Introduction 1.1 Purpose
This document defines and describes the NSN recommended relevant Huawei 2G parameters used for service projects globally 1.2 Sheet description Sheet: Parameters 2G Huawei 1.3 Scope Ref 1 1.4 Revision history v 1.0
defines and describes the NSN recommended relevant Huawei 2G parameters used for service projects globally.
Description: Sheet contains NSN recommended Huawei parameters to be evaluated, relevant, and potentially adjusted with an NSN recommended parameter setting.
Huawei GBSS9.0 release (BSC6900 V900R011)
First version of Huawei 2G recommended relevant parameters documentation issued.
Nokia Siemens Networks GS Managed Services/Capability Management
Notes:
Projects: Rev. date:
Author:
Document owner:
April 30, 2010
Christos Kyriazopoulos
Ville Salomaa
Relevant Huawei Parameters 2G Cell Parameters - Basic Parameter ref ID
Vendor Parameter name
NE
MML Command
MCC MNC LAC CI NCC BCC
MCC MNC Cell LAC Cell CI NCC BCC
BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900
ADD GCNOPERATOR(Mandatory)ADD GCELL(Mandatory) ADD GCNOPERATOR(Mandatory)ADD GCELL(Mandatory) ADD GCELL(Mandatory)ADD GEXT2GCELL(Mandatory)AD ADD GCELL(Mandatory)ADD GEXT2GCELL(Mandatory)AD ADD GCELL(Optional)ADD GEXT2GCELL(Mandatory) ADD GCELL(Optional)
NE
MML Command
Cell Parameters - Idle Mode Parameter ref ID
Vendor Parameter name
ATT
Attach-detach Allowed BSC6900 CCH Conf CCCH Blocks Reserved for AGCH BSC6900 Multi-Frames in a Cycle on the Paging BSC6900 CH T3212 BSC6900
BSAGBLKSRES BSPAMFRAMS T3212
SET GCELLIDLEBASIC(Optional) SET GCELLIDLEBASIC(Optional) SET GCELLIDLEBASIC(Optional) SET GCELLIDLEBASIC(Optional)
Cell Parameters - Call Control Parameter ref ID
Vendor Parameter name
NE
MSMAXRETRAN TX RACHACCLEV PSRACHACCLEV RLT SAMULFRM NCCPERMIT COMMACC SPECACC MBR ECSC ERGCALLDIS
MS MAX Retrans BSC6900 TX-integer BSC6900 CS RACH Min. Access Level BSC6900 PS RACH Min. Access Level BSC6900 Radio Link Timeout BSC6900 SACCH Multi-Frames BSC6900 NCC Permitted BSC6900 Common Access Control Class BSC6900 Special Access Control Class BSC6900 Multi-band report BSC6900 ECSC BSC6900 Emergent Call Disable BSC6900
MML Command SET GCELLCCBASIC(Optional) SET GCELLIDLEBASIC(Optional) SET GCELLCCACCESS(Optional) SET GCELLCCACCESS(Optional) SET GCELLCCBASIC(Optional) SET GCELLCCBASIC(Optional) SET GCELLIDLEBASIC(Optional) SET GCELLCCBASIC(Optional) SET GCELLCCBASIC(Optional) SET GCELLCCBASIC(Optional) SET GCELLCCBASIC(Optional) SET GCELLCCBASIC(Optional)
Cell Parameters - Selection/Reselection Parameter ref ID
Vendor Parameter name
NE
MML Command
RXMIN FMSMAXOPCC CBA CBQ CRO
Minum Access RXLEV MS_TXPWR_MAX_CCH Cell Bar Access Cell Bar Qualify Cell Reselect Offset
BSC6900 BSC6900 BSC6900 BSC6900 BSC6900
SET GCELLBASICPARA(Optional) SET GCELLCCCH(Optional) SET GCELLIDLEBASIC(Optional) SET GCELLIDLEBASIC(Optional) SET GCELLIDLEBASIC(Optional)
TO Cell Reselect Temporary Offset BSC6900 PT Cell Reselect Penalty Time BSC6900 PI Cell Reselect Parameters Indication BSC6900 CRH Cell Reselect Hysteresis Parameters BSC6900 QI Qsearch I BSC6900 QP Qsearch P BSC6900 QSEARCHC Qsearch C BSC6900 QCI Qsearch C Initial BSC6900 INTERRATCELLRESELEN Inter-RAT Cell Reselection Enable BSC6900 FDDQOFF FDD Q Offset BSC6900 FDDQMIN FDD Qmin BSC6900
SET GCELLIDLEAD(Optional) SET GCELLIDLEAD(Optional) SET GCELLIDLEBASIC(Optional) SET GCELLIDLEBASIC(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLHOBASIC(Optional) SET GCELLCCUTRANSYS(Optional) SET GCELLCCUTRANSYS(Optional)
Cell Parameters - Other Parameter ref ID
Vendor Parameter name
NE
CALLRESTABDIS IMMASSEN
Call Reestablishment ForbiddenBSC6900 TCH Immediate Assignment BSC6900
MML Command SET GCELLBASICPARA(Optional) SET GCELLBASICPARA(Optional)
Immediate Assignment Opt. DIRECTRYEN Directed Retry BSC6900 ASSLOADJUDGEEN Assignment Cell Load Judge Enable BSC6900 CDRTTRYFBDTHRESCell Directed Retry Forbidden Threshold BSC6900 DTLOADTHRED Directed Retry Load Access Threshold BSC6900 MINPWRLEVDIRTRY Min Power Level For Directed Retry BSC6900 MAXRESEND Max Resend Times of Phy.Info. BSC6900 T3105 T3105 BSC6900 CANPC PWRC BSC6900 EXTTP Cell Extension Type BSC6900 MAXTA Max TA BSC6900 INTERFTHRES0 Interference Band Threshold 0 BSC6900 INTERFTHRES1 Interference Band Threshold 1 BSC6900 INTERFTHRES2 Interference Band Threshold 2 BSC6900 INTERFTHRES3 Interference Band Threshold 3 BSC6900 INTERFTHRES4 Interference Band Threshold 4 BSC6900 INTERFTHRES5 Interference Band Threshold 5 BSC6900 INTERPERIOD Interference Calculation Period BSC6900 FRULDTX FR Uplink DTX BSC6900 HRULDTX HR Uplink DTX BSC6900 FRDLDTX FR Use Downlink DTX BSC6900 HRDLDTX HR Use Downlink DTX BSC6900 T200 T200 BSC6900 N200 N200 BSC6900 N200PARASWITCH Use LAPDm N200 BSC6900
SET GCELLBASICPARA(Optional) SET GCELLCCBASIC(Optional) SET GCELLOTHEXT(Optional) SET GCELLCCBASIC(Optional) SET GCELLHOCTRL(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET GCELLCCCH(Optional) ADD GCELL(Optional) SET GCELLBASICPARA(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLOTHEXT(Optional) SET GCELLBASICPARA(Optional) SET GCELLBASICPARA(Optional) SET GCELLBASICPARA(Optional) SET GCELLBASICPARA(Optional) SET BTSRINGATTR(Optional) SET BTSRINGATTR(Optional) SET GCELLCCTMR(Optional)
Handover Parameters - No DL MR HO Parameter ref ID
Vendor Parameter name
NE
MML Command
NODLMRHOEN
No Dl Mr.HO Allowed
BSC6900
SET GCELLHOEMG(Optional)
NODLMRHOQUALLIMIT No Dl Mr.Ul Qual HO Limit BSC6900 NODLMRHOALLOWLIMIT Cons.No Dl Mr.HO Allowed LimitBSC6900
SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional)
Handover Parameters - TA HO Parameter ref ID
Vendor Parameter name
NE
MML Command
TAHOEN TALIMIT
TA HO Allowed TA Threshold
BSC6900 BSC6900
SET GCELLHOBASIC(Optional) SET GCELLHOEMG(Optional)
NE
MML Command
Handover Parameters - Interference HO Parameter ref ID
Vendor Parameter name
INTERFHOEN RXQUAL1 RXQUAL2 RXQUAL3 RXQUAL4 RXQUAL5 RXQUAL6 RXQUAL7 RXQUAL8 RXQUAL9 RXQUAL10 RXQUAL11 RXQUAL12 RXLEVOFF
Interference HO Allowed BSC6900 SET GCELLHOBASIC(Optional) Interfere HO Qual. Thresh 1 for Non-AMR BSC6900 FRSET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 2 for Non-AMR BSC6900 FRSET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 3 for Non-AMR BSC6900 FRSET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 4 for Non-AMR BSC6900 FRSET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 5 for Non-AMR BSC6900 FRSET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 6 for Non-AMR BSC6900 FRSET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 7 for Non-AMR BSC6900 FRSET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 8 for Non-AMR BSC6900 FRSET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 9 for Non-AMR BSC6900 FRSET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 10 forBSC6900 Non-AMR FR SET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 11 forBSC6900 Non-AMR FR SET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh 12 forBSC6900 Non-AMR FR SET GCELLAMRQUL(Optional) Interfere HO Qual. Thresh OffsetBSC6900 for AMR FRSET GCELLAMRQUL(Optional)
Handover Parameters - Rx Level Drop HO Parameter ref ID
Vendor Parameter name
NE
RXQCKFALLHOEN FLTPARAA1 FLTPARAA2 FLTPARAA3 FLTPARAA4 FLTPARAA5 FLTPARAA6 FLTPARAA7 FLTPARAA8 FLTPARAB ULEDGETHRES
Rx_Level_Drop HO Allowed BSC6900 Filter Parameter A1 BSC6900 Filter Parameter A2 BSC6900 Filter Parameter A3 BSC6900 Filter Parameter A4 BSC6900 Filter Parameter A5 BSC6900 Filter Parameter A6 BSC6900 Filter Parameter A7 BSC6900 Filter Parameter A8 BSC6900 Filter Parameter B BSC6900 Edge HO UL RX_LEV ThresholdBSC6900
MML Command SET GCELLHOBASIC(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOEMG(Optional) SET GCELLHOBASIC(Optional)
Handover Parameters - Bad Quality (BQ) HO Parameter ref ID
Vendor Parameter name
NE
MML Command
BQHOEN DLQUALIMIT
BQ HO Allowed DL Qual. Threshold
BSC6900 BSC6900
SET GCELLHOBASIC(Optional) SET GCELLHOEMG(Optional)
ULQUALIMIT DLQUALIMITAMRFR ULQUALIMITAMRFR DLQUALIMITAMRHR ULQUALIMITAMRHR BQMARGIN
UL Qual. Threshold DL Qual. Limit for AMR FR UL Qual. Limit for AMR FR DL Qual. Limit for AMR HR UL Qual. Limit for AMR HR BQ HO Margin
BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900
SET GCELLHOEMG(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) SET GCELLAMRQUL(Optional) ADD G2GNCELL(Optional)
NE
MML Command
Handover Parameters - Enhanced Dual Band HO Parameter ref ID
Vendor Parameter name
ATCBHOEN Concentric Circles ATCB HO Allowed BSC6900 OUTASSOPTEN UL Subcell Assignment Optimization BSC6900 OUTGENOVERLDTHRED UL Subcell General Overload Threshold BSC6900 ATCBTHRED Distance Between Boundaries ofBSC6900 Subcells ATCBHYST Distance Hysteresis Between Boundaries BSC6900 INTOINNREXLEVTHRED Incoming OL Subcell HO Level TH BSC6900 INNASSOPTEN OL Subcell Assignment Optimization BSC6900 INNLOADHOEN Load HO of OL Subcell to UL Subcell BSC6900 INNLOADHOPERI OL Subcell Load Diversity HO Period BSC6900 INNLOADHOSTEP Step Length of OL Subcell LoadBSC6900 HO OUTLOWLOADTHRED UL Subcell Lower Load Threshold BSC6900 OUTSERIOVERLDTHRED UL Subcell Serious Overload Threshold BSC6900 OUTLOADHOENABLELoad HO Allowed BSC6900 OUTLOADHOPERIODUL Subcell Load Hierarchical HOBSC6900 Periods OUTLOADHOSTEP Step Length of UL Subcell Load BSC6900 HO OUTLOADHOMODPERI MOD Step LEN of UL Load HO Period BSC6900 OUTINNREXLEVTHRED Outgoing OL Subcell HO Level TH BSC6900 EDBLASTTIME Number of Satisfactory Measurements BSC6900 EDBSTATTIME Total Number of MeasurementsBSC6900 ENLOWLDTHRSH En Iuo Out Cell Low Load ThredBSC6900
SET GCELLHOBASIC(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOIUO(Optional)
Handover Parameters - Load HO Parameter ref ID
Vendor Parameter name
NE
LoadHoEn SYSFLOWLEV TRIGTHRES LoadAccThres LOADOFFSET LOADHOPERIOD LOADHOSTEP
Load Handover Support BSC6900 System Flux Threshold for LoadBSC6900 HO Load HO Threshold BSC6900 Load handover Load Accept Threshold BSC6900 Load HO Bandwidth BSC6900 Load HO Step Period BSC6900 Load HO Step Level BSC6900
MML Command
SET GCELLHOBASIC(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) ADD GEXT2GCELL(Optional)ADD GEXT3GCELL(Optional SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional)
Handover Parameters - Edge HO Parameter ref ID
Vendor Parameter name
NE
FRINGEHOEN ULEDGETHRES
Edge HO Allowed BSC6900 Edge HO UL RX_LEV ThresholdBSC6900
MML Command SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional)
DLEDGETHRES EDGESTAT EDGESTAT1 EDGELAST EDGELAST1 EDGEADJSTATTIME EDGEADJLASTTIME INTERCELLHYST
Edge HO DL RX_LEV ThresholdBSC6900 SET GCELLHOBASIC(Optional) Handover Algorithm II Edge HO BSC6900 Watch TimeSET GCELLHOBASIC(Optional) Handover Algorithm I Edge HO Watch BSC6900 Time SET GCELLHOBASIC(Optional) Handover Algorithm II Edge HO BSC6900 Valid Time SET GCELLHOBASIC(Optional) Handover Algorithm I Edge HO Valid BSC6900 Time SET GCELLHOBASIC(Optional) Edge HO AdjCell Watch Time BSC6900 ADD G2GNCELL(Optional) Edge HO AdjCell Valid Time BSC6900 ADD G2GNCELL(Optional) Inter-cell HO Hysteresis BSC6900 ADD G2GNCELL(Optional)
Handover Parameters - MS Fast-Moving HO Parameter ref ID
Vendor Parameter name
NE
QCKMVHOEN QCKSTATCNT QCKTRUECNT QCKTIMETH
MS Fast Moving HO Allowed BSC6900 MS Fast-moving Watch Cells BSC6900 MS Fast-moving Valid Cells BSC6900 MS Fast-moving Time ThresholdBSC6900
MML Command SET GCELLHOBASIC(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional)
Handover Parameters - Layer HO Parameter ref ID
Vendor Parameter name
NE
LEVHOEN LEVSTAT LEVLAST HOTHRES LEVHOHYST INTELEVHOHYST
Level HO Allowed BSC6900 Layer HO Watch Time BSC6900 Layer HO Valid Time BSC6900 Inter-layer HO Threshold BSC6900 Inter-layer HO Hysteresis BSC6900 Adjacent Cell Inter-layer HO Hysteresis BSC6900
MML Command
SET GCELLHOBASIC(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) ADD GEXT2GCELL(Optional)SET GCELLHOBASIC(Option SET GCELLHOBASIC(Optional) ADD G2GNCELL(Optional)
Handover Parameters - PBGT HO Parameter ref ID
Vendor Parameter name
NE
MML Command
PBGTHOEN PBGTSTAT PBGTLAST PBGTMARGIN
PBGT HO Allowed PBGT Watch Time PBGT Valid Time PBGT HO Threshold
BSC6900 BSC6900 BSC6900 BSC6900
SET GCELLHOBASIC(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional) ADD G2GNCELL(Optional)
NE
MML Command
BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900
SET GCELLHOBASIC(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional)
Handover Parameters - Normal Concentric Cell HO Parameter ref ID
Vendor Parameter name
CONHOEN Concentric Circles HO Allowed ULTOOLHOALLOW UL to OL HO Allowed OLTOULHOALLOW OL to UL HO Allowed RECLEVUOHOALLOWRX_LEV for UO HO Allowed RECQUALUOHOALLOW RX_QUAL for UO HO Allowed TAFORUOHOALLOW TA for UO HO Allowed RECLEVTHRES RX_LEV Threshold RECLEVHYST RX_LEV Hysteresis RECQUALTH RX_QUAL Threshold
TATHRES TAHYST IUOHOSTATIME IUOHODURATIME
TA Threshold TA Hysteresis UO HO Watch Time UO HO Valid Time
BSC6900 BSC6900 BSC6900 BSC6900
SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional)
Handover Parameters - Enhanced Concentric Cell HO Parameter ref ID
Vendor Parameter name
NE
ENIUO Enhanced Concentric Allowed BSC6900 ATCBHOEN Concentric Circles ATCB HO Allowed BSC6900 ULTOOLHOALLOW UL to OL HO Allowed BSC6900 OLTOULHOALLOW OL to UL HO Allowed BSC6900 RECLEVUOHOALLOWRX_LEV for UO HO Allowed BSC6900 RECQUALUOHOALLOW RX_QUAL for UO HO Allowed BSC6900 TAFORUOHOALLOW TA for UO HO Allowed BSC6900 RECQUALTH RX_QUAL Threshold BSC6900 TATHRES TA Threshold BSC6900 TAHYST TA Hysteresis BSC6900 IUOHOSTATIME UO HO Watch Time BSC6900 IUOHODURATIME UO HO Valid Time BSC6900 OTOURECEIVETH OtoU HO Received Level Threshold BSC6900 UTOORECTH UtoO HO Received Level Threshold BSC6900 UTOOTRAFHOALLOWUtoO Traffic HO Allowed BSC6900 UTRAFHOPERIOD Underlay HO Step Period BSC6900 UTRAFHOSTEP Underlay HO Step Level BSC6900 ENLOWLDTHRSH En Iuo Out Cell Low Load ThredBSC6900 ENGOVERLDTHRSH En Iuo Out Cell General OverLoad BSC6900 Thred ENSOVERLDTHRSH En Iuo Out Cell Serious OverLoad BSC6900 Thred ENLDHOPRD Load Classification HO Period BSC6900 ENLDHOSTP Load Classification HO Step BSC6900 ATCBTHRED Distance Between Boundaries ofBSC6900 Subcells ATCBHYST Distance Hysteresis Between Boundaries BSC6900
MML Command ADD GCELL(Mandatory) SET GCELLHOBASIC(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOEDBPARA(Optional) SET GCELLHOEDBPARA(Optional)
Handover Parameters - Channel Assignment Strategies of Concentric Cell Parameter ref ID
Vendor Parameter name
IMMASSTAALLOW IMMASSTATHRES OPTILAYER OPTILEVTHRES OPTITATHRES HOALGOPERMLAY ACCESSOPTILAY
TA Pref. of Imme-Assign Allowed BSC6900 TA Threshold of Imme-Assign Pref BSC6900 Assign Optimum Layer BSC6900 Assign-optimum-level ThresholdBSC6900 TA Threshold of Assignment Pref BSC6900 Pref. Subcell in HO of Intra-BSCBSC6900 Incoming-to-BSC HO Optimum Layer BSC6900
NE
MML Command SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional) SET GCELLHOIUO(Optional)
Handover Parameters - AMR HO Parameter ref ID
Vendor Parameter name
NE
MML Command
INTRACELLHOEN Intracell HO Allowed BSC6900 INTRACELLFHHOEN Intracell F-H HO Allowed BSC6900 INFHHOSTAT Intracell F-H HO Stat Time BSC6900 INFHHOLAST Intracell F-H HO Last Time BSC6900 INHOF2HTH F2H HO Threshold BSC6900 INHOH2FTH H2F HO Threshold BSC6900 AMRTCHHPRIORALLOW AMR TCH/H Prior Allowed BSC6900 AMRTCHHPRIORLOAD AMR TCH/H Prior Cell Load Threshold BSC6900
SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional)
Handover Parameters - iRAT 2G-3G HO Parameter ref ID
Vendor Parameter name
NE
UlLdrThrd2GCell 2G Cell UL Basic Congest ThredBSC6900 UlOlcThrd2GCell 2G Cell UL Overload Congest Thred BSC6900 DlLdrThrd2GCell 2G Cell DL Basic Congest ThredBSC6900 DlOlcThrd2GCell 2G Cell DL Overload Congest Thred BSC6900 InterRatCsServiceLoadHoThrd Inter-RAT CS Service HO Load BSC6900 Threshold LOADRESELRXTHRSH Load Reselection Receive Threshold BSC6900 InterRatServiceLoadHoSwitch Allow Inter-RAT Load HO in Access BSC6900 State G2GLoadAdjustCoeff 2G Load Adjustment CoefficientBSC6900 G2G3GLdBlcDeltaThrdCS 2G 3G Load Balance Delta Threshold BSC6900 SYSFLOWLEV System Flux Threshold for LoadBSC6900 HO TRIGTHRES Load HO Threshold BSC6900 InterRATLoadHoRSCPStart Inter-RAT Load HO RSCP at Start BSC6900 Point LOADOFFSET Load HO Bandwidth BSC6900 IntRATLoadHORSCPThr Inter-RAT Load HO RSCP Threshold BSC6900 InterRATLoadHoEcNoStart Inter-RAT Load HO EcNo at Start BSC6900 Point IntRATLoadHOEcNoThr Inter-RAT Load HO EcNo Threshold BSC6900 CELLSELECTAFTERCALLREL Select 3G Cell After Call Release BSC6900 Send2QuterFlag Support Sent 2QUATER BSC6900 INTERRATINBSCHOEN Inter-RAT In BSC Handover Enable BSC6900 INTERRATOUTBSCHOEN Inter-RAT Out BSC Handover Enable BSC6900 HOOPTSEL Inter-rat HO Preference BSC6900 HOPRETH2G HO Preference Threshold for 2GBSC6900 Cell BET3GHOEN Better 3G Cell HO Allowed BSC6900 FDDREP FDD REP QUANT BSC6900 HODURT3G FDD 3G Better Cell HO Valid Time BSC6900 HORSCPTH3G RSCP Threshold for Better 3G Cell BSC6900 HO HOSTAT3G FDD 3G Better Cell HO Watch Time BSC6900 HOECNOTH3G Ec/No Threshold for Better 3G Cell BSC6900 HO OutSysLoadHoEn Allow Inter-RAT Load HO in Connect BSC6900 State LoadAccThres Load handover Load Accept Threshold BSC6900 OUTSYSSERVICEHOEN Service Based Handover SwitchBSC6900 UTRANCELLTYPE Utran Cell Type BSC6900 Power Control Parameters
MML Command
SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLNC2PARA(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET OTHSOFTPARA(Optional) SET GCELLHOAD(Optional) SET GCELLHOAD(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOAD(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLHOINTERRATLDB(Optional) SET GCELLCCAD(Optional) SET OTHSOFTPARA(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOUTRANFDD(Optional)SET GCELLHOUTRA SET GCELLHOUTRANFDD(Optional)SET GCELLHOUTRA SET GCELLHOUTRANFDD(Optional)SET GCELLHOUTRA SET GCELLCCUTRANSYS(Optional) ADD G3GNCELL(Optional) SET GCELLHOUTRANFDD(Optional)SET GCELLHOUTRA ADD G3GNCELL(Optional) SET GCELLHOUTRANFDD(Optional) SET GCELLHOINTERRATLDB(Optional) ADD GEXT2GCELL(Optional)ADD GEXT3GCELL(Optional SET OTHSOFTPARA(Optional) ADD GEXT3GCELL(Mandatory)
Parameter ref ID
Vendor Parameter name
NE
MML Command
PWRCTRLSW UPPCEN DNPCEN PCADJPERIOD
Power Control Switch UL PC Allowed DL PC Allowed PC Interval
BSC6900 BSC6900 BSC6900 BSC6900
SET GCELLPWRBASIC(Optional) SET GCELLBASICPARA(Optional) SET GCELLBASICPARA(Optional) SET GCELLPWRBASIC(Optional)
NE
MML Command
Power Control Parameters - HWII Power Control Parameter ref ID
Vendor Parameter name
MRCOMPREG ULPREDLEND DLPREDLEND ULLEVFILTLEN DLLEVFILTLEN ULQUAFILTLEN DLQUAFILTLEN ULSSHIGHTHRED ULSSLOWTHRED ULQHIGHTHRED ULQLOWTHRED DLSSHIGHTHRED DLSSLOWTHRED DLQHIGHTHRED DLQLOWTHRED MAXSTEP0 MAXSTEP1 MAXSTEP2 MAXVALADJRX QUALSTEP MAXADJPCVAL ULQUALBADTRIG ULQUALBADUPLEV DLQUALBADTRIG DLQUALBADUPLEV
MR. Compensation Allowed BSC6900 UL MR. Number Predicted BSC6900 DL MR. Number Predicted BSC6900 Filter Length for UL RX_LEV BSC6900 Filter Length for DL RX_LEV BSC6900 Filter Length for UL Qual. BSC6900 Filter Length for DL Qual. BSC6900 UL RX_LEV Upper Threshold BSC6900 UL RX_LEV Lower Threshold BSC6900 UL Qual. Upper Threshold BSC6900 UL Qual. Lower Threshold BSC6900 DL RX_LEV Upper Threshold BSC6900 DL RX_LEV Lower Threshold BSC6900 DL Qual. Upper Threshold BSC6900 DL Qual. Lower Threshold BSC6900 MAX Down Adj.Value Qual.ZoneBSC6900 0 MAX Down Adj.Value Qual.ZoneBSC6900 1 MAX Down Adj.Value Qual.ZoneBSC6900 2 MAX Up Adj. PC Value by RX_LEV BSC6900 MAX Down Adj. PC Value by Qual. BSC6900 MAX Up Adj. PC Value by Qual.BSC6900 UL Qual. Bad Trig Threshold BSC6900 UL Qual. Bad UpLEVDiff BSC6900 DL Qual. Bad Trig Threshold BSC6900 DL Qual. Bad UpLEVDiff BSC6900
SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWRBASIC(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional)
Power Control Parameters - HWIII Power Control Parameter ref ID
Vendor Parameter name
MRMISSNUM MRMissNumber SDMRCUTNUM SdMrCutNum TCHMRCUTNUM TchMrCutNum DLREXLEVEXPFLTLEN DLRexLevExponentFilterLen DLREXQUALEXPFLTLEN DLRexQualExponentFilterLen DLREXLEVSLDWINDOW DLRexLevSlideWindow DLREXQUALSLDWINDOW DLRexQualSlideWindow ULREXLEVEXPFLTLEN ULRexLevExponentFilterLen
NE
MML Command
BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900
SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional)
ULREXQUALEXPFLTLEN ULRexQualExponentFilterLen ULREXLEVSLDWINDOW ULRexLevSlideWindow ULREXQUALSLDWINDOW ULRexQualSlideWindow DLREXLEVHIGHTHRED DLRexLevHighThred DLREXLEVLOWTHRED DLRexLevLowthred DLFSREXQUALHIGHTHRED DLFSRexQualHighThred DLFSREXQUALLOWTHRED DLFSRexQualLowThred DLHSREXQUALHIGHTHRED DLHSRexQualHighThred DLHSREXQUALLOWTHRED DLHSRexQualLowThred DLAFSREXQUALHIGHTHRED DLAFSRexQualHighThred DLAFSREXQUALLOWTHRED DLAFSRexQualLowThred DLAHSREXQUALHIGHTHRED DLAHSRexQualHighThred DLAHSREXQUALLOWTHRED DLAHSRexQualLowThred ULREXLEVHIGHTHRED ULRexLevHighThred ULREXLEVLOWTHRED ULRexLevLowThred ULFSREXQUALHIGHTHRED ULFSRexQualHighThred ULFSREXQUALLOWTHRED ULFSRexQualLowThred ULHSREXQUALHIGHTHRED ULHSRexQualHighThred ULHSREXQUALLOWTHRED ULHSRexQualLowThred ULAFSREXQUALHIGHTHRED ULAFSRexQualHighThred ULAFSREXQUALLOWTHRED ULAFSRexQualLowThred ULAHSREXQUALHIGHTHRED ULAHSRexQualHighThred ULAHSREXQUALLOWTHRED ULAHSRexQualLowThred ULREXLEVADJFCTR ULRexLevAdjustFactor ULREXQUALADJFCTR ULRexQualAdjustFactor DLREXLEVADJFCTR DLRexLevAdjustFactor DLREXQUALADJFCTR DLRexQualAdjustFactor ULMAXDOWNSTEP ULMAXDownStep ULMAXUPSTEP ULMAXUpStep DLMAXDOWNSTEP DLMAXDownStep DLMAXUPSTEP DLMAXUpStep
BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900 BSC6900
SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional) SET GCELLPWR3(Optional)
NE
MML Command
Speech Rate Parameters (FR, HR, AMR) Parameter ref ID
Vendor Parameter name
VOICEVER Speech Version BSC6900 MPMODE Multiplexing Mode BSC6900 HRATESPT Support Half Rate BSC6900 CHTYPE Channel Type BSC6900 TCHAJFLAG TCH Rate Adjust Allow BSC6900 ENTCHADJALLOW Enhanced TCH Adjust Allowed BSC6900 TCHBUSYTHRES TCH Traffic Busy Threshold BSC6900 AMRTCHHPRIORALLOW AMR TCH/H Prior Allowed BSC6900 AMRTCHHPRIORLOAD AMR TCH/H Prior Cell Load Threshold BSC6900 HRIUOLDRATESELALLOW Load of UL-OL Cells Rate SelectBSC6900 Allowed TCHTRIBUSYUNDERLAYTHR Tch Traffic Busy Underlay Threshold BSC6900 TCHTRICBUSYOVERLAYTHR Tch Traffic Busy Overlay Threshold BSC6900
SET GCELLCCACCESS(Optional) ADD BTS(Optional) SET GCELLCCCH(Optional) SET GTRXCHAN(Optional) SET GTRXDEV(Optional) SET GCELLCHMGBASIC(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional) SET GCELLCHMGAD(Optional)
ACTCDSETF AMR ACS[F] BSC6900 ACTCDSETH AMR ACS[H] BSC6900 ACTCDSETWB AMR ACS[WB] BSC6900 INITCDMDF AMR Starting Mode[F] BSC6900 INITCDMDH AMR Starting Mode[H] BSC6900 INITCDMDWB AMR Starting Mode[WB] BSC6900 ULTHF1 AMR UL Coding Rate adj.th1[F] BSC6900 ULTHF2 AMR UL Coding Rate adj.th2[F] BSC6900 ULTHF3 AMR UL Coding Rate adj.th3[F] BSC6900 ULHYSTF1 AMR UL Coding Rate adj.hyst1[F] BSC6900 ULHYSTF2 AMR UL Coding Rate adj.hyst2[F] BSC6900 ULHYSTF3 AMR UL Coding Rate adj.hyst3[F] BSC6900 DLTHF1 AMR DL Coding Rate adj.th1[F] BSC6900 DLTHF2 AMR DL Coding Rate adj.th2[F] BSC6900 DLTHF3 AMR DL Coding Rate adj.th3[F] BSC6900 DLHYSTF1 AMR DL Coding Rate adj.hyst1[F] BSC6900 DLHYSTF2 AMR DL Coding Rate adj.hyst2[F] BSC6900 DLHYSTF3 AMR DL Coding Rate adj.hyst3[F] BSC6900 ULTHH1 AMR UL Coding Rate adj.th1[H]BSC6900 ULTHH2 AMR UL Coding Rate adj.th2[H]BSC6900 ULTHH3 AMR UL Coding Rate adj.th3[H]BSC6900 ULHYSTH1 AMR UL Coding Rate adj.hyst1[H] BSC6900 ULHYSTH2 AMR UL Coding Rate adj.hyst2[H] BSC6900 ULHYSTH3 AMR UL Coding Rate adj.hyst3[H] BSC6900 DLTHH1 AMR DL Coding Rate adj.th1[H]BSC6900 DLTHH2 AMR DL Coding Rate adj.th2[H]BSC6900 DLTHH3 AMR DL Coding Rate adj.th3[H]BSC6900 DLHYSTH1 AMR DL Coding Rate adj.hyst1[H] BSC6900 DLHYSTH2 AMR DL Coding Rate adj.hyst2[H] BSC6900 DLHYSTH3 AMR DL Coding Rate adj.hyst3[H] BSC6900 INTRACELLFHHOEN Intracell F-H HO Allowed BSC6900 INTRACELLHOEN Intracell HO Allowed BSC6900 INFHHOSTAT Intracell F-H HO Stat Time BSC6900 INFHHOLAST Intracell F-H HO Last Time BSC6900 INHOF2HTH F2H HO Threshold BSC6900 INHOH2FTH H2F HO Threshold BSC6900 TIMEAMRFHPUNISH Penalty Time after AMR TCHF-HBSC6900 HO Fail AMRULSSHTHRED AMR UL RX_LEV Upper Threshold BSC6900 AMRULSSLTHRED AMR UL RX_LEV Lower Threshold BSC6900 AMRDLSSHTHRED AMR DL RX_LEV Upper Threshold BSC6900 AMRDLSSLTHRED AMR DL RX_LEV Lower Threshold BSC6900 AMRULQHTHRED AMR UL Qual. Upper ThresholdBSC6900 AMRULQLOWTHREDAMR UL Qual. Lower ThresholdBSC6900 AMRDLQHTHRED AMR DL Qual. Upper ThresholdBSC6900 AMRDLQLTHRED AMR DL Qual. Lower ThresholdBSC6900 AVer A Interface Tag BSC6900 UmVer Um Interface Tag BSC6900
SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOBASIC(Optional) SET GCELLHOFITPEN(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET GCELLPWR2(Optional) SET BSCBASIC(Optional) SET BSCBASIC(Optional)
AbisVer
Abis Interface Tag
BSC6900
SET BSCBASIC(Optional)
NE
MML Command
Frequency Hopping Parameters Parameter ref ID
Vendor Parameter name
BCCHTRXHP Frequency Hopping Mode of BCCH BSC6900 TRX CANPC PWRC BSC6900 FHMODE Frequency Hopping Mode BSC6900 HOPINDEX Hop Index BSC6900 HOPMODE Hop Mode BSC6900 HopSingleFreqOptSwitch Hop Group Single Freq Optimization BSC6900 HOPTYPE Hop Type BSC6900 HSN HSN BSC6900 MACODINGMOD ARFCN Coding Scheme BSC6900 STARTCBSHORTMSGFLOWCTRL Prefer Variable Bitmap Code BSC6900 TRXHOPINDEX Channel Hop Index BSC6900 TRXIDLST TRXID LST BSC6900 TRXMAIO Channel MAIO BSC6900 TSC TSC BSC6900
SET GCELLHOPQUICKSETUP(Mandatory) SET GCELLCCCH(Optional) SET GCELLHOPTP(Optional)SET GCELLHOPQUICKSETU ADD GCELLMAGRP(Mandatory) ADD GCELLMAGRP(Mandatory) SET OTHSOFTPARA(Optional) SET GTRXHOP(Optional) ADD GCELLMAGRP(Optional) SET GCELLSOFT(Optional) SET BSCFCPARA(Optional) SET GTRXCHANHOP(Optional) SET GCELLHOPQUICKSETUP(Optional)SET GCELLHOPA SET GTRXCHANHOP(Optional) ADD GCELLMAGRP(Optional)
GPRS/EDGE Parameters Parameter ref ID
Vendor Parameter name
NE
PROT Frame Relay Protocol Type BSC6900 DLCI The Identifier of Data Link Connection BSC6900 PT Subnet Protocol Type BSC6900 ISNCMODE Subnetwork Configure Mode BSC6900 SVRIP Server IP BSC6900 NSEI NSE Identifier BSC6900 CELL8PSKPOWERLEVEL Cell 8PSK Power Attenuation Grade BSC6900 UPDEFAULTCS Uplink Default CS Type BSC6900 DNDEFAULTCS Downlink Default CS Type BSC6900 UPFIXCS Uplink Fixed CS Type BSC6900 DNFIXCS Downlink Fixed CS Type BSC6900 UPTHDCSUPGRADE1Uplink TBF Threshold from CS1BSC6900 to CS2 UPTHDCSUPGRADE2Uplink TBF Threshold from CS2BSC6900 to CS3 UPTHDCSUPGRADE3Uplink TBF Threshold from CS3BSC6900 to CS4 UPTHDCSDEGRADE1Uplink TBF Threshold from CS2BSC6900 to CS1 UPTHDCSDEGRADE2Uplink TBF Threshold from CS3BSC6900 to CS2 UPTHDCSDEGRADE3Uplink TBF Threshold from CS4BSC6900 to CS3 DNTHDCSUPGRADE1Downlink TBF Threshold from CS1 BSC6900 to CS2 DNTHDCSUPGRADE2Downlink TBF Threshold from CS2 BSC6900 to CS3 DNTHDCSUPGRADE3Downlink TBF Threshold from CS3 BSC6900 to CS4 DNTHDCSDEGRADE1Downlink TBF Threshold from CS2 BSC6900 to CS1 DNTHDCSDEGRADE2Downlink TBF Threshold from CS3 BSC6900 to CS2 DNTHDCSDEGRADE3Downlink TBF Threshold from CS4 BSC6900 to CS3 UPDEFAULTMCS Uplink Default MCS Type BSC6900
MML Command
ADD BC(Optional) ADD NSVC(Mandatory) ADD NSE(Mandatory) ADD NSE(Optional) ADD NSE(Mandatory) ADD NSE(Mandatory)ADD NSVC(Mandatory)ADD NSVLLO SET GCELLBASICPARA(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLPSCS(Optional) SET GCELLEGPRSPARA(Optional)
DNDEFAULTMCS Downlink Default MCS Type BSC6900 SET GCELLEGPRSPARA(Optional) UPFIXMCS Uplink Fixed MCS Type BSC6900 SET GCELLEGPRSPARA(Optional) DNFIXMCS Downlink Fixed MCS Type BSC6900 SET GCELLEGPRSPARA(Optional) BEPPERIOD Bep Period BSC6900 SET GCELLEGPRSPARA(Optional) GPRSCHPRI PDCH Channel Priority Type BSC6900 SET GTRXCHAN(Optional) FORBIDEDGU Allow E Down G Up Switch BSC6900 SET BSCPSSOFTPARA(Optional) MAXPDCHRATE Maximum Rate Threshold of PDCHs BSC6900 in a CellSET GCELLPSCHM(Optional) PDCHUPLEV PDCH Uplink Multiplex Threshold BSC6900 SET GCELLPSCHM(Optional) PDCHDWNLEV PDCH Downlink Multiplex Threshold BSC6900 SET GCELLPSCHM(Optional) UPDYNCHNTRANLEVUplink Multiplex Threshold of Dynamic BSC6900 Channel SETConversion GCELLPSCHM(Optional) DWNDYNCHNTRANLEV Downlink Multiplex Threshold of BSC6900 Dynamic Channel SET GCELLPSCHM(Optional) Conversion DYNCHNPREEMPTLEV Level of Preempting Dynamic Channel BSC6900 SET GCELLPSCHM(Optional) DYNCHTRANRESLEVReservation Threshold of Dynamic BSC6900 Channel Conversion SET GCELLPSCHM(Optional) NMO Network Operation Mode BSC6900 SET GCELLPSBASE(Optional) T3168 T3168 BSC6900 SET GCELLPSBASE(Optional) T3192 T3192 BSC6900 SET GCELLPSBASE(Optional) EGPRS11BITCHANREQ Support 11BIT EGPRS Access BSC6900 SET GCELLPSBASE(Optional) ACCBURST Access Burst Type BSC6900 SET GCELLPSBASE(Optional) PRIACCTHR Packet Access Priority BSC6900 SET GCELLPSBASE(Optional) USFGRAN4BLK Support USF Granularity 4 Switch BSC6900 SET BSCPSSOFTPARA(Optional) LQCMODE Link Quality Control Mode BSC6900 SET GCELLEGPRSPARA(Optional) BSSPAGINGCOORDINATION BSS Paging Co-ordination BSC6900 SET GCELLPSBASE(Optional) ACOOPERATPAGINGSWITCH A Interface Paging Co-ordinationBSC6900 Switch SET BSCPSSOFTPARA(Optional) POCGBRMIN Min. GBR for POC Service BSC6900 SET GCELLPSOTHERPARA(Optional) POCGBRMAX Max. GBR for POC Service BSC6900 SET GCELLPSOTHERPARA(Optional) POCDELAY Transmission Delay of POC Service BSC6900 SET GCELLPSOTHERPARA(Optional) GBRQOS Support GBR QoS BSC6900 SET GCELLPSOTHERPARA(Optional) QOSOPT Support QoS Optimize BSC6900 SET GCELLPSOTHERPARA(Optional) GAMMA GAMMA BSC6900 SET GCELLPSPWPARA(Optional) ALPHA ALPHA BSC6900 SET GCELLPSPWPARA(Optional) FMSMAXOPCC MS_TXPWR_MAX_CCH BSC6900 SET GCELLCCCH(Optional) PCMEASCHAN PC_MEAS_CHAN BSC6900 SET GCELLPSPWPARA(Optional) NCO Network Control Mode BSC6900 SET GCELLPSBASE(Optional) NACCSPT Support NACC BSC6900 SET GCELLGPRS(Optional) NC2SPT Support NC2 BSC6900 SET GCELLGPRS(Optional) CGN Cabinet Group No. BSC6900 SET BTSIDLETS(Mandatory) TSCOUNT Idle TS Count BSC6900 SET BTSIDLETS(Mandatory) EXTUTBFNODATA Not Send Dummy Message withBSC6900 Extended Uplink SET GCELLPSBASE(Optional) TBF IMMASSDLSHIFT Move Immediate Assignment Down BSC6900 to BTS SET GCELLPSOTHERPARA(Optional) PACKASSDLSHIFT Move Packet Assignment Down BSC6900 to BTS SET GCELLPSOTHERPARA(Optional) DNTBFRELDELAY Release Delay of Downlink TBFBSC6900 SET GCELLPRIVATEOPTPARA(Optional) UPTBFRELDELAY Release Delay of Non-extended BSC6900 Uplink TBF SET GCELLPRIVATEOPTPARA(Optional) N3101 Maximum Value of N3101 BSC6900 SET GCELLSTANDARDOPTPARA(Optional) N3103 Maximum Value of N3103 BSC6900 SET GCELLSTANDARDOPTPARA(Optional) N3105 Maximum Value of N3105 BSC6900 SET GCELLSTANDARDOPTPARA(Optional) UPEXTTBFINACTDELAY Inactive Period of Extended Uplink BSC6900 TBF SET GCELLPRIVATEOPTPARA(Optional) PDCHREFORMING PDCH Reforming BSC6900 SET GCELLPSCHM(Optional)
DYNCHFREETM Timer of Releasing Idle DynamicBSC6900 Channel SET GCELLPSCHM(Optional) DYNCHNPREEMPTLEV Level of Preempting Dynamic Channel BSC6900 SET GCELLPSCHM(Optional) MAXPDCHNUM Maximum Number of PDCH BSC6900 SET GTRXBASE(Optional) IUOCHNTRAN Dynamic Channel Conversion Parameter BSC6900of Concentric SET GCELLPSCHM(Optional) Cell
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Mobile country code. This parameter identifies the country where String a mobile Type subscriber None is located, 3 digitfor example, the Chinese MCC Mobile network code. This parameter identifies the public landString mobile Type network None (PLMN) where 2~3a digit mobile subscriber is homed. Location area code (LAC). MSs can freely move in the local location Intervalarea Typewith 1~65533,65535 no need of location 1~65533, update. 65535Reasonable local allo Identity code of a cell, A cell is a wireless coverage area identified Interval by aType base 0~65535 station identity 0~65535 code and a global cell identification.C Network color code that is provided by the telecom operator. The Interval NCCType is used 0~7 to identify networks 0~7 from area to area. The NCC Base station color code (BCC) of a cell, provided by the network Interval planning Typedepartment. 0~7 It is used 0~7 for differentiating the neighborin
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Attach-detach Allowed (ATT). If this parameter is set to YES, Enumeration when an MS is Type NO(No), poweredYES(Yes) off, the NO, network YES does not process any cal This parameter specifies the CCCH configuration in a system.Enumeration In a BCCH multi-frame, Type 1 Non-compounding the number 1 Non-compounding CCCH,1 of CCCH Compounding message CCCH,1 blocks Compo CCCH m BS-AG-BLKS-RES, indicating the number of the CCCH message Interval blocks Type reserved 0~7 for the AGCH. 0~7 After the CCCHs are configure Number of multiframes in a cycle on a paging sub-channel. InEnumeration fact, this parameter Type 2_M_PERIOD(2 specifies940~4230, the Multiframe numberstep: of Period), paging 470 3_M_PERIOD sub-channels This parameter specifies the length of the timer for periodic location Intervalupdate. Type 0~255 0~1530, step: 6
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Maximum number of Channel Request messages that can beEnumeration sent by an MS Type 1_Times(1_Times), in an immediate 1_Times, assignment 2_Times(2_Times), 2_Times, procedure. 4_Times, 4_Times(4 After 7_Tim the M Tx-integer (T for short). This parameter specifies the number Enumeration of timeslots between Type TX_3(3), twoTX_4(4), transmissions TX_3, TX_5(5), TX_4, when TX_5, TX_6(6), an MS TX_6, TX_7(7), sends TX_7, multip TX_ TX Minimum access level of the random access channel (RACH)Interval in the CS Type domain -121~-104 -121~-104 Minimum access level of the random access channel (RACH)Interval in the PS Type domain -121~-104 -121~-104 Time for disconnecting a call when the MS fails to decode theEnumeration SACCH. Once Type 4_Times, a dedicated 8_Times, channel 1920~30720, 12_Times, is assigned step: 16_Times, to 480 the MS, 20_Time the cou This parameter is used by the BTS to inform the BSC6900 of Interval radio link Type connection 0~63 failure.When 0~30240, the BTS step:receives 480 the SACCH m A set of NCCs of the cells to be measured by the MS. This parameter Bit Field is Type an information SELECTION0_PERM, element SELECTION0_PERM, (IE)SELECTION1_PERM, in the system SELECTION1 information SELE ty Level of common access control, used for load control, allowing Bit or Field forbidding Type L0_FORBID, the access ofL1_FORBID, L0_FORBID, some users L2_FORBID, of L1_FORBID, common access L3_FORBI L2_FORB leve This parameter is used for load control. It determines whetherBit theField users Type of special L11_FORBID, access class L11_FORBID, L12_FORBID, are allowed L12_FORBID, L13_FORBID, to access theL13_FO L14_F netwo Used for requesting the MS to report the measurement information Interval ofType neighboring 0~3 cells in multiple 0~3 frequency bands. This param The early classmark sending control (ECSC) parameter specifies Enumeration whether the Type NO(No), MSs in YES(Yes) a cellNO, useYES early classmark sending. After Whether to disable emergency calls. For the MSs of access levels Enumeration 0 to 9, ifType the NO(No), value of YES(Yes) thisNO, parameter YES is NO, emergency calls a
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Minimum received signal level of the MS. This level is reported Interval in the Type system0~63 information. 0~63 (-110 dBm ~ -47 dBm) Maximum transmit power level of MSs. As one of the cell reselection Interval parameters Type 0~19in system 0~19 message 3, this parameter is used t Used together with "Cell Bar Qualify" to decide the priority status Enumeration of a cell. Refer Type NO(NO), to GSM YES(YES) Rec. NO, 04.08.Cell YES Bar Qualify Cell Bar Ac Used together with "Cell Bar Access" to decide the priority status Enumeration of a cell. See Type NO(No), GSM Rec. YES(Yes) 0408. NO, YES This parameter does not affect Cell Reselect Offset (CRO), indicating a correction of the C2.Proper Intervalsetting Type of 0~63 this parameter 0~126, can reduce step: 2the number of handove
Cell Reselect Temporary Offset (TO) indicates the temporary Interval correction Type of C2. 0~7This parameter 0~7 is (the valid corresponding only within the value value is 0~60 spec Cell Reselect Penalty Time (PT) is used to ensure the safety and Interval validity Type of cell 0~31 reselection 0~31 because (theitcorresponding helps to avoid time frequent is 20~6 ce Cell Reselect Parameters Indication (PI), sent on the broadcast Enumeration channel, indicates Type NO(No), whether YES(Yes) NO, "CellYES Reselect Offset", "Cell Reselec Cell reselection hysteresis. This is one of the parameters used Enumeration for decidingType whether 0dB, 2dB, to reselect 4dB,0dB, 6dB, cells 2dB, 8dB, in4dB, 10dB, different 6dB, 12dB, location 8dB,14dB 10dB, areas. 12dT This parameter specifies the level threshold for cell reselection Interval in idle Type mode. 0~15 -98, -94, -90, -86, -82, -78, -74, (alwa This parameter specifies one threshold of the signal level for cell Interval reselection Type 0~15 in packet transfer -98, mode. -94, -90, -86, -82, -78, -74, (alwa In connection mode, if the signal level is below [0-7] or above Interval [8-15], the Type MS 0~15 starts to search -98, for-94, 3G -90, cells.-86, For-82, example, -78, -74, if this (alwa pa This parameter specifies the threshold of the signal level for cell Enumeration reselectionType in Use_Qsearch_I(Use connection mode Use_Qsearch_I, before Qsearch_I), ""Qsearch Always Always(Always) C"" is obtaine This parameter specifies whether the reselection from 2G cells Enumeration to 3G cells Type isNO(No), allowed. YES(Yes) NO, YES A 3G cell can be a candidate cell only when the average receive Interval level Type of the 3G 0~15 cell is greater Negative than the infinity, value-28~28, of this parameter step: 4 o This parameter specifies one of the thresholds of the signal level Interval for FDD Typecell0~7 reselection. A-20, FDD-6,cell -18, can -8,be -16, selected -10, -14, as -12 a cand
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to allow call re-establishment. Burst interference or blind Enumeration spots due Type NO(No), to high buildings YES(Yes) NO, may YES lead to a radio link failure. If a Whether to allow immediate TCH assignment. If this parameter Enumeration is set to YES, Type NO(No), the BSCYES(Yes) can NO, assign YES a TCH immediately when the The channel activation and immediate assignment commands are sent at theNO(No), same time YES(Yes) toNO, accelerate YES the signaling processing Whether to enable a directed retry. The directed retry is to hand Enumeration over an MSType NO(No), to a neighboring YES(Yes) NO, cellYES in the same procedure as the When this parameter is set to ENABLE, if the cell supports direct Enumeration retry and Type the DISABLE(Disable), current cell load DISABLE, isENABLE(Enable) equal ENABLE to or larger than the valu Threshold of forbidding directed retry for cells. When the value Interval of "Assignment Type 0~100 Cell Load Judge 0~100 Enable" in "SET GCELLCCBAS Threshold of the load in the target cell for the directed retry. Only Interval a cell Type whose 0~100 load is lower 0~100 than or equal to this threshold can b In a direct retry, when the receive level of a neighboring cell isInterval no smaller Typethan 0~63 this parameter, 0~63 the neighboring cell can be a can Maximum times for a Physical Information message to be transmitted. Interval Type When1~255 the retransmission 1~255times exceeds this parameter a When the BTS sends physical information to the MS, the BTSInterval starts the Type timer 0~255 T3105.If the timer 0~2550, T3105 step:10 expires before the BTS Whether an MS uses the calculated value as the final receiveEnumeration level value. The Type NO(No), calculated YES(Yes) receive NO, YES level value is the measured rec Whether a cell is an extension cell.A double-timeslot extension Enumeration cell regardsType an Normal_cell(Normal additional TDMA Normal_cell, frame cell), as DualTS_ExtCell(Double DualTst_ExtCell access delay extensioT Maximum time advance (TA). The value of this parameter is determined Interval Type by that 0~255 of "Cell Extension 0~255 Type" in the "ADD GCELL" c Threshold used for interference measurement.The BSS measures Interval theType uplink48~115 quality of the radio 48~115 channels occupied by MSs, and Threshold used for interference measurement.The BSS measures Interval theType uplink48~115 quality of the radio 48~115 channels occupied by MSs, and Threshold used for interference measurement.The BSS measures Interval theType uplink48~115 quality of the radio 48~115 channels occupied by MSs, and Threshold used for interference measurement.The BSS measures Interval theType uplink48~115 quality of the radio 48~115 channels occupied by MSs, and Threshold used for interference measurement.The BSS measures Interval theType uplink48~115 quality of the radio 48~115 channels occupied by MSs, and Threshold used for interference measurement.The BSS measures Interval theType uplink48~115 quality of the radio 48~115 channels occupied by MSs, and Period during which interference levels are averaged. The interference Interval Type levels1~31 on idle channels 480~14880, are averaged step:before 480 the BTS sen Whether the uplink DTX function is enabled for FR calls. For details, Enumeration see GSM Type May_Use(May Rec. 05.08. May_Use, Use), Shall_Use(Shall Shall_Use, Shall_NOT_U Use), Shall_N Whether the uplink DTX function is enabled for HR calls. For Enumeration details, see GSM Type May_Use(May Rec. 05.08. May_Use, Use), Shall_Use(Shall Shall_Use, Shall_NOT_U Use), Shall_N Whether the downlink discontinuous transmission (DTX) function Enumeration is enabled Type NO(No), for full rate YES(Yes) (FR) NO, calls. YES This function is also restricte Whether the downlink DTX function is enabled for half rate (HR) Enumeration calls. ThisType function NO(No),isYES(Yes) also NO, restricted YES by the DTX switch in the M Timer in the LAPD protocol. The value of the timer indicates the Interval time Type when the 6~240 LAPD link waits 60~2400 for the (step: response 10) or acknowledge System parameter in the LAPD protocol. The value of this parameter Interval Type specifies 1~3 the maximum 1~3 number of times when a frame is r Whether the BSC6900 sends the LAPDm N200 parameter toEnumeration the BTS. If this Type OFF(Off), parameterON(On) is set OFF, to YES, ON the BSC sends the LAPD
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to enable the no-downlink measurement report handover Enumeration algorithm Type NO(No), YES(Yes) NO, YES
When a certain number of no-downlink measurement reports Interval are received Type consecutively 0~70 and 0~70 the uplink receive quality is no sma Decisions of no-downlink measurement report handovers canInterval be made Type only 0~64 when the number 0~64 of consecutive no-downlink meas
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to enable the time advance (TA) handover. The TA handover Enumeration determines Type NO(No), whether YES(Yes) NO, the timing YES advance (TA) is higher th An emergency handover is triggered when TA is greater than Interval or equalType to the 0~255 value of this parameter. 0~255
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to allow the interference handover algorithm. Interference Enumeration handovers Type NO(No), are triggered YES(Yes) NO, when YES the receive level is higher than Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. Threshold for the interference handover of Non-AMR FR voice Interval services. Type AMRFR 0~70refers to Adaptive 0~70 Multi-Rate Full Rate. For AMR FR voice services, a fixed amount of offset is addedInterval to the corresponding Type 0~70 grade of0~70 the received signal quality for the in
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to use the emergency handover algorithm in case the Enumeration receive levelType NO(No), of the MSs YES(Yes) drops NO,rapidly, YES thus preventing call drops One of the nine parameters (filter parameters A1 to A8 and filter Interval parameter Type B) 0~20 used to configure 0~20 the filter for determining whethe One of the nine parameters (filter parameters A1 to A8 and filter Interval parameter Type B) 0~20 used to configure 0~20 the filter for determining whethe One of the nine parameters (filter parameters A1 to A8 and filter Interval parameter Type B) 0~20 used to configure 0~20 the filter for determining whethe One of the nine parameters (filter parameters A1 to A8 and filter Interval parameter Type B) 0~20 used to configure 0~20 the filter for determining whethe One of the nine parameters (filter parameters A1 to A8 and filter Interval parameter Type B) 0~20 used to configure 0~20 the filter for determining whethe One of the nine parameters (filter parameters A1 to A8 and filter Interval parameter Type B) 0~20 used to configure 0~20 the filter for determining whethe One of the nine parameters (filter parameters A1 to A8 and filter Interval parameter Type B) 0~20 used to configure 0~20 the filter for determining whethe One of the nine parameters (filter parameters A1 to A8 and filter Interval parameter Type B) 0~20 used to configure 0~20 the filter for determining whethe Trend of the received signal level of the cell during a period. This Interval parameter Type 0~200 helps to configure 0~200 the filter for determining whether If the UL receive level remains lower than the "Edge HO UL RX_LEV Interval Type Threshold" 0~63for a period, 0~63 the(-110 edge dBm handover to -47isdBm) triggered.
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to enable the bad quality (BQ) handover algorithm. Whether Enumeration to trigger Type NO(No), BQ handover YES(Yes) NO, depends YES on the uplink and downlin Downlink quality threshold for emergency handover. This parameter IntervalisType represented 0~70 as the product 0~70 of 10 and a quality level that r
An emergency handover due to bad quality is triggered when Interval the uplink Type receive 0~70 quality is not 0~70 smaller than "UL Qual. Threshold". Downlink quality limit for emergency handover in an AMR full Interval rate call.Type The value 0~70of this parameter 0~70 corresponds to the quality lev The value of this parameter corresponds to multiplying qualityInterval level 0 Type to 7 by 0~70 10. An emergency 0~70handover can be triggered only Downlink quality limit for emergency handover in an AMR halfInterval rate call. Type The value 0~70 of this parameter 0~70 corresponds to the quality le The value of this parameter corresponds to multiplying qualityInterval level 0 Type to 7 by 0~70 10. An emergency 0~70handover can be triggered only If ("downlink level of the neighbor cell after filtering" - "downlink Interval level of Type the serving 0~127 cell (after 0~127 power control compensation)") > ("
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to enable the ATCB handover algorithm for the concentric Enumeration cell. According Type NO(Close), to theYES(Open) neighbor NO, YES cell signal, the ATCB handov Whether to assign channel requests initiated in the underlay subcell Enumeration to the overlay Type NO(No), or underlay YES(Yes) NO,subcells YES according to "UL Subcel When the load of the underlay subcell is higher than this parameter, Intervalsome Type of0~100 the calls in the0~100 underlay subcell will be switched to Distance between the boundary of the overlaid subcell and theInterval boundary Type of the 0~63 underlaid subcell. 0~63 This parameter specifies the d Hysteresis in the distance between the boundary of the overlaid Interval subcell Type and the 0~63 boundary of0~63 the underlaid subcell. This paramet Lower threshold of the overlay level during underlay-to-overlayInterval handovers. Type When 0~63the receive 0~63 level of an MS is higher than this th Whether to assign channel requests in the overlay subcell to the Enumeration underlay subcell Type NO(No), according YES(Yes) NO, to "UL YES Subcell Lower Load Thresho Whether to allow underlay-to-overlay load handovers Enumeration Type NO(No), YES(Yes) NO, YES Overlay-to-underlay load handovers are performed by levels. Interval This parameter Type 1~255 indicates the duration 1~255 of each level. Level step during overlay-to-underlay hierarchical load handovers Interval Type 0~63 0~63 When the load of the underlay subcell is lower than this parameter, Intervalsome Typeof 0~100 the calls in the 0~100 overlay subcell will be switched to th When the load of the underlay subcell is higher than this parameter, Intervalthe Type underlay-to-overlay 0~100 0~100 load handover period subtracts a pe Whether to switch some of the calls in the underlay subcell toEnumeration the overlay when Type NO(No), the load YES(Yes) of the NO,underlay YES is higher than this param When the load of the underlay subcell exceeds "UL Subcell General IntervalOverload Type 1~255 Threshold", all 1~255 the calls that are using this cell as Level step during underlay-to-overlay hierarchical load handovers Interval Type 0~63 0~63 If the underlay load is higher than "UL Subcell Serious Overload Interval Threshold", Type 1~255 the underlay-to-overlay 1~255 handover period subtracts a Lower threshold of the overlay level during overlay-to-underlayInterval handovers. Type When 0~63the receive 0~63 level of an MS is higher than this th According to the P/N rule, if the conditions for the handover between Interval the Type subcells 1~255of an enhanced 1~255 dual-frequency network are m According to the P/N rule, if the conditions for the handover between Interval the Type subcells 1~255of an enhanced 1~255 dual-frequency network are m If the load of the underlaid subcell is less than this threshold, certain Intervalcalls Typein the 0~100 overlaid subcell 0~100 are handed over to the underlai
Parameter Description
Value Type
GUI Value Range
Actual Value Range
This parameter specifies whether a traffic load-sharing handover Enumeration is enabled. Type NO(No), The loadYES(Yes) handover NO, YES helps to reduce cell congestion The system flux level is the current flux control level of the system. IntervalA Type load handover 0,8~11 is allowed 0, 8~11 only when the system flux is low The load handover is triggered when the traffic load in a cell isInterval greaterType than the 0~100 value of this0~100 parameter. If the load of a cell is lower than the value of this parameter, the Interval cell can Type admit 0~100 the users handed 0~100 over from other cells with high In the handover algorithm of the first generation, load handovers Interval can be Type performed 0~63 only when 0~63 the receive level of the current se When the load of a cell reaches or exceeds "Load HO Threshold", Interval all Type the calls 1~255 that are using 1~255 this cell as the serving cell generat In hierarchical load handovers, starting from "Edge HO DL RX_LEV IntervalThreshold", Type 1~63a "Load HO 1~63 Step Level" is added to the upper h
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to enable the edge handover algorithm. When an MS Enumeration makes a callType NO(No), at the edge YES(Yes) of a NO, cell,YES the call may drop if the receive If the UL receive level remains lower than the "Edge HO UL RX_LEV Interval Type Threshold" 0~63for a period, 0~63 the(-110 edge dBm handover to -47isdBm) triggered. If
Threshold for downlink edge handover. If the downlink receiveInterval level remains Type 0~63 less than this threshold 0~63 (-110 fordBm a period to -47ofdBm) time, the edg According to the P/N rule, if the conditions for edge handover Interval are metType in P of1~32 N measurement 0.5~16, reports, step:0.5 the handover is triggered According to the P/N rule, if the conditions for edge handover Interval are metType for P seconds 1~32 within 0.5~16, N seconds, step:0.5 the handover is triggered According to the P/N rule, if the conditions for edge handover Interval are metType in P of1~32 N measurement 0.5~16, reports, step:0.5 the handover is triggered According to the P/N rule, if the conditions for edge handover Interval are metType for P seconds 1~32 within 0.5~16, N seconds, step:0.5 the handover is triggered According to the P/N rule, if a neighbor cell meets the conditions Interval for selecting Type 1~32 the neighbor cell 0.5~16, for edge step:0.5 handover in P of N mea According to the P/N rule, if a neighbor cell meets the conditions Interval for selecting Type 1~32 the neighbor cell 0.5~16, for edge step:0.5 handover in P of N mea Reduces ping-pong handovers between cells on a same layer. Interval This parameter Type 0~63 is invalid when 0~63 cells are on different layers.
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to enable the fast moving micro-cell handover algorithm. Enumeration The fast Type moving NO(No), micro-cell YES(Yes) NO, handover YES algorithm enables fast m This parameter is used in the P/N criteria decision: If an MS quickly Intervalpasses Type through 1~10 N out of1~10 P micro-cells lately, the BSC enable This parameter is used in the P/N criteria decision: If an MS quickly Intervalpasses Type through 1~10 N out of1~10 P micro-cells lately, the BSC enable A time threshold determined based on the radius of a cell andInterval the moving Typespeed 0~255 of an MS. 0~255 If the MS crosses the cell in a time p
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to allow inter-layer and inter-level handovers. The inter-layer Enumeration and inter-level Type NO(No),handover YES(Yes) NO,algorithm YES is achieved through the The triggering of inter-layer handovers must meet the P/N criteria, Interval thatType is, when 1~32 the condition 0.5~16, for inter-layer step:0.5handovers is met for The triggering of inter-layer handovers must meet the P/N criteria, Interval thatType is, when 1~32 the condition 0.5~16, for inter-layer step:0.5handovers is met for Handover threshold during the handovers between cells on different Intervallayers Type or0~63 of different priorities. 0~63 This value is used to suppres Hysteresis value during the handovers between cells on different Interval layers Type or of0~63 different priorities. 0~63This value is used to suppress i Hysteresis value during the handovers between cells on different Interval layers Type or of0~127 different priorities. 0~127 This value is used to suppress i
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to use the PBGT handover algorithm. PBGT handovers Enumeration are basedType on NO(No), path loss. YES(Yes) The NO,PBGT YES handover algorithm search The triggering of PBGT handovers must meet the P/N criteria,Interval that is,Type when the 1~32 condition for0.5~16, PBGT step:0.5 handovers is met for a cons The triggering of PBGT handovers must meet the P/N criteria,Interval that is,Type when the 1~32 condition for0.5~16, PBGT step:0.5 handovers is met for a cons PBGT handovers to a neighboring cell are allowed only when Interval the downlink Type level 0~127 difference between 0~127 (-64 thedB neighboring to +63 dB)cell and the
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to enable the concentric cell handover algorithm. The Enumeration concentric cell Type NO(No), handover YES(Yes) helps NO,toYES achieve wide coverage in the u Whether a UL subcell to OL subcell handover is allowed Enumeration Type NO(No), YES(Yes) NO, YES Whether to allow overlay-to-underlay handovers Enumeration Type NO(No), YES(Yes) NO, YES Whether to use the downlink receive level as a condition in IUO Enumeration handover decision Type NO(No), YES(Yes) NO, YES Whether to use the downlink receive quality as a condition in IUO Enumeration handoverType decision. NO(No), YES(Yes) The default NO, YES value is generally set to Yes. W Whether the TA is used as a decisive condition for the concentric Enumeration cell handover Type NO(No), YES(Yes) NO, YES One of the parameters that decide the underlay and overlay areas. Interval The Type underlay 0~63and overlay 0~63 areas (-110 aredBm determined to -47 dBm) by "RX_QUA One of the parameters that decide the underlay and overlay areas. Interval The Type underlay 0~63and overlay 0~63 areas (-110 aredBm determined to -47 dBm) by "RX_QUA One of the parameters that decide the underlay and overlay areas. Interval If "Enhanced Type 0~70Concentric0~70 Allowed" is set to OFF, the underlay
One of the parameters that determine the coverage of the OLInterval subcell Type and UL0~255 subcell.When0~255 "Enhanced Concentric Allowed" is s One of the parameters that determine the coverage of the OLInterval subcell Type and UL0~255 subcell.When0~255 "Enhanced Concentric Allowed" is s The triggering of concentric circle handovers must meet the P/N Interval criteria, Type that1~32 is, when P out0.5~16, of N measurement step:0.5 reports meet the The triggering of concentric circle handovers must meet the P/N Interval criteria, Type that1~32 is, when P out0.5~16, of N measurement step:0.5 reports meet the
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to enable the enhanced concentric cell algorithm in aEnumeration concentric cell.If Type OFF(Off), a cell supports ON(On) OFF, the ON enhanced concentric cell fun Whether to enable the ATCB handover algorithm for the concentric Enumeration cell. According Type NO(Close), to theYES(Open) neighbor NO, YES cell signal, the ATCB handov Whether a UL subcell to OL subcell handover is allowed GBFD-113201 Enumeration Type NO(No), YES(Yes) Whether to allow overlay-to-underlay handovers Enumeration Type NO(No), YES(Yes) NO, YES Whether to use the downlink receive level as a condition in IUO Enumeration handover decision Type NO(No), YES(Yes) NO, YES Whether to use the downlink receive quality as a condition in IUO Enumeration handoverType decision. NO(No), YES(Yes) The default NO, YES value is generally set to Yes. W Whether the TA is used as a decisive condition for the concentric Enumeration cell handover Type NO(No), YES(Yes) NO, YES One of the parameters that decide the underlay and overlay areas. Interval If "Enhanced Type 0~70Concentric0~70 Allowed" is set to OFF, the underlay One of the parameters that determine the coverage of the OLInterval subcell Type and UL0~255 subcell.When0~255 "Enhanced Concentric Allowed" is s One of the parameters that determine the coverage of the OLInterval subcell Type and UL0~255 subcell.When0~255 "Enhanced Concentric Allowed" is s The triggering of concentric circle handovers must meet the P/N Interval criteria, Type that1~32 is, when P out0.5~16, of N measurement step:0.5 reports meet the The triggering of concentric circle handovers must meet the P/N Interval criteria, Type that1~32 is, when P out0.5~16, of N measurement step:0.5 reports meet the One of the parameters that decide the underlay and overlay areas Interval in an Type enhanced 0~63 IUO cell.0~63 The (-110 underlay dBmand to -47 overlay dBm) areas are One of the parameters that determine the coverage of the OLInterval subcell Type and of 0~63 the UL subcell.0~63 "UtoO (-110 HO dBm Received to -47Level dBm)Thresho When this parameter is set to YES, the existing call is performed Enumeration in the OL Type subcell, NO(No), and YES(Yes) "OLNO, to UL YES HO Allowed" is set to YES, an Hierarchical handover period of the load handover from the UL Interval subcellType to the1~255 OL subcell. If1~255 the channel seizure ratio of the UL s Hierarchical level step of the load handover from the UL subcell Interval to theType OL subcell 1~63 0~63 (-110 dBm to -47 dBm) If the load of the underlaid subcell is less than this threshold, certain Intervalcalls Typein the 0~100 overlaid subcell 0~100 are handed over to the underlai If the load of the underlaid subcell is greater than this threshold, Interval certain Type calls 0~100 in the underlaid 0~100 subcell are handed over to the ove If the load of the underlaid subcell is greater than this threshold, Interval the period Type of0~100 the load-based 0~100 handover from the underlaid subce If all the calls in the overlaid subcell are handed over to the underlaid Interval Type subcell1~255 when the channel 1~255 seizure ratio of the underlaid sub Signal level step for the hierarchical load-based handover from Interval the overlaid Type subcell 0~63 to the underlaid 0~63 subcell Distance between the boundary of the overlaid subcell and theInterval boundary Type of the 0~63 underlaid subcell. 0~63 This parameter specifies the d Hysteresis in the distance between the boundary of the overlaid Interval subcell Type and the 0~63 boundary of0~63 the underlaid subcell. This paramet
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to assign channels according to the access_delay value Enumeration in channel Type NO(No), request messages YES(Yes) NO, YES during immediate channel assig When the access_delay value in the channel request message Interval is smaller Typethan 0~255 this parameter, 0~255 the overlay channels are assigne Channel assignment policies used when TCHs are assigned in Enumeration an IUO cell:Type SysOpt: SysOpt(System The system SysOpt, optimization), selects OSubcell, theOSubcell(Overlaid preferentially-assig USubcell, NoPref su Preferentially assigns channels on the overlay when the uplinkInterval receiveType level on 0~63 the SDCCH0~63 is no smaller than "Assign-optimumPreferentially assigns channels on the overlay when the uplinkInterval receiveType level on 0~255 the SDCCH0~255 is no smaller than "Assign-optimumWhether to assign a channel in the overlaid or underlaid subcell Enumeration in the caseType of SysOpt(System the intra-BSCSysOpt, optimization), incoming OSubcell, handover OSubcell(Overlaid USubcell, to the concentr NoPref su Subcell preferred during the incoming inter-BSC handover to the Enumeration concentricType cell. OSubcell(Overlaid In the caseOSubcell, of incoming subcell), USubcell, USubcell(Underlaid inter-BSC NoPrefer handoversub to
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to allow intra-cell handovers. This parameter does not Enumeration affect concentric Type NO(No), cell handovers YES(Yes) NO, YES and forced handovers. During a Whether to allow AMR handovers. This parameter has no impact Enumeration on dynamic Type NO(No), non-AMR YES(Yes) F-HNO, handovers. YES The triggering of intra-cell F-H handovers must meet the P/N Interval criteria, Type that is, 1~32 when the condition 0.5~16, for step:0.5 intra-cell F-H handovers is m The triggering of intra-cell F-H handovers must meet the P/N Interval criteria, Type that is, 1~32 when the condition 0.5~16, for step:0.5 intra-cell F-H handovers is m For an AMR call, if the currently occupied channel is a full rateInterval channel Type and the 0~39 Radio Quality 0~39 Indication (RQI) is always higher th For an AMR call, if the currently occupied channel is a half rate Interval channel Type and 0~39 the Radio Quality 0~39 Indication (RQI) is always lower th Whether to enable the BSC to assign AMR half rate channelsEnumeration preferentiallyType according OFF(Off),to ON(On) theOFF, channel ON types allowed by the MSC Load threshold for assigning half rate channels preferentially. Interval If the current Type TCH 0~99seizure ratio 0~99 of the cell is greater than this thres
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Threshold of uplink Basic Congestion state in a 2G Cell Interval Type 1~100 1~100 Threshold of uplink overload congestion state in a 2G Cell Interval Type 1~100 1~100 Threshold of downlink Basic Congestion state in a 2G Cell Interval Type 1~100 1~100 Threshold of downlink overload congestion state in a 2G Cell Interval Type 1~100 1~100 Threshold for setting the flag of accepting inter-RAT CS service Interval handover Typeof 1~100 a 2G cell 1~100 When the uplink load or downlink load of the target cell is lower Interval than this Type threshold, 0~100 it can accept 0~100the MSs from the serving cell d When this parameter is set to Service-based, the inter-RAT handover Enumeration is triggered Type Service-based(Service-based), on the basis {0~4}of the serviceLoad-based(Load-b distribution. In this Coefficient used to modulate the load level of a 2G system soInterval that theType load level 0~100 of the 2G system 0~100 can be compared with that of If the load balance between a 2G cell and a 3G cell is greaterInterval than theType threshold, 0~200 load balance -100~100 is triggered. The system flux level is the current flux control level of the system. IntervalA Type load handover 0,8~11 is allowed 0, 8~11 only when the system flux is low The load handover is triggered when the traffic load in a cell isInterval greaterType than the 0~100 value of this0~100 parameter. Initial RSCP value of the inter-RAT load-based handover bandInterval Type 0~91 0~91 In the handover algorithm of the first generation, load handovers Interval can be Type performed 0~63 only when 0~63 the receive level of the current se Minimum RSCP value of a 3G cell during the load-based GSM-to-UMTS Interval Type handover 0~91 0~91 Initial EcNo value of the inter-RAT load-based handover bandInterval Type 0~49 0~49 Minimum Ec/No value of a 3G cell during the load-based GSM-to-UMTS Interval Type handover 0~49 0~49 This parameter specifies whether to allow a mobile phone to preferentially Enumeration camp Type NO(No), on a YES(Yes) 3G cell NO,after YESa call is terminated in the are This parameter specifies whether the SI Type 3 message contains Enumeration the 2QUATER Type NO(No), indicator. YES(Yes) NO, YES This parameter specifies whether the handover from 3G cellsEnumeration to 2G cells isType allowed. NO(No), YES(Yes) NO, YES This parameter specifies whether the handover from 2G cellsEnumeration to 3G cells isType allowed. NO(No), YES(Yes) NO, YES This parameter specifies whether a 2G cell or to a 3G cell is preferentially Enumerationselected Type Pre_2G_Cell(Preference as the target Pre_2G_Cell, cell for forhandover. 2G Pre_3G_Cell, cell), Pre_3G_Cell( Pre_2G_ If the receive level of the neighboring 2G cell that ranks the first Interval in theType candidate 0~63cell list is equal 0~63 to or smaller than this threshol This parameter specifies whether to allow 3G better cell handover Enumeration algorithm. Type NO(No), YES(Yes) NO, YES This parameter specifies whether Ec/No or RSCP is used for Enumeration the measurement Type RSCP(RSCP), report on a RSCP, FDD EcN0(Ec/N0) cell. EcN0 Ec/No stands for the sign According to the P/N rule, if the conditions for the handover toInterval a betterType 3G cell 1~32 are met for P0.5~16, seconds step:0.5 within N seconds, the hand The 3G better cell handover is triggered only when the RSCPInterval of a neighboring Type 0~63 3G cell is greater 0~63 than this threshold for a period According to the P/N rule, if the conditions for the handover toInterval a betterType 3G cell 1~32 are met in P 0.5~16, of N measurement step:0.5 reports, the hand The 3G better cell handover can be triggered only when the Ec/No Interval of Type a neighboring 0~49 3G cell 0~49 is greater than this threshold for a p This parameter specifies whether to allow the inter-RAT load Enumeration handover in connection Type NO(No), mode YES(Yes) NO, (after YES the assignment is complete). If the load of a cell is lower than the value of this parameter, the Interval cell can Type admit 0~100 the users handed 0~100 over from other cells with high When this parameter is set to Open, the BSS decides whetherEnumeration to hand overType the CLOSE(Close), current service CLOSE, OPEN(Open) to the OPEN 3G network according to This parameter specifies the type of a 3G cell. A cell type canEnumeration be FrequencyType FDD(FDD), Division Duplex TDD(TDD) FDD, (FDD) TDD or Time Division Duplex (TD
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether to enable power control algorithm II or power controlEnumeration algorithm III Type PWR2(Power control PWR2,II), PWR3 PWR3(Power controlIII) Whether to allow MS power control Enumeration Type NO(No), YES(Yes) NO, YES Whether to allow BTS power control Enumeration Type NO(No), YES(Yes) NO, YES Minimum interval between two consecutive power control commands Interval Type 1~15 TCH:480~7200, step:480; SDCCH:4
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Whether power control algorithm II allows measurement report Enumeration compensation. Type NO(No), When YES(Yes) making NO, a power YES control decision, the BSC After the BSC delivers the power control command, it should wait Interval for aType certain 0~3 period before0~3 affirm the effect of the power contro Number of downlink measurement reports that the BSC predicts. Interval TheType BSC takes 0~3 a while to0~3 confirm the power control effect of a When the network receives measurement reports, in consideration Interval ofType the accuracy 1~20 of a single TCH:480~9600, measurementstep:480; report, the SDCCH:4 measur Number of measurement reports sampled for averaging downlink Interval signal Type strength. 1~20 A single measurement TCH:480~9600, report step:480; may not SDCCH:4 reflect When the network receives measurement reports, the measurement Interval Type values 1~20 in several straight TCH:480~9600, measurementstep:480; reports are SDCCH:4 filtered Number of measurement reports sampled for averaging downlink Interval signal Type quality. 1~20 A single measurement TCH:480~9600, report step:480; may notSDCCH:4 reflect th When the uplink receive level reaches the threshold, Huawei Interval II powerType control0~63 is performed. 0~63 (-110 dBm to -47 dBm) When the uplink receive level is below the threshold, Huawei Interval II powerType control0~63 is performed. 0~63 (-110 dBm to -47 dBm) The MS transmit power is decreased only when the quality level Interval of theType MS transmit 0~7 signal is0~7 smaller than the value of the param The MS transmit power is increased only when the quality level Interval of theType MS transmit 0~7 signal is 0~7 greater than the value of the parame Upper threshold for downlink signal strengthIf the downlink received Intervalsignal Type level 0~63 is greater than 0~63this threshold, a power decrease Lower threshold for downlink signal strengthIf the downlink received Intervalsignal Type level 0~63 is less than0~63 this threshold, a power increase is c Quality level threshold for decreasing downlink signal power. IfInterval the BTS Type transmits 0~7 signals at0~7 a quality level less than this thresho Quality level threshold for increasing downlink signal power. IfInterval the BTS Type transmits 0~7 signals at 0~7 a quality level greater than this thres Huawei power control algorithm II divides three quality zones Interval according Type to the0~30 quality of the 0~30 receive signals. When the power is d Huawei power control algorithm II divides three quality zones Interval according Type to the0~30 quality of the 0~30 receive signals. When the power is d Huawei power control algorithm II divides three quality zones Interval according Type to the0~30 quality of the 0~30 receive signals. When the power is d Step of upward power adjustment according to the quality of the Interval received Typesignals 0~32 0~32 Step of downward power adjustment according to the quality of Interval the received Type 0~4 signals 0~4 Step of upward power adjustment according to the quality of the Interval received Typesignals 0~32 0~32 In the case of power control, when the uplink receive quality isInterval not smaller Type than 0~7"UL Qual. Bad 0~7Trig Threshold", the actual "UL R In the case of power control, when the uplink receive quality isInterval not smaller Type than 0~63 "UL Qual. Bad 0~63 Trig Threshold", the actual "UL R During downlink power control, if the downlink receive quality Interval level is equal Type to0~7 or greater than 0~7 "DL Qual, bad Trig Threshold", "DL During downlink power control, if the downlink receive quality Interval level is equal Type to0~63 or greater than 0~63 "DL Qual, bad Trig Threshold", "DL
Parameter Description
Value Type
GUI Value Range
Actual Value Range
When the number of the lost measurement reports exceeds this Interval parameter Type during 1~255a power 1~255 control period, the power control stop Maximum number of discarded MRs allowed on the SDCCH in Interval a power Type control 0~5period 0~5 Maximum number of discarded MRs allowed on the TCH in aInterval power control Type period 0~10 0~10 Length of the exponential filter for downlink signal strength. A Interval single measurement Type 0~19 report may TCH:0~9120, not reflect the step:480; actual SDCCH:0~8 network situ Length of the exponential filter for downlink signal quality. A single Interval measurement Type 0~19report mayTCH:0~9120, not reflect thestep:480; actual network SDCCH:0~8 situat Length of the slide window filter for downlink signal strength. AInterval single Type measurement 1~20 report may TCH:480~9600, not reflect the step:480; actual network SDCCH:4 sit Length of the slide window filter for downlink signal quality. A single Intervalmeasurement Type 1~20 report may TCH:480~9600, not reflect the step:480; actual network SDCCH:4 situa When the network receives measurement reports, the measurement Interval Type values 0~19 in several straight TCH:0~9120, measurement step:480; reports SDCCH:0~8 are filtered
When the network receives measurement reports, the measurement Interval Type values 0~19 in several straight TCH:0~9120, measurement step:480; reports SDCCH:0~8 are filtered When the network receives measurement reports, the measurement Interval Type values 1~20 in several straight TCH:0~9120, measurement step:480; reports SDCCH:0~8 are filtered When the network receives measurement reports, the measurement Interval Type values 1~20 in several straight TCH:0~9120, measurement step:480; reports SDCCH:0~8 are filtered Upper receive level threshold for downlink power control. If the Interval downlink Type receive 0~63level is greater 0~63than this threshold, the power o Lower receive level threshold for downlink power control. If the Interval downlink Type receive 0~63level is smaller 0~63than this threshold, the power o Upper quality threshold for Huawei power control generation III Interval on a full Type rate 1~30 call. If the downlink 1~30receive quality level of a full rate Lower quality threshold for Huawei power control generation III Interval on a full Type rate call. 1~30If the downlink 1~30receive quality level of a full rate Upper quality threshold for Huawei power control generation III Interval on a half Type rate1~30 call. If the downlink 1~30 receive quality level of a half ra Lower quality threshold for Huawei power control generation III Interval on a half Type rate1~30 call. If the downlink 1~30 receive quality level of a half ra If the downlink receive quality level of an AMR full rate call is greater Interval than Typethis1~30 parameter, the 1~30 call needs to undergo Huawei pow If the downlink receive quality level of an AMR full rate call is smaller Interval than Typethis 1~30 parameter, the 1~30 call needs to undergo Huawei pow If the downlink receive quality level of an AMR half rate call is Interval greater Type than this 1~30 parameter, the 1~30 call needs to undergo Huawei pow If the downlink receive quality level of an AMR half rate call is Interval smaller Type than this 1~30 parameter, the 1~30 call needs to undergo Huawei pow When the uplink receive level reaches the threshold, Huawei Interval III powerType control0~63 is performed.0~63 When the uplink receive level is lower than the threshold, Huawei Interval III power Type control 0~63 is performed. 0~63 Current call is a full-rate call, and when the uplink receive quality Interval is greater Type than 1~30 the threshold, 1~30 Huawei III power control is perfor Current call is a full-rate call, and when the uplink receive quality Interval is lower Type than 1~30 the threshold,1~30 Huawei III power control is perform Current call is a half-rate call, and when the uplink receive quality Interval is greater Type than 1~30the threshold, 1~30Huawei III power control is perfo Current call is a half-rate call, and when the uplink receive quality Interval is lower Typethan 1~30 the threshold, 1~30 Huawei III power control is perform Current call is an AMR full-rate call, and when the uplink receive Interval quality Type is greater 1~30 than the threshold, 1~30 Huawei III power control is Current call is an AMR full-rate call, and when the uplink receive Interval quality Type is lower 1~30 than the threshold, 1~30 Huawei III power control is p Current call is an AMR half-rate call, and when the uplink receive Interval quality Type is greater 1~30 than the 1~30 threshold, Huawei III power control i Current call is an AMR half-rate call, and when the uplink receive Interval quality Type is lower 1~30than the threshold, 1~30 Huawei III power control is Step adjustment ratio of the receive level in the uplink power control Interval Type 0~10 0~10 Step adjustment ratio of the receive quality in the uplink powerInterval controlType 0~10 0~10 Percentage of signal strength in the factors by which to determine Interval theType downlink 0~10 power control 0~10 step Percentage of quality level in the factors by which to determine Interval the downlink Type 0~10 power control step 0~10 Maximum permissible adjustment step when the BSC decreases Interval the uplink Type transmit 1~30 power 1~30 Maximum permissible adjustment step when the BSC increases Interval the uplink Type transmit 1~30 power 1~30 Maximum step by which to decrease downlink power according Interval to signal Type strength 1~30 1~30 Maximum step by which to increase downlink power according Interval to signal Type strength 1~30 1~30
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Speech version supported by a cell Bit Field Type FULL_RATE_VER1, Full_rate_Ver1, FULL_RATE_VER2, Full_rate_Ver2, FULL_R Full_ Timeslot multiplexing mode at the Abis interface of the BTS. The Enumeration BTS supports Type MODE1_1, two multiplexing MODE2_1, MODE1_1, modes: MODE3_1, MODE2_1, statistical MODE4_1, multiplexing MODE3_1, MOD M o Whether to support the half-rate service in this cell. It is one ofEnumeration the cell reselection Type NO(No), parameters YES(Yes) NO,inYES system message 3. Type and function of the channelCombined BCCH+7TCHMainEnumeration BCCH+SDCCH/8+6TCHMain Type TCHFR(TCH Full TCHFR, BCCH+2SDCCH/8+5TCHMain Rate),TCHHR, TCHHR(TCH SDCCH8, Half MBCCH Rate),BC S Whether to allow the cell to dynamically change a channel from Enumeration full rate to half Type NO(No), rate or YES(Yes) from NO, half rate YESto full rate. If this parameter Whether to enable the cell to centralize two busy half rate TCHs Enumeration in differentType timeslots NO(No), into YES(Yes) one NO,timeslot YES through handover and the If the current channel seizure ratio reaches or exceeds this value, Interval the Type half-rate 0~100 TCH is assigned 0~100 preferentially; otherwise, the ful Whether to enable the BSC to assign AMR half rate channelsEnumeration preferentiallyType according OFF(Off),to ON(On) theOFF, channel ON types allowed by the MSC Load threshold for assigning half rate channels preferentially. Interval If the current Type TCH 0~99seizure ratio 0~99 of the cell is greater than this thres Whether to enable the BSC to assign half or full rate channelsEnumeration to MSs according Type NO(No), to theYES(Yes) channel NO, seizure YES ratio in the overlaid and Threshold for determining that the underlaid subcell is busy. The Interval BSCType assigns 0~100 channels in the 0~100 underlaid subcell to the MS in a c The BSC assigns channels in the overlaid subcell to the MS inInterval a concentric Type cell. 0~100 If the channel 0~100 seizure ratio of overlaid subcell is
Active coding set (ACS)[F], indicates a set of full-rate coding rates Bit Field currently Type available 4_75KBIT/S~0 for calls. 4_75KBIT/S, 5_15KBIT/S~1 The AMR 5_15KBIT/S, is a5_90KBIT/S~2 set of multiple 5_90KBIT 6_70 spee Active coding set (ACS)[H], indicates set of half-rate coding rates Bit Field currently Typeavailable 4_75KBIT/S~0 for calls. 4_75KBIT/S, 5_15KBIT/S~1 The AMR is5_15KBIT/S, a5_90KBIT/S~2 set of multiple 5_90KBIT 6_70 spee Active coding set (ACS)[WB], indicates a set of wide-band coding Bit Field ratesType currently 6_60KBIT/S, available8_85KBIT/S, for 0~7calls. The12_65KBIT/S AMR is a set of multiple Initial coding mode used for full rate AMR calls. The four values Interval 0, 1, 2, Type and 30~3 of this parameter 0~3 respectively represent the lowes Initial coding mode used for half rate AMR calls. The four values Interval 0, 1,Type 2, and 0~3 3 of this parameter 0~3 respectively represent the lowe Initial coding mode used for broadband AMR calls. The three Interval values 0, Type 1 and0~2 2 of this parameter 0~2 respectively represent the lowe Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~63 adjust the0~63 current speech coding rate accordin Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~63 adjust the0~63 current speech coding rate accordin Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~63 adjust the0~63 current speech coding rate accordin Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~15 adjust the0~15 current speech coding rate accordin Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~15 adjust the0~15 current speech coding rate accordin Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~15 adjust the0~15 current speech coding rate accordin Adjustment threshold 1 of AMR downlink coding rate (full rate). Interval According Typeto 0~63 a certain algorithm 0~63and the RQI in the call measure Adjustment threshold 2 of AMR downlink coding rate (full rate). Interval According Typeto 0~63 a certain algorithm 0~63and the RQI in the call measure Adjustment threshold 3 of AMR downlink coding rate (full rate). Interval The adjustment Type 0~63 thresholds and 0~63the hysteresis of coding rate mu Adjustment hysteresis 1 of AMR downlink coding rate (full rate). Interval According Type to0~15 a certain algorithm 0~15 and the radio quality indication Adjustment hysteresis 2 of AMR downlink coding rate (full rate). Interval According Type to0~15 a certain algorithm 0~15 and the radio quality indication Adjustment hysteresis 3 of AMR downlink coding rate (full rate). Interval According Type to0~15 a certain algorithm 0~15 and the radio quality indication Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~63 adjust the0~63 current speech coding rate accordin Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~63 adjust the0~63 current speech coding rate accordin Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~63 adjust the0~63 current speech coding rate accordin Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~15 adjust the0~15 current speech coding rate accordin Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~15 adjust the0~15 current speech coding rate accordin Based on the RQI in the call measurement report, the BTS and Interval MS automatically Type 0~15 adjust the0~15 current speech coding rate accordin Adjustment threshold 1 of AMR downlink coding rate (half rate). Interval According Type to0~63 a certain algorithm 0~63 and the RQI in the call measur Adjustment threshold 2 of AMR downlink coding rate (half rate). Interval According Type to0~63 a certain algorithm 0~63 and the RQI in the call measur Adjustment threshold 3 of AMR downlink coding rate (half rate). Interval According Type to0~63 a certain algorithm 0~63 and the RQI in the call measur Adjustment hysteresis 1 of AMR downlink coding rate (half rate). Interval According Type to 0~15 a certain algorithm 0~15 and the radio quality indication Adjustment hysteresis 2 of AMR downlink coding rate (half rate). Interval According Type to 0~15 a certain algorithm 0~15 and the radio quality indication Adjustment hysteresis 3 of AMR downlink coding rate (half rate). Interval According Type to 0~15 a certain algorithm 0~15 and the radio quality indication Whether to allow AMR handovers. This parameter has no impact Enumeration on dynamic Type NO(No), non-AMR YES(Yes) F-HNO, handovers. YES Whether to allow intra-cell handovers Enumeration Type NO(No), YES(Yes) NO, YES The triggering of intra-cell F-H handovers must meet the P/N Interval criteria, Type that is, 1~32 when the condition 0.5~16, for step:0.5 intra-cell F-H handovers is m The triggering of intra-cell F-H handovers must meet the P/N Interval criteria, Type that is, 1~32 when the condition 0.5~16, for step:0.5 intra-cell F-H handovers is m For an AMR call, if the currently occupied channel is a full rateInterval channel Type and the 0~39 Radio Quality 0~39 Indication (RQI) is always higher th For an AMR call, if the currently occupied channel is a half rate Interval channel Type and 0~39 the Radio Quality 0~39 Indication (RQI) is always lower th Within the preset time, no AMR FR-to-HR handover is allowedInterval if the previous Type 0~255 FR-to-HR handover 0~255 fails due to channel unavailab Upper threshold for uplink AMR signal strengthIf the uplink received IntervalAMR Typesignal 0~63 level is greater 0~63than this threshold, a power dec Lower threshold for uplink AMR signal strength.If the uplink received IntervalAMR Typesignal 0~63level is less 0~63 than this threshold, a power increa Upper threshold for downlink AMR signal strength.If the downlink Interval received Type AMR 0~63 signal level0~63 is greater than this threshold, a pow Lower threshold for downlink AMR signal strength.If the downlink Interval received Type AMR 0~63 signal level0~63 is less than this threshold, a power i Quality level threshold for decreasing the power of an uplink AMR Interval call.Type If the 0~7 MS transmits AMR 0~7 signals at a quality level less tha Quality level threshold for increasing the power of an uplink AMR Interval call.Type If the MS 0~7transmits AMR 0~7 signals at a quality level greater Quality level threshold for decreasing downlink AMR signal power. Interval If the Type BTS0~7 transmits AMR 0~7 signals at a quality level less than " Quality level threshold for increasing downlink AMR signal power. Interval If the Type BTS 0~7 transmits AMR0~7 signals at a quality level greater tha Phase tag for GSM protocols supported by the A interface. The Enumeration value of thisType GSM_PHASE_1, parameter is chosen GSM_PHASE_1, GSM_PHASE_2, according to GSM_PHASE_2, the GSM_PHASE_ A interface ph G Phase tag for GSM protocols that the Um interface supports Enumeration Type GSM_PHASE_1, GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2, GSM_PHASE_G
Phase tag for GSM protocols that the Abis interface supports Enumeration Type GSM_PHASE_1, GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2, GSM_PHASE_G
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Frequency hopping mode of the TRX that carries the BCCH Enumeration Type NO_Hop(No hop), NO_Hop, Hop(Hop) Hop Whether an MS uses the calculated value as the final receiveEnumeration level value. The Type NO(No), calculated YES(Yes) receive NO, YES level value is the measured rec This parameter specifies the frequency hopping mode of a cell. Enumeration When this parameter Type NO_FH(No is set frequency NO_FH, to "NO_FH", hopping), BaseBand_FH, all the BaseBand_FH(Bas TRXsRF_FH, of the cell Hyb Index of the frequency hopping data, used for a TRX to locateInterval the frequency Type 0~63 hopping sequence 0~63 Implementation mode of frequency hopping Enumeration Type BaseBand_FH(BaseBand BaseBand_FH, FH),RF_FH RF_FH(RF FH) If this parameter is set to ON, the channel on a single frequency Enumeration of an MA group Type OFF(Off), is allocated ON(On) OFF, to anON MS with the non-FH attribute. Frequency hopping mode of the TRX. Frequency hopping assists Enumeration in interference Type NO_FH(No averaging Frequency NO_FH, and frequency Hopping), BaseBand_FH, diversity.If BaseBand_FH(Ba RF_FH this param Hopping sequence number (HSN), indicating 64 types of frequency Intervalhopping Type 0~63 sequences. If this 0~63 parameter is set to 0, the frequen Coding mode in which an ARFCN is sent to an MS during an Enumeration assignment orType handover. CA_MA(CA+MA), If theCA_MA, parameter Frequency_List(Frequency Frequency_List, is set to CA_MA, OPTIMIZE an List), AR Whether to preferentially use the variable bitmap code when encoding Enumeration the FH Type NO(No), frequency YES(Yes) in NO, the assignment YES or handover comma Frequency hopping index of the channel in the TRX Interval Type 0~63,255 0~63, 255 List of IDs of carriers for frequency hopping. String Type None 1~120 characters Mobile allocation index offset (MAIO) of the channel in the TRX Interval Type 0~63 0~63 The TSC is short for the Training Sequence Code.The TSC must Interval be the Type same 0~7 as the BCC.0~7 The delay equalization is performed
Parameter Description
Value Type
GUI Value Range
Actual Value Range
Protocol type of the trunk frame Enumeration Type Q933(Q933), ANSI(Ansi) Q933, ANSI ID of the data link connection of the NSVC. It is an interworking Interval parameter Type which 16~1007 must be consistent 16~1007 on the BSC and the peer. Subnet protocol type Enumeration Type GB_OVER_FR(Gb GB_OVER_FR, over FR), GB_OVER_IP(Gb GB_OVER_IP ove Configuration mode of the IP subnetwork. Static configuration:Enumeration fixed local NSVL Type STATIC(Static), and remoteSTATIC, NSVL DYNAMIC(Dynamic) parameters DYNAMIC through manual c Server IP address used on the SGSN side in the IP subnet dynamic IP Address configuration Type None procedure 0.0.0.0~255.255.255.255 Identifies a unique NSE Interval Type 0~65534 0~65534 Timeslot power attenuation level of the EDGE TRX in 8PSK. The Interval attenuation Type 0~50 level ranges from 0~500 to 50, each of which correspon Default coding scheme of the uplink GPRS link. If the uplink adopts Enumeration the dynamic Type CS1(CS1), adjustment CS2(CS2), CS1, coding CS2, CS3(CS3), scheme, CS3, CS4 this CS4(CS4) parameter can Coding scheme of the default GPRS downlink. Dynamic adjustment Enumeration coding:Type CS1(CS1), the coding scheme CS2(CS2), CS1,used CS2, CS3(CS3), during CS3, CS4 initial CS4(CS4) access transm Adjustment mode of the uplink GPRS link coding scheme. If the Enumeration fixed coding Type CS1(CS1), scheme is CS2(CS2), used, CS1, this CS2, parameter CS3(CS3), CS3, CS4, isCS4(CS4), a value UNFIXED ranging UNF Adjustment mode of the downlink GPRS link coding scheme. Enumeration If the fixed coding Type CS1(CS1), schemeCS2(CS2), is used, CS1, CS2, this CS3(CS3), parameter CS3, CS4, CS4(CS4), isUNFIXED set to a value UNF Retransmission threshold when the coding mode of the uplinkInterval TBF is Type changed 0~64 from CS1 to0~64 CS2. When the retransmission rate Retransmission threshold when the coding mode of the uplinkInterval TBF is Type changed 0~64 from CS2 to0~64 CS3. When the retransmission rate Retransmission threshold when the coding mode of the uplinkInterval TBF is Type changed 0~64 from CS3 to0~64 CS4. When the retransmission rate Retransmission threshold when the coding mode of the uplinkInterval TBF is Type changed 0~64 from CS2 to0~64 CS1. When the retransmission rate Retransmission threshold when the coding mode of the uplinkInterval TBF is Type changed 0~64 from CS3 to0~64 CS2. When the retransmission rate Retransmission threshold when the coding mode of the uplinkInterval TBF is Type changed 0~64 from CS4 to0~64 CS3. When the retransmission rate Retransmission threshold when the coding mode of the downlink Interval TBFType is changed 0~64 from CS10~64 to CS2. When the TBF retransmiss Retransmission threshold when the coding mode of the TBF is Interval changed Type from0~64 CS2 to CS3. When 0~64 the downlink TBF retransmiss Retransmission threshold when the coding mode of the downlink Interval TBFType is changed 0~64 from CS30~64 to CS4. When the downlink TBF ret Retransmission threshold when the coding mode of the downlink Interval TBFType is changed 0~64 from CS20~64 to CS1. When the downlink TBF ret Retransmission threshold when the coding mode of the TBF is Interval changed Type from0~64 CS3 to CS2. When 0~64 the TBF retransmission rate is Retransmission threshold when the coding mode of the downlink Interval TBFType is changed 0~64 from CS40~64 to CS3. When the downlink TBF Re Default coding scheme of the uplink EDGE link. If the uplink adopts Enumeration the dynamic Type MCS1(MCS1), adjustmentMCS1, MCS2(MCS2), codingMCS2, scheme, MCS3, MCS3(MCS3), this parameter MCS4, MCS5 MCS can
Default coding scheme of the downlink EDGE link. If the downlink Enumeration adopts the Type MCS1(MCS1), dynamic adjustment MCS1, MCS2(MCS2), coding MCS2, scheme, MCS3, MCS3(MCS3), MCS4, this paramet MCS5 MCS Coding scheme of the uplink EDGE link. If the uplink uses theEnumeration fixed coding Type scheme, MCS1(MCS1), this parameter MCS1, MCS2(MCS2), MCS2, is set to MCS3, MCS3(MCS3), a value MCS4, ranging MCS5 MCS from Coding scheme of the downlink EDGE link. If the downlink uses Enumeration the fixed coding Type MCS1(MCS1), scheme, this MCS1, MCS2(MCS2), parameter MCS2,isMCS3, MCS3(MCS3), set to MCS4, a value MCS5 rangin MCS Average period for sending the measurement report over the Interval EGPRSType channel 0~10 0~10 EGPRS priority type of the channelIf this parameter is set to GPRS, Enumeration the EDGE Type GPRS(GPRS MSs cannotChannel), GPRS, use thisEGPRSNORCH, channel.If EGPRSNORCH(EGPRS this parameter EGPRSPRI isN Switch specifying whether to allow the downlink EGPRS TBF Enumeration and the uplinkType GPRS OPEN(Open), TBF to share OPEN, CLOSE(Close) the CLOSE same channel. On: allow th Maximum value of the PDCH ratio in a cell. The number of available Interval TCHs Type and 0~100 PDCHs in a0~100 cell is set to a fixed value. The PDC PDCH uplink multiplex threshold, indicating the maximum TBFs Interval on the Type uplink10~70 PDCH (parameter 10~70value/10). PDCH downlink multiplex threshold, Indicating the maximum TBFs Interval onType the downlink 10~160PDCH (parameter 10~160 value/10). Uplink multiplex threshold of dynamic channel conversion. When Interval the subscriber Type 10~70 number on10~70 the channel reaches the value (thres Downlink multiplex threshold of dynamic channel conversion. Interval When the Type subscriber 10~80 number 10~80 on the channel reaches the value (th Mode of preempting the dynamic channel for the CS domain and Enumeration PS domain. Type LEVEL0(Preempt Only the channel LEVEL0, all configured dynamic LEVEL1, TCHFs), in the LEVEL2 TCH/F LEVEL1(No mode c Number of full-rate TCHs reserved for the CS domain. This parameter Interval Type is valid 0~8 only when "Level 0~8 of Preempting Dynamic Channe This parameter is related to the paging channel of the system.Enumeration There are three Type NMOI(Network network operation NMOI, Operation modes: NMOII, Mode network NMOIII I), NMOII(Network operation mo T3168 is used to set the maximum duration for the MS to waitEnumeration for the uplinkType assignment 500ms(500ms), message. 500ms, 1000ms(1000ms), After 1000ms, the MS 1500ms, 1500ms(1500m originates 2000ms, the u2 Duration of releasing the TBF after the MS receives the last data Enumeration block. When Type 0ms(0ms), the MS receives 80ms(80ms), 0ms,the 80ms, RLC 120ms(120ms), 120ms, data block 160ms, containing 160ms(16 200ms,th Whether to support the 11-bit EGPRS access request Enumeration Type NO(NO), YES(YES) NO, YES Access pulse type of the PRACH, uplink PTCCH and packet control Enumeration acknowledge Type 8BIT(8BIT), message 11BIT(11BIT) 8BIT, of the11BIT MS.8bit: 8 bit pulse access m Access priority of the MS that is allowed to access the cell. The Enumeration MS sends the Type 0(No packet packet channel access), 0, 3, request 4, 3(Packet 5, 6containing access theof2-bit levelradio 1), 4 Whether to support USF granularity 4 Enumeration Type NOTSUPPORT(Not NOTSUPPORT, Support), SUPPORT(Support) SUPPORT It is applicable to the radio transmission environment to improve Enumeration the link quality. Type IR(IR), LinkLA(LA) adaptation IR, LA (LA) indicates adjusting the cod Whether to support the paging function of the CS domain of the Enumeration A interface.Type Yes: NO(NO), the MS YES(YES) can NO, beYES called upon paging request on This parameter specifies whether to receive the CS paging request Enumeration from A Type interface CLOSE(Close), when the CLOSE, OPEN(Open) MS uses OPEN a PS service. This param Minimum bandwidth of the POC service (push to talk over cellular). IntervalThe Type transmission 6~120 delay6~120 of the POC service must be relativel Maximum bandwidth of the POC service (push to talk over cellular). IntervalThe Type transmission 6~120 delay6~120 of the POC service must be relative Maximum transmission delay of the POC service (push to talkInterval over cellular). Type 250~650 The transmission 250~650 delay of the POC service must be Obtains the QoS parameter from the Aggregate BSS QoS Profile Enumeration (ABQP) of Type NO(Not packet flow Support), context NO,YES(Support) YES (PFC) when the MS and the ne Whether to support QoC optimization. The GSN equipment for Enumeration the GPRS provides Type NO(Notflexible Support), QoS NO,YES(Support) YES mechanisms for different subsc Expected signal receiving strength on the BTS side when GPRS Interval dynamic Typepower 0~31control is implemented 0~31 It is used to perform open loop power control. Alpha parameter Enumeration is used by the Type 0(0.0), MS to1(0.1), calculate 2(0.2), 0, 1, the 2,output 3(0.3), 3, 4, 5,power 4(0.4), 6, 7, 8, PCH 5(0.5), 9, 10 of 6(0.6), the uplin 7 Maximum transmit power level of MSs. As one of the cell reselection Interval parameters Type 0~19in system 0~19 message 3, this parameter is used t Channel used for the measured receiving power. It is used to Enumeration set the measured Type BCCH(BCCH), receiving power BCCH, PDCH(PDCH) level PDCH of the channel and control Network control mode for cell reselection of the MS. There areEnumeration three modes. Type NC0(NC0), NC0: normal NC1(NC1), MS NC0, control. NC1, NC2(NC2) The NC2MS shall perform aut Whether to support the network assisted cell change (NACC).Enumeration The NACC isType NO(No), used in the YES(Yes) network NO, YES control modes NC0, NC1 or NC Whether to support the network control 2 (NC2). The NC2 enables Enumeration the network Type NO(No), side toYES(Yes) control NO,the YES cell reselection for the MS wh Number of the cabinet group where the idle timeslot is located. Interval Type 0~2 0~2 Number of idle timeslots. You can configure up to 128 idle timeslots Intervalfor Type the BTS 0~512 at a time. A0~512 BTS can be configured with up to 5 Whether to send the Dummy message during the deactivatedEnumeration period of theType extended SEND(SEND), uplinkSEND, NOTSEND(NOTSEND) TBF NOTSEND This parameter specifies whether to support the takeover of the Enumeration packet immediate Type NO(Not assignment Support), NO,YES(Support) by YES the BTS. It is relative to the up Whether to support the function of moving the packet assignment Enumeration down to the Type NO(Not BTS. Support), To improve NO,YES(Support) YES the access speed of the MS, a Delay of releasing the downlink TBF. After the last downlink RLC Interval dataType block 0~5000 is transmitted on 0~5000 the network side and all the transm Delay of releasing the non-extended uplink TBF. After receiving Interval the last Type uplink 0~300 RLC data block 0~300 (CountValue=0), the network side Maximum value of the N3101 counter. In the dynamic uplink allocation Interval Type mode,8~30 the network side 8~30enables multiple MSs to share th Maximum value of the N3101 counter. When the uplink transmission Interval Type ends, if2~5 the network side 2~5receives the last RLC data block, Maximum value of the N3105 counter. After the downlink TBFInterval is set up Type successfully, 3~10 the N3105 3~10is started on the network side. A Inactive period of extended uplink TBF. After the network sideInterval receives Type the last 0~5000 uplink RLC 0~5000 data block (CountValue=0) of the MS Whether to preempt the channels carrying the CS service when Enumeration the channels Type NO(NO), for the PS YES(YES) service NO, YES are insufficient "Level of Preem
Time to wait for releasing the dynamic channel after the TBF on Interval the dynamic Type 10~3600 channel is released. 10~3600 When all the TBFs on the cha Mode of preempting the dynamic channel for the CS domain and Enumeration PS domain. Type LEVEL0(Preempt Only the channel LEVEL0, all configured dynamic LEVEL1, TCHFs), in the LEVEL2 TCH/F LEVEL1(No mode c Maximum number of PDCHs that can be assigned in the TRXInterval Type 0~8 0~8 Conversion policy of the dynamic channel of the concentric cell Enumeration Type CONVERT0(Only CONVERT0, convert atCONVERT1, UL), CONVERT1(Only CONVER
To be updated by project Unit
Default value
Recommended value
Supported in Release from
Project value
None None None None None None
None None None None None None
None None None None None None
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None None None ms min
YES YES Versions earlier than BSC6900 V900R011 1 Compounding 1 Compounding CCCH CCCH Versions earlier than BSC6900 V900R011 1 1 Versions earlier than BSC6900 V900R011 2_M_PERIOD 2_M_PERIOD Versions earlier than BSC6900 V900R011 20 20 Versions earlier than BSC6900 V900R011
Unit
Default value
None None dBm dBm ms ms None None None None None None
4_Times 4_Times Versions earlier than BSC6900 V900R011 TX_32 TX_32 Versions earlier than BSC6900 V900R011 -109 -109 Versions earlier than BSC6900 V900R011 -109 -109 Versions earlier than BSC6900 V900R011 52_Times 52_Times Versions earlier than BSC6900 V900R011 32 32 Versions earlier than BSC6900 V900R011 SELECTION0_PERM-1&SELECTION1_PERM-1&SELECTION2_PERM-1&SELECTION3_PERM-1&SELECTION4_P SELECTION0_PERM-1&SELECTION1_PERM-1&SELECTION2_PERM-1&SELECTION3_PERM-1&SELE Versions earlier than BSC6900 V900R011 L0_FORBID-0&L1_FORBID-0&L2_FORBID-0&L3_FORBID-0&L4_FORBID-0&L5_FORBID-0&L6_FORBID-0&L7_FO L0_FORBID-0&L1_FORBID-0&L2_FORBID-0&L3_FORBID-0&L4_FORBID-0&L5_FORBID-0&L6_FORBID Versions earlier than BSC6900 V900R011 L11_FORBID-0&L12_FORBID-0&L13_FORBID-0&L14_FORBID-0&L15_FORBID-0 L11_FORBID-0&L12_FORBID-0&L13_FORBID-0&L14_FORBID-0&L15_FORBID-0 Versions earlier than BSC6900 V900R011 0 If the traffic volume Versions on each frequency earlier than band BSC6900 is evenV900R011 and there is no special requirements for the frequency b YES 1. For a 900/1800 MHz Versions Co-BCCH earliercell, than it is BSC6900 recommended V900R011 that this parameter be set to Yes. NO NO Versions earlier than BSC6900 V900R011
Project notes
To be updated by project Project value
Project notes
To be updated by project Recommended value
Supported in Release from
Project value
Project notes
To be updated by project Unit
Default value
Recommended value
Supported in Release from
Project value
dB None None None dB
8 5 NO NO 0
8 Versions earlier than BSC6900 V900R011 5 Versions earlier than BSC6900 V900R011 The CBA function applies Versions to special earlier than scenarios. BSC6900 If this V900R011 parameter is set to YES and "Cell Bar Qualify" is set to NO Versions earlier than BSC6900 V900R011 0 Versions earlier than BSC6900 V900R011
Project notes
None s None dB None None None None None dB dB
0 0 0 0 YES YES 6dB 6dB 15 15 15 15 15 15 Use_Qsearch_I Use_Qsearch_I NO NO 8 8 0 0
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Supported in Release from
To be updated by project
None None None None None per cent per cent dB None ms None None None None None None None None None ms None None None None ms None None
Recommended value
Project value
Project notes
YES NO NO
If this parameter is set Versions to NO,earlier the average than BSC6900 call dropV900R011 rate decreases. This setting is applicable in suburbs or u NO Versions earlier than BSC6900 V900R011 Yes: when the Transmission Versions Mode earlierofthan the BSC6900 BTS is Satellite V900R011 transmissionNo: when the Transmission Mode of t YES YES Versions earlier than BSC6900 V900R011 DISABLE DISABLE Versions earlier than BSC6900 V900R011 90 90 Versions earlier than BSC6900 V900R011 85 85 Versions earlier than BSC6900 V900R011 16 16 Versions earlier than BSC6900 V900R011 30 30 Versions earlier than BSC6900 V900R011 7 7 Versions earlier than BSC6900 V900R011 YES YES Versions earlier than BSC6900 V900R011 Normal_cell Normal_cell Versions earlier than BSC6900 V900R011 62 In Normal cell,the recommended Versions earlier value thanisBSC6900 62;in Double V900R011 Timeslot Extension Cell,the recommended value is 2 110 110 Versions earlier than BSC6900 V900R011 105 105 Versions earlier than BSC6900 V900R011 98 98 Versions earlier than BSC6900 V900R011 92 92 Versions earlier than BSC6900 V900R011 87 87 Versions earlier than BSC6900 V900R011 85 85 Versions earlier than BSC6900 V900R011 20 20 Versions earlier than BSC6900 V900R011 Shall_Use Shall_Use Versions earlier than BSC6900 V900R011 Shall_Use Shall_Use Versions earlier than BSC6900 V900R011 YES YES Versions earlier than BSC6900 V900R011 YES YES Versions earlier than BSC6900 V900R011 12 When the transmission Versions quality earlier is good, thanthe BSC6900 recommended V900R011 settings are as follows: "Ring II Wait Time Before 3 When the transmission Versions quality earlier is good, thanthe BSC6900 recommended V900R011 settings are as follows: "Ring II Wait Time Before OFF OFF Versions earlier than BSC6900 V900R011
To be updated by project Unit
Default value
Recommended value
Supported in Release from
Project value
None
NO
NO
Versions earlier than BSC6900 V900R011
Project notes
None None
50 8
50 8
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None bit
YES 255
YES 255
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None None None None None None None None None None None None None None
YES 60 50 49 48 47 46 45 44 43 42 41 40 5
YES 60 50 49 48 47 46 45 44 43 42 41 40 5
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None None None None None None None None None None dB
NO 10 10 10 10 10 10 10 10 0 10
In dual-band networking Versions mode earlier for densely than BSC6900 populated V900R011 urban areas, the level drops rapidly due to multiple bar 10 Versions earlier than BSC6900 V900R011 10 Versions earlier than BSC6900 V900R011 10 Versions earlier than BSC6900 V900R011 10 Versions earlier than BSC6900 V900R011 10 Versions earlier than BSC6900 V900R011 10 Versions earlier than BSC6900 V900R011 10 Versions earlier than BSC6900 V900R011 10 Versions earlier than BSC6900 V900R011 0 Versions earlier than BSC6900 V900R011 10 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None None
YES 55
YES 55
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
To be updated by project Project value
Project notes
To be updated by project Project value
Project notes
To be updated by project Project value
Project notes
To be updated by project Project value
Project notes
None None None None None dB
55 60 60 55 55 69
55 60 60 55 55 69
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
To be updated by project Unit
Default value
Recommended value
Supported in Release from
Project value
None None per cent dB dB dB None None s dB per cent per cent None s dB s dB s s per cent
NO YES 80 10 2 30 NO NO 10 5 50 90 YES 5 5 1 25 4 5 20
NO YES 80 10 2 30 NO NO 10 5 50 90 YES 5 5 1 25 4 5 20
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None None None per cent dB s dB
NO 10 90 80 25 10 5
NO 10 90 80 25 10 5
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Project notes
To be updated by project Project value
Project notes
To be updated by project Unit
Default value
Recommended value
Supported in Release from
Project value
None dB
YES 10
YES Versions earlier than BSC6900 V900R011 The typical configurations Versions of this earlier parameter than BSC6900 are as follows:25: V900R011 urban areas with PBGT handover disabled20:
Project notes
dB s s s s s s dB
20 1 6 1 4 6 4 4
The recommended Versions value is 20 earlier whenthan HUAWEI BSC6900 I Handover V900R011 is used.The recommended value is 15 when HUA 1 Versions earlier than BSC6900 V900R011 6 Versions earlier than BSC6900 V900R011 1 Versions earlier than BSC6900 V900R011 4 Versions earlier than BSC6900 V900R011 6 Versions earlier than BSC6900 V900R011 4 Versions earlier than BSC6900 V900R011 In densely populated Versions urban areas, earlierthe than recommended BSC6900 V900R011 value is 4; in the suburbs, the recommended value is 8
Unit
Default value
Recommended value
None None None s
NO 3 2 15
Set this parameter to Versions YES only earlier in special than BSC6900 scenariosV900R011 such as highways. 3 Versions earlier than BSC6900 V900R011 2 Versions earlier than BSC6900 V900R011 15 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None s s dB dB dB
YES 6 4 25 2 67
YES 6 4 25 2 67
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None s s dB
YES 6 4 68
YES Versions earlier than BSC6900 V900R011 6 Versions earlier than BSC6900 V900R011 4 Versions earlier than BSC6900 V900R011 In densely populated Versions urban areas, earlierthe than recommended BSC6900 V900R011 value is 68; in the suburbs, the recommended value is
To be updated by project Supported in Release from
Project value
Project notes
To be updated by project Project value
Project notes
To be updated by project Project value
Project notes
To be updated by project Unit
Default value
Recommended value
Supported in Release from
Project value
None None None None None None dB dB None
NO YES YES YES NO NO 30 5 60
NO YES YES YES NO NO 30 5 60
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Project notes
bit bit s s
63 0 10 8
63 0 10 8
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
ON NO YES YES YES NO NO 60 63 0 10 8 20 35 NO 5 5 20 70 80 5 5 10 2
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None bit None dB bit None None
NO 0 SysOpt 35 63 SysOpt Usubcell
NO Versions earlier than BSC6900 V900R011 0: normal cells, 63: Versions Dual-timeslot earlier extended than BSC6900 cells V900R011 SysOpt Versions earlier than BSC6900 V900R011 35 Versions earlier than BSC6900 V900R011 63 Versions earlier than BSC6900 V900R011 SysOpt Versions earlier than BSC6900 V900R011 Usubcell Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
To be updated by project
None ON None NO NO, YESNone None YES None YES None NO None NO None 60 bit 63 bit 0 s 10 s 8 dB 20 dB 35 None NO s 5 dB 5 per cent 20 per cent 70 per cent 80 s 5 dB 5 dB 10 dB 2
Project value
Project notes
To be updated by project Project value
Project notes
To be updated by project Supported in Release from
Project value
Project notes
None None s s None None None per cent
NO YES 10 8 25 12 ON 55
In the hot-spot areas, Versions denselyearlier populated than urban BSC6900 areas, V900R011 urban areas, suburbs, and rural areas, the recommen YES Versions earlier than BSC6900 V900R011 10 Versions earlier than BSC6900 V900R011 8 Versions earlier than BSC6900 V900R011 25 Versions earlier than BSC6900 V900R011 12 Versions earlier than BSC6900 V900R011 ON Versions earlier than BSC6900 V900R011 55 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
None None None None None per cent None None per cent None None dB dB dB dB dB None None None None None dB None None s dB s dB None per cent None None
90 90 100 100 90 90 100 100 80 80 60 60 OFF OFF 10 10 110 110 10 10 90 90 91 91 25 25 30 30 49 49 25 25 NO NO YES YES NO NO NO NO Pre_2G_CellThres Pre_2G_CellThres 25 25 NO NO RSCP RSCP 8 8 50 50 10 10 35 35 NO NO 80 80 CLOSE CLOSE None None
To be updated by project Supported in Release from
Project value
Project notes
BSC6900 V900R011 BSC6900 V900R011 BSC6900 V900R011 BSC6900 V900R011 BSC6900 V900R011 Versions earlier than BSC6900 V900R011 BSC6900 V900R011 BSC6900 V900R011 BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 BSC6900 V900R011 Versions earlier than BSC6900 V900R011 BSC6900 V900R011 BSC6900 V900R011 BSC6900 V900R011 BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
To be updated by project
Unit
Default value
Recommended value
Supported in Release from
Project value
None None None ms
PWR3 YES YES 3
PWR3 YES YES 3
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Project notes
To be updated by project Unit
Default value
Recommended value
Supported in Release from
Project value
None None None ms ms ms ms dB dB None None dB dB None None dB dB dB dB dB dB None dB None dB
YES 0 0 5 5 5 5 30 18 0 3 45 28 0 2 2 0 0 8 2 8 3 5 2 10
YES 0 0 5 5 5 5 30 18 0 3 45 28 0 2 2 0 0 8 2 8 3 5 2 10
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None None None ms ms ms ms ms
5 1 3 3 3 1 1 3
5 1 3 3 3 1 1 3
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Project notes
To be updated by project Project value
Project notes
ms ms ms dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB None None None None dB dB dB dB
3 1 1 20 20 16 16 18 18 14 14 16 16 18 18 16 16 18 18 14 14 16 16 3 6 3 6 6 8 4 8
3 1 1 20 20 16 16 18 18 14 14 16 16 18 18 16 16 18 18 14 14 16 16 3 6 3 6 6 8 4 8
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None None None None None None per cent None per cent None per cent per cent
FULL_RATE_VER1-1&FULL_RATE_VER2-1&FULL_RATE_VER3-0&HALF_RATE_VER1-1&HALF_RATE_VER2-0& FULL_RATE_VER1-1&FULL_RATE_VER2-1&FULL_RATE_VER3-0&HALF_RATE_VER1-1&HALF_RATE Versions earlier than BSC6900 V900R011 MODE4_1MODE4_1 Versions earlier than BSC6900 V900R011 NO NO Versions earlier than BSC6900 V900R011 TCHFR TCHFR Versions earlier than BSC6900 V900R011 NO NO Versions earlier than BSC6900 V900R011 YES None Versions earlier than BSC6900 V900R011 60 60 Versions earlier than BSC6900 V900R011 ON ON Versions earlier than BSC6900 V900R011 55 55 Versions earlier than BSC6900 V900R011 YES YES Versions earlier than BSC6900 V900R011 60 60 Versions earlier than BSC6900 V900R011 70 70 Versions earlier than BSC6900 V900R011
To be updated by project Project value
Project notes
None None None None None None dB dB dB None None None dB dB dB None None None dB dB dB None None None dB dB dB None None None None None s s None None s dB dB dB dB None None None None None None
4_75KBIT/S-1&5_15KBIT/S-0&5_90KBIT/S-1&6_70KBIT/S-0&7_40KBIT/S-1&7_95KBIT/S-0&10_2KBIT/S-0&12_2KB 4_75KBIT/S-1&5_15KBIT/S-0&5_90KBIT/S-1&6_70KBIT/S-0&7_40KBIT/S-1&7_95KBIT/S-0&10_2KBIT/SVersions earlier than BSC6900 V900R011 4_75KBIT/S-1&5_15KBIT/S-0&5_90KBIT/S-1&6_70KBIT/S-0&7_40KBIT/S-1&7_95KBIT/S-0 4_75KBIT/S-1&5_15KBIT/S-0&5_90KBIT/S-1&6_70KBIT/S-0&7_40KBIT/S-1&7_95KBIT/S-0 Versions earlier than BSC6900 V900R011 6_60KBIT/S-1&8_85KBIT/S-1&12_65KBIT/S-1 6_60KBIT/S-1&8_85KBIT/S-1&12_65KBIT/S-1 Versions earlier than BSC6900 V900R011 1 1 Versions earlier than BSC6900 V900R011 0 0 Versions earlier than BSC6900 V900R011 2 2 BSC6900 V900R011 15 15 Versions earlier than BSC6900 V900R011 19 19 Versions earlier than BSC6900 V900R011 28 28 Versions earlier than BSC6900 V900R011 2 2 Versions earlier than BSC6900 V900R011 3 3 Versions earlier than BSC6900 V900R011 3 3 Versions earlier than BSC6900 V900R011 12 12 Versions earlier than BSC6900 V900R011 17 17 Versions earlier than BSC6900 V900R011 25 25 Versions earlier than BSC6900 V900R011 2 2 Versions earlier than BSC6900 V900R011 3 3 Versions earlier than BSC6900 V900R011 3 3 Versions earlier than BSC6900 V900R011 23 23 Versions earlier than BSC6900 V900R011 31 31 Versions earlier than BSC6900 V900R011 63 63 Versions earlier than BSC6900 V900R011 3 3 Versions earlier than BSC6900 V900R011 4 4 Versions earlier than BSC6900 V900R011 15 15 Versions earlier than BSC6900 V900R011 23 23 Versions earlier than BSC6900 V900R011 31 31 Versions earlier than BSC6900 V900R011 63 63 Versions earlier than BSC6900 V900R011 3 3 Versions earlier than BSC6900 V900R011 4 4 Versions earlier than BSC6900 V900R011 15 15 Versions earlier than BSC6900 V900R011 YES YES Versions earlier than BSC6900 V900R011 NO In the hot-spot areas, Versions denselyearlier populated than urban BSC6900 areas, V900R011 urban areas, suburbs, and rural areas, the recommen 10 10 Versions earlier than BSC6900 V900R011 8 8 Versions earlier than BSC6900 V900R011 25 25 Versions earlier than BSC6900 V900R011 12 12 Versions earlier than BSC6900 V900R011 10 10 Versions earlier than BSC6900 V900R011 30 30 Versions earlier than BSC6900 V900R011 18 18 Versions earlier than BSC6900 V900R011 33 33 Versions earlier than BSC6900 V900R011 25 25 Versions earlier than BSC6900 V900R011 0 0 Versions earlier than BSC6900 V900R011 3 3 Versions earlier than BSC6900 V900R011 0 0 Versions earlier than BSC6900 V900R011 3 3 Versions earlier than BSC6900 V900R011 GSM_PHASE_2 GSM_PHASE_2 is recommended Versions earlierinthan common BSC6900 scenarios. V900R011 If AMR services, inter-RAT handover, eMLPP, or A GSM_PHASE_2 It is recommended that Versions the value earlier of than this parameter BSC6900 is V900R011 the same as that for "A Interface Tag".
None
GSM_PHASE_2 It is recommended that Versions the value earlier of than this parameter BSC6900 is V900R011 the same as that for "A Interface Tag".
Unit
Default value
Recommended value
Supported in Release from
None None None None None None None None None None None None None None
None YES NO_FH None None OFF NO_FH 0 CA_MA YES 255 None None None
None YES NO_FH None None OFF NO_FH 0 CA_MA YES 255 None None None
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Unit
Default value
Recommended value
Supported in Release from
None None None None None None None None None None None per cent per cent per cent per cent per cent per cent per cent per cent per cent per cent per cent per cent None
Q933 Q933 None None None None None None None None None None 0 0 CS1 CS1 CS2 CS2 UNFIXED UNFIXED UNFIXED UNFIXED 5 5 2 2 2 2 10 10 5 5 5 5 5 5 2 2 2 2 10 10 5 5 5 5 MCS2 MCS2
To be updated by project Project value
Project notes
To be updated by project Project value
Project notes
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
None None None None None None per cent None None None None None None None ms ms None None None None None None None None None None None None None None None None None None None None None None None None ms ms None None None ms None
MCS6 MCS6 UNFIXED UNFIXED UNFIXED UNFIXED 5 5 NONGPRSNONGPRS OPEN OPEN 30 30 70 70 80 80 20 20 20 20 LEVEL0 LEVEL0 2 2 NMOII NMOII 500ms 500ms 500ms 500ms YES YES 8BIT 8BIT 6 6 NOTSUPPORT NOTSUPPORT IR IR YES YES CLOSE CLOSE 6 6 16 16 650 650 NO NO NO NO 12 12 6 6 5 5 PDCH PDCH NC0 NC0 NO None NO None None None None None SEND SEND NO NO NO NO 2400 2400 120 120 20 20 3 3 10 10 2000 2000 NO NO
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
s None None None
20 20 LEVEL0 LEVEL0 8 8 CONVERT0 CONVERT0
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011