window (GIS/Map View window) by from the main toolbar, or by selecting View → New 2D clicking on the ‘New 2D View’ button View from the main menu. A new 2D View window will be displayed.
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There are many buttons included in the 2D View, which are arranged into toolbars with different functions. We will now look at each of these toolbars in turn and discuss their functions. Note: It is possible to open multiple 2D-View windows (if you wish) to display different kinds of data simultaneously.
3.4
Map View Toolbar
This toolbar is always shown on the 2D View (Map View) window, regardless of which products you have installed with the ENTERPRISE suite. We will now discuss the button functions of the Map View Toolbar.
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3.4.1
Displaying Map Data
When a new 2D View window is opened it is initially blank. To see the available data types which can be displayed, click on the ‘Show Data Types’ button
within the Map View Toolbar.
Note: an alternative method is to use the Key/Legend icon, explained in the following section. Both methods work in harmony. The different categories of data configured for use within ENTERPRISE will appear. For example, if you want to display a coastline; Click the ‘plus’ sign on the Standard Polygons category, to expand it, and select the check box next to ‘coastline’.
Clicking the OK button will then display the selected item in the 2D View. To change the display style of any data category simply double-click, using the left mouse button, over the category name. A display properties window will then appear allowing you to change the properties of the displayed data. The different properties shown will depend on the item selected. Click on the OK button to save the change, and then click OK & Redraw to see the display change.
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Once you have customised the colours and styles for each item these will be automatically saved for future sessions. Note: A word of caution regarding the display of ‘rasterised’ data such as heights or clutter. Before displaying these data types please make sure you are not zoomed out too far. This kind of data can require a large amount of RAM to display – the amount being simply a function of the area being displayed divided by the area of a single pixel of the rasterised data (resolution). If the area you have selected requires more physical RAM than your PC has available the drawing process will be VERY slow. It is often best to draw some vector data first in order to navigate to the required view area (this requires much less RAM) before displaying the heights or clutter data.
3.4.2
Key/Legend
Clicking the ‘Key/Legend’ button launches the ‘Map Information and Control’ window. This window consists of three tabs, each having its own functionality: Layer Order Tab:
This tab shows the currently selected data types in the order they are displayed on the map, with the first item in the list being the last one to be displayed on the map.
To move a data type up or down the order, select the required layer and click on the up or down arrow buttons as required. Click the ‘Redraw’ button to automatically update the Map View window with the changes.
To delete data layers, select the Layer you want to delete, then click the ‘Remove Selected’ button. You can also click the ‘Remove All’ button.
Double clicking, with the left mouse button, on a Layer item will bring up the display properties window for that item. You can then change how that item is displayed.
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Legend Tab:
This tab shows information such as the display symbols, key strings, colours and values assigned to the data types that are currently being displayed in the open 2D View window.
The Legend tab is purely for information only, as there is no editing functionality.
Data Types Tab:
This tab shows the different categories of data configured for use within ENTERPRISE. It has the same functionality as the ‘Show Data Types’ list, selected through the Main View Toolbar.
Having selected a category to display, clicking on the ‘Redraw’ button will then draw the selected item in the 2D View window.
Double clicking, with the left mouse button, over the category name will bring up the display properties window, allowing you to change the properties of the displayed data. Click on the OK button (in the display properties window) to save the change, and click the ‘Redraw’ or ‘Apply’ button to see the display change in the 2D View window.
3.4.3
Selecting Items on the Map
This button is selected by default and is used to select items in the 2D View window. If you have performed any of the repeatable functions (e.g. adding network elements or zoom/panning), you may need to click on the ‘select’ button
3.4.4
to return to the select mode.
Selection Expert Toolbox The various buttons contained within the Toolbox allows for easy selection of elements to be placed into a ‘Selection’ filter. The selected elements will then appear in the Selection Expert where they then can be saved or exported as a filter. Note: This functionality will be covered in the Session on Filters and Fields.
3.4.5
Zooming
Activate the Zoom tool by clicking on the ‘Zoom’ button from the Map View Toolbar. Use the left and right mouse buttons to increase and decrease the magnification level. •
To zoom in, click the left mouse button on the image (2D Map View). The magnification increases by one level each time you click the image, and the image centres where the Zoom button was clicked.
•
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Alternatively, the zoom can be adjusted interactively by depressing the left or right mouse and moving the mouse back and forward.
3.4.6
Zoom Box
Selecting the ‘Zoom Box’ button required area with a resizable box.
3.4.7
allows you to zoom into a desired location by defining the
Panning
Use the ‘Pan’ button to reposition displayed data in the 2D View window. Having selected the Pan button click and hold down the left mouse button and drag the displayed data to the required location. The Pan button remains activated until another toolbar button (e.g. select button) is chosen, allowing the user to continue to drag the displayed data to any desired position.
3.4.8
3D View
As well as the 2D View window, ENTERPRISE contains a 3D View window, which enables the user to more easily view, the map data in 3 dimensions. The 3D View displays items that are shown in the 2D View window with the same colour selection. Note: The 3D View has a black background so you may want to change the colour of anything you have defined as black in the 2D View window, to make it possible to view in the 3D View. Click on the ‘3D’ button
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, and the 3D View appears:
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Note: The 3D View uses height factors, which can be set manually, to exaggerate the displayed data. The default setting for these factors is 1. Because the 3D View is intended as a quick way of viewing information you have displayed in the 2D View window, only in three dimensions, you cannot change what data is being displayed. This would have to be done in the 2D View window before re-opening the 3D View. However, when using the 3D View you can use the various buttons on the toolbar:
3.4.9
Settings
To change how the data is displayed in the 3D View window, click on the ‘Settings’ button
.
Within the Display Settings tab there are 3 fields, which are described in detail below: Clutter Height:
Allows the use of user defined clutter heights or clutter heights as defined in a propagation model to be used in the 3D Map View.
Height Factors:
Height factors are entered to exaggerate the size of terrain, clutter and sites. These should be changed to figures in the range 2-5.
Display:
Choose to display an Axis. Choose to display ‘Fog’ or ‘Blend’ to add visual enhancement to the 3D View.
The four options within the ‘Fresnel Settings’ tab are only relevant to users of CONNECT , the ENTERPRISE’s Microwave Link Planning tool.
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3.4.10
Zooming In and Out
The ‘zoom in’ and ‘zoom out’ buttons can be used to magnify or shrink the current display in the 3D Map View window by a factor of two.
3.4.11
Solid View
Choose the ‘Solid View’ button to display the 3D displayed data as solid colour, taking light into account. This enables the user to view map data more clearly than in the Wireframe View, but takes more time and memory to generate.
3.4.12
Wireframe View
This is the default display setting, which displays the data as a line sketch. The advantage of using the Wireframe View is that it takes less time to generate. To revert from a Solid View to the Wireframe View click on the ‘Wireframe View’ button
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3.4.13
Printing the 3D Map View
You can print the data displayed in the 3D View window by clicking on the ‘Print Display’ button . After setting up the various print options, click on the Print button.
3.4.14
Searching the 2D View
You can search the 2D View for different items such as locations, Properties, Links or text; clicking on the ‘Search’ button does this
, and the following window will appear:
Having chosen a method and entered the data you wish to search for, click on the Find button. Note: In Site and Text searches, you can search by exact string, sub-string or regular expression. If the item is found, the 2D Map View will zoom and centre on the midpoint of the item and display an ‘X’ to mark the spot.
3.4.15
Printing Maps
You can print the contents of the 2D View using the various ‘print’ options, all to be found under then File menu option at the top of the Map View. These ‘print’ options allow the user to: Print the Map Data displayed in the 2D View window. Preview the Map Data prior to printing. Display and Print only a selected area in the 2D View window. Specify the page orientation, size, source and margins for printing. Also an option to change printer, define printer properties and set the number of copies can be done. Enter a title, copyright statement and comments for the printed item. A default or customised logo can also be chosen, plus the option to print to a defined or default scale is also available. © AIRCOM International
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3.4.16
Export to MapInfo
You can export the contents of the 2D Map View window to MapInfo software by using the ‘Export to MapInfo’ option, found under then File menu option at the top of the Map View.
3.5
2D View ‘Context’ menu
The ‘Context’ menu is accessed by clicking, with the right mouse button, in the display area of the 2D View window. The context menu is a versatile menu that contains some of the most useful display control features, such as: Redraw:
Refreshes the screen after manipulating data. Also linked to the key/legend window to update all listed data.
Mouse Zoom:
Zooms into a desired location by defining the required areas with a resizable box.
Menu Zoom:
In contrast to the above, this function zooms to:
A set multiplication factor (x_)
A set window size (_km)
The previous view (Last)
A defined home view (Home)
The current view will determine whether zooming in or out will occur.
Add to Favourites:
Stores frequently used Map Views, this includes remembering both the visual layers displayed as well as the exact region, zoom level and resolution selected. To rapidly select between the different favourite views, use the favourites pick-box on the Map View Toolbar:
These can be stored, and optionally shared amongst other users. Organise Favourites:
Offers a way of renaming or removing existing favourites.
Set Home:
Sets the ‘Home’ view and specifies the zoom level with which any new 2D View window initially open.
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3.5.1
Favourites
You can save a 2D View window as a favourite, meaning you can easily restore a predefined working environment; this includes the screen position of the 2D View, the resolution of height data, building height data, clutter data, display properties, coverage arrays, interference arrays and traffic arrays. You can also store and share your favourites among other users. To save a favourite 2D View, having set up the view exactly as you want it, simply click the right mouse button in the display area of the 2D View window to bring up the context menu. From the menu, select ‘Favourites → Save’. The window below then appears:
Give the favourite a unique name, and add any comments you want. Select which display items to store, and whether to preserve the layer ordering, along with the favourite view. Note: If you do not select any of the optional attributes to store with the favourite view, then the favourite will only store the view location, scale and size but not what was displayed. It is best to always ensure you at least check the Display list (map layers) option. Favourites are a very powerful and useful feature in ENTERPRISE and should be fully utilised at every step in the planning process as a way to keep the 2D View information organised. Creating detailed Favourite views of map data, network data, coverage, interference and traffic arrays, etc. can help immensely in tracking and displaying the planning project progress. The favourite is stored in the folder you have defined in the ‘User Data Directories’ tab of the Modify Project window.
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To access a created favourite view through the 2D View window, select the name of the favourite view from the pick-box on the Map View Toolbar:
You can quickly jump between different favourites by selecting the one you want from the above pick box. This can be done within the same 2D View, but remember that it is also possible to open multiple 2D Views, each one displaying a different favourite view. Note: Favourite Views DO NOT save the customised display settings such as colours, line thickness, network element symbols, etc. These settings will always be the latest ones that the user has chosen. However, the Favourite Views DO remember the exact combination of layers (network data filters, map data, etc.) which are ‘ticked’ in the list of Data Types at the time the Favourite is saved. This makes these Favourite Views extremely useful, because they will always display the up-to-date network situation in the selected region. Once a favourite has been defined, it cannot be modified. If you want to change a favourite, you can simply add a new one and overwrite the old one. To delete a favourite view, right-click on the 2D View and select ‘Organize’, highlight the favourite before clicking ‘delete’. The ‘Edit’ button is used to rename a Favourite and change the description.
3.6
Map View Gadgets Window
The Map View Gadgets window will give you information about a particular pixel/point on the 2D View. The Gadgets window can be either attached or detached to the bottom of the 2D View window or detached from it.
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Point to View and click Show Map View Gadgets at the top of the 2D View, and this will open the Gadgets window.
The user can select the information displayed in the Gadgets window by clicking on the ‘Edit Map Information’ button
.
The user can Add items as required (e.g. Location, Clutter, Nearest Cell, etc.), by highlighting the item in the ‘Available items’ pane and using the Add> button to move it to the ‘Selected items’ pane. The process to remove items is done in a similar manner, highlight the item from the ‘Selected items’ pane, and then click
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3.7
Exercise: Using the 2D View and Favourites
This exercise will allow you display and capture different types of mapping data through the 2D View window. Using your project named “JerseyCom” open a 2D View window and display the following data types, before saving each as a favourite.
Display: • • •
Coastline (Colour – Black, Width - 1) Main-roads (Colour - Grey) Streets (Colour - Brown)
Display: • •
Coastline (Colour – Black, Width - 1) Block Height data (Colour – Green, Min 0, Interval 5, Resolution 50m, Zero Height Colour – White)
Save as a favourite and name it “Height Block Data”
Display: • •
Coastline (Colour – Red, Width - 1) Map Backdrop/AirPhoto Backdrop (Display Coloured)
• •
, to search for Easting (558579) Northing (5451026) Use the ‘Search’ button Use the Zoom facility to display the Airport Runway
Save as a favourite and name it “Main View”
Save as a favourite and name it “Airport”
Display: • • • •
Coastline (Colour – Black, Width – 2) Urban Clutter data (Colour – Orange) Water Clutter data (Colour – Blue) Text/Cities (Font – Arial, Font Style – Regular, Size – 10, Colour – Black)
• • •
Use the ‘Search’ button to search for “St. Helier” Use the Zoom facility to zoom around the harbour area of the capital (St. Helier) Save as a favourite and name it “Harbour and Urban Clutter”
Now, go back and review the favourites that you’ve created and verify that they were saved correctly.
3.8
Master View Window
The Master View window is a small-scale map, which indicates the position of any currently opened 2D View window with a rectangle.
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The Master View window is accessed through the Main menu or from the 2D View, by selecting View → Master View...
When first opened the Master View window appears blank. To choose what data is displayed within the Master View window, click with the right mouse button and click on the ‘Properties…’ button:
From the menu that appears select the data you require, clicking on the Properties> button will allows you to change the display properties of that data.
Click on the OK button to return to the Master View window.
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The position and size of the current open 2D View window is indicated with a small rectangle. Note: You can use the Master View window to scroll your 2D View. By depressing the left mouse button, and dragging the rectangle to the required position the 2D View will scroll to that location on the release of the mouse button.
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3.9
Session Summary Checklist
;
This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session: ¾ Open a new GIS window
F
¾ Display different map data categories
F
¾ Using the Zoom and Panning functions
F
¾ Saving and editing favourites
F
¾ Using the Map Information window to view map data
F
Additional Notes:
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4
Polygons and Vectors
4.1
Objective of this session
In this session you will learn about:
4.2
How to create and display a Polygon
How to create and display a Vector
Overview
Polygons and Vectors are a very powerful feature available to the Radio Planner when using ASSET3G. A user can create and display their own Polygons and Vectors, which are saved into the project database. The user has the flexibility of designing an area on the 2D View, consisting of a number of points. A set of points is called a segment. A Vector consists of one or more segments, as does a Polygon. However for a Polygon, at least one of the segments must be closed. An attribute belongs to a segment within a Vector or Polygon. Attributes can be information such as salary or population data, which a value can be assigned to.
4.3
Creating a user Polygon
Firstly, ensure you have a Map View (2D View) window open with the required area and data types displayed. Click on the ENTERPRISE ‘Utilities’ Tab and select Tools → Vector… to obtain the Vector Editor window.
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To create a user polygon, highlight the ‘User Polygon Data’ category by clicking on it with the left mouse button, then click with the right mouse button to bring up the following options:
Select the ‘Add Vector/Polygon’ option, by clicking on it with the left mouse button. You will now be prompted to provide a name for the new user Polygon. Having entered a name click on the OK button to continue.
Now highlight the new user Polygon in the tree-list, by clicking on it with the left mouse button, and click on the Start button in the Vector Editor window.
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Now go to the Map View (2D View) and click, with the left mouse button, on the Start point of your User Polygon. Continue moving the mouse around the 2D View, clicking with the left mouse button on all subsequent points of the user Polygon. If you make a mistake, click on the Undo button in the Vector Editor window to remove the last point created. Note: You don’t have to link up the points at the two ends of a Polygon as this is done automatically when you click the Stop button in the Vector Editor window.
When you are finished click the Stop button in the Vector Editor window, or alternatively, double click the left mouse button in the 2D view, which will also link the remaining points together. This now completes the creation of a Polygon with one segment. The ability to move points after clicking the Stop button is available through the Move option. By clicking on the Move Point button a point can be dragged to a new location. When you have finished click on the Save button to store the new user polygon to the database. Note: It is not possible to move points about the 2D View once the Polygon has been saved. The new user Polygon will now become visible by using the redraw option, available by clicking with the right mouse in the 2D View window.
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You can change the display properties of your user Polygon by double clicking with the left mouse button on the appropriate user Polygon in the Show Data Types tree list.
4.4
Adding Segments to a Polygon
You can add more segments to the Polygon by simply repeating some of the steps previously discussed. Highlight the user Polygon to be edited, by clicking on it with the left mouse button. Click on the Start button in the Vector Editor window and in the Map View (2D View) window, click on the start point and all subsequent points of the new segment. If you make a mistake, click the Undo button in the Vector Editor window to remove the point. Click the Stop button in the Vector Editor window, followed by the Save button to save the segment to the database. Note: You cannot delete individual segments from a polygon when you have added them. You can only delete the whole Polygon.
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The picture below shows one Polygon that contains two segments:
4.5
Adding Attributes to a Polygon
Attributes, as previously described, can be information such as salary, quality of area, population data etc. This value can then be assigned to segments within a Polygon. Adding attributes to previously created Polygon segments is done through the Vector Editor window. Having selected the required Polygon in the tree view; by clicking on it with the left mouse button, select the ‘Segment Attribute Editor’ tab in the Vector Editor window. Open a Map View (2D View) window and display the Polygon and click with the left mouse button on the segment for which an attribute is going to be added.
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Within the Vector Editor window, under the Segment Attribute Editor tab, Click on the Add button; the following window appears:
9 Enter an Attribute Name, for example ‘Urban Population’ 9 Choose, using the drop menu, whether you want the value to be an Integer or Double 9 Enter the Attribute Value (e.g. 30,000 to indicate the Urban Population in this segment) Click on the OK button to add the information to the segment. Repeat the above steps for each segment you wish to add attributes to. Note that if you wish to compare values between segments, the same attribute name must be used in all segments.
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4.6
Viewing Attributes
Having created attributes for Polygon segments, these can now be viewed in the Map View (2D View) window. This is done within the ‘Fill’ tab of the display properties window, which can be accessed by double clicking with the left mouse button on the appropriate user Polygon in the Show Data Types tree list.
Select the ‘Draw Filled Polygon’ option and select the Attribute Name from the drop down menu. Choose a starting colour from the palette, enter the Minimum value to be displayed and the step Interval (e.g. if you typed 50, each colour in the palette, in descending order, will show an interval jump of 50). Then click on the OK button. Click, with the left mouse button, on the Map View (2D View) window and the Polygon segments will be ‘filled’ with the appropriate colour depicting the attribute value.
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Note: Attributes can also be used within Coverage Statistics analysis and Traffic Planning. How attributes are used within both these areas will be covered later in the course.
4.7
Creating your own Vector
The steps involved in creating a user Vector are very similar to those used in creating a user Polygon. Prior to Vector creation, ensure you have a Map View (2D View) window open with the required area and data types displayed. Click on the ENTERPRISE ‘Utilities’ Tab and select Tools → Vector… to obtain the Vector Editor window.
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To create a user Vector, highlight the ‘User Vector Data’ category by clicking on it with the left mouse button, then click with the right mouse button to bring up the following options:
Select the ‘Add Vector/Polygon’ option, by clicking on it with the left mouse button. You will now be prompted to provide a name for the new user Vector. Having entered a name click on the OK button to continue.
Now highlight the new user Vector in the tree-list, by clicking on it with the left mouse button, and click on the Start button in the Vector Editor window.
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Now go to the Map View (2D View) and click, with the left mouse button, on the Start point of your User Vector. Continue moving the mouse around the 2D View, clicking with the left mouse button on all subsequent points of the user Vector. If you make a mistake, click on the Undo button in the Vector Editor window to remove the last point created. When you are finished click the Stop button in the Vector Editor window. This now completes the creation of a Vector with one segment. The ability to move points after clicking the Stop button is available through the Move option. By clicking on the Move button a point can be dragged to a new location. When you have finished click on the Save button to store the new user Vector to the database. Note: It is not possible to move points about the 2D View once the Vector has been saved.
The new user Vector will now become visible by using the redraw option, available by clicking with the right mouse in the 2D View window.
You can change the display properties of your user Vector by double clicking with the left mouse button on the appropriate user Vector in the Show Data Types tree list.
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4.8
Adding Segments to a Vector
You can add more segments to the Vector by simply repeating some of the steps previously discussed. Highlight the user Vector to be edited, by clicking on it with the left mouse button. Click on the Start button in the Vector Editor window and in the Map View (2D View) window, click on the start point and all subsequent points of the new segment. If you make a mistake, click the Undo button in the Vector Editor window to remove the point. Click the Stop button in the Vector Editor window, followed by the Save button to save the segment to the database. Note: You cannot delete individual segments from a vector when you have added them. You can only delete the whole Vector.
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4.9
Importing Vector Data
Vector data such as building vectors can be imported from text or binary files into the database at any time. To import vector data: In the Vector Editor click, with the right mouse button, on the selected Vector, and from the menu that appears, click Insert Vector File.
Browse to the text or binary file you want to import and after highlighting the file, click on the Open button.
All imported Vector files are converted into the new Vector binary format (*.vbf) and inserted into the database.
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4.10 Exercise: Creating Polygons and Vectors Using the “JerseyCom” project, open the ‘Show Data Types’ list and display the ‘urban’ clutter regions. Launch the Vector Editor from the “Utilities Tab → Tools → Vector…” Within the Vector Editor window highlight the “User Polygon Data” category, using the left mouse button. Click the Right mouse button and from the menu that appears select “Add Vector/Polygon” Create a user polygon (with two segments) called “Urban Polygon” using the ‘Start’, ‘Stop’ and ‘Save’ buttons within the Vector Editor window. Draw one segment around each of the Urban clutter regions. Display the Urban Polygon in the 2D View by selecting the appropriate option in the Show Data Types list under the heading of User Polygon. Choose a ‘Red’ colour to display the Urban Polygon. Save the view as a Favourite and name it “Urban Polygon”
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4.11 Session Summary Checklist
;
This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session:
¾ Successfully use the Vector Editor to create a User Polygon
F
¾ Successfully use the Vector Editor to create a User Vector
F
Additional Notes:
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5
Setting up a GSM Network
5.1
Objectives of this session
During this session you will learn about:
5.2
Importing and committing Antennas into the database
Setting up an appropriate Propagation Model
Setting Site display characteristics
How to define a site template
Adding sites and cells in the 2D view
Predicting Coverage
Displaying and Analysing Coverage
Displaying individual predictions
Creating and Displaying a Coverage Array
Coverage Schemas
Service Areas
Coverage statistics
Cell Repeaters
Antenna Slots
Setting Up
Before we can start planning new cell sites and their coverage we need to set up a few important items such as: 9 Details of the antennas we want to use. 9 The propagation models we are going to use to calculate coverage. 9 The range of nominal cell radii we want to use. 9 The display characteristics of our sites in the 2D-view. 9 A site template defining the default characteristics when a site is added.
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5.2.1
Importing Antennas
The database stores detailed information regarding the antenna types you will use in your network. In particular it stores the horizontal and vertical radiation patterns (or “masks”) used when calculating the coverage from a particular cell. The simplest way of entering this data into the tool is to import it from a file supplied by the antenna manufacturer. The format supported by ENTERPRISE is a well-known and widely supported format known as PlaNet format antenna files. To import a new antenna into a project you need to go to the ‘File’ menu and select Import → Project Data. Then select the PlaNet/EET format option. A number of different data types can be imported, in this case we want to just use the Antennas format so click on the ‘Antennas’ tab and select the check-box at the top left to enable the import.
Next click the ‘Add’ button and you will get an Explorer window where you must navigate to the location where your PlaNet format antenna files are stored on the network. Select the antenna files you want to import and click the ‘Open’ button to add them to the import list.
If you want to add more then simply return to the Add button and select some more. When you have completed the list of antennas you require click the ‘Import’ button to begin importing these into the database. Note: If you check the ‘Add to all Projects’ box then the antennas you import will be automatically made available to all projects in the database without the need to import them all again.
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When the import is complete you can view the new antennas from the Equipment → Cellular Antennas window. You can individually save antennas to the database by highlighting the antenna and then clicking on the ‘Commit’ button or alternatively, you can save all the antennas to the database by clicking on the ‘Commit All’ button.
Note: To avoid problems later in the process it is a good idea to ‘COMMIT’ all of the antennas after you have imported them.
5.2.2
Setting up a Propagation Model
To set up a new propagation model go to Configuration → Propagation Models…
Click Add to create a new model from one of the available types. The available types will depend on the version of the tool you are using but a small dialogue will be presented after clicking Add, which allows you to select the form of model you require. Propagation Models are mathematical attempts to model the ‘real’ radio environment as closely as possible. Most propagation models need to be tuned or calibrated by being compared to measured propagation data; otherwise you will not be able to obtain accurate coverage predications.
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For the purposes of this training course we will use the “Standard Macrocell” model, which is based on the ETSI Hata model with a few additional features that enhance flexibility and accuracy (such as the inclusion of clutter offsets/heights and the use of diffraction). The model is known to be valid for frequencies in the range of 150 MHz to 2 GHz but can be extended beyond this range with careful calibration. Detailed documentation on each type of model is available in User Reference Guides, and further Application Notes are available on request. After adding a Standard Macrocell model we will configure it with suggested default parameters for the appropriate frequency range (i.e. 900 MHz). Note: To obtain accurate coverage predictions it is essential to calibrate the model by comparing its results with measured propagation data for the frequency band you are using and the terrain/clutter environments you want to model. This process is described in detail in the AIRCOM Application Note P-TN-010-DO-003, which is available on request. Normally specialists in your organisation will carry out the calibration process and provide you with the correct settings for the model. General Tab: Give the model a new name, set the appropriate frequency and the Effective Earth Radius to use (suggested value is the standard 4/3 of the true earth radius, i.e. 8493km). Enter a value for the Standard Deviation of interference, the default value being 7.5.
Path Loss Tab: We will now set the path loss values, which are used in the Path Loss equation (shown at the bottom of the window). The equation for path loss is based on the OkumuraHata empirical path loss formula with some enhancements. This example shows the suggested default values for a 900 MHz Macrocell Model.
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Eff. Ant. Height Tab: Select the ‘effective site antenna height’ algorithm to be used (the suggested value being the Relative calculation algorithm).
Diffraction Tab: Select a Diffraction loss calculation method from the available list. The suggested method is EpsteinPeterson, which assumes that the total loss can be evaluated as the sum of attenuation due to each respective significant obstruction.
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Clutter Tab: The clutter loss offsets are used to fine-tune the accuracy of your model by allowing for the different loss characteristics in different clutter environments. These will be determined during the calibration process for your model (For training purposes we will leave all values set at zero).
When finished click on the ‘Apply’ button and then the ‘Commit’ button to complete the process.
5.2.3
XML Imports
In addition to importing Antenna files using the PlaNet format, or setting up your Propagation models, it is possible to import these, plus a wide variety of Project elements, Configuration settings and Templates using the XML Import function. To import data from XML: From the ‘File’ menu select Import →XML… Click the Browse button to locate the *.xml file(s) that you want to import.
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The easiest way to do this is to select the ‘Index’ file and click ‘Open’…
Once you do that, the XML import window appears again. Now, from each tab, select the items you want to import. Select how you want conflicts to be handled during import. You can be prompted on an individual basis, or can, for all conflicts, replace the data in the project with the imported data, merge the data or leave the existing data as it is. For example, if you’re importing things like Carrier Layers, Cell Layers, Antennas, etc. you’re current project may already have some of these. In this case, you can choose ‘Leave’ and it will only import those items which you don’t have. Another case is when you have some sites already, and you want to import the same sites but with a different configuration. In this case, select ‘Replace’, and the new settings will replace the old settings. When prompted, click Import to begin importing. During import, if there are any comments or problems, the message log will display them. Depending on the problem, you’ll get different choices to make. After you’ve imported items using the XML import function, you’ll need to commit them either using individual commits or via the ‘Global Commit all’ function under the Database menu.
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5.2.4
Setting the Nominal Cell Radii
When adding new cell sites it is often useful to use nominal cell size hexagons as a guideline for the inter-site spacing you require achieving good coverage. ASSET3G allows you to specify a range of cell sizes and to display hexagons while adding sites graphically in the 2D View. Before starting to add sites it is therefore a good idea to set your range of hexagons to an appropriate value. This is done by selecting Database → Hexagon Radii…
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The way this feature works is by setting the “Mid-hexagon” radius. The tool then calculates a range of larger and smaller radii based on this middle size and the split type selected. The choice between “corner” and “face” simply refers to whether the radius refers to the distance from the centre of the hexagon to one of its vertices or to the mid-point of one of its faces.
5.2.5
Setting the Display Characteristics
Finally, before we start adding sites to the network we need to decide how we want to display them, as there are various options and styles. To set these display properties, go to the 2D View window, open the ‘Show Data Types’ list and find the ‘All’ Filters option. Select the check-box next to this option and then double-click, with the left mouse button over the ‘All’ option, which will bring up the display properties window for the selected filter (i.e. ‘All’ filter).
Within the Display Properties Window, each element is displayed in hierarchical order along with a ‘Summary’ tab which shows some of the general display properties given to that element.
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Within the Summary tab, various items can be changed quickly and previewed to ascertain if more detailed changes will need to be made. The following items can be changed within the Summary tab: Symbol Shape:
Allows a symbols size, font type and shape to be chosen using the drop down menus.
Symbol Line:
Choose a Line colour, Line style and line thickness using the drop down menus.
Symbol Fill:
Using the drop down menus choose a fill colour, fill style and percentage of opacity. At 100% opacity the fill covers everything (solid); at 10% the fill is almost transparent.
Background:
A choice of No background (off), Solid background or Halo background is available for selection, together with a choice of background colour. The choice of Halo background enables automatic changing of the colour if the colour chosen clashes with the same colour displayed in, for example a coverage array.
Label:
Choose the label or labels you wish displayed on the map from Identity, Name 1 or Name 2. The font type, font size and label colour can also be chosen using the drop down arrows.
In addition to the Summary tab, more detailed changes can be made to elements which display the button. Clicking on the options.
button will expand the selected network element to reveal the detailed change
Note: The detailed change options available will vary depending on the element selected. When making detailed changes, under the ‘Symbol’ tab the following options are available: Shape:
An elements symbol size can be set to a fixed value or be based on a variable parameter, chosen from a list of available attributes. The symbol shape can also be chosen using the drop down menus.
Line:
Allows the selection of a fixed colour or a variable parameter, from a list of available attributes. If the line is based on a variable parameter extra settings and options become available. The line style and thickness is also selected using the drop down menus.
Fill:
Selection of a fixed fill colour or a fill colour based on a variable parameter can be chosen. The fill pattern along with the percentage of transparency can also be selected using the drop down menus.
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Background:
To change or customise an elements background the choices of Off, Solid or Halo exist, together with a colour choice selected from using the drop down menu. Selecting the ‘Halo’ options allows the background colour to be automatically changed should it clash with another colour being used within the 2D Map View window (e.g. Coverage display).
Visibility:
To dictate when the symbol will appear on the 2D Map view, three options are available for selection. Always, View Zoom Range (allows the setting of minimum and maximum height and width dimensions), and Print Scale Range (allows the setting of minimum and maximum dimensions based on the current paper settings within the Print Settings window).
Similar options are available within the other tabs, depending on the specific element chosen.
5.2.6
Defining a Site Template
When planning a network, it is very likely that many sites will have the same characteristics. Instead configuring each network element individually, you can define site templates for each site type, then select a template to use as a base for any new sites. This will save a lot of time during the planning phase of your network. Depending on the products you have installed, you can create templates for MSCs, BSCs, Sites, Distribution Nodes, Repeaters, Neighbours, PLMNs, WMSCs, SGSNs, RNSs and NodeBs. Although you can create as many templates as you want, only one template of each type can be active at any one time. To create a Site Template go to Database → Templates…, the following window will then appear:
In the ‘Templates’ pane, click with the right mouse button in the white space below/next to the existing default templates. From the menu that appears click on the type of template you want to add.
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Note: To edit the properties of an existing template, select the template in the ‘Templates’ pane, and configure the template using the various available tabs. You will now be prompted to enter the name of the template (e.g. GSM 900 3 SECTOR SITE), having done so click on the OK button.
Alternatively right-clicking on the ‘Site’ level will prompt you to add a new template. You will then be prompted to enter the name of the template (as described above); and having done so click the OK button. Your new template will now be visible under the Site level.
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5.2.6.1
Adding Cells and Cell Layers to a Site Template
To configure templates for sites to include cells and cell layers, click with the right mouse button on the site and from the menu that appears, click ‘Add Cell’:
Note: For a 3-sector site add one cell, configure it and then click on ‘duplicate’ to create the remaining two cells. Then simply edit the additional cells to their appropriate parameters. For an Omni-directional site add one cell to the site by right clicking on the template name once only. On the cell level the following parameters can be configured under each tab: General Tab:
Set the Propagation Model using the drop down menu. Enter the MNC, MCC, NCC and BCC.
Status Tab:
Set any previously created Fields to associate them with the site.
Cell Config Tab;
Specify the Cell Configuration settings individually. Set the Cell equipment details. Set the DTX state and voice activity factor. Choose an FCC category (if applicable).
Antennas Tab:
Configure Antenna slot details. Choose an antenna type for each cell, using the drop down menu and set any correction factor. Choose a feeder type and enter the feeder length. Set the antenna azimuth in degrees from north. Enter any mechanical down tilt. Set the antenna height. Set a distributed antenna location (if applicable).
BCF:
Set the following cell parameters: Cell Type (0-9999), Segment ID (1-128) a Segment name. Note: a segment is a group of BTSs with the same BCCH.
Finally ensure the template selection check-box is selected for the new template you have added. This will now be used when we add new sites.
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5.3
Exercise: Setting up a GSM Network
Before actual site planning can commence a few important items must be set up. Configure the following:
1. Antennas: Using File → Import → Project Data → PlaNet/EET import at least 1 antenna file: Commit these antennas by accessing the Antenna configuration window: Equipment → Cellular Antennas. Alternatively, you can get Antennas by means of an XML import. 2. Propagation Model: Under Configuration → Propagation Models use the ‘Add’ button to reveal the choice of propagation models available. Select the Standard Macrocell 3 Model by highlighting it and clicking on the ‘Add’ button. Configure the model in accordance with the suggested default parameters for your relevant frequency found in the ‘Help’ pages. Apply and Commit the Model. 3. Set the Site Display Characteristics: Within the 2D View select the ‘Show Data Types’ menu/list. Under the ‘Filters’ option select the ‘All’ category. Using the left mouse button double-click on the ‘All’ category and set appropriate display characteristics for all relevant elements, such as Cell Site, GSM Cell, NodeB, UMTS Cell, etc. 4. Site Template Open the Site Template window by going to Database → Templates… and create a new 3 sector site template. To do this, follow the procedure outlined earlier on this section. Name this new template: ‘3 Sector Site’ Ensure the new template is selected and then you are to start network planning.
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5.4
Adding Sites/Cells to a GSM Network
Now that we have defined all of the key parameters and set up a suitable template we are ready to start planning using the 2D View. First make sure you have some suitable map data displayed (e.g. roads, coastline, terrain etc.) and that you have the ‘All’ filter selected in the ‘Show Data Types’ list.
5.4.1
Adding Network Elements from the 2D View
Selecting different network elements is simple. The left-hand side of the 2D View contains the Site Design Toolbar, which has a number of selectable buttons. When you click on the menu arrow, a toolbox appears. Each toolbox will contain elements that belong to a similar category or function.
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For example, in order to begin building a GSM network the radio planner would need to add an MSC network element. Once this has been done further network elements become accessible within the toolbox prompting you to start constructing the remaining network infrastructure. Add an MSC by clicking on the first button in the list. This will activate the ‘Add Network Element’ toolbox. Click on the ‘Add MSC’ button to the select the MSC network element and place it on the appropriate location in your 2D view. By adding an MSC, a further set of buttons becomes enabled, amongst which is the ‘Add BSC’ button. At this stage it is important to note that only functions applicable to a currently placed object are available. Consequently, adding a BSC will enable you to start adding BTS sites to the view. Now select the ‘Add Site’ button and you should be able to add cell sites in the same manner as MSCs/BSCs. Note: You can choose to use the hexagon or cloverleaf symbols to display your Sites. This can assist you in spacing the sites appropriately, as shown below:
When using the ‘Add Network Element’ toolbox, within the 2D View, ENTERPRISE automatically creates a new Property or adds it to an existing Property when the network element it is placed. By definition “A Property refers to a real estate location that is technology-independent. A Site is parented on a Property and refers to the technology / equipment that is located at that location”.
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A Property can be displayed on the 2D View independently of the network elements, as shown below:
Each network element must sit on a Property but more than one element can be co-sited on a Property. Moving network elements requires moving the Property (which automatically moves the network elements on it) or moving the element between properties. To adjust the location of the sites you have added click the Move Property to move by clicking on it and then click again on the new location.
button, select the object
Alternatively, this can be achieved through the Site Database by changing the Property co-ordinates. To delete a ‘network element’ clicks on the Delete button and then click on the element to be deleted. The system will ask you to confirm your request before carrying out and deleting the chosen item. Once again it is possible to do through the Site Database. Deleting the element does not delete the Property as well; to delete this you must use the Delete Property button. Note: When you delete an item from the database it is sent to the Wastebasket and not permanently deleted. If you have made a mistake you can go to the wastebasket and restore the deleted items. This option can be found under ‘Edit’ in the ENTERPRISE Main Menu. Until you empty the wastebasket an item is not permanently deleted and its identity cannot be duplicated – therefore if you want to reuse an identity (e.g. a Site Id) you must permanently delete the item with that Id from the wastebasket first.
5.4.2
Creating cellular connections to provide network hierarchy
For GSM networks there is no need to create cellular connections for Network Hierarchy. Elements are logically connected automatically according to the settings on File → Preferences → Network.
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5.4.3
Locating elements in the 2D view or Site Database
Once you have placed elements on the 2D view, you may want to locate them on a quick and easy way. ENTERPRISE provides a variety of ways to accomplish this. Some of them are: From the Site Database to the 2D View Right-click on a Site or Cell to open a ‘Context Menu’ and select the option ‘Locate in 2D view’. If the 2D view is open, the screen will centre to the selected Site/Cell. From the 2D View to the Site Database Enable this feature on the File → Preferences menu. From the General tab, and on the ‘Ctrl Click Opens’ pane, tick the option of ‘Site Database’. With this enabled, you can now hold the ‘Ctrl’ key and then right-click on a Site/Cell. This will then open the Site Database on the element you selected.
5.4.4
Viewing Property Information for a Network Element
You can view the Property information for any Network Element by right-clicking on it in the Site Database and selecting ‘View Property’. The Property Information, with all its tabs, will be displayed. The ‘General’ tab provides information such as Property ID and Location, whilst the ‘Address’ tab displays the Address, Town, County, State and Post Code.
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5.4.5
Re-orienting antennas
You will see that the direction of any antenna is indicated by the sector appropriate to that cell. Each follows the Site Template settings, but it is possible to alter its direction via the 2D View. To do this: 1- Click on the down arrow next to the Move Network Element button (immediately below the Add Network Element button) and select the Re-orientate Antenna button. 2- Click on the sector whose antenna you wish to re-orientate and steer it as required. The current angle is shown on the top-left corner of the 2D View. Click again to finish.
5.5
Predicting the Pathloss
To predict coverage, we first need to have the pathloss predictions for all the cells involved. To do this, open the coverage predictor from either Tools → Pathloss Predictor or from the button on the Main Toolbar. You following window will then appear:
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There are three ways of selecting the list of sites you want to calculate predictions for. These are selected with the radio buttons at the top-left of the window: Individual site / cell:
After selecting this option you can click on a site in the 2D View in order to select just that site or cell for prediction.
Sites and cell in view:
After selecting this option you can click in a specific 2D View window and the tool will create a list of sites and cells for prediction corresponding to those visible in the view.
Sites and cell in Filter:
If you select this option you can select a group of sites and cells defined by a “Filter” (we will come back to what Filters are and how to define them later). The default filter is ‘All’(All sites and cells).
When the list of sites and cells for prediction has been set, it is worth checking that a valid model type has been identified on each site (the predictor will list the models found for each site). If you see Unknown or the wrong model name against a site or cell this could indicate a mistake has been made when assigning the model in the ‘General’ tab of either the ‘Site Template’ you are using or for that specific cell in the ‘Site Database’. Correct these before predicting by editing, using the ‘Global Edit’ facility, in the Site Database.
With the list of sites and cells for prediction defined you must then set the following:
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This is the maximum range from the site that the calculation will be performed to. The calculation radius is normally set on a site-by-site basis (on the Predictions tab for each site in the Site Database).
Radius:
If you want to override the site-defined radius you can do so here and select a calculation radius from the drop down menu. Resolution:
The pixel resolution (in metres) that you want the calculation performed at. The list of available resolutions corresponds to the available height and clutter map data resolutions in your system. If you only have one map data resolution then this box will default to that value. Again this is normally set on a site-by-site basis (on the Predictions tab for each site in the Site Database), but can be overridden by selecting the check-box and using the drop down menu to select a new Resolution.
Reprediction Rule:
This option allows you to decide whether or not to force the tool to recalculate all predictions in the list you have defined or whether just to recalculate those that need to be recalculated. The predictor will recall predictions from the ‘Predictions’ folder defined in the project setup for those sties/cells it believes to be up to date and will calculate those where either they don’t yet exist or where parameters have changed on the site invalidating the old prediction.
Note: Parameter changes, which require the recalculation of predications, include: antenna types, azimuths, tilts, heights, site/cell locations, prediction model changes. Changes, which simply affect the transmitted power of the cell, do not require re-prediction since the prediction is a pathloss calculation rather than a received power calculation. Now simply click the ‘Start’ button to begin the prediction process. The predictor will estimate an overall time requirement to carry out the calculations. The first estimate may not be correct since it needs to learn how fast your PC is. Subsequent time estimates should become more accurate. As the predictions progress you will see a completed and stored to disk.
next to each site in the list as that calculation is
At any point during the prediction process the calculations may be terminated using the ‘Stop’ button. When all the predictions are completed the ‘Stop’ button on the Predictor will revert back to being the ‘Start’ button and the progress bar will have reached 100%.
5.6
Displaying Coverage
Displaying coverage can be done in two ways:
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1. Displaying Individual Predictions: Individual predictions for sites or cells can be added to the 2D View display using the buttons at the top right of the 2D View. Click on the appropriate button (single cell or single site coverage) and then click on the cell/site you wish to display the prediction for in the 2D View. If a prediction exists it will be added to the 2D View, otherwise you will be given a warning in the Message Log window. A new display item will appear in the display tree list to allow you to remove these predictions from the view when you are finished with them.
The limitation of this method is that multiple predictions are not combined to display the “Best” coverage at each location but are simply overlaid on top of one another. 2. Creating and Displaying a Coverage Array: With this method you first produce an “Array” which combines a number of predictions into a raster which contains the best coverage value for each location and other information regarding the serving cell. This Array can then be added to the 2D View by selecting the appropriate item in the display list tree. Before an array is created it is necessary to ensure that the appropriate parameters with which to do so have been set up correctly. The above is realised through the Array Settings dialogue found at the bottom of the Arrays menu.
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There are various options and features with this window, which we will explore during the course. For now we will accept the default settings when creating the ‘Best Server’ type of array. To create the Array click the ‘Create Array’ button and after choosing ‘Non Sim’ select Best Server and click the ‘OK’ button. You should receive a message in the Message Log window telling you how many subcells were added to the array – if the number is zero you have a problem! Common reasons for getting a “0 of 0 subcells processed” message are: •
No predictions were found for the sites. Check your site configurations and look at the Misc. tab in the Site Database to see if there are valid predictions for each site.
•
No cell and carrier layers are selected in the Array Settings window (if you have a fresh install of the tool it should select all layers by default).
•
The site filter selected at the top of the Array creation window is not correct (default should be All, in which case this should not be the problem).
Having successfully created the array you display it by selecting the Coverage → Best Server item from the ‘Show Data Types’ list:
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5.6.1
Coverage Bands & Colours
Defining what coverage levels and colours are used to display coverage in the “2D-view” requires the following set up: Select Configuration → GSM Coverage Schemas from the ENTERPRISE Main Menu. You will then get the following dialogue showing the available schemas (initially just the system default). Within the Coverage Schemas window the coverage bands are created and a colour for each band is chosen. However the Levels are not defined in this window.
Firstly decide what type of schema you require. Within the ‘Schema Type’ field there is two options, System or User. Select ‘System’ to produce a schema, which will be available to all users; Select ‘User’ to produce a schema for your own use only. Next, in the ‘System Schema’ field, click on the ‘Add’ button to add a new schema. When prompted, give the Coverage Schema an appropriate name, clicking the ‘OK’ button when finished:
Note: In the above example a ‘User’ Schema has been created and given the name of the Planner creating the Schema. Now use the ‘Add’ button within the ‘Coverage Categories’ field to create your schema. Having selected the ‘Add’ button the ‘Coverage Properties’ window appears, from which the category is given a name and suitable colour.
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These categories, once created, can be changed or deleted using the ‘Modify’ or ‘Remove’ buttons within the ‘Coverage Schemas’ window.
Having defined the schema we then need to specify the signal levels corresponding to each colour band. This is done within the Cell Layer Configuration. Select Configuration → Layers → Cell Layers, from the ENTERPRISE Main Menu, and then go to the ‘Coverage Thresholds’ tab. Having selected your Schema from the drop down menu, double click (with the left mouse button) on each category to bring up the ‘Threshold Properties’ window. The threshold value in dBm can now be entered for each category in turn.
Finally, when displaying a coverage array it is possible to change the coverage schema being used by double clicking (with the left mouse button) on the ‘Best Server’ category in the ‘Show Data Types’ list:
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5.6.2
Service Areas
An alternative way of viewing the coverage array you have just created is as a ‘Service Area’ plot showing the geographical areas where each cell is the dominant server rather than the signal strength information. To change the display from a Best Server to Service Area go to the ‘Show Data Types’ list and de-select ‘Best Server’ and select ‘Service Area’.
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The 2D Map View will then re-display the coverage as a service area plot with each cell area shown in a different colour.
The colours used within the Service Area (Block) are chosen automatically by the tool. User functionality is limited to changing the array from a Solid to transparent view and including the Cell Identifiers in the Key Legend. These options can be selected by double-clicking the Service Area (Block) category in the ‘Show Data Types’ list.
5.7
Analysing Coverage
ASSET3G incorporates some statistical tools for analysing Coverage/Interference arrays. We will look at interference later. For now let’s see how we can examine the coverage of a network. The Coverage Statistics tool can be opened through the ENTERPRISE Main Menu by selecting Arrays → Coverage/Interference → Coverage Statistics… or by clicking on the ‘Coverage Statistics’ button on the 2D Map View window toolbar. This tool allows you to perform analysis on any of the different types of arrays, which you can create.
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To analyse your coverage data click the button on the 2D Map View window toolbar (selecting Non Sim), or alternatively select Arrays → Coverage/Interference → Coverage Statistics and use the Next> button to move to the second screen in the Wizard) to get the following window:
In this case we want to analyse our ‘Best Server’ array which we created earlier, so make sure the relevant radio button is selected. Within the ‘Coverage/Interference Category’ field select the level for which you want to analyse the coverage. Use the drop down menu to select one of the Coverage Categories defined in the Coverage Schema earlier. Note: The Schema Coverage Categories available are the same ones used within the 2D Map View for display purposes. Finally, click the ‘Finish’ button (if using the Wizard) or the ‘OK’ button if you selected the ‘Coverage Statistics’ button on the 2D Map View window toolbar. Having carried out the analysis a similar ‘Excel’ report to the below will appear:
The analysis is broken down into three parts: 1. The first section shows the analysis parameters (i.e. coverage level selected and overall statistics of the total area and area at target level or greater in km2 and as a percentage of the total). 2. Area statistics broken down by Clutter Category so you can see if you are meeting your coverage objectives in the important areas. 3. Statistics broken down on a cell-by-cell basis.
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5.7.1
Array Manager
The Array Manager has been developed to provide an ‘ENTERPRISE Core’ Array Management facility, which allows the user to perform memory management on multi-technology arrays and simulations (ASSET/3g). In addition, the Array Manager provides the ability to retrieve archived arrays, allowing for the benchmarking of statistical changes over time. The Array Manager can be found under the ‘Arrays’ Menu, and having opened the Array Manager window you can view specific information about the array (i.e. owner, memory and resolution) within the window:
You can control the amount of information shown in the window by selecting the information fields you wish to view from the pop up menu. You can access this pop up menu by right-clicking your mouse button on an information field header:
In addition to viewing information about an array you can also Load an array into memory, Delete an array from memory or Save an array to a specified location using the buttons provided or by using the right-click menu, as shown:
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5.8
Exercise: Starting to Plan Coverage
In Exercise 4 a new Site Template was defined with all the key parameters. We are now ready to start planning using the 2D View. Adding Sites/Cells 9 Under the Show Data Types tree select and display suitable map data (e.g. Coastline, urbanised clutter regions, height (block) data) to assist in the construction of your network. 9 Add an MSC on the 2D Map View. 9 The Add BSC button has now become active and can be selected. Click and add a BSC element to the 2D Map View. 9 Now use the Add Site button to place and position sites (a maximum of twelve) covering the “urbanised” clutter regions ♦ Using the “shortcut key” or Tools → Pathloss Predictor set up the Coverage Predictor to predict All sites to a Radius of 10km with a Resolution of 50m. 9 Display and Analyse the coverage using a Best Server Array, which can be created using either Arrays → Coverage/Interference → Coverage/Interference Wizard or the Create Arrays button (selecting Non Sim). Note: Ensure the appropriate parameters have been set up correctly in the ‘Array Settings’ window, found at the bottom of the Tools drop down menu. ⇒
Attempt to achieve 80% coverage of urban clutter for the “Suburban in Building” schema category using the Coverage Statistics (maximum of twelve sites).
Save as favourite “Sites plus coverage array”
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5.9
Session Summary Checklist
;
This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session: ¾ Import and Commit radio antennas into the equipment configuration database
F
¾ Successfully conduct XML Imports
F
¾ Successfully set-up a Propagation Model with given parameter values
F
¾ Setting Site Display Characteristics prior to planning
F
¾ Defining a new Site Template with suitable attributes
F
¾ Adding Network Elements to the 2D View
F
¾ Predicting, Displaying and analysing the Coverage of new cell sites
F
¾ Correctly modelling cell repeaters into a network
F
Additional Notes:
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6
Fields, Filters & Visualisers
6.1
Objectives of this session
In this session you will learn about: The purpose of Fields How to create and define Static and Dynamic Filters How to use the Selection Expert The various uses of Filters Understand the purpose of Visualisers Creating Visualisers
6.2
Status Fields
Fields are primarily used to enable the project managers to manage and oversee the progression of the network from initial design to rollout phase. Within the network, Status Fields can be defined to show, for example, whether a site or link is Proposed, In-Build or Operational. In this case, a Field could be created as “Rollout Phase”, and the mutually exclusive options within that Field could be ‘Proposed’, ‘In-Build’ and ‘Operational’. Fields may also be used to record the equipment used on a site or link, or its region, or perhaps the name of the planner in charge. While being defined, Fields must be associated with specific network element types. Status Fields are defined within the ENTERPRISE Administrator module, so this is covered on a separate course (the user can also refer to the Installation & Administration User Reference Guide). It is generally advised that Fields be set up as early in the project as possible, so that they are available for the planner to “assign” the correct option to the relevant network elements in the Site or Link Database. These assignments can then provide a useful method in the process of creating dynamic filters.
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Some examples of Fields that may be created are: Field
Options
Associated element
Rollout Phase:
unset, Planned, Acquired, In-Build, On-Air
Site or Link
Vendor Equipment:
unset, Nokia, Ericsson, Siemens
Site or Link
Region:
unset, North, South, East, West.
Site or Property
Note: It is strongly recommended that the first option in each group is named “unset”, or similar, so that this can be the default used when you have not set a particular field for a site or link.
6.2.1
Viewing Fields for Sites or Links
When the Fields have been created and saved to the database, you will see the defined Fields within the Status tabs of the Site Database, against the relevant network element or Property, and in the case of the Link Database, against each Link. When the Fields have been defined and committed to the database, the created Fields and any Picklist options will be seen under the Status tab of the Site Database, listed against each Network Element to which they were associated. 6.2.1.1
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6.2.1.2
Link Database
Where Fields were given the Picklist type, the options can be made to appear listed under a drop-down menu, by double-clicking on the first Field Value. This allows the planner to assign one of the options defined. In this way, each property, network element or link can be “flagged” with an individual identity. Any of the other Field Types (Integer, String, etc.) can also be set by the planner by clicking on the Field Value. This information can then be used by Administrators, Rollout Co-ordinators and other users to define Dynamic Filters which might select, for example, Sites flagged as “Planned”, or using a particular type of Equipment.
6.3
Filters
Filters provide a logical grouping of network elements according to their characteristics or functions. They provide a method of allowing the sub-division of the network into more manageable sections for analysis, diagnosis and display, and are therefore a highly important feature in ENTERPRISE. Filter creation can be based on many different selection criteria, including element type, hierarchy, Fields and polygons, as well as attributes such as antenna type, frequency band, etc.
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Filters can be defined as either Static or Dynamic: Static Filters:
These are static lists of objects specified by the user. These filters can only be changed by the user adding or deleting objects from the list.
Dynamic Filters:
The included objects in Dynamic Filters will constantly update as the network evolves. These filters select network elements based on criteria such as:
Object type (e.g. BSC, Site, Cell, Link)
Status Flag assignment
Cell Layers assigned
Parenting
Geographical Location (e.g. within a polygon)
Such filters are termed ‘Dynamic’ because the inclusion list will automatically be updated whenever a change is made to any of the parameters forming the filter definition criteria. Selection Expert:
There is also an Ad Hoc ‘Memory’ Filter which can swiftly and powerfully select items from the 2D View or Site/Link Database. This ‘memory’ filter can optionally be saved as a Static Filter for future use. The Trainer will be able to demonstrate this versatile function during the course.
Note: In the Filters Database window, Static Filters always appear as RED, and Dynamic Filters always appear as BLUE. This helps the user to quickly identify the filter type.
6.3.1
Filters can be used to:
9 Limit the displayed lists of network elements in the Site Database window. 9 Determine which combination of network elements appear in the Map View window. 9 Vary the customised appearance of different filters in the Map View window. 9 Specify, in all the wizards, which items will be included in the various operations. 9 Limit which items will be included in any Global Edits in the Site Database. 9 Limit which items to include in the various Reports. Note: Created Filters are available only on their creator’s machine unless they are committed to the database, in which case they will then be available for general use. The recommendation is to use public and personal folders, and only commit filters which are essential to all users.
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6.4
Creating a Dynamic Filter using the Filter Wizard
To create a new Filter, select Database → Filters…:
The Filters Database window will then appear, displaying any existing Folders and Filters which have already been set up. (Folders can be created by right clicking.)
Note: The ‘Selection Filter’ is a default filter which is used by the ‘Selection Expert’, described in a subsequent section. Select the Folder where you want the new filter to reside and then click Add. This will ‘launch’ the Filter Wizard, which guides you through the creation process.
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Step 1 of the Filter Wizard prompts you to give the Filter a meaningful name (this can be modified later if required):
If you wish, you may select Use an Existing Filter as a template (for both the Selection Criteria and the Display settings) and then choose the existing filter from the drop-down menu. Click Next.
Step 2 of the ‘Filter Wizard’ will now display a list of ‘Available Attributes’. Move each required element type to the ‘Selected Attributes’ pane by double-clicking, dragging, or using the right arrow button. This will define which objects are to be considered in the filter. For example, one method would be to expand one of the items in the ‘Available Attributes’ pane to reveal the selection of Fields already set up for the project in ENTERPRISE Administrator. The required Field can then be selected as an attribute for the filtering criteria.
Polygons represent another way in which network elements can be filtered. All available polygons can be displayed by opening up the ‘Property’ element in the ‘Available Attributes’ pane.
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In the next example, ‘Cell Site’ has been opened up, and the ‘Rollout Phase’ Field has been selected an attribute to be considered in the filtering process:
You can specify the Logical Operators by right clicking on them to toggle between the two types: 9 If you choose OR:
A value will be returned if any of the attributes are present.
9 If you choose AND:
A value will be returned only if all the attributes are present.
Tip: It is easy to modify these Operators on the next screen, and to dynamically preview the resulting item selection. In this particular example, this will make no difference, since there is only one attribute selected. Note: It is possible to form sets of attributes into ‘branches’, each branch with its own logical operator. The easiest way to do this is to drag and drop the attributes to be grouped into the desired sets. The Selection Rules will be activated from TOP to BOTTOM, branching where specified. A subsequent section includes advice on creating ‘faster’ filters. When you have all the element types and criteria that you want to filter on, click Next.
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Step 3 of the ‘Filter Wizard’ prompts you to set the definitive rules and criteria for the Filter and allows you to modify the logical operators using the associated radio buttons.
Define the exact rule for each element type or criterion by highlighting it in the ‘Selected Attributes’ pane, and:
Selecting a Rule definition (e.g. ‘Equals’). You can also reverse the rule definition (e.g. ‘Not Equal To’) by selecting the ‘Not’ checkbox.
Typing a value in the box or, if applicable, clicking the ‘Values’ button to select the value(s) that you are interested in (e.g. when selecting Field values).
In this example, click the ‘Values’ button, and tick the ON AIR option:
You can click Preview to see a list of all the elements that are included in the filter according to your latest definitions. This will help you to refine the filter further if necessary. When satisfied with your criteria, click Next.
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Step 4 of the wizard displays the list of elements currently included in your filter. The filter will be Dynamic (unless you now decide to switch it to Static, but when creating a Static filter, it is easier to carry out the steps in the following section.)
Notice that with this method of simply using the Field attribute, all items associated with the filtered sites are also included in the filter, i.e. their parent objects, properties, cells, links.
Step 5 of the wizard allows you to set up the customised display settings for the items which are included in your filter. If you selected the “Use existing filter as template” option in Step 1, this screen will default to those settings. You can also easily modify these later in the Map View.
Step 6, the final step, allows you to modify the name of the filter, and also to establish which other users, if any, will be enabled to modify this filter in the future (assuming it is committed and assuming they have the appropriate permissions).
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When satisfied, click on the ‘Finish’ button to complete the Filter creation process. The newly created filter will now appear in the Filters Window within the folder you highlighted at the beginning of the process. As a Dynamic filter, it will appear with a BLUE symbol.
If you wish this Filter to be available for use by other users, Commit the filter. Otherwise, it will only be available locally on your machine. Note: Created Filters are available only on their creator’s machine unless they are committed to the database, in which case they will then be available for general use. The recommendation is to use public and personal folders, and only commit filters which are essential to all users. Within the Filters Database Window, any of the filters may be committed, modified or removed, and also moved or copied between folders.
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6.5
Creating a Static Filter using the Filter Wizard
The process to create Static Filters is exactly the same as for dynamic filters, except that you ignore Steps 2 and 3 by clicking Next each time, and then Step 4 enables you to select the Static option. You can now manually select whichever elements you require by using 4 methods:
6.6
6.6.1
1) Identifier:
Exact matches or regular expressions
2) File list:
Browse to a text file listing the Identifiers on separate lines
3) Filters:
Combination of chosen filter and element types
4) Map View:
Selected or All elements within a highlighted map view
Creating a Filter using the Selection Expert tool
The Selection Expert tool:
The Selection Expert tool allows users to create a memory filter (called ‘Selection’) which behaves like a Static Filter. This is a powerful way of creating a filter because you can easily select any subset of items by choosing items individually from the Site Database (Hierarchy) or from the Map View (either individually, or by creating a polygonal, circular or rectangular region that surrounds the items of interest). It also enables the user to easily re-parent groups of sites within the Site Database. The Selection Expert includes an easy viewing window for all filters - you can quickly review all filters (Static, Dynamic and Selection), and edit the Static Filters or Selection Filter.
6.6.2
The Selection Filter:
The Selection Filter is an Ad Hoc filter which is ‘controlled’ by the Selection Expert tool. Its functionality is summarised here:
It is an updatable ‘static’ filter that exists only in memory and is not stored in the Database.
(it cannot be Applied or Committed, so any selections will be discarded on closing the project.)
It can optionally be saved by renaming it to become a normal Static Filter.
(this can then be Applied or Commited, and thus stored in the Database.)
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6.6.2.1
Using the Selection Expert tool with the normal selection methods
The Selection Expert can be used in exactly the same way as already described in Static Filter creation (within the Filter Wizard), by selecting the required elements using 4 methods: 1) Identifier:
Exact matches or regular expressions
2) File list:
Browse to a text file listing the Identifiers on separate lines
3) Filters:
Combination of chosen filter and element types
4) Map View:
Selected or All elements within a highlighted map view
6.6.2.2
Using the Selection Expert tool directly with Map View Window
To add items to the Selection Filter using the Map View window: Note: this is a different method to the one described above. It is more flexible and powerful. 1. From the Database menu, click Selection Expert. 2. In an open Map View window, ensure you are displaying the area and elements from which you will be selecting for the filter. 3. Click the small ‘down arrow’ on the Selection Mode toolbox.
Note: You may also double-click on the same arrow to limit the selectable objects. This will reveal several icons enabling you to select elements from the Map View as follows: Single Selection Use this to select individual network elements from the Map View. Important: Hold down the Shift key each time you click a new network element. If you do not hold down Shift, only the most recently selected network element will be included in the Selection filter, and previous ones will be discarded. To deselect an item, just click it again. Rectangular Area Selection Use the mouse to specify the location and size of a rectangle (corner to corner) which will incorporate the desired network elements on the Map View.
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Circular Area Selection Use the mouse to specify the location and size of a circle (radius outwards) which will incorporate the desired network elements on the Map View. Polygon Area Selection Use the mouse to specify the location and shape of a polygon which will incorporate the desired network elements on the Map View. Create the polygon with a series of clicked points. To close the polygon, double click with the left mouse button anywhere in the polygon. The selected elements appear in the left hand side of the Selection Expert. You can remove the items within the Selection Expert by right clicking. You can also Save the filter as a ‘Static Filter’ or Export the filter, which produces a text file that you can then import into another filter using the File List option. 6.6.2.3
Using Selection Expert directly with Site Database (Hierarchy tab)
You can use the Hierarchy tab of the Site Database to add to the Selection Filter. For example, you might want to create a filter to contain all the items parented to the same Property. To add to the Selection (or any Static) Filter using the Hierarchy tab of the Site Database: 1. In the Site database, select the element that you wish to add to the Selection Filter. 2. On the Hierarchy tab for that element, click Display or Refresh to show the items parented to it. 3. Select one or more of the network elements shown on the tab and click the Add button to add them to the Selection (or any Static) Filter. You can use the Remove button in a similar way. 6.6.2.4
Using Selection Expert directly with Site or Link Database (Filters tab)
To add to the Selection (or any Static) Filter using the Filters tab of the Site or Link database: 1. In the Site or Link database, select the required object that you want to add to the Selection Filter. 2. On the Filters tab, click Add to reveal the current list of available Filters. 3. Select one or more of the Filters (only operates on Static Filters) where you wish the object to be included, and click OK. The Selection (or any Static) Filter will then be automatically updated. You can use the Remove button in a similar way. After using either method, the selected elements appear in the left hand side of the Selection Expert. You can remove the items within the Selection Expert by right clicking on them. You can also Save the filter as a ‘Static Filter’ or Export the filter, which produces a text file that you can then import into another filter using the File List option.
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6.6.2.5
Adding to the Selection Filter using other Filters (Static or Dynamic)
To add items from other filters to your Selection Filter: 1. From the Database menu, click Selection Expert. 2. Select the filter that contains the required network elements from the list of filters shown. 3. In the left pane, select the elements that you want to add to your Selection filter, then from the Selection menu, click Add. Or to add all of the network elements in the filter, from the Selection menu, click Add All. (Similarly, you can also remove some or all network elements in a filter by using the Selection menu Remove or Remove All commands.) If you now switch to the Selection Filter under the list of filters, you will see your selected items appearing in the inclusion list. You can now edit this list as required, until you are satisfied with it. Important Note: if you wish, you can commit any changes that you make to any of the Static Filters (other than the Selection filter) while using the Selection Expert. To do this, from the Edit menu, click Commit. Alternatively, this can of course be done within the Filter Wizard.
6.7
Editing Filters
To edit an existing filter: 1. From the Database menu, click Filters. 2. In the Filter Database window, select the appropriate filter and click Edit. 3. Use the Filter Wizard to modify the filter. Tip: To easily rename a filter, just select the required filter in the Filter Database, then right click.
6.8
Deleting Filters
To delete an existing filter: 1. From the Database menu, click Filters. 2. In the Filter Database window, select the filter you want to delete. 3. Click the right mouse button, and from the menu that appears, click Delete. The filter is now moved to the wastebasket, but is still available to other users. 4. To make this filter unavailable to other users, remove it from the Wastebasket.
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6.9
Exporting Filters using XML Export
You can export your filters to share them or to keep a backup of them by using the XML Export function. From the ‘File’ menu select Export → XML… Click the Browse button to select the location to which you want to export the *.xml file(s).
Now, from the ‘Filters’ tab, select the Filters that you want to export. Click Export to begin exporting.
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6.10 Advice on how to create ‘faster-running’ Filters When creating dynamic filters, the sequence in which the rules are set (Rules will be activated from TOP to BOTTOM) can affect how fast your filters run. These guidelines will help to achieve this: •
Eliminating the largest number of unwanted objects first.
•
Using as few rules as possible - the number of evaluations affects the speed at which a filter runs.
•
Running the fastest rule first - some types of rule are faster than others.
(e.g. to test whether an object is a particular element, the Filter wizard compares two integers to check if they are equal or not. But to test whether a Property resides within a Polygon involves a complex algorithm comparing its location with every point of the Polygon.) This table lists the rules from quickest to process to the slowest:
Fastest
Slowest
Weighting
Rule Type
1
Element
5
Hierarchy
8
Field
5-15
Attribute
50-10000+
Polygon*
(* depends on how many points in the polygon) For more detailed information on Filters, please refer to “Filters, Fields and Polygons” in the ENTERPRISE USER REFERENCE GUIDE, available in pdf format from the Aircom website, or see the “Getting Started” section of the On-screen Help, which is available while the planning software is in use (the F1 context-sensitive key can also be employed). In addition, these reference sources contain some very useful EXAMPLES of how to create different types of FILTERS.
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6.11 Visualisers The purpose of Visualisers within the Map View is to allow the user to display any items, whether Map Layers or Network Elements, in a useful customised format, and to be able to swiftly switch between different Visualisers. These Visualisers always ‘belong’ to any of the Filters which are set up as specified in the Filter’s Session, and which appear under the list of Data Types on the Map View. However, it is NOT necessary to create Filters in order to utilise Visualisers. They can be fully utilised for DISPLAY PURPOSES in combination with the default “All” Filter”, and can act as a quick and easy way to customise the Map View. Visualisers have two distinct characteristics from Filters: 1) They are never saved to the Database, and therefore have no impact on processing speed. 2) They do NOT affect any other user, so all users can have their own Display Settings.
6.12 Creating Visualisers Within the Map View, reveal the list of Data Types as explained before. Right-Click on a Filter (in this case, ‘All’, although any filter could be used for this).
The New Visualiser will now appear under the + sign, and it is good practice to now Right-Click on it and give it a meaningful name: If, for example, we consider the example of Displaying Antenna Types, we could rename the Visualiser to “Antenna Type”. Assuming that the user has already customised the “All” Filter the easiest step is now to simply “Copy Properties” (i.e. Display Settings) from the ‘All’ Filter, by Right clicking on it, and then “Paste Properties” onto the new Visualiser. If you now tick the new Visualiser and untick the All Filter, and then click “Redraw”, you will notice the Visualiser will now have its display settings based upon those of the ‘All’ Filter. The final step is to now customise the Visualiser. © AIRCOM International
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6.13 Customising Visualisers In this example, double click on the new Visualiser named “Antenna Type”. You will see this window:
If you now Double-click on the appropriate network element, such as Cell (GSM) or Node B for UMTS, and click on the “Label” option, you will see a window like the following:
Press the Add button, and then expand the same element used before and then expand Attributes. Place a tick against the ‘Antenna Type’ as in the example window:
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Now click OK. Click OK again at the next screen to confirm the change (you may set a different Font Size or Colour if you wish). Finally, click Apply/Redraw, and you will now be able to visualise the specified Display Settings on the Map View.
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In the above example, we have simply chosen the Visualiser to “Match All” selected Attributes. However, while the user is accessing the Display Settings window, it is also possible to select on any specific criteria, such as Antenna Type ‘equal to’ a specified value or within a ‘range’ of values. Such criteria can be set on any Attribute relating to any Network Element, in order for users to customise and store their exact visual requirements on the Map View, WITHOUT affecting other users. A wide variety of Visualisers can thus be created and stored, and they can also be easily removed simply by Right-clicking. Visualisers can also be included into Favourite Views in the normal way. This will greatly speed up the process of displaying the Visualisers with the minimum of effort.
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6.14 Session Summary Checklist
;
This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session: ¾ Understand the purpose of Fields within ENTERPRISE
F
¾ Demonstrate how to create and define Dynamic or Static Filters
F
¾ Understand how to use the Selection Expert and Selection Filter
F
¾ Understand the various Uses of Filters within the project
F
¾ Learn how to perform a Filter export using the XML export feature
F
¾ Understand the purpose of Visualisers
F
¾ Be able to Create Visualisers
F
Additional Notes:
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7
Traffic Planning on a GSM Network
7.1
Objectives of this session
In this session you will learn how to:
7.2
Define Terminal Types
Create and Define a Traffic Density Raster
Perform Traffic Analysis
Apply System Carriers
Define Carrier Layer Configurations
Configure Cell Layers
Introduction
ASSET3G incorporates a set of sophisticated traffic modelling and analysis capabilities, which you can use to model the performance of your network and to calculate new transceiver requirements. These features are designed to work not just with simple single-layer networks but also with multilayered and multi-band/multi-mode networks. In this introductory section we will focus on a simple single-band, single-layer network to start with. Multi-layer/multi-band network planning is dealt with later in the course.
7.3
Terminal Types
ASSET3G models traffic demand by generating traffic density maps for different types of terminal. These density maps define the amount of traffic (in Terminals or Erlangs) offered to the network by each type of terminal on a pixel-by-pixel basis – the pixel size corresponding to one of the available clutter map data resolutions.
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A 3G Terminal Type defines five key characteristics: 1. How much ‘traffic’ will the Terminal Type generate in total? 2. How will the ‘traffic’ be spread geographically? 3. What is the expected mobile speed distribution for this Terminal Type? 4. Which Service will the Terminal provide? 5. What are the mobile equipment characteristics? To define a terminal type, from the ENTERPRISE Main Menu select Configuration → Terminal Types… The following window will then appear:
To configure a Terminal Type click ‘Add’ and rename the default name to one which is more appropriate for your network. Define the relevant Technology and if the terminal is a Master or a Slave terminal. Click on the ‘Apply’ button to save this change to the database. Next go to the ‘Clutter’ tab. This is where we start to define the traffic characteristics of this type of terminal. There is a choice of two methods for assigning traffic within this tab: 1. Weight: This method divides the ‘Total Traffic Figure’ (assigned later) amongst the various clutter classes by assigning a “weight” figure representative of the proportion of users for each category. Note: Weight is measured as a numerical value and one way to think of the weight value is as the number of subscribers you might expect in each of the clutter types, the weight being the relative amount of traffic to be spread.
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2. Density: The ‘Density’ method is used if you know the traffic density required for each clutter type but do not want to enter the estimated total traffic.
Whichever method is chosen (Weight or Traffic (E/km²)), click on the value for each clutter type and assign a figure. Note: If the ‘Weight’ method is chosen, having assigned all of the weights a Normalised Weight will be assigned to provide a percentage figure.
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Click on the ‘Vector’ tab:
You have an option to spread additional traffic along vectors by linking pixels of the vector as a separate clutter type. The vector can be measured by weight or by density, depending on the selection made under the ‘Clutter’ tab. For example, you may wish to assign a specific amount of traffic to a major highway. Click on the ‘Polygons’ tab:
Within the ‘Polygons’ tab additional traffic can be spread within a polygon, an option also exists in the Traffic Raster Wizard to spread traffic within polygons by clutter type (which makes use of the weights defined under the ‘Clutter’ tab). For example, you could use a polygon to define a well known traffic hot-spot (e.g. shopping centre or airport).
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Finally go to the ‘Cell Layers’ tab to select the layers on which this type of terminal can operate. Having highlighted the appropriate Cell Layer, click on the ‘>’ button to move the Cell Layer to the ‘Selected’ pane.
>
As Cell Layers have not been configured prior to creating a Terminal Type the default Cell Layer ‘GSM-default’ is in the ‘Available’ pane. This will need to be moved to the ‘Selected’ pane for the Terminal Type to run correctly. Clicking on the ‘Apply’ button will save the changes to the database and, if you want other users to see or use your terminal type click on the ‘Commit’ button.
7.4
Traffic Raster
After defining a Terminal Type we can then calculate the traffic density map for the geographical area of our network. This is done using the Traffic Raster Wizard, found under the Tools Menu of the ENTERPRISE Main Menu (Arrays → Traffic → Traffic Wizard…):
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Note: One of the options in the Traffic Raster Wizard allows you to spread the assigned terminal traffic only to pixels where there is service from one of the cell sites. The user may want to do this if he/she acquires the total carried traffic figures for the network (e.g. derived from the network performance counters). If you want to use this option you MUST create a coverage array for your network before running the traffic spread. If you are trying to determine how much of the estimated available traffic is actually served by the network then you would probably not want to limit the traffic spread to just the coverage area of the network. The first screen of the Traffic Raster Wizard allows you to spread your traffic by selecting a view shown in the Map View window. This is achieved by clicking on the ‘Select View’ button. Alternatively you can manually enter the co-ordinates yourself or leave the default co-ordinates, which are taken from the calculated Map Data extents.
When satisfied with the captured map view, click the Next> button to proceed on to the next page of the wizard. Ensure that the Terminal Type(s) that you want to model traffic for are selected by checking the appropriate box to its left. If they are not selected they will not be included in the traffic analysis.
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Click on the Next> button to progress to the next screen of the Wizard:
Use the drop down menu to select the resolution you require for the traffic array (from the available map data resolutions). Use the Memory Usage pane to check that the array size created is not too large for your computer; otherwise it will be a slow process. Click the Next> button to proceed:
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Within this screen the traffic spread can be limited to just those pixels where you have network coverage by selecting the ‘Restrict Traffic to Coverage’ option. Note: If you do not have a Best Server array already created or you have not chosen the same resolution (in the previous screen) as you used in the ‘Predictor’ to create the coverage array, then this option will be greyed out. Click on the Next> button to progress to the next screen. This screen prompts the user to enter the exact amount of traffic, for each Terminal Type selected, to be spread in the traffic raster over the entire geographical area.
Using the left mouse button, click on the value under the Traffic column to change it. Note: The value displayed in the Traffic column is the value that is used in the raster. When the traffic is being spread by weight then a value is required. When the value is being spread by density then a value is not required (Zero is classed as a valid value for all the traffic entries). Click the Next> button to continue.
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If you have attributes defined for polygons, the ‘Attributes’ screen is displayed:
You can now create a separate polygon attribute traffic raster, which means the traffic is spread within the polygon segment, or segments that make up the attribute. Click on the ‘Load Attributes’ button to:
Select the Attribute, using the drop down menu, which you want to create a raster for.
Select the Terminal Type you want to use.
Note: The attribute raster uses the total traffic values that belong to the attribute. Click on the Next> button to move on to the last page of the wizard:
You are now given the option to save the raster to a file and enter any comments such as date, region and level of traffic that was spread. Click on the ‘Finish’ button to enable you to analyse the traffic raster.
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To display the resulting traffic density map go to the ‘Show Data Types’ list and under the ‘Traffic’ category select the relevant Terminal Type:
The traffic is displayed as a colour coded density map:
It is possible to set the Display Properties, which include Start Value, Interval and colour by double clicking with the left mouse button on the Terminal Type name.
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7.5
Exercise: Producing a Traffic Density Raster
To determine the carrier requirements for the cells in your “JerseyCom” network carry out a Traffic Density Raster. 1. To create a new Terminal Type go to the ENTERPRISE Main Menu and select Configuration → Terminal Types. (a) Click on the ‘Add’ button in the Terminal Types window. (b) Create a new Terminal Type with the following details: General Tab: Name:
Voice Terminal (Day)
Technology:
GSM Circuit Switched (CS)
Traffic Association:
Master
Clutter Tab: Select the ‘Weight’ option and assign the following weights to each clutter category: Urban
90
Open_Rural_Land
5
Suburban_Residential
60
Water
2
Industry
50
Sea
2
Village
30
Agricultural Land
1
Open_in_Urban
10
Woodland Forest
0
Isolated Dwellings_Outbuildings
10
Pylons
0
Airport
6
Unclassified
0
Park_Recreational
5
Sample 1,2,3
0
For the purpose of this exercise leave the Vector Weight as default and Polygon traffic as 0.
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Cell Layers Tab: Move the GSM-Default (or any layer you want to use) Cell Layer from the ‘Available’ pane to the ‘Selected’ pane using the ‘¾’ button.
(c) To create a Traffic density map go to Arrays → Traffic → Traffic Wizard… and follow through the various screens of the wizard as instructed next:
Screen 1 (View)
Keep the default co-ordinate values as calculated in the ‘Map Data Extents’
Click the Next> button
Screen 2 (Terminal Types)
Select the Terminal Type created earlier in the Exercise ‘Voice Terminal (Day)’
Click the Next> button
Screen 3 (Resolution)
Set the Resolution to 50m
Click the Next> button
Screen 4 (Restrict to Coverage)
If available do not select the ‘Restrict Traffic to Coverage’ option
Click the Next> button
Screen 5 (Traffic Erlangs)
Click in the ‘Traffic’ column and set the Total Traffic figure to 150
Click the Next> button
Screen 6 (Attributes)
Leave this screen blank
Click the Next> button
Screen 7 (Save)
Leave this screen as default (blank)
Click the Finish button
(d) Display the resulting density map by going to the “Show Data Types” list and select the ‘Voice Terminal (Day)’ option under the ‘Traffic’ category. (e) Save your colour coded Traffic density map as a Favourite and name it “Day Voice Traffic Density Raster”
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7.6
7.6.1
Traffic Analysis Process
Process
The traffic analysis process is described by the flow chart on the right. Before the process can get under way there are several pre-requisites which must be defined/created, these include:
A suitable traffic density raster
A corresponding Best Server array
A channel-to-carrier map for your system
Traffic Raster Created
Capture Traffic per SubCell
Apply Traffic to Database
Defined/assigned carriers and carrier layers A GoS objective and traffic model selection When these are in place the process is to first “Capture” the traffic which involves calculating how much of the traffic density map each sub-cell can serve. This traffic information must then be stored to the database. Next the tool calculates the number of traffic timeslots required and corresponding carriers based on the channel-to-carrier maps and GoS algorithm selected. The final step is to apply the carrier requirements to the database. The tool assigns the total carrier requirement per subcell according to the carrier layer priorities and max-carriers settings in the carrier layer configurations.
Best Server Array Created
Channel-tocarrier Map Defined
Carriers & Carrier Layers Defined/ Assigned GoS and Traffic Model Parameters Set Compute Timeslot & Carrier Requirements
Apply Carrier Requirements to Database
If the above all sounds confusing and complicated all will hopefully become clear as we go through it step-by-step!
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7.6.2
Channel-to-Transceiver Maps
A Channel-to-Transceiver map in ASSET3G describes to the tool how to convert from a requirement for a certain number of GSM air-interface timeslots to an equivalent number of Transceivers (and therefore carriers). This is necessary since not every carrier has the full 8 timeslots available for traffic – some will be reserved for control purposes. To define the Channel-to-Transceiver map you want to use go to Configuration → Lookup Tables and Curves → Channels to Transceivers… to get this window:
You will find a number of pre-defined mappings already there for you to use but these will not match with your own network requirements. To create a new channel to carrier map, click on the ‘Add Map’ button. You will then be prompted to give the ‘Map’ a name.
Having given the Map an appropriate name click on the ‘OK’ button. You will then be asked if you wish to specify dedicated GPRS channels;
Click the ‘No’ button. The next step is to define the map using the right-hand pane of the Channel to Transceiver Setup window.
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Select your new map from the list in the left-hand pane and you should see a blank list in the righthand pane. There are two columns in the right-hand pane. The first indicates the number of carriers on a cell and the second gives the equivalent number of available traffic timeslots (i.e. excludes any control timeslots). The “Default Number of Channels Per Transceiver” field indicates the number of timeslots that will be added when the ‘Add Transceiver’ button is pressed. Subsequent clicks on the ‘Add Transceiver’ button simply adds the current value in the “Default Number of Channels Per Transceiver” field, to provide a cumulative sum of the number of traffic channels available for the number of carriers used. To set the “Default Number of Channels Per Transceiver” enter a number in the respective box and click the ‘Apply’ button. The next ‘Add Transceiver’ action will then use this new increment value. To modify the map afterwards simply highlight the entry you wish to modify, enter a new figure in the ‘Max Chans’ field and click on the ‘Apply’ button to change the values. When you have finished creating a Channel to Transceiver Map click the ‘Close’ button. Note: It is important that you set the ‘Default Number of Channels Per Transceiver’ value before carrying out the traffic analysis. The reason for this is that if the number of timeslots required to support your traffic levels exceeds the number available in the last line of your Channel-toTransceiver map then the tool assumes that any additional transceivers/carriers are available with the Defaults value of traffic timeslots on each. A typical value would therefore be 7 or 8.
7.6.3
Frequency Bands
Frequency bands divide the mobile radio spectrum into different carrier sets (e.g. GSM900, GSM1800, etc.) which are applied on a carrier layer basis. The use of these bands is optional and set through the general settings of the tool, found under the General tab of the Preferences window.
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By considering carriers belonging to different bands, it is possible to restrict the allocation of these to certain carrier layers. Furthermore, if you use the automatic frequency-planning algorithm it will be able to consider the effects of inter-modulation interference on the network for the various carrier assignments. Every time a project is added, default bands are created automatically. You can access the Frequency Bands window through the ENTERPRISE Main Menu by selection Configuration → Carriers → Frequency Bands…
Other bands may be added to the list to suit the carriers available for use in your network or to take into account different technologies. This is done, by clicking the ‘Add’ button. Within the ‘Frequency Conversion Formulae’ window we specify the conversion formulas that describe the way in which uplink and downlink frequencies are extracted from their respective carrier numbers (ARFCNs), added in the Carriers dialogue. In some circumstances it might be necessary to have more than one conversion formulas per band (e.g. AMPS networks). It is good practice to start by providing the band with a more descriptive name. In the bottom half of the window, you then specify the appropriate parameters for the conversion formula. These are the starting frequency (A), the frequency step between adjacent carriers (B), the range of carriers for which the formula applies to and finally the uplink and downlink frequency separation.
7.6.4
Carrier Layers
We must now set up some carrier layers in our network, since before the traffic analysis tool can assign the carrier requirements it generates to the sub-cells in the database, there must be some available carrier layers for it to assign them to.
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Carrier Layers are a logical grouping of carriers that perform common functions and are assigned to different cell layers. First we must specify which carriers we are allowed to use in our network. This is done through the ENTERPRISE Main Menu by selecting Configuration → Carriers → GSM + GPRS:
Now populate the carrier list by entering either ranges of carrier numbers (e.g. GSM carrier numbers) or single carrier numbers and clicking on the ‘Add’ button.
In our example we have added GSM carrier numbers 1 to 36. This was achieved by selecting the ‘Range’ option and entering the numbers 1 to 36 in the available boxes. Clicking the ‘Add’ button populates the carriers 1 to 36 in the left-hand pane. Now click the ‘OK’ button to finish.
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We can define the logical division of our list of available carriers through the ENTERPRISE Main Menu by selecting Configuration → Layers → Carrier Layers…:
A default carrier layer is produced automatically when the project is created. In this case it is called ‘GSM-Default’. Within the ‘General’ Tab of the ‘Cell Layer Configuration’ window the first step is to rename the default layer. In the example below we have renamed the default layer to “GSM900 BCCH”. Because this is intended as our control layer we need to select the ‘Control Layer’ box.
Having entered the new name and ticked the ‘Control Layer’ box, click on the ‘Apply’ button to save the changes. Next assign the specific carrier numbers to use on this layer.
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This is done within the ‘Carriers’ Tab:
For this example we will use carriers 1 to 12 for our GSM900 BCCH ‘control’ layer. Within the ‘Carriers’ tab, highlight carriers 1 to 12 in the left hand pane. This is done by clicking on carrier 1 with the left mouse button, depressing the ‘shift’ key on the keyboard, and then clicking on carrier 12 again with the left mouse button.
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Click on the ‘>’ button to assign the carriers.
Note: Using frequency bands on the carrier layers impedes any carrier assignments that do not appear on the band that you have chosen to use. The tool will notify you of this fact. Next we must set the “Maximum Allocatable Carriers”. This value is very important as it defines the maximum number of carriers that can be assigned from this carrier layer on any one sub-cell. In the case of BCCH layer we only want one carrier on any one cell so the value is set to 1. We will return to the significance of these values later when we are applying the results of the traffic carrier requirement analysis to the database. Click on the ‘Apply’ button to save the changes. The final tab ‘Groups’ allows you to define a particular reuse pattern when conduction frequency planning of the carriers for this carrier layer.
By associating the reuse pattern with the layer it allows you to define different reuse patterns for each carrier layer, for example BCCH and TCH.
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Now create a second Carrier Layer by clicking ‘Add’ button at the top of the window. Under the ‘General’ tab rename this new layer GSM900 TCH (i.e. traffic channel carrier layer).
Ensure the ‘Control layer’ check box is not assigned since this is not a control layer.
Under the ‘Carriers’ tab assign the appropriate carriers. In this example carriers 13 to 36 have been assigned to this layer and set the ‘Maximum allocatable carriers’. In this example a figure of 3 is used.
This means that on any one cell we can never allocate more than 1 BCCH carrier and 3 TCH carriers, i.e. 4 TRUs in total. Highlight each carrier layer in turn and click on the ‘Apply’ button followed by the ‘Commit’ button to save the changes to the database. Note: Both Carrier Layers must be ‘applied’ and ‘committed’ in order for the required carriers for each subcell to be applied automatically by the tool once a traffic analysis has been completed.
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7.6.5
Cell Layers
The next step in the configuration process is to ensure that the relational link is established between Cell Layers and Carrier Layers. Select this option through the ENTERPRISE Main Menu from Configuration → Layers → Cell Layers…
As with the carrier layers a cell layer is created automatically when the project is created, in this case it is called ‘GSM-Default’. Cell layers are used to define logical groups of transceivers on a cell. They are often referred to as “sub-cells” when assigned to a cell, together with the other RF details. For example, we might define different cell-layers for Macro and Micro or for Over-laid and Underlaid – we will return to the concept of cell-layers and how to use them later when we look at Dualband networks. Under the ‘General’ tab rename the default cell-layer. This may prove to be very useful, especially later as the network expands. Representing different layers with different names will be easier to work with when designing a dual band network for example. In this example the default layer has been renamed to ‘GSM900’.
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Click on the ‘Apply’ button to save the change to the database. Now go to the ‘Coverage Type’ tab. Within this tab you can set a C/I Threshold and choose a Channel to Transceiver Map to be associated with the cell layer.
For this example these have been left as default values. Moving on to the ‘Carriers Layers’ tab. Inside this tab you can define and associate the ‘GSM Carrier Layers’ (BCCH/TCH layers) to the ‘Cell Layer’ (GSM900 layer). This is where associations between carrier-layers and cell layers are made.
>
In this case we will assign both GSM900 BCCH and GSM900 TCH to our GSM900 Cell-Layer. To do this highlight each carrier-layer, in the ‘Available’ pane, in turn and click the ‘>’ button to move them to the ‘Allocated’ pane. Note: The order in which carrier-layers that appear in the ‘Allocated’ pane is crucial. They should be sorted into the order in which you want carrier requirements to be assigned. For example if you had one BCCH layer and 3 TCH layers and arranged them such that BCCH was at the top of the list followed by TCH1, then TCH2 and TCH3. When you apply the carrier requirements from the traffic
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analysis, the carrier layers are assigned in the order in which they appear in the list up to their maximum allocable carriers’ value, until all requirements have been assigned. This process should become clearer as we go through the traffic process. In our example the GSM900 BCCH should be at the top. If this is not the case, highlight the appropriate carrier layer and use the ‘↑↓’ keys to reorder them. When satisfied with the changes ‘Apply’ them to the database.
↑
The last tab, ‘Coverage Thresholds’, lets the user to define the coverage colour schema to use when displaying coverage for this layer on the 2Dview.
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7.6.6
Allocating Cell & Carrier Layers using Global Editor
At this point the link between the Cells and the Cell/Carrier Layers in the database has not been defined. In the Site Database cells are expanded in the tree-list to show the Site Sub-Cell. The user can view the available carrier layers by selecting the ‘Carriers’ tab.
You can see the BCCH and TCH Carrier Layers but at this point the layers are not available for use by the tool, this is indicated by the lack of an entry in the “Use” column for each Carrier Layer. To make the Carrier Layers available for each Cell we must select the ‘Allocated’ check-box and ‘Apply’ the change to every assignment. This would be a long and tedious process, if this had to be done manually but fortunately we can use the ‘Global Edit’ Facility, within the Site Database, to carry out such a process for us. To open the ‘Global Edit’ Facility simply click on the ‘Global Edit’ button, located in the bottom right-hand corner of the Site Database window. The Global Editor provides the capability to make configuration changes across a number of sites simultaneously. The sites, which are affected by the changes, are dependent on the filter selection chosen. The different tabbed pages in the Global Editor provide editing options for the corresponding items in the Site Database. This is a very powerful and useful tool and it is advisable that you spend some time familiarising yourself with its editing capabilities.
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In this case we want to use the Global Editor to make BCCH and TCH Carrier Layers available for use on all sites/cells. To do this:
Select the ‘Carrier Layer’ tab.
Open the available Cell/Carrier Layer combinations by clicking on the + sign.
Select the GSM900 BCCH layer from the combo box and, from the ‘Setting’ tab on the right-hand pane, select the ‘Allocate. (This specifies that the user wishes to Allocate this layer). You can also ‘De-allocate’ a Carrier Layer by selecting the relevant option.
Repeat this process for every Cell/Carrier Layer combinations that you want to Allocate or DeAllocate.
Finally select the ‘Carriers Required’ check-box and enter the ‘Maximum allocatable carriers’ as defined in the Carrier Layer Configuration window. In this example a figure of 1 was used.
Once completed click on the ‘Apply’ button to carry out the global edits on the filter elements in the network structure.
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When the Global Editor is finished making the changes return to the Site Database and look at one of the cells you have edited to confirm that the Carrier Layers are now available for use.
7.6.7
Capturing Traffic
The first step in ASSET3G’s Traffic Analysis process is to combine the information contained in the Traffic Raster created earlier with the Best Server information. Using these two pieces of information it is possible to calculate the total traffic “captured” by the service area of each cell. Using the ENTERPRISE Main Menu select Tools → Static Traffic Analysis…
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Select the filter you want to capture the traffic for (e.g. All), from the ‘Select Filter’ combo-box. The extent of the coverage for each of the cells is dependent upon parameters set-up earlier in the ‘Array Settings’ window. Under the ‘Serving and Interfering Cells’ tab make sure the ‘Use cell layers when calculating a best server array’ check-box is selected and both carrier layers (BCCH & TCH) are selected in the ‘Serving signal’ pane. Note: The ‘Use cell layers when calculating a best server array’ checkbox should be selected to indicate that you wish to take into account the cell-layer priorities and service areas when capturing traffic. For instance, you might wish to know how much traffic the Overlay and Underlay layers are capturing or the macro/micro layers. If you do not want to take the cell-layers into account then deselect this check-box.
Once you have set the appropriate parameters as shown above, click the ‘Capture Traffic’ button to begin the analysis. A warning message may appear if any cells included in the traffic analysis have not yet been predicted. You can choose various options from the drop down menu including Auto-predict. Having made your selection click on the ‘OK’ button to continue.
You will now receive a report showing the traffic captured by each sub-cell. This report is generated in Microsoft Excel and can be saved for future reference if required.
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The report shows each cell and each sub-cell together with the corresponding amount of ‘CS Traffic’ served. At the bottom of the report you will get a summary of the ‘Total Captured CS Traffic’. If you notice that the total captured traffic figure is less than the figure you assigned to the terminal type, this would indicate that not all of the traffic fell within the service area of the network. To save these traffic values to the Site Database click on the ‘Traffic’ button within the ‘Apply on to subcells’ field. You can then view these figures, on the Cell Layer level of the Site Database, under the ‘General’ tab.
7.6.8
Calculating Carrier Requirements
From the traffic per cell information it is now possible to calculate the number of carriers (i.e. TRUs) required to provide a specified GoS.
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This is accomplished using the bottom part of the Traffic Analysis window:
Set the Quality of Service objective you wish to design to and select a traffic model (Blocking - Erlang B, or Queued - Erlang C). The Traffic per Customer figure represents an average subscriber talk time, generally in the region of 90 seconds. From this value the tool can estimate the number of subscribers for each sub-cell in the carrier requirements analysis. Click on the ‘Analyse’ button to calculate the carrier requirements. Another report is generated in Microsoft Excel, which includes details of the cell, cell layer, the number of traffic channels required, the number of carriers that you require to cope with the amount of traffic, the number of carriers currently allocated and the actual level of blocking.
The ‘TRX reqd Total’ column presents the number of carriers required using the Channel-to-Carrier map we defined earlier for this cell-layer. This has been calculated from the number of channels required to service the cell to an appropriate quality of service using the Erlang B or Erlang C blocking formulas (Erlang B in the above example).
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The report also gives an approximation of the number of subscribers ‘Customers’ served by the cell, based upon the ‘Traffic per Customer’ figure entered in the ‘Traffic Analysis’ window (25 mE in the example above). The final step in the ‘Traffic Analysis’ process is to save the carrier requirements to the database. This is done by clicking on the ‘Apply Carriers Required on SubCells’ button.
The tool will then take the total carrier requirement for each sub-cell and assign these to the carrier layers on that sub-cell starting with the highest priority carrier layer and working down the list of available carrier layers. In our example we have two layers, BCCH and TCH with the max_allocatable_carriers parameter set to 1 and 3 respectively. For a sub-cell with a total requirement of, say, 2 the tool will assign a requirement of 1 to BCCH and then 1 to TCH. If the requirement was 5 the tool would be unable to assign the requirements since we have limited the BCCH to 1 and TCH to 3 max. These carrier requirements will ensure that our frequency plan has the correct number of carriers on each sub-cell to provide the GoS that our network requires with the traffic requirements predicted. Note: It is of course possible to simply manually assign the carrier requirements through the Site Database window or ‘Globally’ using the Global Editor. For example, you could set a requirement of 1 BCCH and 2 TCH carriers for every cell using the Global Editor. However, the traffic planning features should give a more realistic plan of the geographical distribution of carrier requirements.
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7.7
Exercise: Traffic+Carrier Requirement Planning
In Exercise 9 important phases in the network dimensioning process were completed. Exercise 10 will concentrate on the next stage in the process, which is defining and configuring the carrier requirements for the subcells. The end goal of this process will be to define the correct number of TRX’s needed under a specific traffic loading. You can adjust these suggested parameters to your particular settings as required. From the ENTERPRISE Main Menu select Configuration → Carriers → GSM + GPRS to specify GSM carrier numbers. 9 Select GSM Carriers 1 – 24 for this exercise. 9 Click on the ‘Add’ button to populate the System Carriers pane with the chosen carriers. From the ENTERPRISE Main Menu select Configuration → Layers → Carrier Layers… to bring up the Carrier Layer Configuration window. 9 Divide the available carriers logically by defining a ‘GSM900 BCCH’ (control layer) and a ‘GSM900 TCH’ (traffic channel carrier layer). Note: A GSM-Default Carrier Layer should already be present in the Carrier Layer Configuration Window. 9 Under the General tab, of the ‘Cell Layer Configuration window’ rename (by highlighting) the GSM-Default Carrier Layer to GSM900 BCCH. Also ensure the Control Layer box is ticked. 9 Under the Carriers tab highlight carriers 1 – 15 in the “Carriers Available” pane then use the ¾ button to move these carriers to the “Carriers Assigned” pane. 9 Set the Maximum allocable carriers for the GSM900 BCCH Layer to 1 9 Apply and Commit these changes to the Database ♦ We now need to configure the ‘GSM900 TCH’ layer. 9 Under the General tab, of the ‘Cell Layer Configuration window’ click on the Add button (top right hand corner) 9 Rename (by highlighting) “Carrier Layer 1” to GSM900 TCH. As this is a Traffic layer do not tick the Control Layer. 9 Under the Carriers tab highlight carriers 16 – 24 in the “Carriers Available” pane then use the ¾ button to move these carriers to the “Carriers Assigned” pane. 9 Set the Maximum allocable carriers for the GSM900 TCH Layer to 2 9 Apply and Commit these changes to the Database
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Having configured the ‘Carrier Layers’ a relational link has to be established by configuring the ‘Cell layers’. This is done by selecting Configuration → Layers → Cell Layers from the ENTERPRISE Main Menu. 9 Under the ‘General’ tab rename (by highlighting) the GSM-Default layer to ‘GSM900’ 9 Under the ‘Coverage Type’ tab Interference Weights and Channel to Transceiver maps can be defined. For the purpose of this exercise leave Interference Weights as ‘Default’ and Channel to Transceiver set to ‘Standard_GSM’ 9 Within the ‘Carrier Layer’ tab highlight both ‘GSM900 BCCH’ & ‘GSM900 TCH’ in the “Available” pane and use the ‘¾’ button to move them into the “Allocated” pane. 9 Ensure that the ‘GSM900 BCCH’ is at the top. If this is not the case, highlight the appropriate carrier layer and use the ↑↓ keys to reorder them. 9 The last tab, ‘Coverage Thresholds’, allows you to define the coverage colour schema to use when displaying coverage for this layer on the 2D-view. For the purpose of this exercise leave the Schema set to ‘System default’. 9 Apply and Commit these changes to the Database. A link between the cells and the cell/carrier layers in the database now needs to be established. This is done using the ‘Global Edit’ facility within the Site Database. 9 From the ENTERPRISE Main Menu select Database → Sites, to bring up the Site Database window 9 Click on the ‘Global Edit’ button within the Site Database (bottom right of window) 9 In the filter window use the drop down menu À to select the “All” filter (if applicable) 9 Under the ‘Carrier Layer’ tab tick both the “Layer Allocation” and “Allocate/Remove” boxes, tick the ‘Carriers Required’ check-box and enter the figure 1 in the ‘Carriers Required’ box. 9 Within the ‘Cell Layer/Carrier Layer’ pane using the drop down menu À to choose the ‘GSM900 TCH’ Layer. 9 Tick both the “Layer Allocation” and “Allocate/Remove” boxes, tick the ‘Carriers Required’ check-box and enter the figure 2 in the ‘Carriers Required’ box. 9 Apply and Commit these changes to the Database. From the ENTERPRISE Main Menu select Tools → Static Traffic Analysis. 9 So the traffic information created earlier can be analysed and viewed by click on the “Capture Traffic” button. 9 A report appears, in Microsoft Excel, which can be examined.
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9 Within the Traffic Analysis window store the Traffic demand values in the Database by clicking the “Traffic” button, within the ‘Apply on to subcells’ field. Note: The traffic values can now be viewed on each sub-cell within the site database. Now calculate and analyse the number of carriers required providing a ‘Grade of Service’. 9 Within the Traffic Analysis window, under the ‘CS’ tab, set the following ‘Quality Of Service’ and ‘Traffic per Customer’ figures:
Acceptable Blocking
-
2%
Traffic per Customer
-
25 mE
9 Select the ‘Erlang B’ option 9 Click the “Analyse” button to calculate the carrier requirements. 9 Another report (in Microsoft Excel) will appear, giving details of timeslot and carrier requirements 9 The final step in the process is to store the carrier requirements into the database, this is done by clicking on the “Apply Carriers Required on SubCells” button. Display “Traffic per SubCell” by going to the “Show Data Types” list and select the relevant item under the ‘Traffic’ category. Save as a Favourite, and name it “Traffic per SubCell” Note: If the TRX configuration being used does not fulfil traffic loading requirements a warning message will appear in the message log window. Analyse this information carefully in order to ascertain which subcells will not perform under the criteria set.
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7.8
Session Summary Checklist
;
This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session:
¾ Defining Terminal Types
F
¾ Creating and Defining Traffic Density Rasters
F
¾ Performing Traffic Analysis
F
¾ Applying System Carriers
F
¾ Defining Carrier Layer Configurations
F
¾ Configuring Cell Layers
F
Additional Notes:
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8
Planning Neighbours
8.1
Objectives of this session
In this session you will learn how to:
8.2
View Neighbours in the site database
Display Neighbours graphically
Use the Automatic Neighbour Generation Wizard
Apply Neighbours to the site database
Introduction to Neighbours
Creating and managing neighbour lists is an important part of the on-going engineering of any conventional cellular network. ASSET3G stores neighbour lists (in the database) for each cell layer in the network and also includes some automated Neighbour list generation tools.
8.3
Neighbours in the database
Neighbours are stored in the database against each Cell. The neighbour lists for each cell can be viewed and modified through the relevant part of the Site Database window:
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A neighbour is a handoff relationship from one cell to the neighbour cell. The relationship is directional and if you want handoffs to be possible in both directions you must define the neighbour as “mutual”. To add a new neighbour using the Site Database window, go to the ‘Neighbour’ tab on the Cell level and click on the ‘Add’ button.
You will then be prompted to specify the destination Cell ID within the ‘Neighbour Chooser’ window:
Choose a Filter (e.g. All Filter), using the drop down menu, and enter the Cell ID of the neighbour. Choosing one the various options (i.e. Sub string, Reg exp, Exact or Match case) will effect how the software reads the Cell ID entered. Click on the ‘Find’ button to see the Distance and Relative bearing of the Neighbour:
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Note: If no Cell ID is entered, on clicking the ‘Find’ button all potential neighbours are listed together with their respective distance and relative bearing. A Neighbour relation can be made by selecting the appropriate check-box, which will subsequently be saved to the database upon clicking the ‘OK’ button:
Note: If the Check-box is left unselected the Neighbour relation is not stored in the Site Database. You can now decide whether the selected Neighbours are to be ‘Mutual’ or ‘Outward’ only by selecting the corresponding choice in the ‘Neighbour type’ pane:
An Inward, and if applicable, an outward Handover Margin can also be set.
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Created Neighbour relations can be saved to the ‘DIFF’ or User database tables by clicking on the ‘Apply’ button. Clicking on the ‘Commit’ or ‘Commit All’ button will save the changes to the ‘Permanent’ database tables. To change the Hysteresis (Handover) margin, set in the Site Database window, highlight the neighbour by clicking on it with the left mouse button. Enter the new margin figure in the ‘Set Margin’ box and then click on the ‘Set Margin’ button to update the value in the Site Database. Note: The same procedure is used for changing the Handover Margin for both Outward and Inward Neighbours within the Site Database.
8.4
Graphical Neighbour Design
It is often much easier to design neighbour lists graphically since it is then possible to visualise the network coverage, terrain and proximity of cells to one another.
8.4.1
Displaying Neighbours
To view the currently defined neighbours for a specific cell: Select from the ‘Show Data Types’ menu the option ‘All Neighbours’, which can be found under the Neighbours/Exception category, under the ‘Handover Neighbours’ option. You can then use your mouse pointer to hover over a cell; its neighbour relationships will then automatically been shown in the 2D Map View window. Alternatively you can select the ‘Display Neighbours’ button which is within the ‘Add Neighbour Cell’ toolbox on ‘Site Design Toolbar’ of the 2D Map View window. With the left mouse button click on the cell whose neighbours you wish to see. This option produces a static display of neighbours for the cell selected. The neighbour relationship will be displayed as a line between the cells.
To display neighbour relationships for other cells simply repeat the process.
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Note: The display can quickly become very cluttered and difficult to read with several neighbour relationships displayed; it is therefore possible to assign different colours to each list to help differentiate them. To change the colours of the neighbour relationships go to the ‘Show Data Types’ list or the ‘Map Information & Control’ window and open the ‘Neighbours/Exceptions’ category. A list of the current Neighbour relations will be shown:
As with any other display item, simply double-click on the item name to bring up the ‘Display Properties’ window.
Choose a colour and click on the ‘OK’ button to change the display. You can also display neighbours of neighbours (2nd order neighbours). As before, double-click on the item in the ‘Show Data Types’ list and select the ‘2nd order’ tab in the ‘Neighbours Display Properties’ window.
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Select a colour, ‘Style’ and the ‘Display 2nd Order’ check-box. Click on the ‘OK’ button to change the display. Note: You may need to click ‘Redraw’ within the 2D View context menu for the change to take effect.
8.4.2
Adding Neighbours
To add Neighbours graphically click on the ‘Add Neighbour cell’ button within the ‘Add Neighbour cell’ toolbox on the Site Design Toolbar of the 2D Map View window. In the 2D Map View window click on the “source” cell, with the left mouse button, followed by the “destination” cell. You can continue to add more neighbours by clicking on the source cell then the destination cell. Note: If you are not displaying the neighbours for a cell then you won’t see newly added neighbours on the screen as you add them – they will be added to the database but won’t be visible until you display the neighbours for that cell.
8.4.3
Deleting Neighbours
Deleting neighbours is carried out in the Site database window. To delete a neighbour relationship or relationships, simply highlight the neighbour(s) you wish to delete from within the list of neighbours’ and then click on the ‘Remove’ button. A ‘Remove Neighbours’ window should now appear listing the neighbour(s) highlighted for deletion together with an option to remove Neighbour relationships that are ‘Mutual’ or ‘Outward’ Types. Clicking the ‘OK’ will perform the desired function.
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8.5
Exercise: Manual Neighbour Planning
Using the Nominal Coverage design project “JerseyCom” we will now ‘Manually’ allocate Neighbour relationships. Using the ‘Site Database’ manually add new neighbours to four cells in your network. To do this: 9 From the ENTERPRISE Main Menu select Database → Sites to bring up the Site Database window. Choose a Site and expand it to its Cell (or Cell Layer for GSM). 9 Under the ‘Neighbour’ tab click on the ‘Add’ button, which will launch the ‘Neighbour Chooser’ window. 9 Configure the Neighbour Chooser with appropriate settings in order to display potential neighbour cells, before clicking on the ‘Find’ button. 9 Make four ‘mutual’ neighbour connections in your network (using the steps described above) and ‘Apply’ the changes to the database. 9 Graphically display the above neighbour configuration by selecting the ‘Display Neighbours’ button from the Site Design Toolbar of the 2D Map View window. 9 Click on the cells in the 2D Map View window, for which you have made neighbours, to display the relationships. Save this view as a Favourite, and name it “Manual Neighbours”
8.6
Automatic Neighbour Generation
ASSET3G incorporates a ‘Wizard’ that automatically generates neighbour lists based on the predicted coverage/cell service areas of your network. This tool is intended to provide a first-pass set of neighbours, which will then be examined by an experienced RF engineer prior to implementation. Neighbour list calculation is a very difficult task. What constitutes a “good” or “bad” neighbour relationship depends on a wide variety of factors; some of these factors cannot be modelled in a planning tool (there is no substitute for experience when it comes to defining neighbour lists, but these tools can help to speed up the process). To generate neighbours automatically you first need to create either a ‘Best Server coverage array’ or an ‘Interference table’ for the area/sites required. For this example we shall produce our neighbours based on the former, as this has been created earlier. The Neighbour Wizard is selected through the ENTERPRISE Main Menu: Tools → Neighbours → Neighbour Wizard…. The following window will then appear:
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The first screen allows the user to select a view, enter co-ordinates or use the default co-ordinates (taken from the calculated Map Data Extents) for the wizard to use when calculating the neighbour list. By default, the wizard captures the view of the current map window. If you wish to vary the view in anyway or select that of another GIS window, click the ‘Select View’ button, followed by the appropriate map view you wish to work with. The wizard will now pick up a snapshot of the new view that will be used.
Click the Next > button to move on to the next screen of the Wizard. In the second wizard screen you select the Filter to be used:
The next screen allows the user to choose the means by which neighbours will be created. Both methods work on the same principle, which is to consider the amount of overlap between cells. You also get a choice of the kind of Neighbour relationships to be created, such as GSM to GSM, GSM to UMTS, UMTS to GSM, UMTS Intra-Frequency (within the same Carrier) and UMTS Inter-Frequency (between Carriers).
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When using the ‘Best Server Array’, neighbours are calculated using the Service Area Array. The algorithm looks for overlapping adjacent pixels from two cell service areas and if sufficient pixels are found that ‘touch’ each other (which is specified by the user), then a neighbour relation is created. Having chosen to calculate neighbours using the Best Server Array, the following options are available to change by the user: Maximum number of neighbouring cells:
Allows the list of neighbours generated by the algorithm to be limited to the maximum value set by the user.
Minimum number of border squares:
This sets the criteria for the generation of neighbours. The value entered specifies the minimum number of boarding squares overlapping in order for a Neighbour relation to be created.
Make co-site cells neighbours:
If selected, co-site cells will automatically be added to the Neighbour list regardless of matching the defined criteria.
Resolution for all plans:
Sets the Resolution (pixel) size of the area to be planned.
Alternatively, neighbours may be created based on Overlapping Areas. Using the appropriate pixel resolution, the tool converts these areas into a number of overlapping pixels, from which neighbour relationships can be determined. More on Interference tables later. Having selected to use ‘Overlapping areas’ to calculate the neighbours, the following options are available to change: Maximum number of neighbouring cells:
Allows the list of neighbours generated by the algorithm to be limited to the maximum value set by the user.
Maximum number of covering cells:
Another user definable value to limit the neighbour list to the maximum value set.
Neighbour plan margin:
Sets the criteria on which the algorithm will base its neighbour creation. If the power difference between the serving cell and potential neighbour cell falls within the set margin, then it is considered a neighbour.
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Override propagation model standard deviation:
Allows a user definable Standard Deviation, overriding the Standard deviation of interference value set in the Propagation Model, allocated to each sub-cell in the Site Database.
Minimum overlapping %:
An optional threshold value to limit the number of Neighbours calculated. The value set considers the minimum percentage of overlapping area between the serving cell and potential neighbour cells in order that they be classed as a neighbour.
Minimum overlapping area (km²):
An optional threshold value to limit the number of Neighbours calculated. The value set considers the minimum area of overlap between the serving cell and potential neighbour cells in order that they be classed as a neighbour.
Make co-site cells neighbours:
If selected, co-site cells will automatically be added to the Neighbour list regardless of matching the defined criteria.
Resolution for all plans:
Sets the Resolution (pixel) size of the area to be planned.
Click on the Next > button to move on to the next page of the wizard. The next screen in the Wizard allows a choice of analysing the neighbour list after it has been planned or alternatively to save the neighbour list as an XML file, which can be analysed at a later date.
Now click the Next > button to get the final screen of the Wizard. The final screen of the wizard estimates the memory required to perform the task, if you have enough memory to produce the neighbour plan click on the ‘Finish’ button. Alternatively, use the ‘
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When the wizard has calculated the neighbour relations, a message similar to the one below will be displayed confirming the neighbour relations created. To acknowledge the message click on the ‘OK’ button.
At this stage the new neighbours are not stored in the database, they are held in memory, which gives you the opportunity to review the neighbour list before updating the database. Having acknowledged the ‘Neighbours Created’ message you are able to view and analyse the neighbours:
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8.7
Analysing Neighbours
The Neighbour Analysis allows multi-technology neighbours to be displayed together with the following information for a selected cell: Identity:
Displays the Neighbour Cell Id
Distance(km):
Gives the distance in km or miles (depending on the Distance unit specified in the ‘Preferences’ window)
Status:
Shows the existence of the neighbour relationship:
State:
Only in the Database (column reads ‘Database only’)
Only in the Neighbour Plan (column reads ‘Plan only’)
In both the Database and Neighbour Plan (column reads ‘Database/Plan’)
In Memory, where a user entry was made (column reads ‘In memory’)
Displays the pending action of a neighbour, which is related to both the neighbours’ status and actions applied by the user, for example: ‘Keep’ is displayed if the neighbour relationship exists in the database, but was not picked up in the neighbour plan. However, the site was not included in the filter used in the automatic neighbour planner. ‘Delete’ is displayed if the neighbour relationship exists in the database, but was not picked up within the neighbour plan. But, the site was included in the filter used in the automatic neighbour planner. ‘No change’ is displayed if the neighbour relationship is in the database and was also picked up in the neighbour plan. ‘Create’ is displayed only if the neighbour relationship exists in the neighbour plan. Note: some of the above states can be changed manually by the user
Direction:
Inward, Outward or Mutual will be displayed for each relationship.
Margin(dB):
This is only applicable for GSM cells and displays the margin set for each relationship within the Site Database or the global setting set in the automatic neighbour planner.
Internal/External:
Shows neighbour relations created within (Internal) or outside (External) different PLMNs or Logical Networks.
Tech:
States the technology (GSM, AMPS, TETRA, UMTS, IS95/CDMA2000).
Carrier:
Displays the Carrier number for neighbour relations.
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Type:
Displays the type of handover (Soft, softer or Hard) dependent on the technology in use.
Relative Bearing:
Displays the relative bearing of the neighbour cell in relation to the serving cell.
Overlapping Area(km²):
Is shown only for neighbour relations generated by the automatic neighbour planner. Gives the area in km² or miles² (depending on the Distance unit specified in the ‘Preferences’ window)
Overlapping %:
Is shown only for neighbour relations generated by the automatic neighbour planner.
HO Region:
Will display the HO Region as either Inter/Intra (Site,Node B, BSC,RNC,MSC), as appropriate.
Inter/Intra-LAC:
Neighbour relations with the same LAC will be annotated as ‘Intra-LAC’ whilst those with different LACs will be annotated as ‘Inter-LAC’.
As well as being able to perform Neighbour Analysis after running the automatic neighbour planner, you can also perform Neighbour Analysis independently of any automatic procedure. This provides the user with all the neighbour functionality, currently available within the Site Database. The Neighbour Analysis window can also be used for adding, removing, identifying and modifying neighbour relationships. The ‘Add All Mutual’ button at the top of the Analysis window, converts all neighbour relations picked up in the neighbour plan into a two-way relationship, if they weren’t already so. To store the new neighbour relations to the Site database click on the ‘Update Database’ button, you will be given a warning message indicating that any neighbour relations that have a State setting of ‘delete’ will be deleted.
. The neighbour relations with a State setting of ‘keep’ will remain unchanged, whilst those with a setting of ‘create’ will be added as new neighbour relations to the Site Database. The newly created neighbour relations for each specific cell can be viewed by clicking on the ‘Display Neighbours’ button within the ‘Add Neighbour Cell’ toolbox on ‘Site Design Toolbar’ of the 2D Map View window or alternatively can be analysed using the ‘All Neighbours’ function activated from within the ‘Show Data Types’ list (as previously described).
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8.8
Exercise: Automatic Neighbour Creation
Use the ‘Automatic Neighbour Generation Tool’ (Wizard) to generate neighbours. The Wizard can be launched from the ENTERPRISE Main Menu by selecting Tools → Neighbours → Neighbours Wizard. 9 Move through the screens of the Wizard setting the following parameters, where appropriate:9 Within the ‘Step 3 of 5’ screen select to use the ‘Best Server Array’, set the minimum number of border squares required as 10, the Maximum number of relations for each cell to 16. 9 Having clicked the ‘Finish’ button, on the last wizard screen, after a while you will receive a message box reporting the number of neighbour relationships created for the number of cells processed. Click on the ‘OK’ button to acknowledge the message. View the new neighbours in the Neighbour Analysis window that appears. 9 Click the “Add All Mutual” button at the top of the window, to convert all neighbours into a twoway relationship. 9 Click the “Update Database” button to store the new neighbours to the database. 9 Graphically display the above neighbour configuration by selecting the “Display Neighbours” button on the Site Design Toolbar of the 2D Map View window. Click on each cell in your network, in the 2D Map View window to display the neighbour relations. Save as a Favourite, and name it “Automatic Neighbours”
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8.9
Session Summary Checklist
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This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session:
¾ Manually adding neighbour relations using the Site Database window
F
¾ Manually creating neighbour relations using the 2D Map View window
F
¾ Creating Neighbours using the ‘Wizard’
F
¾ Applying Neighbours to the Site Database
F
¾ Viewing Neighbour relations in the Site Database
F
¾ Displaying Neighbour relations graphically in the 2D Map View window
F
Additional Notes:
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Interference and Frequency Planning
9
Interference and Frequency Planning
9.1
Objectives of this session
In this session you will learn about:
9.2
Using the Interference Table Wizard and interpreting its results
Manual Frequency allocation using the Site Database
Manual Frequency allocation using Frequency Re-use patterns
Analysing Interference and Carrier assignments
Producing and viewing Interference Arrays
Planning BSICs
Interference Tables
An Interference table details the effect of interference for every pair of sub-cell/carrier layer combinations in the network whose predictions overlap. The results can then be analysed before commencing the Frequency Planning process to identify the effects of interference in terms of both area and traffic affected.
9.2.1
Interference Table Wizard
The ‘Interference Table Wizard’ generates its results from the network coverage information and (optionally) from the traffic density raster. The table lists each cell in the network together with all possible interfering cells (i.e. all cells with predictions, which overlap that of the cell in question). The larger your predictions the longer the list of possible interferers will be for each cell. The table presumes that a co- or adjacent channel allocation has been made by the frequency planner and as such contains details on the amount of interference by area and (optionally) by traffic.
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To generate the Interference Table for your network you must first have a valid ‘Best Server’ array and a ‘traffic density’ raster. With these in place go to the ENTERPRISE Main Menu and select Tools → Interference Tables → Interference Table Wizard.
The Wizard has the same familiar first page requiring you to specify which 2D Map View window to work with:
To proceed to the next page of the Wizard click on the Next> button. Screen two of the wizard presents the user with a number of choices relating to site selection, method of calculation, the optional use of traffic data and a choice of how to calculate the Interference Probability.
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•
Selection of Sites?
Sites considered in the calculations are selected through the use of ‘Filters’ or alternatively, by capturing a specific view (on the first screen of the Wizard) in which the necessary site elements are present. •
Which Calculation Method to use?
You have a choice of ‘Calculation Methods’, either to use the ‘Best Server’ or ‘Probable Best Server’.
Best Server Method
For each ‘Best Server’ the algorithm sums the C/I interference contribution from all other subcells.
Probable Best Server Method
For each pixel all potential ‘Best Servers’ are calculated, together with a probability value which indicating their ‘Best Sever’ potential. The algorithm will work out, for all potential Best Servers, the C/I interference contribution from all other cells. However, this contribution will be scaled down by the probability value and the result is then summed. Although the ‘Probable Best Server’ option will give more accurate results, the processing time will be a lot slower than if the ‘Best Server’ option is chosen. •
Whether traffic raster information is used?
In most situations it is essential to gain an understanding of the percentage and the degree to which traffic could be affected by interference. This information is an additional input to the frequency planner that imposes stricter levels of interference in relation to the traffic density experienced in different areas. Normally, using traffic data produces better frequency plans since it is important to protect high traffic areas (e.g. urban areas) from interference much more than low traffic areas (e.g. agricultural land). To produce interference figures based on the amount of traffic affected, it is necessary to have the appropriate rasters available in memory. We must then instruct the interference table wizard to consider traffic density maps by checking the ‘Use Traffic Data’ box before selecting a terminal type or types from the list. •
Which Interference Probability method should be used?
Two methods exist for calculating the interference probability: 1. Use Interference Weights The area/traffic affected by interference is calculated to be the area which is defined within the interference weights table for a mean C/I. The interference table is defined on a cell layer basis and only a single interference table can be assigned to a cell layer.
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The default interference weights table within ASSET3G is as follows:
This default interference weights table has been generated assuming that a co-channel C/I of 9dB is where the quality of a connection begins to be adversely affected, and that the C/I follows a Gaussian distribution about the calculated mean, which has a standard distribution of 7.8dB. The adjacent channel curve is produced from the default offset of -18dB set within the Array settings window. 2. Calculate Dynamically This method takes a user definable C/I Threshold allocated on the Cell Layer which dictates where the quality of a connection begins to be adversely affected. The C/I then follows a Gaussian distribution about a calculated mean, which is taken from the standard deviation of interference value set in the Propagation Model assigned to each cell. The adjacent channel curve is produced from the C/A offset value set in the Array settings window (default setting is -18dB). C/I Threshold (Cell Layer)
Standard deviation of interference (Propagation Model)
When you have set up these options click the Next> button to move on to the final page of the Wizard.
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This page allows you to save the resulting Interference Table to a file (*.ait file) for future reference, which can save time if you are regularly re-planning large networks.
Note: You can load a saved interference table from the ENTERPRISE Main Menu by selecting Tools → Interference Tables → Load Interference Table. Select the file you wish to reload and click on the Open button. Click on the ‘Finish’ button to calculate the Interference Table.
9.2.2
Viewing the Interference Table
After creating the Interference Table it is possible to view it through the ENTERPRISE Main Menu by selecting Tools → Interference Tables → View Interference Table.
For each sub-cell, the window shows the coverage area and traffic captured together with a list of the possible interfering cells. Clicking on an interferer brings up the relevant co- and adjacent channel interference, which would arise if frequency allocations of this kind were made to the cells in question. This data is shown to the right of the window. The Co-channel fields relate to the amount of interference, which would result from a co-channel assignment on the serving cell and the selected interferer. The Adjacent Channel fields show the same information but for possible adjacent channel allocations.
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You can select how to order the list of interferers using the buttons in the ‘Sort Interferers by’ field, at the bottom. Sorting these by affected traffic, for example, shows the possible interferer where a cochannel allocation with the wanted cell would result in the largest amount of interfered traffic. To view the interference figures for other cells, it is necessary to click on the relevant cell in the 2D View or type in the Cell Id into the ‘Cell’ box in the view window. As you can see this “what if?” interference information is exactly what the automatic frequency planning algorithm requires to be able to determine how good or how bad a particular frequency plan option is. It can also prove very useful when manually frequency planning. Unfortunately the nature of this table does not lend itself to graphical display and can only be viewed using this viewing window. Once you have finished viewing the table click on the ‘Close’ button.
9.3
Exercise: Creating Interference Tables
Having created a valid Best Server array and Traffic density raster we can now generate the Interference Table. The Interference Table Wizard can be launched from the ENTERPRISE Main Menu by selecting Tools→Interference Tables→Interference Table Wizard Within the Wizard set the following parameters:View:
Select a view to determine the area for the Wizard to use Select filter À:
“All” ;
Use Traffic Data: Selected Terminals: Interference Probability: Save:
“Voice Terminal Day” “Use interference table”
Store the new neighbours and any comments to file
Analyse the Interference Table by selecting Tools→Interference Tables→View Interference Table from the ENTERPRISE Main Menu. Note: Unfortunately the nature of this table does not lend itself to graphical display and can only be analysed using this viewing window. Having analysed/viewed the table click on the ‘Close’ button.
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9.4
Frequency Planning
Frequency Planning is necessary to avoid the same frequency being used in nearby cells, which would cause unwanted interference. The number of cells that use different frequencies is called the ‘reuse factor’. Tighter reuse (lower reuse factor) means that more frequencies can be used in each cell, for a given number of total frequencies, but also means a larger interference between the cells.
9.4.1
Manual Frequency Planning
Frequencies can be manually allocated to cells in the network through the Site Database window. On the Cell Layer Level, within the ‘Carriers’ tab, the allocation of carriers can be made within the ‘Carriers’ pane.
First highlight the required Carrier Layer in the ‘Carrier Layers’ pane, then choose a Carrier by highlighting it in the ‘Carriers’ pane and ticking the ‘Alloc’ box to complete the carrier allocation process.
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Note: Carriers can be de-allocated from a Carrier Layer by un-ticking the ‘Alloc.’ Box.
9.4.2
Group Planning
Group Planning is one of the main techniques used by radio planners to help them allocate frequencies to the network. This technique divides all the available frequencies between a number of frequency groups, which you can then allocate manually. Using Frequency Groups enables you to quickly generate structured frequency plans. However, for irregular or high-density networks, a ‘best-fit’ frequency plan may give better network performance rather than rigid re-use schemes.
9.4.3 9.4.3.1
Group Planning within ASSET3G Defining Re-use patterns
Before commencing Group Planning the Frequency Re-use patterns need to be defined. From the ENTERPRSIE Main Menu select Configuration → Layers → Carrier Layers … Go to the ‘Groups’ tab and select the ‘Use Group Planning’ check-box.
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Within the ‘Frequency Re-Use Pattern’ field choose either 3x9, 4x12 or a Custom pattern. The carriers allocated to that layer will now automatically populate the pattern template.
To change the way the carriers appear in the template, using the left mouse button double-click on a carrier in the template. The following ‘Auto-Fill’ window should then appear:
By entering a Carrier sequence in the ‘Start’ and ‘End’ boxes you can then select how that sequence appears in the template by selecting a ‘Fill Sequence’ (Left to Right/Right to Left and Upwards/Downwards). Click on the ‘OK’ button to re-order the Re-use pattern template. Complete this process for all the Carrier Layers to be planned. 9.4.3.2
Allocating Frequencies
The manual allocation of Frequency Groups is done through the Site Database window. Access the Site Database window through the ENTERPRISE Main Menu by selecting Database → Sites…
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On the ‘Cell Layer’ level click on the ‘Carriers’ tab:
The ‘Carriers’ pane within the ‘Carriers’ tab of the Site database window has two view options: List View
Group View
Using the ‘Group View’ option, individual carriers from groups can be assigned to each cell by firstly highlighting the carrier and then selecting the ‘Alloc’ check-box. Do this for each cell and cell layer in the network, allocating a carrier from a different group to each cell in the network. Having completed the manual allocation of Group Frequencies click on the ‘Apply’ button followed by the ‘Commit’ or ‘Commit All’ button to save the changes to the database.
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9.5
Analysing the Frequency Plan
ASSET3G contains a number of different features, which allow you to analyse the Frequency Plan.
9.5.1
Interference Arrays
Once a Frequency plan has been created and saved to the database it is then possible to view the resulting interference graphically in the 2D Map View window. The Interference arrays are chosen through the same ‘Array Creation’ window used for creating the ‘Best Server’ arrays. Prior to using the ‘Array Creation’ window, it is necessary to set up some initial parameters, such as interference options and cell/carrier layer to examine. This is done through the ‘Array Settings’ window, which can be accessed through the ENTERPRISE Main Menu by selecting Arrays → Array Settings… Under the ‘Interference’ tab, of the Array Settings window (shown below), we need to specify to the tool whether we want to display co-channel, adjacent-channel or the sum of the two. To do this select the appropriate option within the ‘Channel selection’ pane of the ‘Interference’ tab.
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Within the ‘Interference options’ pane the following items are also available for selection: Use Frequency Hopping:
This option takes into account the partial use (loading) of carriers during frequency hopping, automatically assigning an appropriate weighting with respect to the number of carriers in use.
Use Frequency Diversity:
Having selected ‘Use Frequency Hopping’ in addition you can select to consider Frequency Diversity within the creation of an array. This will take into account that during Hopping different frequencies suffer from different fading losses, and so a frequency diversity gain is obtained. The gain is dependent on the number of hopping frequencies used, the values of which are taken from the FH Diversity Gain table.
Use DTX:
This option instructs the software to scale down the power of the transmitter based on the activity factor of the terminal. Using DTX helps to reduce interference between different cells and increases the capacity of the system.
Use Traffic:
This option uses any traffic per subcell information when creating arrays. The traffic is converted to a number of channels using the selected Erlang formula. The channels for a cell together with the number of channels being used are taken and the proportion in use at any time is worked out. The interference is then reduced by that amount.
Use Antenna Hopping:
This option will take into account the diversity gain achieved when multiple antennas are exposed to different multipath fading. Antenna Hopping is a transmit diversity scheme in which consecutive bursts of information are transmitted on different antennas.
Finally, before creating the array ensure that the correct Cell and Carrier Layers have been selected/included to enable the interference analysis to be performed. This is done in the ‘Interfering signal’ pane of the ‘Serving and Interfering Cells’ tab:
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Note: The ‘Interfering signal’ pane can also be used to just look at certain cells or cell layers individually by selecting them from the list. In the 2D Map View window and select the ‘Create Arrays’ button ( ), and having chosen from the ENTERPRISE Main Toolbar, and having chosen ‘Non Sim’ the ‘Create Arrays’ window will appear:
There are several options for interference analysis within the window, and these are described below: Worst/Average Connection:
These arrays are used when you have frequency hopping cells in the network and you want to model the interference. The ‘Worst Connection’ array calculates the equivalent interference of the worst hopping group. The ‘Average Connection’ array calculates the equivalent interference averaged over all hopping groups.
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Worst Interferer:
This array is for Non-hopping networks and calculates the interference between the serving carrier at that location (pixel) and the strongest interfering carrier.
Total Interference:
This array is also for Non-hopping networks and calculates the interference between the serving carrier at that location (pixel) and the summed interference from all cells using the interfering carrier.
Having selected the appropriate interference array click on the ‘OK’ button to perform the calculation. The created array can be displayed in the normal way by going to the ‘Show Data Types’ list in the ‘2D Map View’ window and selecting the appropriate array within the ‘Coverage’ category.
In the above example, a ‘Worst Interferer’ array has been calculated. By double-clicking, with the left mouse button, on the appropriate array the user can change the display properties of that array:
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The choice to ‘Show good coverage’ or ‘Show bad coverage’ refers to the categories shown in the 2D Map View window. Good coverage will include all categories, whereas Bad coverage ignores the first category (i.e. 2%). Note: The Category values (coverage colours, labels and levels) can be changed using the ‘Modify’ button. As with other arrays you can use the ‘Coverage Statistics’ tool to compute area-based statistics on the interference in your network. This can be accessed through the ENTERPRISE Main Menu by selecting Arrays → Coverage/Interference → Coverage Statistics… or by clicking on the ‘Coverage ) from the 2D Map View Toolbar. Upon choosing the ‘Non Sim’ option the Statistics’ button ( ‘Coverage/Interference Statistics’ window will then appear. Within the ‘Coverage/Interference Statistics’ window select the type of interference array you have created and the level you want to analyse to. This is done by firstly selecting the array from the list and secondly clicking on the ‘Define’ button to give the respective array categories. The category can then be chosen using the drop down menu:
Note: You can also restrict the Statistics to an area within a Polygon by choosing the appropriate option in the ‘Coverage area’ pane. Continue through the various screens of the Wizard using the ‘Next>’ button before clicking on the ‘OK’ button to get a report (in Microsoft Excel), which gives you statistics on the interference performance:
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9.5.2
Cell Info Reporter
This report can be accessed through the ENTERPRISE Main Menu by selecting Reports → GSM Cell Info Report…
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There are two facilities provided by the reporter: a) Searching for cells with Co- or Adjacent channels to the target cell. b) Searching for cells with specific carriers assigned. 9.5.2.1
Search by Cell Identity
Searching by ‘Cell Identity’ makes it possible to enter a cell name in the ‘Cell Identity’ pane and indicate whether to search for other cells with co-channel allocation or adjacent channels. Matching cells will be displayed in the lower pane of the window together with any cell parameters selected under the ‘Cell Parameter’ tab.
The number of sites considered in the search may be limited through the use of Filters. These are selected through the ‘Filter’ tab using the drop-down menu.
9.5.2.2
Search by Carrier
With the second option it is possible to find all cells using specified carriers. A wildcard (*) can be used to display all the carriers on the filter of cells selected:
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The resulting information can then be viewed or stored to a text file for future reference by clicking on the ‘Export’ button.
9.5.3
Frequency Re-use Display
Within the ‘Cell Info’ category of the ‘Show Data Types’ list there is an item called ‘Freq. Re-Use’. This option allows the user to display cell service areas coloured according to the carriers in use on that cell:
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By double-clicking on the ‘Freq. Re-Use’ option its respective display properties window will appear. Within this window you define the carriers you wish to display and the colours to be used:
In the above example carriers 1 to 10 are chosen to be displayed wherever they are in use and the colouring will start from the first colour chosen in the palette (i.e. Black) and will then proceed for each sequential carrier:
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9.6
Session Summary Checklist
;
This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session:
¾ Correctly use the Interference Table Wizard and Interpret the results
F
¾ Perform Manual Frequency allocation of carriers using the Site Database
F
¾ Perform Manual Frequency allocation using Frequency Re-use Patterns
F
¾ Analyse Carrier Assignments using the 2D Map View window
F
¾ Produce and view an Interference Array and analyse its statistics
F
¾ Carry out BSIC Planning
F
Additional Notes:
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Candidate Planning
10
Candidate Planning
10.1 Objectives Within this lesson you will learn about:
How Candidates are configured within ENTERPRISE
The Configuration options available within ENTERPRISE
Viewing Candidates in the 2D Map View window
Assigning and De-assigning Candidates
10.2 Nominal and Candidate Functionality ENTERPRISE uses the concept of nominal and candidate properties. A nominal property is a new property placed in an approximate location, as a way of indicating that you need a site somewhere near this location (lat/long). By defining a search area for this nominal, you define the area (radius) in which the new property or properties must exist. Within this search area, you can then place a number of other properties (called Candidates) which are possible alternative locations for the new site. Candidates can take on the same equipment and parameters as the nominal, except for MSCs and BSCs, and one candidate can be marked (flagged) as preferred over the rest.
10.3 Nominal and Candidate Configuration Configuration of Candidates is done in ENTERPRISE within the Preferences window.
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This can be found by selecting File → Preferences and then selecting the ‘Candidate Options’ tab.
10.3.1
Candidate Functionality Field
It is necessary to select the Enable Candidate Functionality check box for full access to the various tools used within Candidate planning.
10.3.2
Automate Field
The following options are available as automatic functions within the software: Candidate Status:
If this option is selected, any property that is within the search area of a nominal property will automatically be given candidate status of that nominal.
Renaming:
This option becomes available for selection when the Candidate Status option has been selected. If selected the Candidate property will be renamed, the name being based on that of the nominal (e.g. Site1_A).
Capturing candidates:
This option also only becomes available for selection when the Candidate Status option has been selected. If selected, candidate status will be automatically changed, depending on whether a property falls within the defined search area or not. This allows the resizing of the search area, which will automatically change any property that falls within it to a candidate, and visa versa.
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10.3.3
Nominal Restrictions Field
Can Move:
Gives any user permissions to move the Nominal Property.
Cannot Move:
Permissions to move the Nominal Property are revoked.
10.3.4
Candidate Restrictions Field
Can move anywhere:
Gives any user permissions to move the Candidate Property anywhere on the 2D View.
Move within search area:
Only allows the movement of a Candidate Property within the nominals’ search area.
Cannot move:
No permissions are granted for the movement of Candidate Properties.
10.3.5
Candidate’s BTS Equipment Field
No new BTS equipment:
On linking a Nominal Property to a Candidate Property the BTS equipment configuration on the Nominal and Candidate properties will remain unchanged.
Remove candidate’s and copy nominal’s:
On linking a Nominal Property to a Candidate Property the BTS equipment configuration on the Nominal will be copied across to the Candidate, replacing any existing BTS equipment which may have been on the Candidate.
Keep candidate’s and copy nominal’s:
On linking a Nominal Property to a Candidate Property the BTS equipment configuration on the Nominal will be copied across to the Candidate, any existing BTS equipment which may have been on the Candidate remains also.
10.4 Site Database View In the Site Database window, elements (sites & properties) may be viewed in one of the following ways: Logical Links, Physical Links, Location or Network View. As nominals and candidates are created at the property level it is necessary to change the database view to either Physical Links or Location.
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This is achieved by selecting the appropriate option from within the ‘View’ menu of the site database, as shown below: -
The choice of using either Physical Links, Logical Links or Location View to display the Network is optional, however the information displayed is very different in each: Physical Links
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Location View
Candidate Planning
10.5 2D View Functionality The 2D View window contains a number of icons/buttons, which are used in candidate planning:
10.6 Assigning Candidates Assigning candidates is the linking of candidate properties to nominal properties. This indicates which candidate could fulfil the need of the nominal location, placed by the Radio Planner. Assigning candidates in ENTERPRISE is done in the 2D View using the search area button and the make candidate button.
10.6.1
Using the search area button
In the 2D View window locate a property, which you wish to make the nominal. With the left mouse button click on the ‘Search Area’ button and then click, with the left mouse button, on the located property (to become a nominal) and drag the mouse until the search area is of the required size.
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Note: This search area now defines the location/area of interest for the candidate property locations. Within the site database the Property is now referred to/flagged as a Nominal Property, and the Property symbol colour turns to blue:
The size of the search area created in the 2D View window is shown in the Site Database under the Search Area tab. This radius can be changed in the Site Database by selecting the Override 2d-view defined search area option and entering the new radius value, which is measured in meters.
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10.6.2
Using the Make Candidates button
Use the Add property button
to add new properties into the search area.
Note: Any options selected inside the Automate field of the Candidate Options tab, within the Preferences window will now take effect. If no Automate functions are selected, the assigning of candidates is done in the 2D View using the Make candidate button
.
Having selected the Make candidate button, by clicking on it with the left mouse button, click on the relevant nominal property (with the left mouse button) and then click on the property to be made a candidate (with the left mouse button). A message box will then appear asking you to confirm the candidate selection:
Click on the ‘Yes’ button to add the candidate to the selected nominal. The nominal – candidate relationship will then be shown in the site database under the ‘Search Area’ tab and the Candidate Property symbol (in the Site Database) will turn to green.
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10.6.3
Displaying Candidates
Displaying candidates of a nominal is done using the Display Candidates button in the 2D View. Having selected this button click on the nominal property (with the left mouse button) and the candidates for that nominal will be displayed with a line. A nominal may have any number of candidates assigned. The following screenshot shows the appearance of a nominal with two assigned candidates.
10.6.4
De-Assigning Candidates
De-assigning candidates is also carried out within the 2D View window using the Break Candidate . Having selected the ‘Break Candidate’ button click, with the left mouse button, on the button candidate property to be de-assigned. A message box will then appear asking whether you want the candidate to be removed or not:
Clicking the ‘Yes’ button will de-assign the candidate from the nominal. Note: If you have the Capturing candidates option selected in the Automate field under the Candidate Options tab in the Preferences window you can de-assign candidate status from a Property by resizing a search area to exclude a candidate.
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10.7 Exercise: Candidate Planning
Continuing with the ‘JerseyCom’ project, set the Candidate Planning options through the ‘Candidate Options’ tab of the ‘Preferences’ window. Ensure firstly that the ‘Candidate Functionality’ check-box is selected (to enable candidate functionality) and secondly that the automatic Candidate functions are not selected. Within your current network choose a Site to be your potential ‘Nominal’ Property. 1. Add ‘Potential Candidate’ properties: Using the ‘Add Property’ button place 3 potential ‘Candidate’ properties around your chosen ‘Nominal’ Property (Site). 2. Create a Candidate: Within the 2D Map View window ensure that you have properties displayed then select the ‘Make Candidate’ button from the ‘Site Design Toolbar’. Select the ‘Nominal’ Property followed by the ‘Candidate’ Property. A link between these Properties should now be displayed. Within the Site Database window select the ‘Candidate’ Property and check the Candidate Status Flag setting. This has changed from ‘Not Used’ to ‘Candidate’ Click on the ‘Apply’ and ‘Commit’ buttons to save this change to the database. 3. Display Candidates for a Nominal in ENTERPRISE: In the 2D Map View window select the ‘Show Candidates’ button then select the ‘Nominal’ Property. All the ‘Candidate’ Properties will now be displayed. You can change this display so that each Nominal Property has its own candidates displayed as a different colour. Selecting the ‘Nominal’ from the ‘Candidates’ category of the ‘Show Data Types’ list does this. By double-clicking on the ‘Nominal’ its display properties can be changed. 4. Break a Candidate: From the Site Design Toolbar of the 2D Map View window select the ‘Break Candidate’ button. Select the Candidate you wish to de-assign, clicking on the ‘Yes’ option, in the window that appears, to confirm the action. Select the Candidate Property from within the ‘Site Database’ window and click on the ‘Commit’ button. Note: The Candidate Status Flag has changed from Candidate back to Not Used.
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10.8 Session Summary Checklist
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This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session:
¾ State where Candidates are configured within ENTERPRISE
F
¾ List the different configuration options available within the software
F
¾ Demonstrate how Candidates are viewed within the Site Database and 2D Map View window F ¾ Show how to Assign and De-assign Candidates
Additional Notes:
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F
Dual Band Networks
11
Dual Band Networks
11.1 Objective of this session In this session you will learn (with the help of a practical exercise) two key methods for modelling dual-band networks within ASSET3G.
11.2 Introduction Initially GSM was designed to work in the 900 MHz band (“the primary band”). However, over time additional bands have been added. The table below shows the frequency bands used for GSM Base Station Systems: TX:
RX:
935 MHz to 960 MHz
890 MHz to 915 MHz
1805 MHz to 1880 MHz
1710 MHz to 1785 MHz
E-GSM900
925 MHz to 960 MHz
880 MHz to 915 MHz
R-GSM900
921 MHz to 960 MHz
876 MHz to 915 MHz
GSM 450
460.4 MHz to 467.6 MHz
450.4 MHz to 457.6 MHz
GSM 480
488.8 MHz to 496 MHz
478.8 MHz to 486 MHz
869 MHz to 894 MHz
824 MHz to 849 MHz
1930 MHz to 1990 MHz
1850 MHz to 1910 MHz
P-GSM900 DCS1800
GSM 850 and MXM 850 PCS 1900 and MXM 1900
(ETSI, GSM 11.21 version 8.3.0 Release 1999, www)
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11.3 Overview There are two key methods for modelling dual-band networks with ASSET3G, these are: 1) By defining 2 cells, one with a GSM900 sub-cell and one with a GSM1800 sub-cell 2) By defining a single cell with 2 sub-cells (i.e. GSM900 & GSM1800) The choice of which method to employ will be dependent on the equipment configuration you are planning for (e.g. for networks employing “purpose built” dual band equipment method two should be used). The following session will take you through, step by step, how to set-up a dual-band network using both methods.
11.4 Pre-requisites Before setting up for either method, a number of important items need to be in place before the configuration process begins. These items include:
•
Importing Antennas, either Single-band or Dual-band
•
Setting up Propagation Models for both frequency bands
•
Allocating Carriers for both frequency bands
•
Defining the two Carrier Layers
•
Defining the two Cell Layers
For details on how to setup these items, please refer to the Sections on Coverage and Traffic planning within this document.
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11.5 Dual-band Configuration
11.5.1
Sharing Antennas
If you are using antennas that are dual band, such as 900 and 1800 MHz, where the only difference between the antennas is their patterns, you can share the antenna. The sector could be represented as two cells. For example, a site has a sector at an azimuth of 180. If you configure the sector to support an antenna of a different bandwidth, all parameters such as height, azimuth, tilt, correction factor pattern and shared ID would be the same. By sharing antennas for different technology types, you can make changes to the parameters for an antenna and they are reflected in all technology types sharing this antenna. This reduces the time needed to make the changes for many antennas for all the different technology types on the same Property. Note : If you are sharing antennas, you cannot select to use a connected repeater. To share an antenna and make it available for multi-technology sites and cells on the same Property you first have to set any Antenna-sharing preferences on the File→Preferences→‘Shared Antennas’ tab as shown below:
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You then: 1. Select the relevant cell in the Site Database. 2. On the Antennas tab, select the Shared Antenna checkbox. 3. Choose the antenna pattern you require. 4. In the Antenna Identity box, type a number to identify the antenna in the database:
Important: The number must be positive. 5. Repeat this process for the second antenna you want to share, ensuring you use the same positive number in the Antenna Identity box. 6. Click Apply. You are then prompted to: − Sync with antenna shares - use the settings of the antenna with the same identity. − Update the associated shared - make the associated shared antenna's settings the same as the local antenna. − Break relationships - break the relationship between the shared antennas.
11.5.2
Configuring a Dual Band system
To configure a Dual-band system, either the Site Database or Site Template can be used, depending on the planning situation at the time of planning. You would use the Site Database to re-configure an existing site, whereas the Site Template would be used at the beginning of a project or when a new ‘Dual-Band’ Site is to be planned using the 2D Map View window. The configuration process is very similar for both the Site Database and Site Template. For training purposes the ‘Site Template’ will be used to show the configuration process.
11.5.3
Defining Two Cells (Method one)
It will be very likely that many sites within our network will have the same ‘Dual-band’ characteristics. Instead configuring each network element individually, which can be done using the Site Database, you can define a site template to use as a base for any new sites. This will save a lot of time during the planning phase of your network.
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Dual Band Networks
11.5.3.1 Define a Site Template
To create a ‘Dual-band’ Site Template go to Database → Templates…, the following window will then appear:
In the ‘Templates’ pane, click with the right mouse button in the white space below/next to the existing default templates. From the menu that appears click on the type of template you want to add.
Note: To edit the properties of an existing template, select the template in the ‘Templates’ pane, and configure the template using the various available tabs. You will now be prompted to enter the name of the template (e.g. Dual Band 3 Sector), having done so click on the ‘OK’ button.
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Your new template will now appear among the list of existing templates. To edit the properties of this template, select the template in the ‘Templates’ pane, and configure the template using the various available tabs. 11.5.3.2 Adding Cells and Cell Layers to a Site Template
To configure the template for a ‘Dual-band’ (Method 1) site, click with the right mouse button on the site and from the menu that appears, click ‘Add Cell’ six times:
By default the new cells will have the GSM900 Cell Layer assigned to them, since this was the original project default layer. To configure the Site for ‘Dual-band’ three of the GSM900 layers must be deleted and be replaced with GSM1800 layers. Clicking with the right mouse button on the text of the sub-cell (e.g. GSM900) and selecting ‘Delete Cell Layer’ from the menu that appears does this:
Now continue by clicking with the right mouse again on the text of the Cell Id (e.g. GSM 3 Sector Dual Band Site) selecting Add → Cell Layer → GSM1800, from the menu that appears:
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On the cell level the following parameters can now be configured under each tab: General Tab:
Set the Propagation Model (GSM900 or GSM1800) using the drop down menu and, if applicable, enter the MNC, MCC,NCC and BCC.
Status Tab:
Set any previously created Fields to associate them with the site.
Cell Config Tab:
Choose to inherit Cell Configuration settings from ARCHITECT or to specify them individually. Set the Cell equipment details. Set the DTX state and voice activity factor. Choose an FCC category (if applicable).
Antennas Tab:
Choose a suitable antenna type for each cell (i.e. 900MHz Antenna for GSM900 Cells and 1800MHz Antenna for GSM1800 Cells), using the drop down menu and set any correction factor. Choose a feeder type and enter the feeder length. Set the antenna azimuth in degrees from north. Enter any mechanical down tilt. Set the antenna height. Set a distributed antenna location (if applicable).
BCF:
Set the following cell parameters: Cell Type (0-9999), Segment ID (1-128) a Segment name. Note: a segment is a group of BTSs with the same BCCH.
Note: Ensure that the Propagation Model is set under the ‘General’ tab of the Cell and not the Sub-Cell. Although this would be an alternative way of setting the model of each cell, it is only really used when considering multiple cell layers on each cell.
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Finally configure the sub-cells with the following parameters: Set the Cell Layer Signal Threshold.
General tab:
This value is the minimum signal strength that you want that layer to pick traffic up at. Set the Signal Threshold on each Cell Layer so that the traffic will be forced onto the GSM1800 layer (the higher priority layer). The traffic will be served by the GSM1800 layer until the received level is better than the Signal Threshold value set, then the traffic will go to the GSM900 layer. For example, the GSM1800 Layer could be set to –75dBm and the GSM900 Layer set to –102dBm. Antenna/TRX tab:
Enter the Antenna Power output for each sub-cell (e.g. 35 dBm). Note: This value can be changed at a later stage, having viewed the results of the Coverage Prediction (Best Server).
11.5.4
Define a Single Cell with Two SubCells (Method Two)
Method two differs from Method one in the configuration process within the Site Template (or Site Database. Method two uses ‘Antenna Slots’ which have been previously covered in an earlier session. 11.5.4.1 Site Template
Create a ‘Dual-band’ Site Template by selecting Database → Templates…, from the ENTERPRISE Main Menu:
In the ‘Templates’ pane, click with the right mouse button in the white space below/next to the existing default templates. From the menu that appears click on the type of template you want to add.
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You will now be prompted to enter the name of the template (e.g. Dual Band 3 Sector_2), having done so click on the ‘OK’ button.
Your new template will now appear among the list of existing templates. To edit the properties of this template, select the template in the ‘Templates’ pane, and configure the template using the various available tabs. 11.5.4.2 Adding Cells and Cell Layers to a Site Template
To configure the template for a ‘Dual-band’ (Method 2) site, click with the right mouse button on the site and from the menu that appears, click ‘Add Cell’ three times:
By default the new cells will have the GSM900 Cell Layer assigned to them, since this was the original project default layer.
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Now add a GSM1800 Cell Layer. This is done by clicking with the right mouse button on each cell, and choosing ‘Add Cell Layer → GSM1800’, from the menu that appears:
Under the ‘General’ tab of the Cell Layer set the respective propagation model (i.e. GSM900 Propagation Model to the GSM900 Cell Layer, GSM1800 Propagation Model to the GSM1800 Cell Layer), by selecting the ‘Override model’ check-box and using the drop-down menu to select the appropriate model.
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Set the Signal Threshold value for each layer, this value is the minimum threshold used to fulfil traffic modelling requirements (e.g. GSM900 Cell Layer set to –102dBm, GSM1800 Cell Layer set to – 75dBm):
The creation of a Dual Band Site using Method two uses two different antenna slots, each referring to a different band. Each slot must be configured separately on the Cell level of the Site Template, within the ‘Antenna Config’ tab :
Click on the ‘Add’ button to add ‘Slot 2’ (e.g. Slot 1 working on 900MHz, Slot 2 working on 1800MHz). Highlight ‘Slot 1’ and choose a 900MHz antenna type, using the drop down menu. Set the antenna Azimuth, Downtilt, Height and Correction Factor (if appropriate) for each Sector.
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Now highlight ‘Slot 2’ and choose an appropriate GSM 1800MHz antenna type, using the drop down menu:
Set the antenna Azimuth, Downtilt, Height and Antenna Correction Factor (if applicable) for each Sector. Within the ‘Antenna/TRX’ tab, of each sub-cell, configure the Antenna Slots by assigning the appropriate slot to each cell layer (i.e. Slot 1 – GSM900, Slot 2 – GSM1800). Selecting the appropriate Antenna Slot for each Cell layer does this:
Finally enter the correct Antenna ‘PA Output’ for each Antenna Slot on each Cell Layer. Click on the ‘Apply’ button to save the changes to the database.
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11.6 Dual-Band Coverage Having placed your newly created ‘Dual-Band’ Site on the 2D Map View window, you may want to look at the predicted coverage of the Sites. Having run the coverage predictor from the ENTERPRISE Main Menu by selecting Tools → Pathloss Predictor, and display the coverage as a ‘Best Server’ array. Note: Remember to select both the GSM900 and GSM1800 Cell layers for inclusion in the array through the Array settings window, otherwise you will not see the interaction of the Cell Layers. Having created and viewed a ‘Best Server’ array display the Service Area (Block) plot. You should be able to see the different Service Areas of the GSM900 cells and the GSM1800 cells. In the example below a Filter was used to display the Service Area for a single site:
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11.7 Exercise: Dual-Band Planning
This exercise will allow you to model your “JerseyCom” network for dual-band working. •
Create a Dual-Band template using Method Two and configure the template using the information given:
1800 MHz Propagation Model: Model Name
GSM1800MHz
Frequency
1800MHz
Earth Radius
8491km
Mobile Height
1.5m
K1
160
K2
40
K3
-2.55
K4
0
K5
-13.82
K6
-6.55
K7
0.8
Heff
Relative
Diff
Epstein Peterson
Clutter
No clutter offsets/heights
9 Use a suitable 1800 MHz antenna 9 Set the antenna azimuth, antenna downtilt (max. 4 degrees including electrical and mechanical), antenna height (max. 20 m) 9 Signal Threshold set to –75 dBm 9 PA output set to a maximum value of 33 dBm •
Re-run the predictions for your network and create a “Best Server coverage array”.
•
Display the Service Area plot and save as Favourite “Dual band network”
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11.8 Session Summary Checklist
;
This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session: ¾ Successfully model a Dual-Band network within ASSET3G
F
¾ List the significant steps prior to creating a new Dual-Band prediction
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¾ Display a Service Area plot of both GSM900 and GSM1800 Layers
F
Additional Notes:
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12
Macrocell Model Tuning
12.1 Objectives of this session In this session you will learn about:
The ENTERPRISE Standard Macrocell Model
Required Map and CW data for Model Tuning
The Calibration Process
The Auto Tune utility
12.2 Introduction The Standard Macrocell models that are supplied with ENTERPRISE are based on empirical techniques. In order to obtain accurate pathloss predictions, you must tune (calibrate) their parameters against measured pathloss data. You can either do this: •
Manually, using the CW Measurement Analysis functionality. This can be a very timeconsuming task and with so many parameters to optimise, finding the best combination manually may not be possible.
•
Automatically, using the automatic calibration utility (Modelcal) for the Standard Macrocell models. This simplifies the process and optimises the parameters of your model to obtain an accurate match between survey data and predictions. The utility’s objective is to minimise the standard deviation of the error between the propagation model and the Carrier Wave survey data while keeping the mean error close to zero.
12.3 The Standard Macrocell Model The standard macrocell model in ASSET3G is based upon the Okumura-Hata empirical model with a number of additional features to enhance its flexibility. The model is known to be valid for frequencies in the range of 150MHz to 2GHz. The Standard Macrocell model in ASSET3G has a large number of parameters and options which may be selected or calibrated by the user in order to obtain a close representation to measured propagation data.
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The basic equation used in the pathloss calculation is given as follows: Lp(d) = K1 + K2.log(d) + K3.Hms + K4.log(Hms) + K5.log(Heff) + K6.log(Heff).log(d) + K7.Ldiff + Lclutter
Where: Lp, Ldiff and Lclutter are in dB and d, Hms and Heff are in m.
An optional second intercept and slope (K1 and K2) is available for the creation of two-piece models with the slope changing at a specified breakpoint distance. In addition to the basic pathloss calculation the following refinements are available within the model: • Four different algorithms for calculating the Effective Height of the base station (Heff). • Four different algorithms for calculating the total diffraction loss (Ldiff) due to multiple knifeedges along a profile from base station to mobile. • The facility to set end-point clutter loss offsets for each clutter type. • The facility to set clutter and/or mobile heights for each clutter type which are then added to the terrain height (and hence influence the diffraction calculations) when calculating the propagation from base station to mobile.
12.4 Required Mapping Data Mapping data is an integral component in the prediction calculations and thus accurate data is essential for any prediction model to function correctly. Recommendations are given in this section as to the type of mapping data required to yield a sufficiently accurate model. Naturally these should only be taken as guidelines and may not be applicable in every situation. It is important that the mapping data supplied is as up-to-date as possible so that it reflects any recent changes in land use. Ideally, it should be derived from source material less than two years old It is recommended that the following mapping data be acquired in order to obtain a model of sufficient accuracy: • A countrywide dataset for macrocell modelling in rural and semi-rural locations • More detailed datasets for macrocell modelling in towns and cities Because ASSET3G can handle mixed resolution mapping, it is recommended that you use the datasets in combination, that is, you do not need to define a different project for each mapping data resolution. It is therefore important that the clutter datasets all use common classifications – even if some are not used in the less detailed sets.
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12.4.1
Countrywide Dataset
A countrywide dataset is required when macrocell modelling in rural and semi-rural locations. It should typically comprise of: •
50m digital terrain model (DTM) layer (Z accuracy of ±10m).
•
50m clutter type layer –at least 10 types of land usage should be classified.
The mapping data listed below, although not essential for propagation modelling, provides extremely valuable information during the radio planning process: •
Vector (line) information to include at least highways, roads, railways, coastline, rivers and boundaries.
•
Text information to include at least city and town names
•
Scanned maps and/or satellite images
12.4.2
Urban Datasets
More detailed datasets are required when producing a model for use in towns and cities. A typical dataset should comprise of: •
20m digital terrain model (DTM) layer (Z accuracy of ±10m)
•
20m clutter type layer – categorised with the same land usage codes as the countrywide dataset but with additional clutter classifications to permit more accurate urban modelling. e.g. open in urban, parks in urban, isolated high rise and so on
12.5 Recommended CW Data In order to calibrate the propagation model a comparison is carried out between the predicted propagation and actual measured data. This measured data is collected by way of a series of Continuous Wave (CW) propagation surveys in which a calibrated test transmitter is set up at a base station location and received signal strength measurements made with location on a predetermined drive route. The accuracy of the model is directly related to the validity and accuracy of the CW data: •
Test sites measured should be representative of typical BTS sites, considering issues such as the general environment and antenna height, surrounding clutter characteristics etc.
•
To ensure positional accuracy the use of Differential GPS (DGPS) is recommended, especially when collecting data to calibrate a microcell model. In particularly dense urban areas this may need to be augmented with dead-reakoning to cope with urban canyons where satellite lock is lost for long periods.
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It is important to collect a statistically significant amount of data. The more data available the more accurately a model can be calibrated.
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The data should be evenly distributed with respect to distance from the transmitter.
•
There should be sufficient data collected within each clutter category to ensure accurate modelling. Typically a minimum of 300 to 400 data points are required for each clutter category.
12.6 The Calibration Process RF propagation is based on numerous factors resulting in a very complex process to attempt to model. There is no single “correct” method of calibrating a model but the process described here is widely used. The only certainty in model calibration is that it is a time consuming, highly iterative process requiring care in the preparation and definition of procedures. During calibration, data from CW surveys is used to calibrate the propagation models to improve their accuracy. ASSET3g allows model parameters to be adjusted to obtain an accurate match between the CW survey data and predictions. The overall objective is to minimise the error between the propagation model and the Carrier Wave survey data. The metrics used to quantify the error are the mean, rms and standard deviation of the error. Note: It is important to keep in mind that a calibrated model is only as good as the data used to calibrate it. To obtain a good model it is essential to invest the time and resources in obtaining highquality measurements. The generic iterative calibration process can be described as follows: 1. Perform an analysis using the CW Measurement Tool in ASSET3g to quantify the error between predicted and actual (the tool uses two inputs to carry out the analysis – the CW data and the prediction model). 2. Perform appropriate filtering on the survey data in order to concentrate on those data bins relevant to setting a particular parameter. 3. Alter the model parameter in question and re-analyse against the measured data. 4. Quantify the effect of the change. 5. If the change was beneficial (i.e. it has reduced the standard deviation between the propagation model and the CW data) then keep it and move on to another part of the model. If not, make another adjustment to the model (possibly some prior filtering to the CW data may be required). 6. Repeat the above steps until the Standard Deviation cannot be reduced any further. It is recommended that all changes are documented and that only one parameter adjustment be made per iteration. © AIRCOM International
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The following flow chart illustrates this process:
CW Data Prediction Model
Yes
Is Filtering Necessary?
Perform Appropriate Filtering
No
Change Model Parameter
Document Change
Use 'CW Measurements...' Analysis Tools
No
Analyse Results
Error Satisfactorily Low? Yes
Goto Next Parameter
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12.6.1
Loading Survey Data
With a propagation model on the tool, we can now load in the measured data to use for the calibration process. To load a survey file: 1. From the Tools menu, click CW Measurements. 2. Click Add and browse for the survey file(s) you wish to analyse. If you have multiple measurement files then these should all be loaded and used collectively for the calibration in order to improve the statistical validity of the model. 3. In the dialog box that appears, if you wish to conduct bin averaging for your analysis, click Yes. The Bin Averaging option enables you to average the measurements into bins corresponding to the map data pixels, reducing the overall number of measurements and computation time when performing survey data analysis. The Averaging process is based on mean signal strength in each pixel.
You will get now the main CW Measurements window with all the loaded measurements. You can view information about loaded survey data by selecting the required Site ID and clicking the Info button. This dialog box displays important information about the survey files such as power, frequency, antenna height and type. To perform a valid analysis you need to ensure the radio parameters are correctly defined.
Note: If you load a Nemo Outdoor v4.x file, any missing BTS information is listed in the Message Log. To add the missing information, click Info and type the required values on each tab.
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12.6.2
Setting the Options for CW Measurement Data
After you have loaded CW measurement data, you must set the map resolution. If you are analysing or tuning a model, you must also select a prediction model. You can also set various filtering options. 1.
Ensure you have loaded the survey file.
2. In the CW Measurements dialog box, click the Options button. 3. On the Model tab, choose the mapping resolution at which you want to use the propagation model. Bin averaging, if chosen when you loaded the CW data, will be performed at the chosen resolution. Note: If you are using bin averaging to analyse your survey data, it is recommended that you start your analysis with a low resolution. If you choose a high resolution and wish to reduce it during analysis, you will have to reload your survey measurement file. 4. Choose the prediction model that you want to compare in the analysis.
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Note: If you are setting options for generating measurement-based pathloss files, the selection of a prediction model is not relevant at this stage.
5.
On the Filter tab, choose which clutter types to exclude, and leave unselected those types you want to concentrate on to begin with. At first no clutter categories should be excluded, the radius and signal thresholds should be set so that no valid data is excluded, and both LOS and NLOS should be selected.
6. For the types that you have not excluded, set a radius and signal threshold that you want to consider, and choose whether to include Line of Sight and/or Non-Line of Sight data. Finally, choose whether to exclude bins outside the horizontal beamwidth. 7. Click OK. You are now ready to perform an analysis, or generate measurement-based pathloss files.
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12.6.3
Displaying Survey Data
Once a survey files have been loaded the following items can be selected for display on the 2D-view: •
Measurement Route
•
Carrier Wave Route Tags
•
Carrier Wave Signal
•
Carrier Wave Signal Error
To display these:
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Ensure you have loaded a survey file.
•
In the 2D View window, click the Display Properties button and in the Data Types list, under CW Measurements, select the items you want to display.
•
Click with the right mouse button on the map and select Redraw.
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12.6.4
Analysing CW Data
When you are tuning a propagation model you can perform a statistical analysis to compare how accurate your model is with real world data. With the Options parameters now set, you can select to Analyse the data. From the CW Measurements dialog, click on ‘Analyse’.
All the real world data in the loaded surveys are compared with your propagation model using the CW Analysis Correlation Coefficient algorithm. For more information on this, see the ENTERPRISE User Reference Guide. A report is produced as a Microsoft® Excel® spreadsheet, or Notepad if you do not have Microsoft Excel. An example is shown below.
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Some idea of the limitations of typical survey data can be seen from the next figures. The first figure shows the distribution of measurement points, and the second figure the distribution of signal strength with log(d). Both distributions show a pronounced peak in the distribution. This is particularly problematic in the case of the first figure. The implication of this distribution is that there are very few measurement points close to the test site and far away. In this example most of the data points lie between 400m and 4km of the site. Any model calibrated from this data will therefore be valid between 400m and 4km but not outside this range. It is therefore essential when planning the survey routes to design them such that as even a spread of measurements as possible is obtained with distance from the site to avoid this problem. This process should also help to improve the spread of points in the second figure also. D is trib u tio n o f M e a s u re m e n ts w ith D is ta n c e 5000 4500 4000 3500 Bins
3000 2500 2000 1500 1000 500
4. 5
4. 1
3. 7
3. 3
2. 9
2. 5
2. 1
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1. 3
0. 9
0. 5
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L o g (d (m ))
D is trib utio n o f M e a s ure m e n ts w ith L e ve l 3000 2500
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0
Macrocell Model Tuning
Finally, the data needs to be analysed in order to identify weaknesses in the statistical representation of the clutter types. In order to obtain a statistically valid model it is usually necessary to collect a minimum of around 300-400 measurement bins in each clutter class. A graph similar to the one below can be useful in order to identify clutter classes with insufficient data points. In this example, it can be seen that there are insufficient data points in the “Parks” clutter class and therefore these measurements should be excluded from the any further analysis. This can be done via the Options Filter menu. D istrib utio n o f M easurem ents w ith C lutter T yp e 6000
5008
4956
5000
4152
Bins
4000 2838
3000
2838
2461
1581
2000 1000
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37 ria bl oc l kb ui ld in gs
in du st
si de nt ia op l en in ur ba n m ea nu rb an de ns eu rb an
pa rk s
op en
re
m
aj or ro
ad s
0
C lu tter T yp e
12.6.5
CW Measurement Graphs
You can produce a set of Graphs from the CW Measurement Data. To do this: From the CW Measurements dialog, click on ‘Graph’. A dialog box will appear providing the option to generate graphs on either Received Level vs. log (distance), Error vs. log (distance), or both.
Some examples of these graphs are presented next:
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12.7 Manual Calibration of the Std Macrocell Model Having performed the initial recommended steps, you can proceed to perform a rough calibration of the Standard Macrocell model by tweaking the K parameters of the model. Next, we present some guidelines on how to do this:
12.7.1
K1 and K2 (Intercept and Slope)
The first step in the process is to determine whether the model should be single or dual slope model and what the intercept and slope values should be to describe the slope(s). The choice of single or dual-slope will be determined by the distribution of measured levels with log(d). If the signal level decays linearly with log(d) then a straightforward single-piece slope can be used. If however the plot shows a pronounced discontinuity with distance it may be appropriate to fit a two-piece straight line to the data. Single-piece models are much simpler to calibrate than two-piece for the simple reason that there are fewer parameters to set. The first step in analysing the data can be performed in one of two ways: 1. Graphing the data using the ASSET3G Graph feature within the CW Measurements tool. The advantage of this method is that it is quick and simple. The graph will show the single-piece regression straight line fit through the measured data. 2. Exporting the data and analysing in a spreadsheet application. This is a very flexible method, allowing the user to manipulate and visualise the data in many ways. Using this method it is possible to set the slope and intercept values manually, and consequently this is the method to use when creating a dual slope model. It has already been demonstrated that the example survey data does not have an even distribution of measurements with distance, meaning that an accurate slope value can be very difficult to determine. In addition, because there is not enough data close to the site tuning a dual slope model is not possible. In this instance Method 2 was used to determine the slope and intercept values. The next figure shows a spreadsheet scatter chart of the received signal level with respect to distance, through which have been drawn two slopes. The orange slope was determined using the regression straight line fit (Common Slope Algorithm) in MS Excel and also ASSET3G. This produces a very low slope value of 26.48 dB/dec. This is a good example of why the results of a straight-line fit should not be taken and used without further thought. In this example the few data points close to and far from the site have biased the straight-line fit algorithm and resulted in a much shallower slope than the bulk of data exhibits. The second (pink) line was determined using a manual iterative process of visually setting a K1 and K2 value to place a line through the data in Excel and then using the CW Measurement analysis function in ASSET3G to assess the resulting error. In this way a best fit slope (K2) of 38dB/dec (a much more normal slope value).
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The figure below shows a graph for the same survey data produced by ASSET3G. The different coloured data points represent different clutter types as set in the 2D View.
With the K2 value now set, another analysis should be performed in order to calculate the mean error.
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Mean Error
Standard Deviation
In this example the mean error is –0.8, therefore the K1 value needs to be adjusted by the same amount in order to lower the mean error to 0. This will also have an effect on the standard deviation. When the analysis report shows a positive mean error, it means the prediction model is pessimistic when compared to the CW data. Where a negative value is reported, the opposite applies. Therefore, at this stage, K1=135.8. The analysis should now be run again to check that the mean error is 0. Adjust again if necessary.
12.7.2
K7 (Diffraction Parameter)
Diffraction effects occur only where there is no line of sight (LOS) from the site to the mobile. Therefore, in order to determine the K7 parameter the survey data needs to be filtered to exclude the LOS data. To achieve this, de-select the LOS checkbox in the Options Filter window. Re-run the analysis and take note of the mean error figure, the K1 value should then be adjusted until this figure is 0 before assessing whether the adjustment to K7 was successful or not.
12.7.3
K3 and K4
K3 and K4 relate to the mobile height and how it affects the pathloss. Since the MS height is normally fixed (eg 1.5m) these two terms in the equation become constants. They only require calibration if you employ a variable mobile height.
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12.7.4
K5 and K6
K5 and K6 are very important parameters since they relate to the effective base station antenna height, and how this affects the pathloss. These values are difficult to calibrate without gathering data at a wide variety of base station heights. The default Hata values are K5=-13.82 and K6=-6.55. If sufficient data has been gathered then these can be calibrated (one at a time) by an iterative process of incremental changes and reanalysis until the standard deviation of the error is minimised.
12.7.5
Effective Antenna Height Algorithm
There are four Effective Antenna Height Algorithms within ASSET3G, namely: Absolute, Average, Relative and Slope methods. Each is suited to different terrain and network characteristics. Each of the algorithms is described in detail in the ASSET3G Technical Reference. •
The Absolute method is not widely used in cellular networks but is in certain broadcast systems.
•
The Average method works well in flat or gently rolling terrain.
•
The Relative method works well in rolling-hilly terrain where the base station is normally above the mobile.
•
The Slope method works well in hilly and severely hilly areas where the other algorithms consistently over-estimate the Heff.
Select the method best suited to the particular terrain for which the model is being tuned and if a low error cannot be obtained then experiment with each of the other algorithms to determine which gives best results.
12.7.6
Diffraction Algorithm
The diffraction algorithm determines how a total diffraction loss figure is calculated when multiple knife-edges are detected along the terrain profile from base station to mobile. Again, finding out the best method is an iterative process. Select each in turn until the lowest error is achieved. If you find (by examining the path profiles using the profiling tool) that multiple knife-edges are being predicted on the same hilltop and that this is resulting in excessive diffraction loss then setting a “Merge Knife Edges” value can help to reduce this problem. Determine the merge distance by examining the typical spacing of such knife edges with the path profiler.
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12.7.7
Clutter Offset Calibration
The final step in the calibration process is to define clutter loss offsets to further improve the correlation with the survey data. The Standard Macrocell model uses “end-point” clutter meaning that the prediction calculates the pathloss from base station to mobile position and then adds a fixed clutter loss offset to the result. ASSET3G’s CW Analysis feature provides a clutter by clutter breakdown of the mean error of the model against the survey data. These values relate directly to the required clutter loss offsets when clutter and mobile heights are not used. To calculate the clutter offsets analyse the data and take note of the Clutter summary section. The mean error given for each clutter type should be entered in the model’s clutter offset window with the opposite sign. When the analysis report shows a positive mean error, it means the prediction model is pessimistic when compared to the CW data, therefore a negative value should be entered. Where a negative value is reported, the opposite applies. If clutter offsets alone do not produce sufficiently accurate prediction results it is possible to further refine the model by introducing clutter and mobile heights which are then added to the terrain based on the clutter type. When these are applied the model must use a different (and much more computationally intensive) algorithm and you will notice a performance reduction on the speed of predictions. For this reason clutter/mobile heights should only be used if necessary to obtain sufficiently accurate results against the measured data. Furthermore there is no analytical method for calculating the clutter and mobile heights required – a process of experimentation must be adopted.
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If you’re using Standard Macrocell models 2 and 3, they handle through-clutter loss and through-loss distance differently as compared to Standard Macrocell model 1. Each clutter category may be given an associated through-clutter loss (dB/km). The total through-clutter loss for a prediction point, is calculated by examining the clutter lying between the base station and the mobile station. Only points lying within a distance dthrough from the mobile station contribute to the total through-clutter loss (where dthrough is referred to as the through-loss distance). This diagram shows dthrough:
When calculating the total through-clutter loss, the individual through-clutter losses are weighted so that the clutter nearest the mobile station has the highest effect. The weighting is linear with a maximum weight of 1 (at the mobile station) and a minimum weight of zero (for clutter at distances >= dthrough).
12.8 Performing Auto Tuning with Modelcal ASSET 3G has an automatic tuning utility called Modelcal. In order to tune your model parameters automatically, follow the next recommendations: 1. Start the process with some sensible defaults for the model parameters. Do not leave all the K parameters at zero. For some recommended values, read the Asset3G user reference guide. 2. Archive your data before proceeding, if you have made changes to a standard Macrocell model and wish to retain these changes before tuning model parameters. The following sections describe the functions that you can perform when using automatic calibration.
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12.8.1
Tuning Model Parameters Automatically
To auto tune model parameters with Modelcal:
1. Ensure you have set up the model as appropriate. 2. From the Tools menu, click CW Measurements. 3. Select your survey data, then specify the model which you want to compare against and the map data resolution you want to use. 4. Click Autotune. A CW analysis is performed and finally Modelcal, the automatic calibration utility, appears. 5. In the Optimiser Parameters pane, select the criteria that defines when the optimisation will stop: •
To end your calibration after a set number of optimisation iterations, enter a value in the Max Iterations box.
•
To end your calibration when the standard deviation is no longer improving by a certain amount between iterations, enter a value in the Conv Accuracy box.
The optimisation will end when either of these conditions is met, whichever occurs first.
6. If you only want to tune certain parameters, select the Fix check boxes next to the parameters you do not want to tune. 7. From the Tools menu, click Auto Tune. The optimisation runs. When finished, the resulting tuned parameters and performance statistics are displayed. If you are satisfied with your model parameter corrections you can proceed and apply the tuned parameters to your propagation model in ASSET3g.
If you are not satisfied with your model parameter corrections, you can: •
Re-tune by repeating steps 3 to 5.
•
Make a parameter change manually and view its effect on the model performance. To do this, enter the new parameter value and from the Modelcal Tools menu, click Apply Deltas.
•
Reset your analysis reloading all the propagation model data and clearing model configuration values. To do this, from the File menu, click Reset Analysis.
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12.8.2
Applying Tuned Parameters to a Propagation Model
To apply tuned parameters to a propagation model in ASSET3g:
1. Ensure you are satisfied with the standard deviation of the error between the propagation model and the Carrier Wave survey data. 2. In Modelcal, from the Tools menu click Apply New Parameters.
12.8.3
Viewing and Configuring a Model's Clutter Parameters
You can view and configure the model’s clutter parameters to further optimise your propagation model’s accuracy. You can choose to: View initial mean values: In Modelcal, from the Clutter menu click View Initial Mean Errors. This displays the mean clutter errors for each clutter class, measured from the initial model parameters set before auto-tuning. Clutter offsets: In Modelcal, from the Clutter menu click View Clutter Offsets. This shows endpoint clutter offsets after auto-tuning. Through clutter parameters: In Modelcal, from the Clutter menu click View/Set Through Clutter Params. This shows through-clutter parameters after optimisation. Note: To re-tune using only certain parameters, select the Fix check boxes next to the parameters you do not want to tune.
12.9 Extracting CW data from another Database Extracting signal strength survey data further enhances your ability to produce accurate propagation models by adding live drive test signal strength data to the measurement analysis process. Using this feature, both GSM and UMTS scanner or UE drive test data can be extracted from a data source and loaded directly into the CW analysis module. The following sections describe the functions that you can perform when extracting signal strength survey data. You can extract CW data from an ENTERPRISE’s RANOPT database or from any other database. To do this, from the Tools → CW Measurements dialog box, click on ‘Extract>’ On the first tab of the ‘RANOPT CW Measurement Extraction’ dialog, enter the relevant Data Source as well as User Id and Password to connect to it. If the ODBC connection is not already setup, you can define one by clicking on ‘Setup>>’ and following the ODBC connection wizard.
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On the ‘Script’ tab you need to specify the start and end datetime of your SQL extraction as well as the script date format. The Script is an SQL query that has been saved into a notepad following the guidelines outlined on the Asset3g User’s Guide. A sample query is shown here:
Once you save a similar query on a notepad, you need to point enterprise to it on the ‘Script’ pane. You need also to specify the technology of the CW data. At the bottom of the dialog box, you need to specify the Output Directory where the files generated by the script will be stored.
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The last step consists on selecting Cells for extraction. By selecting cells for CW measurement data extraction, you can configure the measurement extraction process to identify cells present and active along the drive test route. On this tab you basically have 3 options. You can: •
Select a single cell for analysis, by enetering the cell Id.
•
Select cells present in a filter for analysis, by selecting a filter present in your project.
•
Select cells present in a filter and displayed in the Map view window, by clicking on the 2D view.
In the Maximum Cell Range box, enter the maximum distance away from a drive test bin that cells will be considered for CW measurement extraction.
Finally, click on ‘Generate’, and CW files with measurements corresponding to the selected cells and configured script data will be generated and are ready to be analysed.
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12.10
Generating Measurement-based pathloss files
Asset3g enables you to load your own drive test data and use this data to generate measurement-based pathloss files. To do this: 1. Load the files in the normal way, as explained earlier, although when generating measurement-based pathloss files, the selection of a prediction model is not relevant. 2. Click the ‘Generate’ button. This will generate a set of measurement-based pathloss files, which contain the co-ordinates of the measurement-based pathloss data and the measurement-based pathloss values. These files are automatically saved into the directories already designated for the project's normal pathloss prediction files. You can use the generated measurement-based files to influence the normal pathloss predictions that you create in Asset3g. The amount of influence they have depends on the percentage weightings that you specify in the Array Settings dialog box. For more information on this, see Array Settings - CW Measurements on the Asset3g User’s Guide. These weightings will be invoked when you use the Pathloss Prediction Manager (or one of the associated methods) to create pathloss predictions. For more information, see Creating Coverage (Pathloss) Predictions.
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12.11
Comparison of Model Performance
The performance of the example model calibrated on this manual can be seen from the following table. In addition, the non-calibrated model has been included as a benchmark.
Model
Mean Error
RMS Error
Standard Deviation
Calibrated
0
8.4
8.4
Non-calibrated
-0.6
10.8
10.8
Another important indicator of the model performance is the error distribution; the following histogram shows this for the calibrated and non-calibrated models. Model Error Distribution 6000
Number of Bins
5000 4000 3000 2000 1000 0 -48 -44 -40 -36 -32 -28 -24 -20 -16 -12 -8 -4 0 4 8 12 16 20 24 28 32 36 40 44 48 -1000 Error (dB) Calibrated
Non-Calibrated
It can be seen from the graph that the non-calibrated model was over-predicting (ie biased to the negative error values) when compared to the measured data. The new calibrated model is much more centrally positioned with the peak very close to the ideal zero error. The curve of the new model is also taller, narrower and more symetrical showing that the errors are smaller on average.
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12.12 Session Summary Checklist
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This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session: ¾ Introduction to the ENTERPRISE Standard Macrocell model
F
¾ A review of the map and CW data requirements for model tuning
F
¾ The Calibration Process
F
¾ Introduction to the Auto Tune utility
F
Additional Notes:
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13
Generating Reports
13.1 Objectives of this session In this session you will learn how to generate various reports with ASSET3G and how to export project data to a printer or plotter.
13.2 Introduction ASSET3G includes a number of report generation tools (some of which we have already seen earlier in the course) as well as printing/plotting facilities. This section covers the reporting facilities we have not yet examined and the printing facilities.
13.3 Site Reporter The ‘Site Reporter’ allows the user to select a wide range of data fields from the Site Database and create a text file report on these fields. To launch the Site Reporter, from the ENTERPRISE Main Menu select Reports → Site/Node Report…
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Simply choose the fields you want included in the report by selecting the relevant check-boxes. As with most features in ASSET3G it is possible to generate a report for a specific group of sites by specifying a ‘Filter’ from the list-box at the top of the window. Finally choose either the ‘hierarchy’ or ‘flat’ option before clicking on the ‘Generate’ button to create and view the resulting report: Hierarchy
Flat
13.4 Frequency Plan Reporter The Frequency Plan Report will generate a report based on the current frequency plan. To access this facility go to the ENTERPRISE Main Menu and select Tools → Frequency Planning → Frequency Pan Reporter…
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As with the Site Reporter simply select the fields you want included in the report by clicking on the relevant check-boxes. Again it is possible to generate a report for a specific group of sites by specifying a ‘Filter’ from the combo-box at the top of the window. Click on the ‘Generate’ to view the resulting report.
13.5 GSM Cell Info Report The ‘GSM Cell Info’ report is different in operation to the Site and Frequency Plan Report generators. This report feature can be accessed from the ENTERPRISE Main Menu by selecting Reports → GSM Cell Info Report…
The set up for this feature is the same as that for the Cell Info display feature. There are two facilities provided by this feature: 1. Searching for cells with Co- or Adjacent channels to the target cell. 2. Searching for cells with specific carriers assigned. Search by Cell Identity: Searching by Cell Identity makes it possible to enter a Cell name in the ‘Cell Identity’ field and indicate whether to search for other cells with co-channel allocations or adjacent channels. Cells matching these criteria will be displayed in the lower pane of the window together with any cell parameters selected under the ‘Cell Parameter’ tab. For example, here we have carried out a search for all cells with adjacent channels to those assigned to Site0A (channels 84and 21 are assigned to Site0A).
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In this example we also have selected BSIC and LAC for display from the ‘Cell Parameters’ tab by entering an asterisk ‘*’ in the appropriate box, e.g.:
The number of sites considered in the search may be limited through the use of filters. Simply move to the ‘Filter’ tab and select the appropriate filter from the drop down list.
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Search by Carrier: With the ‘Search by Carrier’ option, it is possible to find all cells using specified carriers. A wildcard asterisk ‘*’ can be used to display all the carriers on the filter of cells selected or as in the example below a single carrier number can be entered. Note: Multiple carriers can be entered separated by a comma. Clicking on the ‘Find’ button retrieves the information from the database and displays it in the bottom pane.
The resulting information can be saved to a text file for future reference by clicking on the ‘Export’ button.
13.6 Delta Report The ‘Delta Report’ lists all changes which you have applied to the database, but not yet committed. These changes are therefore not visible to other users. This is a useful feature which can be accessed through the ENTERPRISE Main Menu by selecting Database → Delta Report. A warning may appear if there are a large number of differences with choices available to continue or halt the report generation process. A message may also appear if there are no differences.
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Once the Diff database tables have been successfully analysed the report will appear, as shown below:
The left pane displays the item ID, together with its Type and Record State(Update, Insertion, Deletion). The window can be expanded (as shown above) by clicking on the ‘Click>>’ button to reveal additional information relating to the fields associated with the element selected.
13.7 Printing/Plotting ASSET3G makes use of the standard Windows printer and plotter drivers and as such printing and plotting is very much like any other Windows application. By default the print function will print all of the items currently shown in the 2D View with the same colours and other properties (i.e. What-You-See-Is-What-You-Get). At present though all plots are square, and if the view you are plotting is not square then the print will print the extra area required to make the plot square.
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The printing options can be accessed through the 2D Map View window ‘File’ Menu:
13.7.1
Print Setup
13.7.1.1 Printer and Page Layout
The ‘Page Set-up’ button provides access to the Windows printer selection and paper layout set-ups. Here you can specify the page orientation, size, source and margins. These settings default to those assigned by the Window’s printer driver. 13.7.1.2 Legend and Title
Having activated the ‘Print Title and Logo’ window, enter the various pieces of text information that you want to appear within the ‘Title’ and ‘Comments’ fields. You can specify a custom logo by clicking the ‘Select’ button and then specifying a Windows Bitmap (.bmp) file containing the logo image.
If you need to plot to a specified scale (e.g. if you are plotting on transparency in order to overlay coverage information onto paper maps) then select the ‘Print to Scale’ check-box and enter the scale you require. It can often be useful to display the map grid in the 2D View and plot this as well in order to simplify registration of a transparency overlay with the paper map.
13.7.2
Print Preview
Provides an on screen preview of what the final plot will look like.
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13.7.3
Print
Allows the printer, its properties, and the number of copies to be set. Once satisfied with the settings, printing can commence with the currently defined print legend and options.
13.7.4
Print Area
Used to select an area in the 2D View for printing, by enclosing the required area in a user-definable box. The print preview window is immediately launched after its selection.
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13.8 Session Summary Checklist
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This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session:
¾ Successfully generate a Site Report for a specific group of sites
F
¾ Effectively use the search functionality of the Cell Info reporter
F
¾ Use the Delta report facility to view non-committed changes to the database
F
¾ Know the location of the buttons used for printing and plotting in ASSET3G
F
Additional Notes:
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14
Planning GSM Data Services
14.1 Objectives of this session In this session you will learn about the planning functionality within ASSET3G for GSM Data Services.
14.2 Introduction The evolution of GSM towards 3G Systems is described in the diagram below:
The main ‘driving force’ behind this evolution is the requirement for increased data rates. The ‘2.5 Generation’ technologies covered within this session are:
GPRS:
General Packet Radio Service
EGPRS:
Extended General Packet Radio Service (using EDGE technology)
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14.3 GPRS Overview GPRS, General Packet Radio Services, is an extension to GSM that allows more efficient packet data transfer compared to traditional GSM data services. The principle is that a user can be constantly connected to the network without occupying any radio resources (frequency, time slots) until a data packet has to be transferred. When a packet is to be transferred, a temporary channel is assigned to the user; after completed transfer, the channel is quickly released again. GPRS allows many users to share the same timeslot, and also allows a single user to use more than one time slot. It uses an error detection and retransmission scheme to ensure that data packets are correctly delivered to the receiver. Within this session we will look at the stages in the GPRS Capacity process. The following diagram gives an overview of the GPRS Planning process: -
14.3.1
Defining the Targets of the GPRS Service
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In a dimensioning tool, decide: 9 What kind of data services will be provided? 9 Where the service is required?
14.3.2
Updating the Plan with Actual Network Data
The information from the current frequency plan is needed when planning for GPRS networks. Therefore, before you continue, you must update the plan to meet the actual network’s site/cell structure, element identity, neighbours and frequency information.
14.3.3
Defining Data Service Settings
To initialise the GPRS service, you need to: a) Set GPRS Channel Coding Schemes b) Define the timeslot distribution c) Set Occupancy Table 14.3.3.1 Set GPRS Channel Coding Schemes
To set GPRS Channel Coding Schemes: •
From the Configuration menu, point to Lookup Tables and Curves and click GPRS CCS…
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The following window will then appear: -
•
By default the table is populated with values, which can be edited by highlighting and re-typing. -or-
•
In the C/I(dB) column, define the C/I, for example between 0 and 30 dB and in the coding scheme (throughput) column define the x axis values, for example between 0 and 15 kb/s.
Note: The C/I versus data rate values are dependent on the nature of the network, for example, how fast the mobiles are expected to move, whether RF hopping is used in the GPRS cells, and so on. •
Tune the suggested default values based on that network information.
•
You can then:
Click the Show Graph button to see a plot of C/I against data rate per timeslot.
Edit a value by clicking it and changing it.
Click the Remove All button to delete all the values in the columns.
Note: If you select a row with data in it, except the last row, you can then click the Add Row button to add another row. •
Click the ‘Commit’ button to save the scheme to the permanent database tables.
•
Repeat the above steps to add a further coding scheme up to a maximum of four.
Coding schemes are optimised, that is, the best one is chosen. The data contained within these tables can be scaled for any number of timeslots, that is, the data rate for three timeslots is three times the data rate for one timeslot for a given C/I.
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14.3.3.2 Defining Timeslot Distribution
Use the Channel to Transceiver mapping tables to define timeslot distribution. These mapping tables enable you to specify how many carriers are needed to provide a required number of traffic channels. You need to set the amount of Circuit Switched and Packet Switched control channels as well as the amount of dedicated GPRS traffic channels. To set up a channel to transceiver map for GPRS, from the ‘Configuration’ menu, go to ‘Lookup Tables and Curves’ and click on ‘Channels to Transceivers…’ Within the Channel to Transceiver Setup window, click on the ‘Add Map’ button and enter an appropriate name for the map. Click the ‘OK’ button to continue. The following message will now appear: -
As this map will be for GPRS, click on the ‘Yes’ button. The following window will now appear:
Within the blank GPRS Channel to Transceiver Setup window enter the number of traffic channels that can be supported per carrier (e.g. 8), in the box labelled ‘Default Number of Channels Per Transceiver” and click on the ‘Apply’ button. Click on the ‘Add Transceiver’ button, which will populate your blank setup window with default figures. To change the information in the table, select the row, and click the Edit Map button.
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The columns within the Channel to Transceiver Set-up window refer to the following information: TRX:
Number of available carriers
No:
Total number of available channels for both control and traffic
NGPRS:
Number of channels dedicated only for GPRS traffic
NCTRL:
Number of control channels shared for GSM and GPRS use
NGPRSCTRL:
Number of channels dedicated only for GPRS control
NHSCSD:
Maximum number of channels that may be used by HSCSD
NCS:
Number of circuit switched traffic channels
Having entered the relevant figures, click the OK button to close the GPRS Map Editor window. Click on the Apply button in the Channel to Transceiver Set-up window to save your changes. 14.3.3.3 Set the Occupancy Table
Channel Occupancy is used to estimate the efficiency with which GPRS data packets can be packed into the available timeslots. This is most useful in GPRS when you come close to using full network capacity. The greater the number of available timeslots means the better the efficiency with which GPRS data packets can be packed. To set the Occupancy Table, from the Configuration menu point to Lookup Tables and Curves and then select Timeslot Occupancy…
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Populate the columns with default values by clicking on the Set to Defaults button. Note: If you want to populate columns with your own values, click the Remove Graph button to remove the default values and then click on the Add Graph button to add an empty column. Manually add values, using between 0 and 100 in the Occupancy column, where 100 means full capacity. You can edit any value by clicking on it and then changing it. When you have selected a row with data in it, except the last row, you can click on the Add Row button and add another row. Click on the Show Graph button to see a plot of the values, clicking on the Commit button to save the information to the database.
Occupancy table with default values
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14.3.4
Cell Layers
In the Cell Layer window we can either define a different cell layer for GPRS or we can use the existing GSM cell layer. For the purpose of this training course we will keep the existing GSM cell layer. Under the Configuration tab select Layers → Cell Layers... In the Cell Layer Configuration window highlight the relevant GSM cell layer. Under the Coverage Type tab, using the drop down menu, select the GPRS Channel to Transceiver Map created earlier. Click on the Apply button followed by the Commit button.
14.3.5
Setting Cell Parameters
In ENTERPRISE, GPRS information is stored on the Cell Layer level. The subcell is considered to provide GPRS service when you have selected the Enable GPRS check box on the (E)GPRS tab. To do this:
Select the required GSM cell layer (subcell) in the Site Database window.
Click on the (E)GPRS tab.
Select the Enable GPRS check box and choose at least one supported Channel Coding Scheme and set the Total GPRS + EGPRS Traffic in Kbit/s.
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Note: One Coding Scheme must always be selected, so if you want to change to another Coding Scheme, select it then deselect the first check box. If the ‘Dedicated PBCCH’ check box is unchecked the tool ignores NGPRSCTRL in the channel map. This means that the time slots that have been reserved for GPRS control will become available for circuit switched traffic. Note: If all cells within one filter support the same coding schemes the above configuration can be done using the Global Edit facility.
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14.4 Calculating and Analysing the GPRS Service Area The definition of cell-specific GPRS service areas follows the normal coverage planning process, that is: From the Tools menu, point to Pathloss Predictor… which will run the prediction tool to calculate Coverage Predictions. Choose to calculate the Best Server (GPRS/EGPRS) array to visualise on the map the service areas of the cells where GPRS is enabled. Display the array in the Map View Window.
14.5 Defining Terminal Types using Data Service For the Traffic and Capacity planning process, and estimate of the GPRS terminal distribution is required as well as an idea of the services and data rate demand of the terminals. To define the GPRS Terminal Types, from the Configuration menu, click Terminal Types…
In the Terminal Types dialogue box, click on the Add button to create a new terminal type. Select the newly created Terminal Type and change its name, under the General tab.
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Select the switching type from Circuit Switched (default setting) to GPRS. On the Clutter, Vectors and Polygons tabs, define how the terminal type is distributed over the Map View.
Click on the Cell Layers tab and move the appropriate cell layer from the Available column to the Selected column.
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On the GPRS/EGPRS tab choose the mean busy hour capacity (kb/s) of the terminal.
Note: This figure should include any overhead related to the characteristics of the device, for example average packet size, TCP/IP protocol and so on, up to a limit of 9999.999. This is an estimate of the traffic going through in a busy hour, per terminal type. Also enter the maximum number of timeslots supported by the terminal (dependent on the class of handset - theoretically up to 8 but realistically up to 4).
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Click on the Apply button, followed by the Commit button for other users to see your newly created GPRS Terminal Type.
14.6 Distributing Terminals and Creating Traffic Arrays To distribute the desired terminal type: Open a Map View (2D View) window showing the desired area. From the Arrays Menu, point to Traffic → Traffic Array Wizard…
Within the first screen of the ‘Traffic Array Wizard’ choose the desired view for the traffic raster wizard to use.
Either leave the default figures, which were calculated on initial project creation (Map data extents), or click the ‘Select View’ button, which will calculate the co-ordinates of the current view. Click the Next> button to continue. The second screen of the wizard allows you to select one or more terminal types from the list. For each terminal type selected, a separate traffic array is created.
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Note: If you wish to spread traffic to polygons and use the clutter weights you will define, ensure the check box at the bottom of the window is selected. Click the Next> button to continue. Choose the required resolution for the raster. The memory required to create the selected resolution of raster is shown.
Note: If you wish to restrict the traffic spread to GPRS Best Server coverage then the resolution must be set the same. Click the Next> button to continue. Choose whether to restrict the traffic spread over an area with either CS – Circuit Switched or GPRS Packet Switched coverage by selecting the appropriate box(s).
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Note: If this option is unavailable, either the resolution selected for the traffic raster is different from that used in the coverage prediction, or there is no coverage array in memory. Click the Next> button to continue. Specify the expected Circuit Switched traffic in Erlangs, HSCSD Traffic in Erlangs and expected GPRS Traffic in number of GPRS Terminals.
Click the Next> button to continue. If Polygon Attributes are going to be used for spreading the traffic, select the terminal type and appropriate polygon attribute.
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Click the Next> button to continue. The last screen of the Traffic Raster wizard allows you to store the Traffic Raster as a file for future reloading.
Click on the Finish button. The Traffic Raster can now be viewed within the 2D Map View window by selecting the Terminal Type name from the Traffic category of the ‘Show Data Types’ list:
Note: The display properties of the Traffic Raster can be changed by double clicking with the left mouse button on the Terminal Type name.
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14.6.1
Calculating the GPRS Data Rate, Average Data Rate and Service Area Data Rate
The GPRS data rate is calculated as the date rate per one timeslot for each pixel. This calculation is capacity independent. To produce a GPRS Data Rate array, from the Arrays Menu, point to Coverage/Interference → Coverage/Interference Wizard… or click on the ‘Create arrays’ button View) window, then select ‘Non Sim’.
in the Map View (2D
In the Create Coverage/Interference window select the ‘GPRS Data rate’ array option, clicking on the ‘OK’ button to produce the array.
When the GPRS Data Rate array has been created you can choose to display it on the 2D View by selecting GPRS Data Rate from the ‘Show Data Types’ list. By double clicking with the left mouse button on the GPRS Data Rate category, the display properties can be modified.
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The average data rates per timeslot and service area data rate can also be visualised by selecting the categories in the ‘Show Data Types’ menu. The Map Information bar can also be used to aid the visualisation of GPRS associated information. When you calculate the data rate array, the average data rate for each subcell array is simultaneously calculated.
14.6.2
Capturing Cell Traffic and Calculating the required Capacity
Note: Because Traffic Analysis uses the average data rate values, you must calculate the GPRS data rate array before performing Traffic analysis. The average data rate for each subcell is calculated at the same time. To start GPRS Capacity Planning, from the Tools menu, point to Static Traffic Analysis…
Once traffic arrays have been created, click Capture Traffic to collect the traffic information per map pixel in the cells service area.
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A report showing the ‘Captured’ GPRS traffic is produced:
If the traffic amount is acceptable, apply it on to the subcells by clicking on the Traffic button. The Capacity Estimation Algorithm requires GoS criteria for each service type. Set the Quality of Service Acceptable blocking probability to speech, and the minimum data rate requirement for GPRS. Click the Analyse button, which also produces a report. As a result of the capacity calculation, the report that is produced shows statistics of the current TRX configuration, QoS level and the required TRX amount.
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If you are satisfied with the results click on the Apply Carriers Required on SubCells button.
14.6.3
Complete the Radio Network Plan
After capacity planning, the GPRS planning process follows the normal radio network planning process, that is, frequency planning and analysis and plan tuning. Coding schemes 1 and 2 provide relative low data rates and are not considered to cause extra interference to neighbouring non-GPRS cells. As planning is an iterative process, for GPRS planning, you may want to check the requirements and tune the plan again if there appears to be too much interference in some areas.
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14.7 Exercise: GPRS Planning
An Exercise appropriate to the specific needs of the delegates will be provided.
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14.8 EGPRS Overview EGPRS, an extension to GPRS that allows for higher bitrates by employing EDGE technology at the air interface. This is accomplished by using an enhanced modulation technique (8 Phase Shift Keying instead of GSM’s Gaussian Minimum Shift Keying). The stages involved in the EGPRS Planning process are very similar to those within the GPRS Process.
14.8.1
Defining the EGPRS Service Targets
The first phase of planning is to identify the existing sites and new sites where EGPRS is enabled to get some idea of the required modifications needed before implementing the desired EGPRS service. In a dimensioning tool, the following questions should be answered: •
What kind of data services will be provided?
•
Where will the service be required?
14.8.2
Updating the Plan with actual Network Data
The information from the current Frequency Plan is needed when planning for EGPRS Networks. Therefore, before you continue, you must update the plan to meet the actual network’s site/cell structure, element identity, frequency and neighbour information. This is also important for the EGPRS plan implementation back to the network. To do this, use the appropriate File Import option in ENTERPRISE.
14.8.3
Defining Data Service Settings
To initialise the EGPRS service, you need to: 9 Set EGPRS Channel Coding Schemes 9 Define the timeslot distribution 9 Set the Occupancy Table 14.8.3.1 Set EGPRS Modulation/Coding Schemes
The EGPRS Calculation algorithm is an extension of the GPRS algorithm. As in GPRS the user has to specify the available Link adaptation families, and therefore MCS codes, that the base station
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supports. The MCS codes are organised in Link adaptation families and one or more of these can be selected. Individual MCS codes cannot be included. ASSET3G supports three link adaptation families (A, B and C) and a user can select one of them, two of them or all of them. A different set of families can be assigned to different subcells. To set EGPRS Modulation/Coding Schemes using the ENTERPRSISE Main Menu select Configuration → Lookup Tables and Curves → EGPRS MCS…
Within the ‘EGPRS Average Data Throughput per TS vs Average Connection C/I’ window you can populate the tables with default values by clicking on the ‘Set to Defaults’ button. EGPRS Default Figures
EGPRS Default Figure displayed as a graph
Note: Having populated the tables with default values you can then edit these values should you wish. -orIn the C/I(dB) column, define the C/I, for example between 0 and 30 dB and in the MCS code column define the x axis values. If the default values have been chosen, tune these figures based on your networks information.
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By clicking on the ‘Show Graph’ button a Plot of C/I(dB) against Throughput(Kb/s) can be viewed. The values within the columns can be edited by simply clicking on the value and to save the Scheme to the database click on the ‘Commit’ button. 14.8.3.2 Defining Timeslot Distribution
Use the Channel to Transceiver mapping tables to define timeslot distribution. These can be accessed through the ENTERPRISE Main Menu by selecting Configuration → Lookup Tables and Curves → Channels to Transceivers… Within the ‘Channel to Transceiver Setup’ window click on the ‘Add Map’ button. You will then be prompted to give the Channel to Transceiver Map a name:
Having given the Map a suitable name (as shown above), click on the ‘OK’ button. You will now be asked if you wish to specify dedicated GPRS channels. As this map is for a Packet Switched system (EGPRS), select ‘Yes’.
You should now be faced with a blank Channel to Transceiver Setup window:
These mapping tables enable you to specify how may carriers are needed to provide a required number of traffic channels. You need to set the amount of Circuit Switched and Packet Switched control channels as well as the amount of dedicated Packet (GPRS) traffic channels.
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In the box labelled ‘Default Number of Channels per Transceiver’ enter the default number of traffic channels that can be supported per carrier (e.g. 8) and click on the ‘Apply’ button. Select the ‘Add Transceiver’ button to populate the blank set-up window with default figures:
To change the information contained in the table, select a row and click on the ‘Edit Map’ button. You can then specify the following information in the ‘GPRS Map Editor’ window:
Click on the ‘OK’ button to close the GPRS Map Editor window and within the Channel to Transceiver Setup window click on the ‘Apply’ button to save the changes to the database. 14.8.3.3 Set the Occupancy Table
Channel Occupancy is used to estimate the efficiency with which data packets can be packed into the available timeslots. This is very useful when you come close to using full network capacity. The greater the number of available timeslots the better the efficiency with which data packets can be packed. The Occupancy Table can be found through the ENTERPRISE Main Menu by selecting Configuration → Lookup Tables and Curves → Timeslot Occupancy… As with previous tables, you can populate the columns with default values by clicking on the ‘Set to Defaults’ button. Clicking on the ‘Show Graph’ button will allow you to see a plot of the values, as shown:
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If you want to populate the columns with your own values, click on the ‘Remove Graph’ button to remove the default values and then click on the ‘Add Graph’ button to add an blank column. You can then manually add values (between 0 and 100) into the ‘Occupancy’ column, where 100 denotes full occupancy. Once finished click on the ‘Commit’ button to save the information to the database.
14.8.4
Cell Layers
Within the Cell Layer Configuration window we can either define a different cell layer for EGPRS or we can use the existing GSM Cell Layer. The ‘Cell Layer Configuration’ window can be accessed through the ENTERPRISE Main Menu by selecting Configuration → Layers → Cell Layers… Within the Cell Layer Configuration window, highlight an existing Cell Layer, or click on the ‘Add’ button to add a specific cell layer for EGPRS.
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Under the ‘General’ tab this Cell Layer can then be given an appropriate name:
Within the ‘Coverage Type’ tab of the ‘Cell Layer Configuration’ window use the drop down menu to select the ‘Channel to Transceiver Map’ previously created:
Within the ‘Carrier Layers’ tab select the carrier layers to be used on the Cell Layer and define the Coverage Schema Threshold values under the ‘Coverage Thresholds’ tab. Click on the ‘Apply’ button followed by the ‘Commit’ button to save the changes to the database.
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14.8.5
Setting Cell Parameters
In ENTERPRISE, EGPRS information is stored on the Cell Layer Level. The subcell is considered to provide an EGPRS service when you have selected the ‘Enable GPRS’ and the ‘Enable EGPRS’ check-boxes within the ‘(E)GPRS’ tab of the Site Database window:
Having selected the above check-boxes the following options are available for selection within the ‘(E)GPRS’ tab: Dedicated PBCCH:
This box should be selected to instruct the software that another BCCH timeslot for Packet Data control is being used. If this box is unselected the tool ignores NGPRSCTL in the channel map this means that no timeslots have been reserved for GPRS control so these timeslots are available for CS traffic.
GPRS Coding Schemes (CCS 1,2,3,4):
Choose at least one supported Channel Coding Scheme.
EGPRS Link Adaptation Families (A,B,C):
At least one Link Adaptation Family should be selected.
Traffic – Total GPRS + EGPRS:
Total value of the Packet Switched Traffic (Kbit/s) served by subcell. This value can be set manually for each subcell or set automatically during the Traffic Analysis process.
Traffic - % of (E)GPRS 8-PSK:
This value is an estimate of the percentage of EGPRS traffic that is using 8PSK modulation, and therefore the lower power output.
Note: If all cells within one filter support the same coding schemes the above configuration can be done using the Global Edit facility.
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The EDGE modulation scheme puts new requirements on the linearity of the power amplifier: as apposed to GMSK, 8-PSK does not have a constant envelope. Network Operators have stipulated that EDGE-capable transceivers must fit in a base station cabinet designed for standard transceivers and also that EDGE transceiver performance is acceptable in terms of both transmit spectrum and heat dissipation. To achieve the above requirements a typical high-power EDGE transceiver might need to reduce its average transmit power when transmitting 8-PSK. Compared to GMSK, the average power decrease (APD) could be between 2 and 5 dB. Within ASSET3G the APD value can be entered on the Cell Layer Level of each subcell under the ‘Antenna/TRX’ tab:
Note: If all cells within one filter have the same APD value it can be set using the Global Edit facility, under the ‘2.5G’ tab.
14.8.6
Calculating and Analysing the EGPRS Service Area
The definition of cell-specific EGPRS service areas follows the normal coverage planning process.
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To calculate Coverage Predictions, from the ENTERPRISE Main Menu select Tools → Pathloss Predictor… or click on the ‘Predictor’ button (
) from the ENTERPRISE Toolbar.
Having run the ‘Predictor’ tool go to the ENTERPRISE Main Menu and select Arrays → Coverage/ Interference → Coverage/Interference Wizard… or select the ‘Create Coverage array’ button ( ) from the ENTERPRISE Toolbar, to visualise on the map the service areas of the cells where EGPRS is enabled; remembering to select the ‘Non Sim’ option when prompted. This is done by selecting the ‘Best Server (GPRS/EGPRS)’ option:
You can then display the array in the 2D Map View window.
14.8.7
Defining Terminal Types using Data Service
For the Traffic and Capacity Planning process, an estimate of the EGPRS terminal distribution is required as well as an idea of the services and data rate demand of the terminals. To define an EGPRS Terminal Type go to the ENTERPRISE Main Menu and select Configuration → Terminal Types…
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Within the Terminal Types window, click on the ‘Add’ button. Within the ‘General’ tab of this window change the terminal type name so something more appropriate:
Also within the ‘General’ tab ensure that the ‘Packet Switched (GPRS)’ option is selected and the ‘EGPRS’ check-box is ticked. Within the Clutter, Vectors and Polygon tabs, define how the terminal type is to be distributed over the 2D Map View (i.e. Weight or Density – with associated values per Clutter category).
Within the ‘Cell Layer’ tab link the Terminal type to one or more layers by moving the chosen Cell Layer from the ‘Available’ pane to the ‘Selected’ pane using the ‘>’ button.
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>
Within the ‘GPRS/EGPRS’ tab, enter the ‘Mean busy hour capacity’ (kb/s) of the terminal (e.g. 2 kb/s). This figure being an estimate of the traffic going through in a busy hour, per terminal type. Also enter the maximum number of timeslots supported by the terminal (theoretically up to 8 but realistically up to 4).
Click on the ‘Apply’ button followed by the ‘Commit’ button to save the terminal type to the database.
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14.8.8
Distributing Terminals and Creating Traffic Arrays
Having opened a 2D Map View window display the desired area together with sites and suitable map data. From the ENTERPRISE Main Menu select Tools → Traffic → Traffic Array Wizard… Within the First screen of the ‘Traffic Raster wizard’ select the appropriate 2D Map View window and/or view. Click on the ‘Next>’ button to progress. In the Second wizard screen choose one or more Terminal Types from the list. For each Terminal Type you select, a separate traffic array is created:
Note: If you wish to spread traffic that you have applied to polygons by clutter type, ensure this check-box is selected ;. Click the ‘Next>’ to continue through the wizard. Within the next screen of the wizard a desired resolution is chosen, using the drop down menu. The memory required to create the resolution chosen is shown. Generally speaking, the less pixels used, the faster the process will be. Click on the ‘Next>’ button. You can have the opportunity to spread traffic just over the area with coverage, by selecting the appropriate check-box:
Note: If this option is not available one reason would be that the resolution chosen in the previous screen is not the same resolution used for the Coverage Prediction.
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Click on the ‘Next>’ button to progress through the wizard. In the ‘Traffic Terminals’ screen specify the expected packet traffic in number of Terminals:
Progress to the last screen using the ‘Next>’ button. On the Final wizard screen click on the ‘Finish’ button to create the Traffic Raster. The Traffic Raster can then be viewed in the 2D Map View window, by selecting the Terminal Type from the Show Data Types list under the ‘Traffic’ category:
By double clicking on the Terminal Type name, within the ‘Show Data Types’ list, its display properties can be altered:
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14.8.9
Calculating the EGPRS Data Rate, Average Data Rate and Service Area Data Rate
The EGPRS data rate is data rate per one timeslot per one pixel and it is capacity independent. The EGPRS Data Rate array can be created by going to the ENTERPRISE Main Menu and selecting Arrays → Coverage/ Interference → Coverage/Interference Wizard… or alternatively, by selecting the ‘Create Arrays’ button ( ) from the ENTERPRISE Toolbar. After selecting ‘Non Sim’ the appropriate box can then be selected within the ‘Create Coverage/Interference’ window:
When you have created the EGPRS data rate array, you can choose to display it on the 2D Map View window by selecting the ‘EGPRS Data rate’ option within the ‘Coverage’ category of the ‘Show Data Types’ list:
Having calculated the data rate array, the average data rate for each timeslot array is simultaneously calculated.
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Service Area EGPRS Data Rate shows a data rate for the current number of allocated TRXs. A Low value indicates to the radio planner that more than enough TRXs have been allocated and a Big value would indicate an insufficient number of TRXs.
14.8.10
Capturing Cell Traffic and Calculating Required Capacity
Note: Because Traffic Analysis uses the average data rate values, you must calculate the EGPRS Data rate array before performing Traffic Analysis. The Average data rate for each subcell is calculated at the same time. To commence Capacity Planning go to the ENTERPRISE Main Menu and select Tools → Static Traffic Analysis… Within the ‘Traffic Analysis’ window click on the ‘Capture’ button within the ‘Traffic’ pane of the window:
This will collect the traffic information per map pixel in the cell service area and produce a report in Microsoft Excel:
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If the traffic amount is acceptable, apply it to the subcells cells by clicking on the ‘Traffic’ button within the ‘Apply on to subcells’ pane of the window:
The traffic figures (shown in the report) can now be viewed on the subcells within the Site Database window:
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The Capacity Estimation Algorithm requires GoS criteria for each service type. Set blocking probability to speech (Erlang B) as well as the traffic per customer figure. Click on the ‘Analyse’ button to produce a report (in Microsoft Excel) presenting statistics of the current TRX configuration, QoS level and the required TRX amount. If you are satisfied with the results click on the ‘Apply Carriers Required on Subcells’ button.
14.8.11
Complete the Radio Network Plan
After capacity planning, the EGPRS planning process follows the normal radio network planning process, that is, frequency planning and analysis and planned tuning.
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14.9 Session Summary Checklist
;
This checklist has been provided as a self-assessment of the objectives stated at the beginning of the session. Please tick all objectives covered in this Session: ¾ Gain an overall understanding of the 2.5G GSM Data Services
F
¾ Understand the terms HSCSD, ECSD, GPRS, EGPRS
F
¾ Appreciate the functionality within ASSET3G to plan the following GSM Data Services:
HSCD Planning
F
ECSD Planning
F
GPRS Planning
F
EGPRS Planning
F
¾ Correctly configure ASSET3G to plan a Network employing GPRS
U
F
Additional Notes:
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Glossary of GSM Related Terms
The GSM Architecture U
A GSM network is made up of three subsystems: 1. The Mobile Station (MS) 2. The Base Station Sub-system (BSS) – comprising of a BSC and several BTS’s 3. The Network and Switching Sub-system (NSS) – comprising of an MSC and associated registers
Several interfaces are defined between different parts of the system: •
‘A’ interface between MSC and BSC
•
‘Abis’ interface between BSC and BTS
•
‘UM’ air interface between the BTS (antenna) and the MS
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GSM Abbreviations: U
MSC
Mobile Switching Centre
BSS
Base Station Sub-system
BSC
Base Station Controller
BTS
Base Transceiver Station
HLR
Home Location Register
VLR
Visitor Location Register
TRX
Transceiver
AuC
Authentication Centre
MS
Mobile Station
EIR
Equipment Identity Register
OMC
Operations and Maintenance Centre
PSTN
Public Switched Telephone Network
U
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General Glossary: A3
Authentication algorithm
A5
Ciphering algorithm
A8
Ciphering key computation
A
Interface between MSC and BSC
Abis
Interface between BSC and BTS
ACK
Acknowledgement protocol
ADM
Adaptive delta modulation
ADPCM
Adaptive differential pulse-code modulation
ADSL
Asymmetric Digital Subscriber Line. A technique for dramatically increasing the data rates available on copper wiring
AMPS
Analogue Mobile Phone System. The US analogue cellular standard
ARFCN
Absolute Radio Frequency Channel Number
ARQ
Automatic Repeat re-Quest
ATM
Asynchronous Transfer Mode
AuC
Authentication Centre. The part of the GSM system responsible for authenticating the mobiles and providing ciphering keys
BCCH
Broadcast Control Channel. A GSM logical control channel providing information to the mobile as to the channel configuration in the cell
BER
Bit error rate
BP
Burst Period. The duration of a single burst, when one mobile transmits, within the GSM framing structure
BS
Base Station. The part of the radio system which transmits the signal to the mobile
BSC
Base Station Controller. The part of the GSM system responsible for controlling the base stations.
BSS
Base Station Sub-system. The combination of the BTS and BSC.
BSSMAP
BSS Management Part. The protocol used for BSS management on the Abis interface
BT
Bandwidth-Time product. A means of measuring the amount of filtering applied to the pulse during the modulation process
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BTS
Base Transceiver Station. Another name for BS
CAI
Common air interface – as in CT2 standard
CC
Call Control. The protocol layer within GSM responsible for overall control of the call
CDMA
Code Division Multiple Access. The use of different codes to allow users to access the same frequency spectrum at the same time
CELP
Code-excited linear prediction, vocoder
CEPT
European Committee for Post and Telecommunications. The European body responsible for radio spectrum management
COST
Co-operation in Science and Technology programme (Europe)
COST231
COST committee dealing with future mobile system
CT-0
the original analogue VHF/LF cordless phone technology as used in UK, France and elsewhere
CT-1
Cordless Telephone Generation One – 900MHz analogue FM cordless technology standardised by CEPT.
CT-2
Cordless Telephone Generation 2. An early UK digital cordless standard
CT-3
early Swedish (Ericsson) digital cordless standard
CTM
cordless terminal mobility – an application concept and an ETSI project
DCS
Digital cellular system (e.g. DCS1800).
DECT
Digital European Cordless Telephone. The European cordless telephone standard
Downlink
transmission path from radio fixed part to portable part
Duplex
simultaneous two-way conversation
DTAP
Direct Transfer Application Part. The protocol used on the Abis interface to distinguish between messages for mobiles and for BTSs.
DTX
Discontinuous transmission
EDGE
Enhanced Data rates for GSM Evolution. Method of increasing data rates in GSM by using 8PSK modulation
8PSK
Eight Phase Shift Keying. Modulation techniques encoding 3 bits to each symbol
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EIR
Equipment Identity Register. Part of the GSM system responsible for keeping details of the mobile units and their status
ETR
ETSI technical report
ETS
ETSI technical standard
ETSI
European Telecommunications Standards Institute
FACCH
Fast Associated Control Channel. A logical channel used for sending emergency information to the mobile by suppressing traffic information.
FCCH
Frequency Control Channel. A logical control channel within GSM used to allow the mobile to lock onto the transmitted signal
FDMA
Frequency Division Multiple Access. The division of the radio frequency into narrow slots, each one being given to a different user
FEC
forward error correction
FH
Frequency Hopping. Changing rapidly from frequency to frequency to avoid problematic propagation effects.
FPLMTS
Future Public Land Mobile Telecommunications Service. The US name for third generation radio systems
FSK
frequency-shift keying
FT
fixed termination
GAP
generic access profile of DECT
GFSK
Gaussian-filtered FSK modulation
GIP
GSM inter-working profile of DECT
G-MSC
Gateway Mobile Switching Centre. The part of the GSM system providing the link into the PSTN
GMSK
Gaussian Minimum Shift Keying. The modulation technique used in GSM, a form of phase modulation
GoS
grade of service
GPRS
General Packet Radio Service
GSM
Global System for Mobile communications (Group Special Mobile)
Handoff
procedure whereby communications between a mobile handset and a base station is automatically routed via an alternative base station when necessary to maintain
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or improve communications Handover
another term for handoff
HLR
Home Location Register. The part of the GSM system responsible for holding records about mobiles and for keeping track of the MSC area in which they are
HSCSD
High Speed Circuit Switched Data. 2.5 G enhancement to GSM giving higher data rates
IAP
ISDN access profile for DECT
ISI
Inter-Symbol Interference. A radio propagation effect whereby echoes of received signals cause previous symbols transmitted to interference with current symbols
IMEI
International Mobile Equipment Identity. The GSM number given to each mobile
IMSI
International Mobile Subscriber Identity. The phone numbering system used within GSM
IMT2000
International Mobile Telecommunications system for the year 2000
IN
Intelligent Network
IP
Internet Protocol, a layer 3 network protocol
IS54
US digital AMPS standard
IS95
US CDMA digital cellular standard
ISDN
Integrated Services Digital Network. A protocol for sending digital information over copper landlines
ITU
International Telecommunications Union. The international body responsible for spectrum management
IWP
inter-working profile
IWU
inter-working unit
LA
Location Area
LAC
Location Area Code
LAI
Location Area Identity
LAPD
Link Access Protocol on interface D. Part of the ISDN protocol stack also used in GSM
LEO
Low Earth Orbiting satellites. (e.g. the Iridium system a communications network based on up to 66 satellites providing world wide coverage)
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LLME
Lower layer management entity (DECT)
LNA
low noise amplifier
LOS
Line-Of-Sight
LPC
Linear Predictive Coding
MAC
Medium Access Control. The means whereby mobiles access radio channels which are not permanently reserved for their own particular use
MAP
Mobile Application Part. Part of the SS7 protocol dealing with mobile services
MoU
Memorandum of Understanding
MS
Mobile Station
MSC
Mobile Switching Centre. The part of the GSM system responsible for switching calls
MSISDN
Mobile Subscriber Integrated Services Digital Number. The numbering system used to contact GSM mobiles from other networks
MSK
minimum shift keying modulation
MTP
Message Transfer Part. Part of the SS7 protocol stack
NADC
North American Digital Cellular
NCC
National Colour Code
NMT
Nordic Mobile Telephone system. The Nordic analogue cellular standard
O&M
operations and maintenance
OAM
operations, administration and maintenance
OMC
Operations and Maintenance Centre. The part of the GSM system responsible for monitoring network functionality
PABX
private automatic branch exchange
PAGCH
Paging and Access Grant Channel. A GSM logical control channel providing paging information and allowing mobiles to make access attempts
PBX
same as PABX
PCM
Pulse Code Modulation. A simple form of speech coding
PCN
personal communications network
PCS1900
Personal Communications System at 1900 MHz. A variant of GSM working at
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1900MHz designed for the US. PDC
Personal Digital Cellular. The Japanese cellular standard
PHL
physical layer – lowest protocol layer
PHS
Personal Handiphone System. The Japanese cordless telephone standard
PLMN
Public land mobile network.
PMR
Private Mobile Radio. A radio system owned by the users, typically large companies
POTS
plain old telephone service
PP
portable part
PSK
phase shift keying modulation
PSTN
public switched telephone network
PT
portable termination
QPSK
Quadrature Phase Shift Keying. A form of modulation whereby orthogonal carriers are used to gain the maximum information from the channel
Quantisation
process of representing samples of an analogue waveform by the nearest whole number of predefined voltage steps
RACH
Random Access Channel. A GSM logical control channel used for making uplink access attempts
RAP
radio access profile for DECT
RAN
Radio Access Network
RFP
radio fixed part
RIL
Radio Interface Layer. The protocol within GSM responsible for maintenance of the radio interface
RLAN
radio local area network
RLL
radio local loop
RPE-LTP
regular pulse excitation – long term predictor – speech coder user in GSM
RR
Radio Resource. The protocol layer within GSM responsible for providing a service over the air interface
RSSI
received signal strength indication
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SACCH
Slow Associated Control Channel. A logical channel used alongside a traffic channel to send signalling information to and from the mobile
SCCH
Synchronisation Control Channel. A GSM logical control channel providing synchronisation to the mobile
SCCP
Signalling Control and Connection Part. Part of the SS7 protocol stack
SID
Silence Descriptor
SIM
Subscriber Identity Module. A small card within GSM mobiles which contains the subscriber identity
Simplex
one-way communication
SMS
Short Message Service. A feature within GSM whereby messages of up to 160 characters can be transmitted to mobiles
SMS-SC
SMS Service Centre. The part of the GSM system which handles short messages
SRES
Signed Result . Produced by authentication algorithm
TA
Timing Advance
TACS
Total Access Communications System. The UK (and other European countries) analogue cellular standard
TBR
technical basis for regulation – ETSI standards
TCH
Traffic Channel. The channel used in GSM to send subscriber information
TCAP
Transaction Capability Application Part. Part of the SS7 protocol stack
TDD
time division duplex
TDM
time division multiplex
TDMA
Time Division Multiple Access. A system where users access all the frequency but only for a limited time
TETRA
Trans-European Trunked Radio. The European digital PMR standard
TMN
Telecommunications Management Network. The concept of managing the network from a single point using a networked operations and maintenance system
TMSI
Temporary Mobile Subscriber Identity. A GSM number given to the mobile during an encrypted call to prevent eavesdroppers being able to located the mobile
TRAU
Transcoder Rate Adapter Unit
TRX
Transmit/Receiver module. The GSM term for a single carrier card within a BTS
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UMTS
Universal Mobile Telecommunications Service. One name for the third generation mobile radio system
Uplink
communications path from portable part to fixed part
UPT
Universal Personal Telecommunications. The fixed network equivalent of third generation systems.
VAD
Voice Activity Detection
VLR
Visitor’s Location Register. The part of the GSM system responsible for keeping track of a mobile’s position to the nearest location area
VSAT
Very Small Aperture Terminal. A satellite communication system based on dishes around 1m across
WAP
Wireless Application Protocol
WLL
Wireless Local Loop. The use of radio to replace copper wiring as a means of connecting the home to the PSTN
WPABX
wireless PABX
WPBX
wireless PBX
WRC
World Radio Conference. The bi-annual international conferences to determine the use of the radio spectrum
WRS
wireless relay station
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