Important for Parameter 2G

Departamento Calidad de Radio Frecuencia Corporativo

Documento: Parmetros Recomendados de Radio

Telcel GSM Elabor: Ing. Kenneth Rydn Aprob: Ing. Joel Rodriguez Pinto

Fecha: 12 de Septiembre 2005

RADIOMOVIL DIPSA, S.A. DE C.V.

SUBDIRECCION DE CALIDAD DE SERVICIO Y EVALUCION DEL

DESEMPEO DE LA RED..

Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 1 de 82

1

Parmetros Recomendados de Radio

TELCEL GSM

DISCLAIMER The contents of this document are

subject to revision, without notice due to ongoing progress in methodology,

design and manufacturing.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 2 de 82

2

Contents 1 DOCUMENT SCOPE..............................................................................................................................................4

2 TABLE DESCRIPTION..........................................................................................................................................5

3 SUMMARY OF RECOMMENDED PARAMETERS..........................................................................................6 3.1 COMMON DATA..................................................................................................................................................6 3.2 IDLE MODE BEHAVIOUR.....................................................................................................................................6 3.3 LOCATING ..........................................................................................................................................................7 3.4 GPRS/EGPRS IDLE MODE BEHAVIOUR ............................................................................................................9 3.5 GPRS/EGPRS CELL RESELECTION....................................................................................................................9 3.6 CHANNEL ADMINISTRATION...............................................................................................................................9 3.7 GPRS/EGPRS CHANNEL ADMINISTRATION ......................................................................................................9 3.8 DYNAMIC MS POWER CONTROL ......................................................................................................................10 3.9 GPRS/EGPRS DYNAMIC MS POWER CONTROL..............................................................................................10 3.10 DYNAMIC BTS POWER CONTROL ....................................................................................................................10 3.11 DISCONTINUOUS TRANSMISSION ......................................................................................................................10 3.12 FREQUENCY HOPPING ......................................................................................................................................11 3.13 INTRA CELL HANDOVER...................................................................................................................................11 3.14 ASSIGNMENT TO OTHER CELL..........................................................................................................................11 3.15 OL/UL SUBCELLS & SUBCELL LOAD DISTRIBUTION .......................................................................................11 3.16 HIERARCHICAL CELL STRUCTURES ..................................................................................................................12 3.17 EXTENDED RANGE ...........................................................................................................................................12 3.18 DOUBLE BA LISTS ...........................................................................................................................................12 3.19 IDLE CHANNEL MEASUREMENTS......................................................................................................................12 3.20 CELL LOAD SHARING .......................................................................................................................................13 3.21 MULTI BAND OPERATION .................................................................................................................................13 3.22 DIFFERENTIAL CHANNEL ALLOCATION............................................................................................................13 3.23 ENHANCED MULTI LEVEL PRECEDENCE AND PRE-EMPTION SERVICE ..............................................................13 3.24 ADAPTIVE CONFIGURATION OF LOGICAL CHANNELS .......................................................................................14 3.25 GSM UMTS CELL RESELECTION AND HANDOVER..........................................................................................14 3.26 GSM UMTS HANDOVER UTRAN CELL DATA ............................................................................................14 3.27 ADAPTIVE MULTI RATE (AMR) .......................................................................................................................14 3.28 GPRS LINK ADAPTATION ................................................................................................................................15 3.29 GPRS/EGPRS QUALITY OF SERVICE...............................................................................................................16 3.30 INTERFERENCE REJECTION COMBINING ...........................................................................................................16 3.31 MULTI BAND CELL...........................................................................................................................................16 3.32 ANTENNA HOPPING ..........................................................................................................................................16 3.33 SYNCHRONIZED RADIO NETWORKS..................................................................................................................16 3.34 DYNAMIC FR/HR MODE ADAPTATION ............................................................................................................16 3.35 DUAL TRANSFER MODE (DTM) .......................................................................................................................16 3.36 FLEXIBLE ABIS (FLAB)....................................................................................................................................17 3.37 DBTSP AXEPARS PARAMETERS IN THE BSC ................................................................................................17 3.38 RAEPP BSC EXCHANGE PROPERTIES .............................................................................................................31

4 REVISION HISTORY...........................................................................................................................................35

5 PARAMETER DESCRIPTION............................................................................................................................40








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 3 de 82

3

6 REFERENCES .......................................................................................................................................................82








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 4 de 82

4

1 Document scope

The purpose of this document is to describe the recommended values for each of the Radio parameters in the Telcel GSM Network. This document revision applies for R11.

All parameters on Global level should be set to the standard values used in the whole network, unless some arguments exist for a difference. Due to continued progress in methodology, design and manufacturing, the contents of the document are subject to revision without notice. Ericsson assumes no legal responsibility for any error or damage resulting from the use of this information.

REVISION RECORD Date Revision Sections affected Revised by

2005-09-12 R11A R11 parameters, BSC exchange properties & AXEPARS parameters

included + new classification.

Kenneth Rydn

2004-07-19 E Changed recommended values for MS Power Control,

see chapter 4

Kenneth Rydn

2004-04-26 D R10 parameters included Kenneth Rydn & Ubaldo Zepeda

2003-12-18 C Changed recommended values for a few parameters,

see chapter 4 for more information.

Kenneth Rydn & Ubaldo Zepeda

2003-10-22 B R9.1 parameters included Kenneth Rydn & Ubaldo Zepeda

2003-08-04 A3 Adding new parameters from RAEPP. Radio related

Ubaldo Zepeda Florencio

2003-07-11 A2 Changes in the parameter table and added some

subchapters, chapter 2 and References


2003-07-11 A1 New column added to add new classification


2003-04-03 A Complete review of document to convert it to

Revision A

Kenneth Rydn








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 5 de 82

5

2 Table Description

Following is a description of the Parameter Table fields.

Type: Contains information regarding the classification of the different parameters according to relevant network indicators such as:

Access, Algorithms, Configuration, Disconnection, Handover, Interference, Multiband, Multislot Paging, Power, Registration, Reselection, Statistics, Synchronisation, System Information, Traffic GPRS/CSD, Traffic Handling.

Level: This field contains information if the parameter is Global or Local, where Global means that the change of this parameter is controlled by Telcel corporate and Local means that any Region can control the changes on these parameters.

Feature: It shows the associated feature to the corresponding parameter.

Cell/BSC/MSC: Field that shows the network element where the parameter must be defined.

Parameter name: It indicates the parameter name or mnemonic.

Recommended parameter setting: It shows the recommended value to set each parameter.

In the case of global parameters it is mandatory to view revised by the Corporate.

For the Local parameters it is only a recommendation that can be changed by each region according to their needs with solid arguments for it.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 6 de 82

6

3 Summary of Recommended Parameters

3.1 Common Data

Type Level

MSC / BSC / Cell / Subcell / CHGR NR TG Parameter name

Recommended parameter setting

Algorithm Global BSC ALG ALG2 Configuration Global Transceiver Group ANT See comments. Configuration Global Transceiver Group ANTA See comments. Configuration Global Transceiver Group ANTB See comments. Configuration Global Transceiver Group RXD AB Paging Global MSC SECPAGEPATH 2 Paging Global MSC TIMPAGINGM 9 Power Local Cell BSPWRB 45 (49 if TCC), 33 or less for micro cells Power Local Cell BSPWRT 45 (49 if TCC), 33 or less for micro cells Access & HO Local Cell BSIC Individual per cell Access & Paging Global Cell BCCHTYPE NCOMB Access & Paging Local Cell AGBLK 0 (must be set to 1 if CBCH=YES) Access & Paging Global Cell MFRMS 3 Frequency hopping Global Cell FNOFFSET 0 Access Global Cell ECSC YES Power Global Cell MSTXPWR 30 Access Local CHGR STATE ACTIVE Configuration

Global CHGR NUMREQBPC 8 * no of TRUs in the non-BCCH CHGR SYSDEF in the BCCH CHGR

Access Local CHGR SDCCH Depends on the SDCCH traffic Access Local CHGR TN 0 up to x where x = number of SDCCH/8 Access Global CHGR CBCH NO Access Local CHGR TSC BCC (last digit of the BSIC) Handover Local NR CTYPE Omitted unless external Handover Local NR RELATION Omitted, and single for external cells Handover Local NR CS YES if co-sited, NO otherwise

3.2 Idle Mode Behaviour Paging Global MSC PAGREP1LA 3 Paging Global MSC PAGREPGLOB 0 Paging Global MSC PAGTIMEFRST1LA 4 Paging Global MSC PAGTIMEFRSTGLOB 4 Paging Global MSC PAGTIMEREP1LA 7 Paging Global MSC PAGTIMEREPGLOB 7 Paging Global MSC LATAUSED 0 Paging Global MSC BTDM 120 or 240, see T3212 for more info.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 7 de 82

7

Paging Global MSC GTDM 6 Access Local Cell ACCMIN 102 or 104, some border cities use 110 Access Global Cell CCHPWR 30 Reselection Local Cell CRH 8 Handover Global Cell NCCPERM All 0-7, Different at country borders Access Global Cell SIMSG 1=ON, 7 and 8=OFF Access Global Cell MSGDIST 1=ON, 7 and 8=OFF Access Global Cell CB NO Reselection Local Cell CBQ HIGH Access Global Cell ACC CLEAR Access Local Cell MAXRET 4 (2 in areas with RA problems, Ref. [7]) Access Global Cell TX 20 Access Global Cell ATT YES Paging Global Cell T3212 20 if BTDM=120, 40 if BTDM=240 Reselection Local Cell CRO 0 Reselection Local Cell TO 0 Reselection Local Cell PT 0

3.3 Locating Handover Global MSC HNDRELCHINTRAM 1 Handover Global MSC HNDSDCCHM 1 Handover Global MSC HNDSDCCHTCHM 1 Handover Global MSC TIMHNDCMDINTRAM 15 Handover Global MSC TIMHNDGSINTRAM 0 Handover Global MSC HNDTGSOPINTRA 0 Handover Global MSC HNDSDCCHINTOM 1 Handover Global MSC HNDBEFOREBANSWM 1 Handover Global MSC HNDSDCCHINTI 1 Handover Global BSC EVALTYPE 3 Handover Global BSC TINIT 10 Handover Global BSC TALLOC 6 Handover Global BSC TURGEN 2 Handover Global BSC TAAVELEN 4 Handover Global Cell SSEVALSD 6 Handover Global Cell QEVALSD 6 Handover Global Cell SSEVALSI 6 Handover Global Cell QEVALSI 6 Handover Global Cell SSLENSD 10 Handover Global Cell QLENSD 10 Handover Global Cell SSLENSI 4 Handover Global Cell QLENSI 4 Handover Global Cell SSRAMPSD 5 Handover Global Cell SSRAMPSI 1








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 8 de 82

8

Handover Global Cell MISSNM 3 Handover Global Cell BSPWR BSPWRB -2 (-4 if cell has > 2 TRUs) Handover Local Cell MSRXMIN 96 for city cells, 99 for rural cells Handover Global Cell BSRXMIN 150 Handover Global Cell MSRXSUFF 0 Handover Global Cell BSRXSUFF 109 Handover Global Subcell BSTXPWR BSPWRT -2 (-4 if cell has > 2 TRUs) Handover Local NR KHYST 3 Handover Local NR LHYST 3 Handover Local NR TRHYST 2 Handover Local NR KOFFSET 0 Handover Local NR LOFFSET 0 Handover Local NR TROFFSET 0 Handover Local NR HIHYST 5 Handover Local NR LOHYST 3 Handover Local Cell HYSTSEP 0 Handover Local NR OFFSET 0 Handover Local Cell

TALIM 62 for non extended range cells Up to 218 for extended range cells

Handover Local Cell PSSBQ 15 Handover Local Cell PSSTA 63 Handover Local Cell PTIMBQ 5 Handover Local Cell PTIMTA 30 Handover Local NR BQOFFSET 3 Handover Local NR BQOFFSETAFR 3 Handover Global Cell EXTPEN ON Handover

Local Cell

QLIMDL 45 for the BCCH subcell 55 for the non-BCCH subcell

Handover Local

Cell QLIMUL

45 for the BCCH subcell 55 for the non-BCCH subcell

Handover Local

Cell QLIMDLAFR


Handover Local

Cell QLIMULAFR


Handover Local Cell PSSHF 63 Handover Local Cell PTIMHF 5 Handover Global BSC IBHOSICH OFF Handover Global BSC IHOSICH OFF Handover Global Cell SCHO OFF Processor load Global Cell CELLQ HIGH Disconnection

Global Cell MAXTA 63 for non extended range cells Up to 219 for extended range cells

Disconnection Global Cell RLINKT 32 Disconnection Global Cell RLINKUP 32 Handover Local Cell HPBSTATE ACTIVE, see Ref. [13]








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 9 de 82

9

3.4 GPRS/EGPRS Idle Mode Behaviour GPRS Idle Mode Local Cell CBCHD NO GPRS Idle Mode Local Cell MAXSBLK 2 GPRS Idle Mode Local Cell MAXSMSG 7 GPRS Idle Mode Local Cell PRACHBLK 2 GPRS Idle Mode Local Cell TRAFBLK 0

3.5 GPRS/EGPRS Cell Reselection GPRS Cell Reselection Local

Cell PHCSTHR MAPPED

GPRS Cell Reselection Local

Cell PLAYER MAPPED


NR GPRSVALID YES


NR PROFFSET MAPPED

3.6 Channel Administration Channel Admin. Global

MSC CRT

1. FR-FR 2. DHR-DHRC 3. DFR-DFRC

Channel Admin. Global

MSC PSCVL

1. FRV1 2. FRV1 FRV2 FRV3 HRV1 HRV2 HRV3 3. FRV1 FRV2 FRV3 HRV1 HRV2 HRV3

HSCSD Global MSC MSLOT 4 HSCSD Global BSC BSCMC ON HSCSD Global Cell CMDR 144 Channel Admin. Local Cell CHAP 8 Channel Admin. Global Cell NECI 1 HSCSD Global Cell MC ON Channel Admin. Local CHGR SAS MULTI

3.7 GPRS/EGPRS Channel Administration GPRS Ch. Admin. Global Cell GPRSSUP YES GPRS Ch. Admin.

Local Cell FPDCH Depends on the GPRS traffic for the cell, see Ref. [3] for extended range cells

GPRS Ch. Admin. Global Cell MPDCH NO GPRS Ch. Admin. Local Cell PDCHALLOC NOPREF GPRS Ch. Admin.

Local Cell PDCHPREEMPT 4 or 8 depending on GPRS importance [meaning of values changed in R11]

GPRS Ch. Admin. Local Cell PRIMPLIM 8 GPRS Ch. Admin. Local Cell PSKONBCCH DISABLED GPRS Ch. Admin.

Local Cell SCALLOC BOTHUL if BCCH is in the OL sub-cell BOTHOL if BCCH is in the UL sub-cell








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 10 de 82

10

GPRS Ch. Admin. Local Cell SPDCH 0 GPRS Ch. Admin. Local CHGR NUMREQCS3CS4BPC 0 GPRS Ch. Admin. Local CHGR NUMREQEGPRSBPC 0 GPRS Ch. Admin. Local CHGR TN7BCCH GPRS

3.8 Dynamic MS Power Control Power Control Global Cell DMPSTATE ACTIVE Power Control Global Cell AMRPCSTATE ACTIVE Power Control Local Subcell SSDESUL 98 Power Control Local Subcell SSDESULAFR 98 Power Control Global Subcell SSLENUL 3 Power Control Global Subcell LCOMPUL 40 Power Control Local Subcell QDESUL 30 or 40, see Ref. [12] for more info Power Control Local Subcell QDESULAFR 40 Power Control Global Subcell QLENUL 3 Power Control Global Subcell QCOMPUL 55 Power Control Global Subcell REGINTUL 1 Power Control Global Subcell DTXFUL 5

3.9 GPRS/EGPRS Dynamic MS Power Control Power Control Global Cell GAMMA 16

3.10 Dynamic BTS Power Control Power Control Global Cell DBPSTATE ACTIVE Power Control Global Cell AMRPCSTATE ACTIVE Power Control Global Subcell SDCCHREG OFF Power Control Local Subcell SSDESDL 90 Power Control Local Subcell SSDESDLAFR 90 Power Control Global Subcell REGINTDL 1 Power Control Global Subcell SSLENDL 3 Power Control Global Subcell LCOMPDL 5 Power Control Local Subcell QDESDL 30 Power Control Local Subcell QDESDLAFR 40 Power Control Global Subcell QCOMPDL 55 Power Control Global Subcell QLENDL 3 Power Control Global Subcell BSPWRMIN -20

3.11 Discontinuous Transmission Interference Global Cell DTXD ON Interference

Global Cell DTXU 2 = The MS must not use DTX Region 9 use DTX on the uplink (2005-09-10)








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 11 de 82

11

3.12 Frequency Hopping Frequency hopping Local CHGR HOP ON Frequency hopping Local CHGR HSN Individual per site Frequency hopping Global CHGR BCCD YES Frequency hopping Local CHGR MAIO Depends on the frequency allocation Frequency hopping Global Transceiver Group FHOP SY Frequency hopping Global Transceiver Group COMB HYB

3.13 Intra Cell Handover Intra Cell Handover Global Subcell IHO ON Intra Cell Handover Global Subcell TMAXIHO 7 Intra Cell Handover Global Subcell TIHO 10 Intra Cell Handover Global Subcell MAXIHO 2 Intra Cell Handover

Global Subcell

QOFFSETDL 0 BCCH subcell 10 non-BCCH subcell

Intra Cell Handover Global

Subcell QOFFSETDLAFR

0 BCCH subcell 10 non-BCCH subcell


Subcell QOFFSETUL

-10 BCCH subcell 0 non-BCCH subcell


Subcell QOFFSETULAFR

-10 BCCH subcell 0 non-BCCH subcell

Intra Cell Handover Global Subcell SSOFFSETDL 0 Intra Cell Handover Global Subcell SSOFFSETDLAFR 0 Intra Cell Handover Global Subcell SSOFFSETUL -10 Intra Cell Handover Global Subcell SSOFFSETULAFR -10

3.14 Assignment to Other Cell Ass. To Other Cell Global BSC ASSOC ON Ass. To Other Cell Global BSC IBHOASS ON Ass. To Other Cell Global Cell AW ON Ass. To Other Cell Local NR CAND BOTH Ass. To Other Cell Local NR AWOFFSET 3

3.15 OL/UL Subcells & Subcell Load Distribution Traffic Handling Local Cell SCLD ON Traffic Handling Local Cell SCLDLL Individual per cell Traffic Handling Local Cell SCLDUL Individual per cell Traffic Handling Local Cell LOL 150 Traffic Handling Local Cell LOLHYST 2 Traffic Handling Global Cell DTCB -63 Traffic Handling Global Cell DTCBHYST 2








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 12 de 82

12

Traffic Handling Global Cell NDIST 10 Traffic Handling Global Cell NNCELLS 3 Traffic Handling Local Cell TAOL 61 Traffic Handling Local Cell TAOLHYST 0

3.16 Hierarchical Cell Structures Traffic Handling Global BSC HCSBAND 2 Traffic Handling Global BSC HCSBANDHYST 2 Traffic Handling Global BSC HCSBANDTHR 95 Traffic Handling Local BSC NHO 3 Traffic Handling Local BSC THO 30 Traffic Handling Global BSC LAYER 1 to 8 Traffic Handling Local Cell LAYER 2 for macro cells, 1 for micro cells Traffic Handling Local Cell

LAYERTHR 80 for macro cells Individual for micro cells

Traffic Handling Local Cell LAYERHYST 2 Traffic Handling Local Cell PSSTEMP 0 Traffic Handling Local Cell PTIMTEMP 0 Traffic Handling Local Cell FASTMSREG OFF

3.17 Extended Range Extended Range Local Cell XRANGE NO (YES if applicable, see Ref. [3])

3.18 Double BA Lists Double BA Lists Local Cell MBCCHNO Individual per cell

3.19 Idle Channel Measurements Interference Global Cell ICMSTATE ACTIVE Interference Global Cell INTAVE 25 Interference

Local Cell LIMIT1

4 The value for LIMIT1 can be adjusted depending on the uplink interference; region 9 for instance has done so.

Interference Local

Cell LIMIT2


Interference Local

Cell LIMIT3


Interference Local

Cell LIMIT4









Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 13 de 82

13

3.20 Cell Load Sharing Traffic Handling Global BSC LSSTATE ACTIVE Traffic Handling Local Cell CLSSTATE ACTIVE Traffic Handling Local Cell CLSACC Individual per cell Traffic Handling Local Cell CLSLEVEL Individual per cell Traffic Handling Local Cell CLSRAMP 8 Traffic Handling Local Cell RHYST 100 Traffic Handling Local Cell HOCLSACC ON

3.21 Multi band Operation Traffic Handling

Global BSC MODE MULTI if more than 1 band is used SINGLE if only GSM1900 is used

Traffic Handling Global BSC GSYSTYPE

MIXED if more than 1 band is used, GSM1900 is only GSM1900 is used

Traffic Handling Global BSC CSYSTYPE GSM1900 Traffic Handling

Global Cell MBCR

MBCR should be set to a value higher than 0 if more than 1 band is used. MBCR should be set to 0 if only GSM1900 is used.

Traffic Handling Global Transceiver Group BAND GSM1900

3.22 Differential Channel Allocation Traffic Handling Global MSC CAPLTCHSCH 3 Traffic Handling Global MSC CAPLTCHEMER 0 Traffic Handling Global MSC CAPLTCHMOVAL 0 Traffic Handling Global MSC CAPLSCHMOVAL 0 Traffic Handling Global MSC CAPLTCHMTVAL 0 Traffic Handling Global MSC CAPLSCHMTVAL 0 Traffic Handling Global MSC CAPLTCHMTOVERR 0 Traffic Handling Global MSC CAPLSCHMTOVERR 0 Traffic Handling Global MSC CAPLTCHMTPREF 0 Traffic Handling Global MSC CAPLSCHMTPREF 0 Traffic Handling Global MSC SMOASSIGN 1 Traffic Handling Global MSC SMTASSIGN 1 Traffic Handling Global BSC DCASTATE ON if DCA should be used, 0 otherwise Traffic Handling Global BSC EMERGPRL 9 Traffic Handling Global BSC STATSINT 4 Traffic Handling Global Priority Profile INAC 0 Traffic Handling Global Priority Profile PROBF 0

3.23 Enhanced Multi Level Precedence and Pre-emption Service Traffic Handling Global MSC EMLPP A , B , 0 , 1 , 2 , 3 , 4








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 14 de 82

14

Traffic Handling Global MSC BAOCI 0 Traffic Handling Global MSC BOICI 0 Traffic Handling Global MSC BOIEXHI 0 Traffic Handling Global MSC PCI 0 Traffic Handling Global MSC PVI 0 Traffic Handling Global MSC PRIORITY 14 Traffic Handling Global MSC QAI 0 Traffic Handling Global BSC PRIOLEV There are 14 levels, PRIOLEV 1-14. Traffic Handling Global BSC QASSTIME 28 Traffic Handling Global Cell QLENGTH 5 Traffic Handling Global Cell RESLIMIT 25

3.24 Adaptive Configuration of Logical Channels Access

Global Cell ACSTATE

ON if the feature Adaptive Configuration of Logical Channels should be used, OFF otherwise

Access Local Cell SLEVEL 2, see Ref. [9] for more information. Access Global Cell STIME 20 Access

Global CHGR EXCHGR 0 (no value appears in the RLACP command when EXCHGR is set to 0)

3.25 GSM UMTS Cell Reselection and Handover UMTS Global Cell UMFI N/A UMTS Global Cell FDDQMIN N/A UMTS Global Cell FDDQOFF N/A UMTS Global Cell SPRIO N/A UMTS Global Cell QSI N/A

3.26 GSM UMTS Handover UTRAN Cell Data UMTS Global Cell FDDARFCN N/A UMTS Global Cell SCRCODE N/A UMTS Global Cell UTRANID N/A UMTS Global Cell MRSL N/A UMTS Global Cell ISHOLEV N/A UMTS Global Cell FDDMRR N/A UMTS Global Cell QSC N/A UMTS Global Cell QSCI N/A

3.27 Adaptive Multi Rate (AMR) AMR Global BSC AMRCSFR3HYST_0 2 AMR Global BSC AMRCSFR3HYST_1 3 AMR Global BSC AMRCSFR3HYST_2 3








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 15 de 82

15

AMR Global BSC AMRCSFR3MODE_0 1 AMR Global BSC AMRCSFR3MODE_1 3 AMR Global BSC AMRCSFR3MODE_2 4 AMR Global BSC AMRCSFR3MODE_3 7 AMR Global BSC AMRCSFR3THR_0 12 AMR Global BSC AMRCSFR3THR_1 21 AMR Global BSC AMRCSFR3THR_2 21 AMR Global BSC AMRCSFR4HYST_0 2 AMR Global BSC AMRCSFR4HYST_1 3 AMR Global BSC AMRCSFR4HYST_2 3 AMR Global BSC AMRCSFR4MODE_0 1 AMR Global BSC AMRCSFR4MODE_1 3 AMR Global BSC AMRCSFR4MODE_2 6 AMR Global BSC AMRCSFR4MODE_3 8 AMR Global BSC AMRCSFR4THR_0 12 AMR Global BSC AMRCSFR4THR_1 17 AMR Global BSC AMRCSFR4THR_2 25 AMR Global BSC AMRCSHR3HYST_0 3 AMR Global BSC AMRCSHR3HYST_1 4 AMR Global BSC AMRCSHR3HYST_2 4 AMR Global BSC AMRCSHR3MODE_0 1 AMR Global BSC AMRCSHR3MODE_1 3 AMR Global BSC AMRCSHR3MODE_2 4 AMR Global BSC AMRCSHR3MODE_3 5 AMR Global BSC AMRCSHR3THR_0 23 AMR Global BSC AMRCSHR3THR_1 28 AMR Global BSC AMRCSHR3THR_2 32 AMR Global BSC AMRCSHR4HYST_0 3 AMR Global BSC AMRCSHR4HYST_1 4 AMR Global BSC AMRCSHR4HYST_2 - AMR Global BSC AMRCSHR4MODE_0 1 AMR Global BSC AMRCSHR4MODE_1 3 AMR Global BSC AMRCSHR4MODE_2 5 AMR Global BSC AMRCSHR4MODE_3 - AMR Global BSC AMRCSHR4THR_0 23 AMR Global BSC AMRCSHR4THR_1 31 AMR Global BSC AMRCSHR4THR_2 -

3.28 GPRS Link Adaptation GPRS Global Cell LA ON GPRS Global Cell CHCSDL CS4








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 16 de 82

16

3.29 GPRS/EGPRS Quality of Service GPRS Global Cell BPDCHBR 12 GPRS Global Cell EPDCHBR 20 GPRS Global Cell GPDCHBR 14 GPRS Global Cell STREAMSUP NO

3.30 Interference Rejection Combining Interference Global Cell IRC ON

3.31 Multi Band Cell Traffic Handling Global Cell FBOFFS 0 Traffic Handling

Global CHGR BAND GSM1900, unless the cell uses another frequency band than GSM1900

3.32 Antenna Hopping Antenna Hopping Global Transceiver Group AHOP OFF

3.33 Synchronized Radio Networks Synchronization Global Transceiver Group FSOFFSET OFF Synchronization Global Transceiver Group SYNCSRC DEFAULT Synchronization Global Transceiver Group TFMODE SA

3.34 Dynamic FR/HR Mode Adaptation Traffic Handling Global Cell DHA ON Traffic Handling Global Cell DMQB OFF Traffic Handling Global Cell DMQBAMR 50 Traffic Handling Global Cell DMQBNAMR 45 Traffic Handling Global Cell DMQG OFF Traffic Handling Global Cell DMQGAMR 35 Traffic Handling Global Cell DMQGNAMR 30 Traffic Handling Global Cell DMSUPP OFF Traffic Handling Global Cell DMTHAMR Individual per cell, capacity versus traffic load Traffic Handling Global Cell DMTHNAMR Individual per cell, capacity versus traffic load Traffic Handling Global Cell DTHAMR Individual per cell, capacity versus traffic load Traffic Handling Global Cell DTHNAMR Individual per cell, capacity versus traffic load

3.35 Dual Transfer Mode (DTM) Dual Transfer Mode Global Cell ALLOCPREF QUAL








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 17 de 82

17

Dual Transfer Mode Global Cell MAXLAPDM 5

3.36 Flexible Abis (FLAB) Flexible Abis Global Transceiver Group ABISALLOC FIXED

3.37 DBTSP AXEPARS parameters in the BSC FEATURE NAME RECOMMENDED SETTING & COMMENTS

Adaptive Configuration of Logical Channels ADAPTIVECONFIG

1; ADAPTIVECONFIG=1 permits using the optional feature Adaptive Configuration of Logical Channels. This feature describes how the BSC will have the possibility of automatic reconfiguration of TCHs into SDCCHs to handle peaks in the SDCCH traffic.

AMR FR AMR

1; AMR=1 permits using the optional feature AMR FR. AMR is a new speech codec type which adapts the speech codec rate and channel coding according to radio environment. It can be used to improve speech quality and increase radio network capacity.

AMR FR AMRFRMAXTRAFFIC

16320; AMRFRMAXTRAFFIC defines the number of maximal simultaneous ongoing Adaptive Multi Rate (AMR) Full Rate (FR) connections in the BSC.

AMR HR AMRHR

0; AMRHR should be set to 0 for now since the optional feature AMR HR is currently not used, but this should be changed to 1 if and when this feature will be used. AMRHR=1 permits using the optional feature AMR HR. This feature introduces the possibility to use AMR on Half Rate channels.

AMR HR AMRHRMAXTRAFFIC

16320; AMRHRMAXTRAFFIC defines the number of maximal simultaneous ongoing Adaptive Multi Rate (AMR) Half Rate (HR) connections in the BSC.

AMR FR Power Control AMRPWRCTRL

1; AMRPWRCTRL=1 permits using the optional feature AMR FR Power Control. This feature improves the behaviour of both uplink and downlink power control for AMR connections using FR speech coding. The AMR FR speech coding is more robust and can perform well on low C/I levels. The feature gives the possibility to down regulate the power more for AMR FR connections than for other connections, and consequently reduce the overall interference.

Not related to radio features ANSICCSOWNSPCHG

0; ANSICCSOWNSPCHG determines the availability of the American National Standards Institute (ANSI) Signalling System Number 7 (SS7) Own Signalling Point Change function.

Not related to radio features ANSITT1 3; ANSITT1 determines the ANSI Signalling System Number 7 (SS7) global title Translation Type (TT) for the first address mapping case.

Not related to radio features ANSITT2 6; ANSITT2 determines the ANSI SS7 global title TT for the second address mapping case.

Not related to radio features ANSITT3 5; ANSITT2 determines the ANSI SS7 global title TT for the third address mapping case.

Not related to radio features ANSITT4 4; ANSITT2 determines the ANSI SS7 global title TT for the fourth address mapping case.

Not related to radio features AUTODSC

0; AUTODSC activates or deactivates a spontaneous printout, which gives Hardware (HW) information on detection of a HW change. Value zero means the HW Inventory Autodiscovery function is deactivated while value one means the HW Inventory Autodiscovery function is activated.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 18 de 82

18

Frequency re-configuration with minimum disturbance AUTOHFSEXPAND

1; AUTOHFSEXPAND=1 permits using the optional feature Frequency re-configuration with minimum disturbance. This feature gives operator the possibility to change frequencies including the BCCH and remove or add transceivers in a frequency-hopping cell without releasing any ongoing calls in the cell. The cell will be able to offer service to new traffic except when the BCCH is reconfigured.

BCCH in OL subcell BCCHINOL

1; BCCHINOL=1 permits using the optional feature BCCH in OL subcell. This feature makes it possible to configure the BCCH carrier in the overlaid subcell. This gives higher capacity since a tighter frequency reuse can be implemented for the BCCH carrier.

Maximum traffic in the BSC BSCMAXTRAFFIC

16384; BSCMAXTRAFFIC defines the number of maximal simultaneous ongoing speech or data connections in the BSC. The default value is equal to the maximal number of MS individuals and indicates that this parameter will as default not limit the traffic of the BSC.

BSS Positioning BSSPOSITIONING

0; BSSPOSITIONING should be set to 0 for now since the optional feature BSS Positioning is currently not used, but this should be changed to 1 if and when this feature will be used. BSSPOSITIONING=1 permits using the optional feature BSS Positioning. This feature makes it possible to use positioning. Two positioning methods are supported: - Cell Global Identity and Timing Advance. - Assisted Global Positioning System LMUs type A and B are supported.

Dynamic BTS Power Control BTSPWRCTRL

1; BTSPWRCTRL=1 permits using the optional feature BTS Power Control. This feature controls output power for a Base Transceiver Station during a connection. By reducing unnecessarily strong radio signals the interference in the radio network is reduced and the number of connections with sufficient C/I is increased. It also minimizes the transmit power used by BTS.

Not related to radio features CCDEFOCL 0; Default Own SCCP Congestion Level, determines the initial value of the Own SCCP Congestion Level after a System Restart.

Event Reporting and Disturbance Supervision CCSERDS

1; CCSERDS controls the availability of Event Reporting and Disturbance Supervision function. 0 DISABLED (DEFAULT). 1 ENABLED.

Not related to radio features CCSEXCHANGE

0; CCSEXCHANGE determines the protocol type active in the exchange with regard to CCS-7 signalling system. The value '0' indicates that protocol behaviour of the exchange is ITU-T. The value '1' indicates that protocol behaviour of the exchange is MPT. The value '2' indicates that protocol behaviour of the exchange is TTC.

Not related to radio features CONGCTRLLOAS

0; Loas Block Usage, determines the usage or not of block LOAS for the Own SCCP Congestion level calculation. This AXE parameter is only allowed to be set if SCCPNODALCONG parameter is also available. Value '0' indicates that block LOAS will not be used and value '1' indicates that block LOAS will be used.

Not related to radio features CONGCTRLMTPNAT

0; CONGCTRLMTPNAT determines if it will be possible as a national option to provide Message Transfer Part (MTP) with the importance parameter, carried in bits A and B of the subservice field of the SIO. These two bits make up the field Priority. Value '0' indicates MTP National Option inactive, value '1' indicates MTP National Option active. It must be active if MTP handles priorities.

Not related to radio features CONGSTATUS0 1; CONGSTATUS0 controls setting of the congestion status in TFC message for network 0.









Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 19 de 82

19



Not related to radio features CONGTIME

5; Congestion Time determines the time in seconds a signalling point is marked "congested", once an MTP-STATUS indication "signalling point congested" has been received. This parameter applies when the SCCP Congestion Control optional function is not available in the exchange.

Not related to radio features CONNESTTIME 2; Connection Establishment Timer defines the waiting time in minutes for a Connection Confirm message.

Not related to radio features COU

22; COU indicates the number of consecutive control intervals during which the Central Processor (CP) load will be kept above or below a threshold so that the CP-Load Monitoring functionality issues a notification for this load change. The values of COU represent number of 5 seconds time intervals.

Not related to radio features CRP0 0; CRP0 specifies whether or not Circular Routing Prevention (CRP) is available for network 0.




Not related to radio features DISCTHRESHOLD

6; Discard Message Threshold, determines if a message, received in Own SCCP Congestion state, will be discarded or returned if the message return procedure applies during the execution of the incoming traffic limitation procedure.

Dual Transfer Mode DTM

0; DTM should be set to 0 for now since the optional feature Dual Transfer Mode is currently not used, but this should be changed to 1 if and when this feature will be used. DTM=1 permits using the optional feature Dual Transfer Mode. This feature makes it possible for an MS to have circuit switched and GPRS/EGPRS services simultaneously.

Dynamic FR/HR Mode Adaptation DYMA

1; DYMA=1 permits using the optional feature Dynamic FR/HR Mode Adaptation. This feature dynamically changes the mode of the speech channels between FR and HR as the traffic load changes in a cell. The feature is controlled by operator changeable parameters. The operator will be able to direct the traffic towards HR or FR as desired, giving better flexibility to control the traffic resources. The end-user will experience less congestion.

Dynamic HR Allocation DYNHRALLOC

1; DYNHRALLOC=1 permits using the optional feature Dynamic HR Allocation. This feature allocates dual rate mobiles to Full Rate or Half Rate channels according to the existing traffic situation in the cell. Half Rate traffic channels will be allocated when there is a risk for congestion in a cell else Full Rate channels will be selected. A threshold set by the operator decides when a dual rate mobile will use Half Rate or Full Rate. The selection based upon the thresholds will be done both at call setup and at handovers into the cell.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 20 de 82

20

Dynamic OL/UL Subcells DYNOLULSC

1; DYNOLULSC=1 permits using the optional feature Dynamic OL/UL Subcells. This feature makes it possible to increase network capacity and make it more robust against temporary concentration of calls at a location. Monitoring the load in the underlaid subcell does this, and only use overlaid subcell when the load is too high in the underlaid subcell. By decreasing the usage of the overlaid subcell its frequencies can be reused with a shorter distance.

Dynamic uplink downlink resource handling DYNULDL

1; DYNULDL=1 permits using the optional feature Dynamic uplink downlink resource handling. This feature dynamically adjusts the amount of reserved PDCHs for a TBF based on the dominant payload direction.

Enhanced Cell Global Identity ECGI

0; ECGI should be set to 0 for now since the optional feature Enhanced Cell Global Identity is currently not used, but this should be changed to 1 if and when this feature will be used. ECGI=1 permits using the optional feature Enhanced Cell Global Identity. This feature improves the positioning method CGI (Cell Global Identity), included in optional feature BSSPOSITIONING.

Maximum allowed number of EGPRS TS EGPRSBPCLIMIT

The recommended setting for EGPRSBPCLIMIT depends on the BSC. EGPRSBPCLIMIT is the system limit for maximum allowed number of EGPRS TS and is set to 350 in many BSCs, but several BSCs have EGPRSBPCLIMIT set to a value above 400 (2005-09-05)

Extended languages in SMS cell broadcast EXTLANG

1; EXTLANG=1 gives the operator the possibility to extend the SMS CELL BROADCAST message by choosing between additional fourteen languages, e.g. Chinese and Thai.

Antenna Hopping FEATAHOP

0; FEATAHOP should be set to 0 for now since the optional feature Antenna Hopping is currently not used, but this should be changed to 1 if and when this feature will be used. FEATAHOP=1 permits using the optional feature Antenna Hopping. This feature improves down link performance by introducing a mechanism of hopping between antennas in addition to frequency hopping. This is useful in cells and systems with limited bandwidth.

Real Time Event Data FEATSCS

0; FEATSCS should be set to 0 for now since the optional feature Real Time Event Data is currently not used, but this should be changed to 1 if and when this feature will be used. FEATSCS=1 permits using the optional feature Real Time Event Data. This feature allows the operator to subscribe for event notifications in order to supervise the performance of the BSC. The event consumer R-PMO is connected via a TCP/IP server interface.

Synchronization of RBS2000 using GPS FEATSYNCHRNW

0; FEATSYNCHRNW should be set to 0 for now since the optional feature Synchronization of RBS2000 using GPS is currently not used, but this should be changed to 1 if and when this feature will be used. FEATSYNCHRNW=1 permits using the optional feature Synchronization of RBS2000 using GPS. This feature gives the operator the possibility to configure a synchronized network using GPS as synchronization reference for RBS2000. For TG configured to use TG Sync 1:1 frequency re-use is possible for RBS comprising same cell.

Handling of synchronization reference for CMS40 FEATSYNCSRC

0; FEATSYNCSRC should be set to 0 for now since the optional feature Handling of synchronization reference for CMS40 is currently not used, but this should be changed to 1 if and when this feature will be used. FEATSYNCSRC=1 permits using the optional feature Handling of synchronization reference for CMS40. This feature gives the operator the possibility to use the transport network as synchronization reference for RBS2000. The built-in reference oscillator is disabled and will not need to be calibrated.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 21 de 82

21

Flexible Abis FLEXABIS

0; FLEXABIS should be set to 0 for now since the optional feature Flexible Abis is currently not used, but this should be changed to 1 if and when this feature will be used. FLEXABIS=1 permits using the optional feature Flexible Abis. This feature gives the operator the possibility to save Abis transmission resources to base station sites with expected small amount of GPRS/EGPRS traffic.

Four-Way Receiver Diversity FOURWAYRXDIV

0; FOURWAYRXDIV should be set to 0 for now since the optional feature Four-Way Receiver Diversity is currently not used, but this should be changed to 1 if and when this feature will be used. FOURWAYRXDIV=1 permits using the optional feature 4 Way Receiver Diversity. This feature is used to increase the sensitivity uplink in the BTS. It improves the sensitivity with at least 3 dB compared to 2-ways receiver diversity, by combining the uplink signal from four antennas.

TG synchronization G01EXPNDWITHG12

1; G01EXPNDWITHG12=1 makes it possible to expand a TG in BTS logical model G01, with TGs in BTS logical model G12. The TG in BTS logical model G01 must be configured as Master.

TG synchronization G12EXPNDWITHG12 1; G12EXPNDWITHG12=1 makes it possible to expand a TG in BTS logical model G12, with additional TGs in BTS logical model G12.

Support for extended GSM900 frequency band G1GSMBAND

0; G1GSMBAND=1 makes it possible to use the frequencies in the G1-GSM 900 band in addition to the frequencies in the P-GSM 900 band in the network. It is possible to use the frequencies for both dedicated channels and common channels. Telcel use GSM1900.

Size of the Gb interface GBCAPACITY 64; GBCAPACITY defines the maximum allowed size of the Gb interface in steps of 64 kbps.

GPRS Mobile Logging GMLOG

0;GMLOG should be set to 0 for now since the optional feature GPRS Mobile Logging is currently not used, but this should be changed to 1 if and when this feature will be used. GMLOG=1 permits using the optional feature GPRS Mobile Logging. This feature is a trouble shooting and monitoring tool for GPRS/EGPRS handling in the BSC. The OSS application GMLOG is connected via a TCP/IP interface.

General Packet Radio Services (GPRS) GPRS

1; GPRS=1 permits using the optional feature GPRS. This feature makes it possible to send packet data over a GSM network.

GPRS coding scheme 3 & 4 GPRSCS3CS4 1; GPRSCS3CS4=1 permits using GPRS coding scheme 3 & 4. The result is increased data throughput to users.

Extended Dynamic Allocation GPRSEDA

0; GPRSEDA should be set to 0 for now since the optional feature Extended Dynamic Allocation is currently not used, but this should be changed to 1 if and when this feature will be used. GPRSEDA =1 permits using the optional feature Extended Dynamic Allocation. This feature makes it possible to reserve more time slots in the uplink than in downlink for GPRS mobiles supporting Extended Dynamic Allocation.

Ericsson Instant Talk GPRSEIT

0; GPRSEIT should be set to 0 for now since the optional feature Ericsson Instant Talk is currently not used, but this should be changed to 1 if and when this feature will be used. GPRSEIT =1 permits using the optional feature Ericsson Instant Talk. This feature is a Voice-over-IP application that offers "push button" voice communication between GPRS users in a one-to-one or one-to many fashion.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 22 de 82

22

Persistent Uplink Scheduling GPRSPULS

0; GPRSPULS should be set to 0 for now since the optional feature Persistent Uplink Scheduling is currently not used, but this should be changed to 1 if and when this feature will be used. GPRSPULS =1 permits using the optional feature Persistent Uplink Scheduling. This feature reduces the average packet data roundtrip time by persistently scheduling MSs in delayed release of downlink TBF mode or extended uplink TBF mode. A reduced roundtrip improves the overall packet data throughput, especially for interactive applications like e.g. WEB-surfing.

GPRS/EGPRS Quality of Service and Scheduling GPRSQOS

1; GPRSQOS=1 permits using the optional feature GPRS/EGPRS Quality of Service and Scheduling. This feature makes it possible for operators to differentiate between users. BSC assigns radio resources depending on QoS profile received.

Multilayer Hierarchical Cell Structures HCS

1; HCS=1 permits using the optional feature Multilayer Hierarchical Cell Structures. This feature makes it possible to direct the traffic towards the band and the cell layer preferred by the operator, for instance indoor or GSM 1800 cells, where capacity is available. Differentiation between cells is accomplished by assigning cells to different layers. Restricted feature - maximum 3 layers and 1 band.

Multilayer Hierarchical Cell Structures HCSBAND

1; HCSBAND=1 permits using the optional feature Multilayer Hierarchical Cell Structures. For a description of this feature, refer to the HCS parameter. This parameter controls full feature i.e. 8 layers and 8 bands.

14.4 kbps HDRATE

1; HDRATE=1 permits using the optional feature 14.4 kbps. This feature increases the data rate from the standard 9.6 kbps to 14.4 kbps for transparent data. The increase is slightly less for non-transparent data The high increase is achieved by having a higher data rate per timeslot in all circuit switched data applications, both for single and multi timeslot configurations.

Not related to radio features HOPCNTR 15; HOPCNTR indicates the hop counter, used to determine the maximum number of intermediate SCCP relay points.

Not related to radio features HOPCOUNTERCL 15; Connectionless HopCounter defines the initial value for the Hop Counter parameter in the XUDT and XUDTS messages

Not related to radio features HOPCOUNTERCO

15; Connection-Oriented HopCounter defines the initial value for the Hop Counter parameter in the originating Connection Request messages. If value is 0, no HopCounter parameter will be included.

Handover Power Boost HPBOOST

1; HPBOOST=1 permits using the optional feature HO Power Boost. This feature is used to reduce the number of dropped connections due to lost HO commands in micro-cell environments. Sending HO commands with nominal (maximum) power does this.

Support for half rate channels HRC

1; HRC permits using the optional feature Support for half rate channels. This feature makes the availability of Half Rate Channels (speech version 1) optional in BSC.

High Speed Circuit Switched Data (HSCSD) HSCSD

1; HSCSD permits using the optional feature High Speed Circuit Switched Data. HSCSD was introduced to support up to 48 kbps (4x12 kbps) air interface rate and 38,4 kbps (4x9.6 kbps) air interface user rate for an MS connection. With the feature 14.4 kbps a rate of 57,6 kbps (4x14.4 kbps) can be achieved. HSCSD connections use a multislot combination of channels for data.

Not related to radio features IARTIME 11; Receive Inactivity Control Timer defines the waiting time in minutes to receive a message on an active connection section.

Not related to radio features IASTIME

5; Send Inactivity Control Timer, determines the delay in minutes to send an Inactivity Test message on a connection section when there are no messages to send.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 23 de 82

23

Not related to radio features INCOTRAFFLIMIT

0; Incoming Traffic Limitation, determines if the availability of Incoming Traffic Limitation Procedure. This AXE parameter is only allowed to be set to available if SCCPNODALCONG parameter is also available. Value '0' indicates that this procedure is not available and value '1' indicates that this procedure is available.

Increased SDCCH Capacity INCRSDCCHCAP

0; INCRSDCCHCAP should be set to 0 for now since the optional feature Increased SDCCH Capacity is currently not used, but this should be changed to 1 if and when this feature will be used. INCRSDCCHCAP=1 permits using the optional feature Increased SDCCH Capacity. This feature makes it possible for the operator to define on average two SDCCH/8s (with or without CBCH) per TRX (frequency). Without this feature the limit is on average one SDCCH/8 per TRX. The feature makes it possible to increase the signalling capacity of the cell.

Not related to radio features ITUMPTNP1

7; ITUMPTNP1 determines the International Telecommunications Union (ITU) or Ministry of Posts and Telecommunications of China (MPT) SS7 global title Numbering Plan (NP) for the first address mapping case.

Not related to radio features ITUMPTNP2 6; ITUMPTNP2 determines the ITU or MPT SS7 global title NP for the second address mapping case.

Not related to radio features ITUMPTNP3 5; ITUMPTNP3 determines the ITU or MPT SS7 global title NP for the third address mapping case.

Not related to radio features ITUMPTNP4 4; ITUMPTNP4 determines the ITU or MPT SS7 global title NP for the fourth address mapping case.

Not related to radio features ITUMPTTT1 0; ITUMPTTT1 determines the ITU or MPT SS7 global title TT for the first address mapping case.

Not related to radio features ITUMPTTT2 0; ITUMPTTT2 determines the ITU or MPT SS7 global title TT for the second address mapping case.

Not related to radio features ITUMPTTT3 0; ITUMPTTT3 determines the ITU or MPT SS7 global title TT for the third address mapping case.

Not related to radio features ITUMPTTT4 0; ITUMPTTT4 determines the ITU or MPT SS7 global title TT for the fourth address mapping case.

Not related to radio features L3LOADSHARE0 1; Controls the loadsharing of level 3 messages for network 0. 0 = Loadsharing enabled, 1 = Loadsharing disabled




Flexible MAIO Management MAIOMANAGEMENT

1; MAIOMANAGEMENT=1 permits using the optional feature Flexible MAIO Management. This feature makes it possible for the operator to plan for minimal interference when synchronizing several TGs within one site, allowing the operator to set MAIO values manually.

Not related to radio features MAXMSGLENGTH

272; Connectionless Message Maximum Length determines the maximum number of octets per message for SCCP connectionless messages originated in the own node.

Not related to radio features MAXRELTRIALS

6; Maximum Number of Release Trials defines the maximum number of release trials, that is, the Released message to be sent at a connection release without receiving any answer for a Connection Section.

Not related to radio features MAXSTPXED0

10; MAXSTPXED0 indicates the maximum number of Signalling Transfer Points (STP) that can be crossed for network 0 before the Message Transfer Part (MTP) Routing Verification Test (MRVT) error 'Excessive Length Route' is detected.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 24 de 82

24


10; MAXSTPXED1 indicates the maximum number of STPs that can be crossed for network 1 before the MRVT error 'Excessive Length Route' is detected.





Mobile Cross Talk Control MCCSUPPORTPARAM

1; MCCSUPPORTPARAM=1 permits using the optional feature Mobile Cross Talk Control. This feature makes it possible to reduce the acoustic echo generated from mobile phones. A specially designed algorithm implemented in the transcoder is used.

Statistics based on measurement results MEASRESREC

1; MEASRESREC=1 permits using the optional feature Statistics based on measurement results. This feature makes it possible to record and output statistics based on measurement results received on the Abis interface. The measurement results include both downlink measurements performed by the mobiles and uplink measurements done by the BTSs.

MSC in Pool MIP

0; MIP should be set to 0 for now since the optional feature MSC in Pool is currently not used, but this should be changed to 1 if and when this feature will be used. MIP=1 permits using the optional feature MSC in Pool. This feature makes it possible to define a pool of MSC nodes that are linked to a number of BSC/TRC nodes. When more capacity is needed, additional MSC nodes can be added to the pool.

MSC in Pool with MSC Reselection and Alternative Routing MIPROUTE

0; MIPROUTE should be set to 0 for now since the optional feature MSC in Pool with MSC Reselection and Alternative Routing is currently not used, but this should be changed to 1 if and when this feature will be used. Requires that MIP is available. This feature makes it possible to route traffic from an overloaded MSC in the pool to other MSCs in the same pool.

Not related to radio features MSGRESABATE 30; MSGRESABATE determines the alarm abatement threshold value for the message control and the message queue resources.

Not related to radio features MSGRESONSET 60; MSGRESONSET determines the alarm onset threshold value for the message control and the message queue resources.

Not related to radio features MSGRESXUDTDISCD

80; MSGRESXUDTDISCD determines the threshold level of the message control and message queue resources in use before Extended Unidata messages (XUDT) are discarded.

Dynamic MS Power Control MSPWRCTRL

1; MSPWRCTRL=1 permits using the optional feature MS Power Control. This feature controls the output power of a mobile station during a connection. By reducing the MS output power, interference to co-channel users is reduced and the number of connections with sufficient good C/I is increased.

Not related to radio features MTPACCNTORDER

1; MTPACCNTORDER indicates whether MTP remuneration accounting for a message is to be performed before or after MTP policing. The value '0' indicates that remuneration accouting should take place after MTP policing. The value '1' indicates that remuneration accounting should take place before MTP policing.

ANSI High Speed Signalling Link ETSI High Speed Signalling Link MTPHSL

1; MTPHSL controls the availability of ANSI/ETSI High Speed Signalling Link function. There are two parameters named MTPHSL, they are separated by SETNAME=CCSF for ETSI and SETNAME=ANSICCSF for ANSI. 0 DISABLED (DEFAULT). 1 ENABLED.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 25 de 82

25

Not related to radio features MTPRESTART

1; MTPRESTART specifies whether or not White Book Message Transport Part (MTP) restart is available. The value "0" specifies that MTP restart is not available. The value "1" specifies that MTP restart is available.

Not related to radio features MTPTYPE 0; MTPTYPE determines the type of MTP layer present in the own node. Value '0' indicates White MTP; value '1' indicates Blue MTP.

Multi Band Cell MULTIBANDCELL

0; MULTIBANDCELL should be set to 0 for now since the optional feature Multi Band Cell is currently not used, but this should be changed to 1 if and when this feature will be used. MULTIBANDCELL=1 permits using the optional feature Multi Band Cell. This feature controls the ability to assign more than one frequency band to one cell. By using this feature the network is further integrated. It increases the traffic capacity in the frequency band where the BCCH is not defined, at the same time improving the radio environment. One frequency band per subcell is possible to define in a cell.

Network Assisted Cell Change NACC

0; NACC should be set to 0 for now since the optional feature Network Assisted Cell Change is currently not used, but this should be changed to 1 if and when this feature will be used. NACC=1 permits using the optional feature Network Assisted Cell Change. This feature allows the BSC to assist a GPRS/EGPRS MS with cell reselection while in packet transfer mode. The feature significantly reduces the service outage time for Intra BSC cell reselection. The feature is valid for internal GSM cells.

Support of Remote BSC NODETYPECHANGE

1; NODETYPECHANGE =1 permits using the optional feature Support of Remote BSC. This feature makes it possible to split a BSC/TRC node into different physical nodes, which may be geographically separated. Possible node types are BSC/TRC, standalone BSC or standalone TRC.

Not related to radio features NOFPLEXPERLOAS

200; NOFPLEXPERLOAS is used as a limit of the executed number of PLEX lines at base level divided by 100 which when reached, a capacity request is sent to the Processor Load Control function. The selected values depend on the PLEX size of the average call of a certain application that is considered as equivalent to the normal task of block LOAS. The guiding value for the BSC application is 200 and for the MSC and Wireline applications 500.

Not related to radio features OLPVALUE

1; OLPVALUE indicates how often an MTP Routing Verification Result (MRVR) can be sent. An MRVR message must always be sent to the Originating Point Code (OPC) when a Message Signal Unit (MSU) is discarded due to unknown destination. The value '0' indicates overload protection. The value '1' indicates no overload protection. When overload protection is set an MRVR message is sent immediately after receiving the request to send this message. When no overload protection is set an MRVR message is sent at intervals.

Not related to radio features PATHANAABATE 60; PATHANAABATE determines the alarm abatement threshold value for the search pattern analysis resource.

Not related to radio features PATHANAONSET 80; PATHANAONSET determines the alarm onset threshold value forthe search pattern analysis resource.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 26 de 82

26

Not related to radio features PERFORMANCETIME

8; PERFORMANCETIME indicates the sum of the maximum time (in seconds) for a node, it includes: A) The time to take into account a received MRVT message and a received MPT Routing Verification Acknowledge (MRVA) message. B) The time to transfer an MRVT message and an MRVA message. This parameter is used to calculate the guard time to wait for all MRVA messages in response to the sent MRVT messages at each node (timer T1).

Advanced Handling of Fast Moving Mobiles PFASTMSREG

1; PFASTMSREG permits using the optional feature Advanced Handling of Fast Moving Mobiles. A fast moving mobile is identified by counting the number of inter cell handovers during a certain time. If the handover intensity exceeds a threshold value, the mobile will not use the hierarchical cell structure when ranking cells in locating. This means that fast moving mobiles will avoid micro cells.

GPRS Cell Reselection PKTCELLPLAN

0; PKTCELLPLAN should be set to 0 for now since a packet specific cell plan is currently not used, but this should be changed to 1 if and when this option will be used. PKTCELLPLAN=1 permits using a packet specific cell plan. This feature enables the operator to change GPRS cell relations and some essential GPRS cell reselection parameters. Operator is able to create a form of GPRS cell plan that to some extent is separate from CS cell plan.

Call Queuing PMSQ

0; PMSQ should be set to 0 for now since the optional feature Call Queuing is currently not used, but this should be changed to 1 if and when this feature will be used. PSMQ=1 permits using the optional feature Call Queuing. Call Queuing is a way to prioritize certain connections at congestion situation. The advantage is that there are no resources reserved for high-priority connections, which are not used if there is no congestion for these connections. The capacity thus will be higher for channel reservations.

Efficient Priority Handling & Flexible Priority Handling of PDCH PREEMPTION

3; This parameter controls two separate features: EFFICIENT PRIORITY HANDLING This feature makes it possible for the operator to offer high priority service for the customer. High priority service is achieved by increasing success rate at channel allocation by removing of low priority calls. FLEXIBLE PRIORITY HANDLING OF PDCH This feature makes it possible for the operator to use alternative strategies for the selection of on-demand PDCHs for PDCH pre-emption. PREEMPTION can be assigned the following values: 0 Feature EFFICIENT PRIORITY HANDLING not available Feature FLEXIBLE PRIORITY HANDLING OF PDCH not available 1 Feature EFFICIENT PRIORITY HANDLING available Feature FLEXIBLE PRIORITY HANDLING OF PDCH not available 2 Feature EFFICIENT PRIORITY HANDLING not available Feature FLEXIBLE PRIORITY HANDLING OF PDCH available 3 Feature EFFICIENT PRIORITY HANDLING available Feature FLEXIBLE PRIORITY HANDLING OF PDCH available








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 27 de 82

27

Not related to radio features PROCOUTNAT

1; PROCOUTNAT controls the selection of local (LPO) or remote (RPO) processor outage on remote processor outage. 0 = LPO on RPO, 1 = RPO on RPO

Not related to radio features PROHIBNI0

1; PROHIBNI0 indicates the MTP Routing Verification (MRV) test allowed to be performed on network 0. The value '0' indicates MRV test allowed. The value '1' indicates MRV test prohibited. When the parameter is set to allowed, an MRV test can be started for this network, and when an MRVT message is received for this network, the MRV test continues. When the parameter is set to prohibited, no MRV test can be started for this network, and when an MRVT message is received for this network, the MRV test is stopped

Not related to radio features PROHIBNI1 1; PROHIBNI1 indicates the MTP Routing Verification (MRV) test allowed to be performed on network 1.



Not related to radio features Q704T1 800; Delay to avoid message mis-sequencing on changeover. Not related to radio features Q704T2 1600; Waiting for changeover acknowledgement.

Not related to radio features Q704T3 800; Time controlled diversion-delay to avoid mis-sequencing on changeback.

Not related to radio features Q704T4 800; Waiting for changeback acknowledgement (first attempt). Not related to radio features Q704T5 800; Waiting for changeback acknowledgement (second attempt). Not related to radio features Q704T6 800; Delay to avoid message mis-sequencing on controlled rerouting.Not related to radio features Q704T8 800; Transfer prohibited inhibition timer (transient solution). Not related to radio features Q704T10 30; Waiting to repeat signalling route set test message. Not related to radio features Q704T11 1; Transfer restricted timer. Not related to radio features Q704T12 1200; Waiting for uninhibit acknowledgement. Not related to radio features Q704T13 800; Waiting for force uninhibit. Not related to radio features Q704T14 2000; Waiting for inhibition acknowledgment.

Not related to radio features Q704T17 800; Delay to avoid oscillation of initial alignment failure and link restart.

Not related to radio features Q704T19 68; Timer at restarting MTP, waiting to receive all TRA messages. Not related to radio features Q704T22 180; Local inhibit test timer. Not related to radio features Q704T23 180; Remote inhibit test timer.

GPRS Quality of Service Streaming QOSSTREAM

0; QOSSTREAM should be set to 0 for now since the optional feature Streaming is currently not used, but this should be changed to 1 if and when this feature will be used. QOSSTREAM=1 permits using the optional feature Streaming. This feature provides support for traffic class Streaming. It makes it possible to support streaming applications when there is a competition for the radio resources.

Frequency Allocation Support (FAS) RADIOINTREC

1; RADIOINTREC=1 permits using the optional feature Frequency Allocation Support (FAS). This feature provides a tool intended to facilitate frequency planning. Interference measurements on the uplink on a number of frequencies and cells within the network will be recorded, processed and output to file for further processing.

Not related to radio features REASSEMBLYTIME 15; Reassembly Time defines the waiting time to receive all segments related to a reassembly process.

Not related to radio features REASSEMBTM 10; REASSEMBTM determines the duration of the reassembly timer.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 28 de 82

28

Not related to radio features REJECTBEHAVIOUR

0; REJECTBEHAVIOUR indicates whether a RESULT or ERROR component with a non-assigned or unknown INVOKE identity received is considered as malformed component discarding all the following components, or as a protocol error discarding only the affected component. Value '0' indicates that a component with a non-assigned or unknown INVOKE identity received must be considered as malformed component and value '1' indicates that a component with a non-assigned or unknown INVOKE identity received must be considered as a protocol error.

Not related to radio features RELTIME 10; Release Timer defines the waiting time for a Release Complete message.

Not related to radio features RMC

0; RMC specifies whether or not Remote Management Control (RMC) is available. The value "0" specifies that RMC is not available. The value "1" specifies that RMC is available.

Remote OMT over IP ROMTIP

0; ROMTIP should be set to 0 for now since the optional feature Remote OMT over IP is currently not used, but this should be changed to 1 if and when this feature will be used. ROMTIP=1 permits using the optional feature Remote OMT over IP. This feature allows maintenance of radio base stations in the RBS2000 family from an OMC (Operation and Maintenance Centre) via a TCP/IP network.

Interfaces over Satellite SATELLITSUPPORT

1; SATELLITSUPPORT=1 permits using the optional feature Interfaces over Satellite. This feature will allow for longer delays than specified in GSM and still maintain synchronization on the Abis interface and will enable the operator utilize satellites for the transmission between the BSC and RBS2000 and/or between the BSC and the TRC.

Not related to radio features SCCPACCNTORDER

1; SCCPACCNTORDER indicates whether remuneration accounting for a message is to be performed before or after any other function which may prevent the message being sent by SCCP (e.g. SCCP policing). The value '0' indicates that remuneration accounting should take place after message sending confirmation. The value '1' indicates that remuneration accounting should take place before message sending confirmation.

Not related to radio features SCCPNODALCONG

0; SCCP Nodal Congestion, determines the availability of the Own SCCP Congestion level calculation. This AXE parameter is only allowed to be set to available if the feature SCCP Congestion Control parameter is also available. However, this AXE parameter is only allowed to be set to unavailable if both CONGCTRLLOAS and INCOTRAFFLIMIT parameters are unavailable. Value '0' indicates that SCCP Nodal Congestion is unavailable and value '1' indicates that SCCP Nodal Congestion is available.

Not related to radio features SCCPOCVTRSSN

20; SCCPOCVTRSSN determines the local subsystem number used during connection of the Signalling Connection Control Part (SCCP) overhead converter to the American National Standards Institute (ANSI) or International Telecommunication Union (ITU) SCCP, or both.

Not related to radio features SCCPRSS

0; SCCPRSS controls the activation or deactivation of Remote Subsystem Supervision function. Value '0' indicates SCCP Remote Subsystem Supervision function inactive, value '1' indicates SCCP Remote Subsystem Supervision function active.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 29 de 82

29

Self Configuring Transcoder Pools SELFCONFIGPOOL

0; SELFCONFIGPOOL should be set to 0 for now since the optional feature Self Configuring Transcoder Pools is currently not used, but this should be changed to 1 if and when this feature will be used. SELFCONFIGPOOL =1 permits using the optional feature Self Configuring Transcoder Pools. This feature allows one TRA Pool to steal resources from an under-utilised pool, and is an automated feature. BSC identifies the hardware in a pool that needs to be reconfigured and made available to another pool. OSS is then triggered to perform reconfiguration of hardware and the change in configuration of the pools.

Not related to radio features SELHSL

2; SELHSL specifies the type of High Speed Link (HSL) selected in the node. The value "0" specifies Q.2210. The value "1" specifies Q.703 Annex A. The value "2" specifies both Q.2210 and Q.703 Annex A.

Semi Dedicated PDCHs SEMIPDCH

0; SEMIPDCH should be set to 0 for now since the optional feature Semi Dedicated PDCHs is currently not used, but this should be changed to 1 if and when this feature will be used. SEMIPDCH =1 permits using the optional feature Semi Dedicated PDCHs. This feature makes it possible to reserve channels for GPRS/EGPRS use but only use the underlying HW when the channels are used for traffic.

Not related to radio features SLTMSUPPRESS

0; SLTMSUPPRESS controls the suppression of periodic SLTM messages in ITU-T and MPT. 0 = SLTM sending suppressed, 1 = SLTM sending allowed.

Local SNOAM Event Reporting SNOAMLOCALPRT

1; SNOAMLOCALPRT controls the availability of feature Local SNOAM Event Reporting. 0 DISABLED (DEFAULT). 1 ENABLED.

Support for Spatial Triggers SPATRIG

0; SPATRIG should be set to 0 for now since the optional feature Support for Spatial Triggers is currently not used, but this should be changed to 1 if and when this feature will be used. SPATRIG =1 permits using the optional feature Support for Spatial Triggers. This positioning feature enables push-based applications based on MS location by adding Timing Advance information to a number of MS originating messages to the MSC.

Speech Quality Supervision SQSSUPPORT

1; SQSSUPPORT=1 permits using the optional feature Speech Quality Supervision. This feature allows the operator to get information about the uplink subjective speech quality in the network (as perceived by the end user). The speech quality is presented in terms of the amount of traffic conforming to different speech quality levels, ranging from "good" to "unsatisfactory".

Not related to radio features SSTITIME 8; Subsystem Status Test Initial Time Supervision defines the initial time (in seconds) supervision for the subsystem status test timer.

Not related to radio features SSTMTIME

600; Subsystem Status Test Maximum Time Supervision defines the maximum time (in seconds) supervision for the subsystem status test timer.

GSM-UMTS Cell Reselection and Handover SUPCOEXUMTS

0; SUPCOEXUMTS should be set to 0 for now since the optional feature GSM-UMTS Cell Reselection and Handover is currently not used, but this should be changed to 1 if and when this feature will be used. SUPCOEXUMTS =1 permits using the optional feature GSM-UMTS Cell Reselection and Handover. This feature makes it possible to perform handover (circuit switched connections) and cell reselection (packet connections) from GSM to UMTS and vice versa.








Doc.Id.

TEM/T-03:001087 Uen

Rev. R11A

Pagina 30 de 82

30

Interference Rejection Combining SUPIRC

1; SUPIRC =1 permits using the optional feature Interference Rejection Combining. This feature is used to improve receiver performance when interference is high. Without the BTS configured for receiver diversity, this feature will not have any affect.

Positioning TAPOSITIONING

1; TAPOSITIONING =1 permits using the optional feature Positioning. This feature allows positioning service offering positioning for all mobiles in the GSM Network. Upon a network requested positioning, the BSS provides positioning data, which is delivered to the SMLC (MSC). The positioning data consists of Cell Identity and Timing Advance.

Not related to radio features TFPNONEXDEST

0; TFPNONEXDEST controls the sending of a TFP message on routing for a nonexistent destination in ITU-T and MPT. 0 = send TFP, 1 = do not send TFP.

Not related to radio features TFPROUTESEP 0;TFPROUTESEP controls the sending of a TFP message on routing over an SEP in ITU and MPT. 0 = send TFP, 1 = do not send TFP.

Not related to radio features TTE164 10; Translation Type value for E.164 Numbering Plan used during GT format conversion between ITU/ANSI protocols.

Not related to radio features TTE214 255; Translation Type value for E.214 Numbering Plan used during GT format conversion between ITU/ANSI protocols.

Not related to radio features UPUCAUSE0

0; UPUCAUSE0 controls the value of the UPU cause parameter for network 0. 0 = Unknown, 1 = Unequipped remote user, 2 = Inaccessible remote user.

Not related to radio features UPUCAUSE1 0; UPUCAUSE1 controls the value of the UPU cause parameter for network 1.



Not related to radio features UPUSUPPRESS

1; UPUSUPPRESS controls the suppression of the User Part Unavailability function. 0 = UPU sending suppressed, 1 = UPU sending allowed.

Not related to radio features UPUTREATMENT

1; SCCP User Part Unavailable Treatment determines the sending of Subsystem Status Test messages toward a remote SCCP after reception of an MTP-STATUS indication with User Part Unavailable reason to "Unequipped user". Value '0' indicates the Subsystem Status Test message will not be sent and value '1' indicates the Subsystem

Important for Parameter 2G

Documents

Transcript of Important for Parameter 2G