2g huawei recommended parameters

Introduction

This document defines and describes the NSN recommended relevant Huawei 2G parameters used for service projects globally.

Sheet:

Parameters 2G Huawei

1.3 Scope

Ref 1

1.4 Revision history

v 1.0

1.1 Purpose

1.2 Sheet description

This document defines and describes the NSN recommended relevant Huawei 2G parameters used for service projects globally.

Description:

Huawei GBSS9.0 release (BSC6900 V900R011)

First version of Huawei 2G recommended relevant parameters documentation issued.

Sheet contains NSN recommended Huawei parameters to be evaluated, relevant, and potentially adjusted with an NSN recommended parameter setting.

Notes:

Projects:

Rev. date: Author: Document owner:

April 30, 2010 Christos Kyriazopoulos Ville Salomaa

Nokia Siemens NetworksGS Managed Services/Capability Management

Relevant Huawei Parameters

2G

Cell Parameters - Basic

Parameter ref ID Vendor Parameter name NE

MCC MCC BSC6900

MNC MNC BSC6900

LAC Cell LAC BSC6900

CI Cell CI BSC6900

NCC NCC BSC6900

BCC BCC BSC6900

Cell Parameters - Idle Mode


ATT Attach-detach Allowed BSC6900

CCH Conf

BSAGBLKSRES CCCH Blocks Reserved for A BSC6900

BSPAMFRAMS Multi-Frames in a Cycle on the BSC6900

T3212 T3212 BSC6900

Cell Parameters - Call Control


MSMAXRETRAN MS MAX Retrans BSC6900

TX TX-integer BSC6900

RACHACCLEV CS RACH Min. Access Level BSC6900

PSRACHACCLEV PS RACH Min. Access Level BSC6900

RLT Radio Link Timeout BSC6900

SAMULFRM SACCH Multi-Frames BSC6900

NCCPERMIT NCC Permitted BSC6900

COMMACC Common Access Control ClassBSC6900

SPECACC Special Access Control Class BSC6900

MBR Multi-band report BSC6900

ECSC ECSC BSC6900

ERGCALLDIS Emergent Call Disable BSC6900

Cell Parameters - Selection/Reselection


RXMIN Minum Access RXLEV BSC6900

FMSMAXOPCC MS_TXPWR_MAX_CCH BSC6900

CBA Cell Bar Access BSC6900

CBQ Cell Bar Qualify BSC6900

CRO Cell Reselect Offset BSC6900

TO Cell Reselect Temporary OffsetBSC6900

PT Cell Reselect Penalty Time BSC6900

PI Cell Reselect Parameters IndicaBSC6900

CRH Cell Reselect Hysteresis ParamBSC6900

QI Qsearch I BSC6900

QP Qsearch P BSC6900

QSEARCHC Qsearch C BSC6900

QCI Qsearch C Initial BSC6900

INTERRATCELLRESELEN Inter-RAT Cell Reselection EnaBSC6900

FDDQOFF FDD Q Offset BSC6900

FDDQMIN FDD Qmin BSC6900

Cell Parameters - Other


CALLRESTABDIS Call Reestablishment Forbidde BSC6900

IMMASSEN TCH Immediate Assignment BSC6900

Immediate Assignment Opt.DIRECTRYEN Directed Retry BSC6900

ASSLOADJUDGEEN Assignment Cell Load Judge E BSC6900

CDRTTRYFBDTHRES Cell Directed Retry Forbidden BSC6900

DTLOADTHRED Directed Retry Load Access ThBSC6900

MINPWRLEVDIRTRY Min Power Level For Directed RBSC6900

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






INTERPERIOD Interference Calculation PeriodBSC6900

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

Handover Parameters - No DL MR HO


NODLMRHOEN No Dl Mr.HO Allowed BSC6900

NODLMRHOQUALLIMIT No Dl Mr.Ul Qual HO Limit BSC6900

NODLMRHOALLOWLIMIT Cons.No Dl Mr.HO Allowed LimiBSC6900

Handover Parameters - TA HO


TAHOEN TA HO Allowed BSC6900

TALIMIT TA Threshold BSC6900

Handover Parameters - Interference HO


INTERFHOEN Interference HO Allowed BSC6900

RXQUAL1 Interfere HO Qual. Thresh 1 f BSC6900









RXQUAL10 Interfere HO Qual. Thresh 10 BSC6900



RXLEVOFF Interfere HO Qual. Thresh Offs BSC6900

Handover Parameters - Rx Level Drop HO


RXQCKFALLHOEN Rx_Level_Drop HO Allowed BSC6900

FLTPARAA1 Filter Parameter A1 BSC6900








FLTPARAB Filter Parameter B BSC6900

ULEDGETHRES Edge HO UL RX_LEV ThresholBSC6900

Handover Parameters - Bad Quality (BQ) HO


BQHOEN BQ HO Allowed BSC6900

DLQUALIMIT DL Qual. Threshold BSC6900

ULQUALIMIT UL Qual. Threshold BSC6900

DLQUALIMITAMRFR DL Qual. Limit for AMR FR BSC6900

ULQUALIMITAMRFR UL Qual. Limit for AMR FR BSC6900

DLQUALIMITAMRHR DL Qual. Limit for AMR HR BSC6900

ULQUALIMITAMRHR UL Qual. Limit for AMR HR BSC6900

BQMARGIN BQ HO Margin BSC6900

Handover Parameters - Enhanced Dual Band HO


ATCBHOEN Concentric Circles ATCB HO ABSC6900

OUTASSOPTEN UL Subcell Assignment OptimizBSC6900

OUTGENOVERLDTHRED UL Subcell General Overload TBSC6900

ATCBTHRED Distance Between Boundaries oBSC6900

ATCBHYST Distance Hysteresis Between BBSC6900

INTOINNREXLEVTHRED Incoming OL Subcell HO Level BSC6900

INNASSOPTEN OL Subcell Assignment OptimizBSC6900

INNLOADHOEN Load HO of OL Subcell to UL SBSC6900

INNLOADHOPERI OL Subcell Load Diversity HO BSC6900

INNLOADHOSTEP Step Length of OL Subcell Loa BSC6900

OUTLOWLOADTHRED UL Subcell Lower Load ThreshoBSC6900

OUTSERIOVERLDTHRED UL Subcell Serious Overload TBSC6900

OUTLOADHOENABLE Load HO Allowed BSC6900

OUTLOADHOPERIOD UL Subcell Load Hierarchical BSC6900

OUTLOADHOSTEP Step Length of UL Subcell Loa BSC6900

OUTLOADHOMODPERI MOD Step LEN of UL Load HO BSC6900

OUTINNREXLEVTHRED Outgoing OL Subcell HO Level BSC6900

EDBLASTTIME Number of Satisfactory Measu BSC6900

EDBSTATTIME Total Number of MeasurementsBSC6900

ENLOWLDTHRSH En Iuo Out Cell Low Load ThreBSC6900

Handover Parameters - Load HO


LoadHoEn Load Handover Support BSC6900

SYSFLOWLEV System Flux Threshold for Loa BSC6900

TRIGTHRES Load HO Threshold BSC6900

LoadAccThres Load handover Load Accept ThBSC6900

LOADOFFSET Load HO Bandwidth BSC6900

LOADHOPERIOD Load HO Step Period BSC6900

LOADHOSTEP Load HO Step Level BSC6900

Handover Parameters - Edge HO


FRINGEHOEN Edge HO Allowed BSC6900

ULEDGETHRES Edge HO UL RX_LEV ThresholBSC6900

DLEDGETHRES Edge HO DL RX_LEV ThresholBSC6900

EDGESTAT Handover Algorithm II Edge H BSC6900

EDGESTAT1 Handover Algorithm I Edge HOBSC6900

EDGELAST Handover Algorithm II Edge HOBSC6900

EDGELAST1 Handover Algorithm I Edge HO BSC6900

EDGEADJSTATTIME Edge HO AdjCell Watch Time BSC6900

EDGEADJLASTTIME Edge HO AdjCell Valid Time BSC6900

INTERCELLHYST Inter-cell HO Hysteresis BSC6900

Handover Parameters - MS Fast-Moving HO


QCKMVHOEN MS Fast Moving HO Allowed BSC6900

QCKSTATCNT MS Fast-moving Watch Cells BSC6900

QCKTRUECNT MS Fast-moving Valid Cells BSC6900

QCKTIMETH MS Fast-moving Time ThresholBSC6900

Handover Parameters - Layer HO


LEVHOEN Level HO Allowed BSC6900

LEVSTAT Layer HO Watch Time BSC6900

LEVLAST Layer HO Valid Time BSC6900

HOTHRES Inter-layer HO Threshold BSC6900

LEVHOHYST Inter-layer HO Hysteresis BSC6900

INTELEVHOHYST Adjacent Cell Inter-layer HO HyBSC6900

Handover Parameters - PBGT HO


PBGTHOEN PBGT HO Allowed BSC6900

PBGTSTAT PBGT Watch Time BSC6900

PBGTLAST PBGT Valid Time BSC6900

PBGTMARGIN PBGT HO Threshold BSC6900

Handover Parameters - Normal Concentric Cell HO


CONHOEN Concentric Circles HO Allowed BSC6900

ULTOOLHOALLOW UL to OL HO Allowed BSC6900

OLTOULHOALLOW OL to UL HO Allowed BSC6900

RECLEVUOHOALLOW RX_LEV for UO HO Allowed BSC6900

RECQUALUOHOALLOW RX_QUAL for UO HO Allowed BSC6900

TAFORUOHOALLOW TA for UO HO Allowed BSC6900

RECLEVTHRES RX_LEV Threshold BSC6900

RECLEVHYST RX_LEV Hysteresis 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

Handover Parameters - Enhanced Concentric Cell HO


ENIUO Enhanced Concentric Allowed BSC6900

ATCBHOEN Concentric Circles ATCB HO ABSC6900

ULTOOLHOALLOW UL to OL HO Allowed BSC6900

OLTOULHOALLOW OL to UL HO Allowed BSC6900

RECLEVUOHOALLOW RX_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 ThresBSC6900

UTOORECTH UtoO HO Received Level ThresBSC6900

UTOOTRAFHOALLOW UtoO Traffic HO Allowed BSC6900

UTRAFHOPERIOD Underlay HO Step Period BSC6900

UTRAFHOSTEP Underlay HO Step Level BSC6900

ENLOWLDTHRSH En Iuo Out Cell Low Load ThreBSC6900

ENGOVERLDTHRSH En Iuo Out Cell General OverL BSC6900

ENSOVERLDTHRSH En Iuo Out Cell Serious OverL BSC6900

ENLDHOPRD Load Classification HO Period BSC6900

ENLDHOSTP Load Classification HO Step BSC6900

ATCBTHRED Distance Between Boundaries oBSC6900

ATCBHYST Distance Hysteresis Between BBSC6900

Handover Parameters - Channel Assignment Strategies of Concentric Cell


IMMASSTAALLOW TA Pref. of Imme-Assign Allow BSC6900

IMMASSTATHRES TA Threshold of Imme-Assign PBSC6900

OPTILAYER Assign Optimum Layer BSC6900

OPTILEVTHRES Assign-optimum-level ThresholBSC6900

OPTITATHRES TA Threshold of Assignment PrBSC6900

HOALGOPERMLAY Pref. Subcell in HO of Intra-BS BSC6900

ACCESSOPTILAY Incoming-to-BSC HO Optimum BSC6900

Handover Parameters - AMR HO


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 ThBSC6900

Handover Parameters - iRAT 2G-3G HO


UlLdrThrd2GCell 2G Cell UL Basic Congest ThreBSC6900

UlOlcThrd2GCell 2G Cell UL Overload Congest BSC6900

DlLdrThrd2GCell 2G Cell DL Basic Congest ThreBSC6900

DlOlcThrd2GCell 2G Cell DL Overload Congest BSC6900

InterRatCsServiceLoadHoThrd Inter-RAT CS Service HO LoadBSC6900

LOADRESELRXTHRSH Load Reselection Receive ThreBSC6900

InterRatServiceLoadHoSwitch Allow Inter-RAT Load HO in AcBSC6900

G2GLoadAdjustCoeff 2G Load Adjustment CoefficienBSC6900

G2G3GLdBlcDeltaThrd CS 2G 3G Load Balance Delta BSC6900

SYSFLOWLEV System Flux Threshold for Loa BSC6900

TRIGTHRES Load HO Threshold BSC6900

InterRATLoadHoRSCPStart Inter-RAT Load HO RSCP at StaBSC6900

LOADOFFSET Load HO Bandwidth BSC6900

IntRATLoadHORSCPThr Inter-RAT Load HO RSCP ThreBSC6900

InterRATLoadHoEcNoStart Inter-RAT Load HO EcNo at StaBSC6900

IntRATLoadHOEcNoThr Inter-RAT Load HO EcNo ThresBSC6900

CELLSELECTAFTERCALLREL Select 3G Cell After Call Relea BSC6900

Send2QuterFlag Support Sent 2QUATER BSC6900

INTERRATINBSCHOEN Inter-RAT In BSC Handover EnBSC6900

INTERRATOUTBSCHOEN Inter-RAT Out BSC Handover EBSC6900

HOOPTSEL Inter-rat HO Preference BSC6900

HOPRETH2G HO Preference Threshold for 2 BSC6900

BET3GHOEN Better 3G Cell HO Allowed BSC6900

FDDREP FDD REP QUANT BSC6900

HODURT3G FDD 3G Better Cell HO Valid TBSC6900

HORSCPTH3G RSCP Threshold for Better 3G BSC6900

HOSTAT3G FDD 3G Better Cell HO Watch BSC6900

HOECNOTH3G Ec/No Threshold for Better 3G BSC6900

OutSysLoadHoEn Allow Inter-RAT Load HO in CoBSC6900

LoadAccThres Load handover Load Accept ThBSC6900

OUTSYSSERVICEHOEN Service Based Handover SwitcBSC6900

UTRANCELLTYPE Utran Cell Type BSC6900

Power Control Parameters


PWRCTRLSW Power Control Switch BSC6900

UPPCEN UL PC Allowed BSC6900

DNPCEN DL PC Allowed BSC6900

PCADJPERIOD PC Interval BSC6900


MRCOMPREG MR. Compensation Allowed BSC6900

ULPREDLEND UL MR. Number Predicted BSC6900

DLPREDLEND DL MR. Number Predicted BSC6900

ULLEVFILTLEN Filter Length for UL RX_LEV BSC6900

DLLEVFILTLEN Filter Length for DL RX_LEV BSC6900

ULQUAFILTLEN Filter Length for UL Qual. BSC6900

DLQUAFILTLEN Filter Length for DL Qual. BSC6900

ULSSHIGHTHRED UL RX_LEV Upper Threshold BSC6900

ULSSLOWTHRED UL RX_LEV Lower Threshold BSC6900

ULQHIGHTHRED UL Qual. Upper Threshold BSC6900

ULQLOWTHRED UL Qual. Lower Threshold BSC6900

DLSSHIGHTHRED DL RX_LEV Upper Threshold BSC6900

DLSSLOWTHRED DL RX_LEV Lower Threshold BSC6900

DLQHIGHTHRED DL Qual. Upper Threshold BSC6900

DLQLOWTHRED DL Qual. Lower Threshold BSC6900

MAXSTEP0 MAX Down Adj.Value Qual.ZonBSC6900



MAXVALADJRX MAX Up Adj. PC Value by RX_BSC6900

QUALSTEP MAX Down Adj. PC Value by QuBSC6900

MAXADJPCVAL MAX Up Adj. PC Value by QualBSC6900

ULQUALBADTRIG UL Qual. Bad Trig Threshold BSC6900

ULQUALBADUPLEV UL Qual. Bad UpLEVDiff BSC6900

DLQUALBADTRIG DL Qual. Bad Trig Threshold BSC6900

DLQUALBADUPLEV DL Qual. Bad UpLEVDiff BSC6900

Power Control Parameters - HWII Power Control


MRMISSNUM MRMissNumber BSC6900

SDMRCUTNUM SdMrCutNum BSC6900

TCHMRCUTNUM TchMrCutNum BSC6900

DLREXLEVEXPFLTLEN DLRexLevExponentFilterLen BSC6900

DLREXQUALEXPFLTLEN DLRexQualExponentFilterLen BSC6900

DLREXLEVSLDWINDOW DLRexLevSlideWindow BSC6900

DLREXQUALSLDWINDOW DLRexQualSlideWindow BSC6900

ULREXLEVEXPFLTLEN ULRexLevExponentFilterLen BSC6900

ULREXQUALEXPFLTLEN ULRexQualExponentFilterLen BSC6900

ULREXLEVSLDWINDOW ULRexLevSlideWindow BSC6900

ULREXQUALSLDWINDOW ULRexQualSlideWindow BSC6900

DLREXLEVHIGHTHRED DLRexLevHighThred BSC6900

DLREXLEVLOWTHRED DLRexLevLowthred BSC6900

DLFSREXQUALHIGHTHRED DLFSRexQualHighThred BSC6900

DLFSREXQUALLOWTHRED DLFSRexQualLowThred BSC6900

DLHSREXQUALHIGHTHRED DLHSRexQualHighThred BSC6900

DLHSREXQUALLOWTHRED DLHSRexQualLowThred BSC6900

DLAFSREXQUALHIGHTHRED DLAFSRexQualHighThred BSC6900

DLAFSREXQUALLOWTHRED DLAFSRexQualLowThred BSC6900

DLAHSREXQUALHIGHTHRED DLAHSRexQualHighThred BSC6900

DLAHSREXQUALLOWTHRED DLAHSRexQualLowThred BSC6900

ULREXLEVHIGHTHRED ULRexLevHighThred BSC6900

ULREXLEVLOWTHRED ULRexLevLowThred BSC6900

ULFSREXQUALHIGHTHRED ULFSRexQualHighThred BSC6900

ULFSREXQUALLOWTHRED ULFSRexQualLowThred BSC6900

ULHSREXQUALHIGHTHRED ULHSRexQualHighThred BSC6900

ULHSREXQUALLOWTHRED ULHSRexQualLowThred BSC6900

ULAFSREXQUALHIGHTHRED ULAFSRexQualHighThred BSC6900

ULAFSREXQUALLOWTHRED ULAFSRexQualLowThred BSC6900

ULAHSREXQUALHIGHTHRED ULAHSRexQualHighThred BSC6900

ULAHSREXQUALLOWTHRED ULAHSRexQualLowThred BSC6900

ULREXLEVADJFCTR ULRexLevAdjustFactor BSC6900

ULREXQUALADJFCTR ULRexQualAdjustFactor BSC6900

DLREXLEVADJFCTR DLRexLevAdjustFactor BSC6900

DLREXQUALADJFCTR DLRexQualAdjustFactor BSC6900

ULMAXDOWNSTEP ULMAXDownStep BSC6900

ULMAXUPSTEP ULMAXUpStep BSC6900

DLMAXDOWNSTEP DLMAXDownStep BSC6900

DLMAXUPSTEP DLMAXUpStep BSC6900

Speech Rate Parameters (FR, HR, AMR)

Power Control Parameters - HWIII Power Control


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 ThBSC6900

HRIUOLDRATESELALLOW Load of UL-OL Cells Rate SelecBSC6900

TCHTRIBUSYUNDERLAYTHR Tch Traffic Busy Underlay ThreBSC6900

TCHTRICBUSYOVERLAYTHR Tch Traffic Busy Overlay ThresBSC6900

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



ULHYSTF1 AMR UL Coding Rate adj.hyst1[BSC6900



DLTHF1 AMR DL Coding Rate adj.th1[F]BSC6900



DLHYSTF1 AMR DL Coding Rate adj.hyst1[BSC6900



ULTHH1 AMR UL Coding Rate adj.th1[HBSC6900



ULHYSTH1 AMR UL Coding Rate adj.hyst1BSC6900



DLTHH1 AMR DL Coding Rate adj.th1[HBSC6900



DLHYSTH1 AMR DL Coding Rate adj.hyst1BSC6900



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-BSC6900

AMRULSSHTHRED AMR UL RX_LEV Upper ThreshBSC6900

AMRULSSLTHRED AMR UL RX_LEV Lower ThreshBSC6900

AMRDLSSHTHRED AMR DL RX_LEV Upper ThreshBSC6900

AMRDLSSLTHRED AMR DL RX_LEV Lower ThreshBSC6900

AMRULQHTHRED AMR UL Qual. Upper Threshol BSC6900

AMRULQLOWTHRED AMR UL Qual. Lower Threshol BSC6900

AMRDLQHTHRED AMR DL Qual. Upper Threshol BSC6900

AMRDLQLTHRED AMR DL Qual. Lower Threshol BSC6900

AVer A Interface Tag BSC6900

UmVer Um Interface Tag BSC6900

AbisVer Abis Interface Tag BSC6900

Frequency Hopping Parameters


BCCHTRXHP Frequency Hopping Mode of BSC6900

CANPC PWRC BSC6900

FHMODE Frequency Hopping Mode BSC6900

HOPINDEX Hop Index BSC6900

HOPMODE Hop Mode BSC6900

HopSingleFreqOptSwitch Hop Group Single Freq OptimizBSC6900

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

GPRS/EDGE Parameters


PROT Frame Relay Protocol Type BSC6900

DLCI The Identifier of Data Link Con BSC6900

PT Subnet Protocol Type BSC6900

ISNCMODE Subnetwork Configure Mode BSC6900

SVRIP Server IP BSC6900

NSEI NSE Identifier BSC6900

CELL8PSKPOWERLEVEL Cell 8PSK Power Attenuation 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

UPTHDCSUPGRADE1 Uplink TBF Threshold from CS1BSC6900



UPTHDCSDEGRADE1 Uplink TBF Threshold from CS2BSC6900



DNTHDCSUPGRADE1 Downlink TBF Threshold from BSC6900



DNTHDCSDEGRADE1 Downlink TBF Threshold from BSC6900



UPDEFAULTMCS Uplink Default MCS Type BSC6900

DNDEFAULTMCS Downlink Default MCS Type BSC6900

UPFIXMCS Uplink Fixed MCS Type BSC6900

DNFIXMCS Downlink Fixed MCS Type BSC6900

BEPPERIOD Bep Period BSC6900

GPRSCHPRI PDCH Channel Priority Type BSC6900

FORBIDEDGU Allow E Down G Up Switch BSC6900

MAXPDCHRATE Maximum Rate Threshold of PDBSC6900

PDCHUPLEV PDCH Uplink Multiplex ThreshoBSC6900

PDCHDWNLEV PDCH Downlink Multiplex Thre BSC6900

UPDYNCHNTRANLEV Uplink Multiplex Threshold of BSC6900

DWNDYNCHNTRANLEV Downlink Multiplex Threshold BSC6900

DYNCHNPREEMPTLEV Level of Preempting Dynamic BSC6900

DYNCHTRANRESLEV Reservation Threshold of DynaBSC6900

NMO Network Operation Mode BSC6900

T3168 T3168 BSC6900

T3192 T3192 BSC6900

EGPRS11BITCHANREQ Support 11BIT EGPRS AccessBSC6900

ACCBURST Access Burst Type BSC6900

PRIACCTHR Packet Access Priority BSC6900

USFGRAN4BLK Support USF Granularity 4 SwitBSC6900

LQCMODE Link Quality Control Mode BSC6900

BSSPAGINGCOORDINATION BSS Paging Co-ordination BSC6900

ACOOPERATPAGINGSWITCH A Interface Paging Co-ordinati BSC6900

POCGBRMIN Min. GBR for POC Service BSC6900

POCGBRMAX Max. GBR for POC Service BSC6900

POCDELAY Transmission Delay of POC SerBSC6900

GBRQOS Support GBR QoS BSC6900

QOSOPT Support QoS Optimize BSC6900

GAMMA GAMMA BSC6900

ALPHA ALPHA BSC6900

FMSMAXOPCC MS_TXPWR_MAX_CCH BSC6900

PCMEASCHAN PC_MEAS_CHAN BSC6900

NCO Network Control Mode BSC6900

NACCSPT Support NACC BSC6900

NC2SPT Support NC2 BSC6900

CGN Cabinet Group No. BSC6900

TSCOUNT Idle TS Count BSC6900

EXTUTBFNODATA Not Send Dummy Message withBSC6900

IMMASSDLSHIFT Move Immediate Assignment DBSC6900

PACKASSDLSHIFT Move Packet Assignment DownBSC6900

DNTBFRELDELAY Release Delay of Downlink TBFBSC6900

UPTBFRELDELAY Release Delay of Non-extendedBSC6900

N3101 Maximum Value of N3101 BSC6900



UPEXTTBFINACTDELAY Inactive Period of Extended UpBSC6900

PDCHREFORMING PDCH Reforming BSC6900

DYNCHFREETM Timer of Releasing Idle DynamBSC6900

DYNCHNPREEMPTLEV Level of Preempting Dynamic BSC6900

MAXPDCHNUM Maximum Number of PDCH BSC6900

IUOCHNTRAN Dynamic Channel Conversion PaBSC6900

MML Command Parameter Description Value Type

Mobile country code. This parameter identifies the country String Type

Mobile network code. This parameter identifies the public String Type

Interval Type

Interval Type

Interval Type

ADD GCELL(Optional) Base station color code (BCC) of a cell, provided by the ne Interval Type


SET GCELLIDLEBASIC(Optional)Attach-detach Allowed (ATT). If this parameter is set to YE Enumeration T

Enumeration T

SET GCELLIDLEBASIC(Optional)BS-AG-BLKS-RES, indicating the number of the CCCH messagInterval Type

SET GCELLIDLEBASIC(Optional) Enumeration T

SET GCELLIDLEBASIC(Optional)This parameter specifies the length of the timer for periodic Interval Type


SET GCELLCCBASIC(Optional) Enumeration T


SET GCELLCCACCESS(Optional)Minimum access level of the random access channel (RACHInterval Type

SET GCELLCCACCESS(Optional)Minimum access level of the random access channel (RACHInterval Type

SET GCELLCCBASIC(Optional) Enumeration T

SET GCELLCCBASIC(Optional) Interval Type

SET GCELLIDLEBASIC(Optional) Bit Field Type

SET GCELLCCBASIC(Optional) Level of common access control, used for load control, all Bit Field Type

SET GCELLCCBASIC(Optional) This parameter is used for load control. It determines whethBit Field Type

SET GCELLCCBASIC(Optional) Used for requesting the MS to report the measurement informaInterval Type

SET GCELLCCBASIC(Optional) The early classmark sending control (ECSC) parameter specifEnumeration T

SET GCELLCCBASIC(Optional) Whether to disable emergency calls. For the MSs of access leEnumeration T


SET GCELLBASICPARA(OptionalMinimum received signal level of the MS. This level is repor Interval Type

SET GCELLCCCH(Optional) Interval Type



SET BTSAUTOPLANCFG(Optional)ADD GCELLQUICKSETUP(Mandatory)SET BTSAUTOPLANCFG(Optional)ADD GCELLQUICKSETUP(Mandatory)SET BTSAUTOPLANCFG(Optional)ADD GCELLQUICKSETUP(Mandatory)

Location area code (LAC). MSs can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate.Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.SET BTSAUTOPLANCFG(Optional)

ADD GCELLQUICKSETUP(Mandatory)Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identification.Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.ADD GCELL(Optional)

ADD GEXT2GCELL(Mandatory)Network color code that is provided by the telecom operator. The NCC is used to identify networks from area to area. The NCC is unique nationwide.The BCC and the NCC form the BSIC.

If channel 0 on the main BCCH TRX is set to Combined BCCH or BCCH+CBCH, this parameter can be set to 1 Compounding CCCH.If channel 0 on the main BCCH TRX is set to Main BCCH, this parameter can be set to N Non-compounding CCCH, where N indicates the sum of channels 0, 2, 4, and 6 that are configured as main BCCHs and BCHs.

Number of multiframes in a cycle on a paging sub-channel. In fact, this parameter specifies the number of paging sub-channels that a paging channel in a cell is divided into.In an actual network, an MS does not listen to other paging sub-channels but its belonging paging sub-channel only. Refer to GSM Rec. 05.02 and GSM Rec. 05.08. The larger the value of this parameter, the more the number of the paging sub-channels in a cell, and the fewer the number of the users belonging to each paging sub-channel. In this case, the mean uptime of the MS battery can be prolonged. Refer to the computing mode of paging group in GSM 05.02 of GSM Standards. The larger the value of this parameter, however, the larger the time delay of a paging message in a space segment. Thus, the average service performance of the system lowers. Based on the principle of ensuring that overload does not occur to paging channels, you must set this parameter to a value as small as possible. You must regularly measure the overload conditions of the paging channels in a running network and accordingly adjust the value of this parameter properly. A paging message in a location area must be sent in all the cells within this location area at the same time. Therefore, the capacity of a paging channel of each cell in a location area must be the same or nearly the same. The capacity refers to the calculated number of paging sub-channels of each cell.

After the MS initiates the immediate assignment procedure, it always listens to the messages on the BCCH and all the common control channels (CCCHs) in the CCCH group to which the MS belongs. If the MS does not receive Immediate Assignment or Immediate Assignment Extend messages, it retransmits Channel Request messages at a specified interval. If the downlink quality is poor, the MS may send SABM frames to the BTS multiple times.When S increases, the interval between two adjacent channel request messages increases, and RACH conflicts decrease, thus improving the usage of AGCH and SDCCH.The access time of the MS, however, is prolonged and the network performance is decreased when T and S increase. Under normal conditions, an appropriate T value should be used to ensure that S is as low as possible, and ensure that AGCH and SDCCH are not overloaded.

Time for disconnecting a call when the MS fails to decode the SACCH. Once a dedicated channel is assigned to the MS, the counter S is enabled and the initial value is set to this parameter value.Each time an SACCH message is not decoded, the counter S decreases by 1. Each time an SACCH message is correctly decoded, the counter S increases by 2. When the counter S is equal to 0, the downlink radio link is considered as failed. Therefore, when the voice or data quality is degraded to an unacceptable situation and it cannot be improved through power control or channel handover, the connection is to be re-established or released.When the BTS receives the SACCH measurement report from the MS, the counter for determining whether a radio link is faulty is set to the value of this parameter. Each time the BTS fails to decode the SACCH measurement report sent by the MS, the counter decreases by 1. If the BTS successfully decodes the SACCH measurement report, the counter increases by 2.When the value of this parameter is 0, the BTS regards the radio link as faulty. The BTS sends a connection failure indication message to the BSC6900. The number of SACCH multi-frames and the radio link failure counter in the system message specify the radio link failure time on the uplink and that on the downlink respectively. The judgment standard is whether the measurement report in SACCH is correctly decoded.A set of NCCs of the cells to be measured by the MS. This parameter is an information element (IE) in the system information type 2 and 6 messages. If a bit of the value of this parameter is set to 1, the MS reports the corresponding measurement report to the BTS. The value of this parameter has a byte (eight bits). Each bit maps with an NCC (0~7) and the most significant bit corresponds to NCC 7. If bit N is 0, the MS does not measure the cell level of NCC N.

In a GSM900 cell, the maximum power control level of an MS ranges from 0 to 19, corresponding respectively to the following values (unit: dBm): 43, 41, 39, 37, 35, 33, 31, 29, 27, 25, 23, 21, 19, 17, 15, 13, 11, 9, 7, and 5. Generally, the maximum transmit power supported by an MS is level 5 (corresponding to 33 dBm). The minimum transmit power supported by an MS is level 19 (corresponding to 5 dBm). Other transmit power levels are reserved for high-power MSs.In a GSM1800 or GSM1900 cell, the maximum power control level of an MS ranges from 0 to 31, corresponding respectively to the following values (unit: dBm): 30, 28, 26, 24, 22, 20, 18, 16, 14, 12, 10, 8, 6, 4, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 36, 34, and 32. Generally, the maximum transmit power supported by an MS is level 0 (corresponding to 30 dBm). The minimum transmit power supported by an MS is level 15 (corresponding to 0 dBm). Other transmit power levels are reserved for high-power MSs.YES NO Low NormalYES YES Low NormalYES NO Low NormalYES YES Low Normal

SET GCELLIDLEBASIC(Optional) Interval Type

SET GCELLIDLEAD(Optional) Cell Reselect Temporary Offset (TO) indicates the temporaryInterval Type

SET GCELLIDLEAD(Optional) Cell Reselect Penalty Time (PT) is used to ensure the safety Interval Type

SET GCELLIDLEBASIC(Optional)Cell Reselect Parameters Indication (PI), sent on the broa Enumeration T

SET GCELLIDLEBASIC(Optional)Cell reselection hysteresis. This is one of the parameters usEnumeration T

SET GCELLCCUTRANSYS(Option Interval Type

SET GCELLCCUTRANSYS(OptionThis parameter specifies one threshold of the signal level for cell reselection iInterval Type


SET GCELLCCUTRANSYS(OptionThis parameter specifies the threshold of the signal level fo Enumeration T

SET GCELLHOBASIC(Optional) This parameter specifies whether the reselection from 2G celEnumeration T




SET GCELLBASICPARA(OptionalWhether to allow call re-establishment. Burst interference or Enumeration T

SET GCELLBASICPARA(OptionalWhether to allow immediate TCH assignment. If this parameEnumeration T

The channel activation and immediate assignment commands are sent at the s

SET GCELLBASICPARA(OptionalWhether to enable a directed retry. The directed retry is to Enumeration T

SET GCELLCCBASIC(Optional) When this parameter is set to ENABLE, if the cell supports dEnumeration T

SET GCELLOTHEXT(Optional) Threshold of forbidding directed retry for cells. When the v Interval Type

SET GCELLCCBASIC(Optional) Threshold of the load in the target cell for the directed retry Interval Type

SET GCELLHOCTRL(Optional) In a direct retry, when the receive level of a neighboring cellInterval Type

SET GCELLHOAD(Optional) Interval Type

SET GCELLHOAD(Optional) When the BTS sends physical information to the MS, the BTSInterval Type

SET GCELLCCCH(Optional) Enumeration T

ADD GCELL(Optional) Enumeration T

SET GCELLBASICPARA(OptionalMaximum time advance (TA). The value of this parameter i Interval Type

SET GCELLOTHEXT(Optional) Interval Type






SET GCELLOTHEXT(Optional) Period during which interference levels are averaged. The i Interval Type

SET GCELLBASICPARA(OptionalWhether the uplink DTX function is enabled for FR calls. FoEnumeration T

SET GCELLBASICPARA(OptionalWhether the uplink DTX function is enabled for HR calls. FoEnumeration T

SET GCELLBASICPARA(OptionalWhether the downlink discontinuous transmission (DTX) functiEnumeration T

SET GCELLBASICPARA(OptionalWhether the downlink DTX function is enabled for half rate (Enumeration T

SET BTSRINGATTR(Optional) Timer in the LAPD protocol. The value of the timer indicat Interval Type

SET BTSRINGATTR(Optional) System parameter in the LAPD protocol. The value of this pInterval Type

SET GCELLCCTMR(Optional) Enumeration T

Proper setting of this parameter can reduce the number of handover times, helpful for assigning an MS to a better cell. In a special case that the PT is 31, the larger the CRO value is, the lower the possibility of handing over an MS to the cell.Generally, do not set the CRO to a value larger than 25 dB. The CRO with a too large value will cause uncertain states in a network. The CRO values of the cells with different priorities in a network are almost the same. Refer to GSM Rec. 05.08 and GSM Rec. 04.08. The setting of this parameter affects only the MSs supporting the protocol of GSM Phase 2 or a later version.

5: -78 dBm 6: -74 dBm 7: (always), that is, the MS keeps searching for 3G cells 8: -78 dBm9: -74 dBm 10: -70 dBm 11: -66 dBm 12: -62 dBm 13: -58 dBm 14: -54 dBm 15: Positive infinity(never), that is, the MS does not search for 3G cells

14: -54 dBm 15: Positive infinity (never)

...15: 28 dB7: -12 dBThis parameter is valid only when FDD REP QUANT is set to EcN0.

The BTS includes the information of different physical layers in the Physical Information message, thus ensuring correct traffic transmission for the MS. If the timer timeouts before a SAMB frame is received from the MS, the BTS retransmits the Physical Information message to the MS. For details, see protocols 08.58 and 04.08.

Whether an MS uses the calculated value as the final receive level value. The calculated receive level value is the measured receive level value minus the receive level value obtained from the BCCH TRX timeslots. This parameter is a cell option in system messages 3 and 6. It is used to indicate MS whether to delete received level valueobtained from the timeslots of BCCH when MS measures receiving level during base band hopping mode.Whether a cell is an extension cell.A double-timeslot extension cell regards an additional TDMA frame as access delay extension. In theory, the supported TA value is 219, that is, a time delay of about 120 kilometers.

Threshold used for interference measurement.The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC6900 to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC6900. The BSC6900 compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58.Threshold used for interference measurement.The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC6900 to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC6900. The BSC6900 compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58.Threshold used for interference measurement.The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC6900 to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC6900. The BSC6900 compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58.Threshold used for interference measurement.The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC6900 to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC6900. The BSC6900 compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58.Threshold used for interference measurement.The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC6900 to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC6900. The BSC6900 compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58.Threshold used for interference measurement.The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC6900 to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC6900. The BSC6900 compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58.

Whether the BSC6900 sends the LAPDm N200 parameter to the BTS. If this parameter is set to YES, the BSC sends the LAPDm N200 parameter. If this parameter is set to NO, the BSC6900 does not send the LAPDm N200 parameter.


SET GCELLHOEMG(Optional) Whether to enable the no-downlink measurement report hanEnumeration T

SET GCELLHOEMG(Optional) When a certain number of no-downlink measurement reports arInterval Type

SET GCELLHOEMG(Optional) Decisions of no-downlink measurement report handovers can Interval Type


SET GCELLHOBASIC(Optional) Whether to enable the time advance (TA) handover. The TA hEnumeration T

SET GCELLHOEMG(Optional) An emergency handover is triggered when TA is greater than Interval Type


SET GCELLHOBASIC(Optional) Whether to allow the interference handover algorithm. InterfeEnumeration T

SET GCELLAMRQUL(Optional) Threshold for the interference handover of Non-AMR FR voicInterval Type












SET GCELLAMRQUL(Optional) For AMR FR voice services, a fixed amount of offset is addeInterval Type


SET GCELLHOBASIC(Optional) Whether to use the emergency handover algorithm in case theEnumeration T

SET GCELLHOEMG(Optional) Interval Type








SET GCELLHOEMG(Optional) Trend of the received signal level of the cell during a period Interval Type

SET GCELLHOBASIC(Optional) If the UL receive level remains lower than the "Edge HO ULInterval Type

In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt.Setting the filter helps to configure the maximum allowed signal level drop degree.In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt.Setting the filter helps to configure the maximum allowed signal level drop degree.In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt.Setting the filter helps to configure the maximum allowed signal level drop degree.In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt.Setting the filter helps to configure the maximum allowed signal level drop degree.In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt.Setting the filter helps to configure the maximum allowed signal level drop degree.In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt.Setting the filter helps to configure the maximum allowed signal level drop degree.In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt.Setting the filter helps to configure the maximum allowed signal level drop degree.In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt.Setting the filter helps to configure the maximum allowed signal level drop degree.


SET GCELLHOBASIC(Optional) Whether to enable the bad quality (BQ) handover algorithm.Enumeration T

SET GCELLHOEMG(Optional) Downlink quality threshold for emergency handover. This parInterval Type

SET GCELLHOEMG(Optional) An emergency handover due to bad quality is triggered when Interval Type

SET GCELLAMRQUL(Optional) Downlink quality limit for emergency handover in an AMR fullInterval Type

SET GCELLAMRQUL(Optional) The value of this parameter corresponds to multiplying qualiInterval Type

SET GCELLAMRQUL(Optional) Downlink quality limit for emergency handover in an AMR halfInterval Type

SET GCELLAMRQUL(Optional) The value of this parameter corresponds to multiplying qualiInterval Type

ADD G2GNCELL(Optional) If ("downlink level of the neighbor cell after filtering" - "d Interval Type


SET GCELLHOBASIC(Optional) Whether to enable the ATCB handover algorithm for the concenEnumeration T

SET GCELLHOEDBPARA(OptionaWhether to assign channel requests initiated in the underlay Enumeration T

SET GCELLHOEDBPARA(OptionaWhen the load of the underlay subcell is higher than this paraInterval Type

SET GCELLHOEDBPARA(Optiona Interval Type

SET GCELLHOEDBPARA(OptionaHysteresis in the distance between the boundary of the overlInterval Type

SET GCELLHOEDBPARA(OptionaLower threshold of the overlay level during underlay-to-overInterval Type

SET GCELLHOEDBPARA(OptionaWhether to assign channel requests in the overlay subcell toEnumeration T

SET GCELLHOEDBPARA(OptionaWhether to allow underlay-to-overlay load handovers Enumeration T

SET GCELLHOEDBPARA(OptionaOverlay-to-underlay load handovers are performed by levels.Interval Type

SET GCELLHOEDBPARA(OptionaLevel step during overlay-to-underlay hierarchical load han Interval Type

SET GCELLHOEDBPARA(OptionaWhen the load of the underlay subcell is lower than this paramInterval Type

SET GCELLHOEDBPARA(OptionaWhen the load of the underlay subcell is higher than this p Interval Type

SET GCELLHOEDBPARA(OptionaWhether to switch some of the calls in the underlay subcell Enumeration T

SET GCELLHOEDBPARA(OptionaWhen the load of the underlay subcell exceeds "UL Subcell GeInterval Type

SET GCELLHOEDBPARA(OptionaLevel step during underlay-to-overlay hierarchical load han Interval Type

SET GCELLHOEDBPARA(OptionaIf the underlay load is higher than "UL Subcell Serious Ove Interval Type

SET GCELLHOEDBPARA(OptionaLower threshold of the overlay level during overlay-to-underInterval Type



SET GCELLHOIUO(Optional) If the load of the underlaid subcell is less than this thresho Interval Type


SET GCELLHOBASIC(Optional) This parameter specifies whether a traffic load-sharing han Enumeration T

SET GCELLHOAD(Optional) The system flux level is the current flux control level of th Interval Type

SET GCELLHOAD(Optional) The load handover is triggered when the traffic load in a cellInterval Type

If the load of a cell is lower than the value of this paramete Interval Type



SET GCELLHOAD(Optional) In hierarchical load handovers, starting from "Edge HO DL Interval Type

Distance between the boundary of the overlaid subcell and the boundary of the underlaid subcell. This parameter specifies the difference between the coverage of the overlaid subcell and the coverage of the underlaid subcell in the concentric cell or dual-frequency network scenario. The boundaries of the overlaid and underlaid subcells are determined according to the relative value between the signal strength of the serving cell and the signal strength of the neighbor cell. Assume that the signal strength of the serving cell is SS(s) and that the signal strength of the neighbor cell is SS(n). If SS(s) = SS(n), the MS is on the boundary of the underlaid subcell. If SS(s) - SS(n) > "Distance Between Boudaries of Subcells", the MS is in the coverage of the overlaid subcell.In the tight BCCH handover algorithm, this parameter specifies the difference between the coverage of the TRX that carries the BCCH and the coverage of the TRX that does not carry the BCCH. The relevant computation is the same as the preceding computation.

According to the P/N rule, if the conditions for the handover between the subcells of an enhanced dual-frequency network are met during P of N measurements, the handover is triggered.This parameter specifies the number P.According to the P/N rule, if the conditions for the handover between the subcells of an enhanced dual-frequency network are met during P of N measurements, the handover is triggered.This parameter specifies the number N.

ADD GEXT3GCELL(Optional)SET GCELLHOAD(Optional) In the handover algorithm of the first generation, load handovers can be performed only when the receive level of the current serving cell is in the range "Edge HO DL RX_LEV Threshold" to "Edge HO DL RX_LEV Threshold" + "Load HO Bandwidth".

In the handover algorithm of the second generation, load handovers can be performed only when the level difference between the neighboring cell and the serving cell is between "Inter-cell HO Hysteresis" - "Load HO Bandwidth" and "Inter-cell HO Hysteresis".When the load of a cell reaches or exceeds "Load HO Threshold", all the calls that are using this cell as the serving cell generate handover requests at the same time, which will suddenly increase the load of the processor. Under some circumstances, congestion occurs in the cell, which will result in call drop. To solve this problem, the BSC uses the hierarchical load handover algorithm to control the number of users included in each level of handovers. This parameter indicates the duration of each handover level.


SET GCELLHOBASIC(Optional) Whether to enable the edge handover algorithm. When an MS maEnumeration T

SET GCELLHOBASIC(Optional) If the UL receive level remains lower than the "Edge HO ULInterval Type

SET GCELLHOBASIC(Optional) Threshold for downlink edge handover. If the downlink receivInterval Type

SET GCELLHOBASIC(Optional) According to the P/N rule, if the conditions for edge hando Interval Type




ADD G2GNCELL(Optional) According to the P/N rule, if a neighbor cell meets the cond Interval Type

ADD G2GNCELL(Optional) According to the P/N rule, if a neighbor cell meets the cond Interval Type

ADD G2GNCELL(Optional) Reduces ping-pong handovers between cells on a same layer. Interval Type


SET GCELLHOBASIC(Optional) Whether to enable the fast moving micro-cell handover algorEnumeration T

SET GCELLHOAD(Optional) This parameter is used in the P/N criteria decision: If an M Interval Type

SET GCELLHOAD(Optional) This parameter is used in the P/N criteria decision: If an M Interval Type

SET GCELLHOAD(Optional) A time threshold determined based on the radius of a cell anInterval Type


SET GCELLHOBASIC(Optional) Whether to allow inter-layer and inter-level handovers. The intEnumeration T

ADD G2GNCELL(Optional) The triggering of inter-layer handovers must meet the P/N criInterval Type

ADD G2GNCELL(Optional) The triggering of inter-layer handovers must meet the P/N criInterval Type

Interval Type

SET GCELLHOBASIC(Optional) Interval Type

ADD G2GNCELL(Optional) Interval Type


SET GCELLHOBASIC(Optional) Whether to use the PBGT handover algorithm. PBGT handoverEnumeration T

ADD G2GNCELL(Optional) The triggering of PBGT handovers must meet the P/N criteriaInterval Type

ADD G2GNCELL(Optional) The triggering of PBGT handovers must meet the P/N criteriaInterval Type

ADD G2GNCELL(Optional) PBGT handovers to a neighboring cell are allowed only when tInterval Type


SET GCELLHOBASIC(Optional) Whether to enable the concentric cell handover algorithm. ThEnumeration T

SET GCELLHOIUO(Optional) Whether a UL subcell to OL subcell handover is allowed Enumeration T

SET GCELLHOIUO(Optional) Whether to allow overlay-to-underlay handovers Enumeration T

ADD GEXT2GCELL(Optional)SET GCELLHOBASIC(Optional)

Inter-layer handover threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis"; Inter-layer handover threshold of a neighboring cell = "Inter-layer HO Threshold" + "Adjacent Cell Inter-layer HO Hysteresis" - 64.Inter-layer handover threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis"; Inter-layer handover threshold of a neighboring cell = "Inter-layer HO threshold" + "Adjacent Cell Inter-layer HO Hysteresis" - 64.Inter-layer HO threshold of the neighboring cell = "Inter-layer HO threshold" + "Adjacent Cell Inter-layer HO Hysteresis" - 64.The value of "Inter-layer HO threshold" can be set through "SET GCELLHOBASIC".

SET GCELLHOIUO(Optional) Whether to use the downlink receive level as a condition in Enumeration T

SET GCELLHOIUO(Optional) Whether to use the downlink receive quality as a condition inEnumeration T

SET GCELLHOIUO(Optional) Whether the TA is used as a decisive condition for the conceEnumeration T

SET GCELLHOIUO(Optional) One of the parameters that decide the underlay and overla Interval Type


SET GCELLHOIUO(Optional) Interval Type



SET GCELLHOIUO(Optional) The triggering of concentric circle handovers must meet the PInterval Type



ADD GCELL(Mandatory) Enumeration T

SET GCELLHOBASIC(Optional) Whether to enable the ATCB handover algorithm for the concenEnumeration T

SET GCELLHOIUO(Optional) Whether a UL subcell to OL subcell handover is allowed GBFD-113201

SET GCELLHOIUO(Optional) Whether to allow overlay-to-underlay handovers Enumeration T

SET GCELLHOIUO(Optional) Whether to use the downlink receive level as a condition in Enumeration T

SET GCELLHOIUO(Optional) Whether to use the downlink receive quality as a condition inEnumeration T

SET GCELLHOIUO(Optional) Whether the TA is used as a decisive condition for the conceEnumeration T







SET GCELLHOIUO(Optional) One of the parameters that determine the coverage of the Interval Type

SET GCELLHOIUO(Optional) Enumeration T

SET GCELLHOIUO(Optional) Hierarchical handover period of the load handover from the UInterval Type

SET GCELLHOIUO(Optional) Hierarchical level step of the load handover from the UL subInterval Type

SET GCELLHOIUO(Optional) If the load of the underlaid subcell is less than this thresho Interval Type

SET GCELLHOIUO(Optional) If the load of the underlaid subcell is greater than this thre Interval Type

SET GCELLHOIUO(Optional) If the load of the underlaid subcell is greater than this t Interval Type


SET GCELLHOIUO(Optional) Signal level step for the hierarchical load-based handover frInterval Type


SET GCELLHOEDBPARA(OptionaHysteresis in the distance between the boundary of the overlInterval Type


SET GCELLHOIUO(Optional) Whether to assign channels according to the access_delay Enumeration T

SET GCELLHOIUO(Optional) When the access_delay value in the channel request message Interval Type

SET GCELLHOIUO(Optional) Channel assignment policies used when TCHs are assigned inEnumeration T

One of the parameters that decide the underlay and overlay areas. If "Enhanced Concentric Allowed" is set to OFF, the underlay and overlay areas are determined by "RX_QUAL Threshold", "RX_LEV Threshold", "RX_LEV Hysteresis", "TA Threshold", and "TA Hysteresis" together; if "Enhanced Concentric Allowed" is set to ON, the underlay and overlay areas are determined by "RX_QUAL Threshold", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "TA Threshold", and "TA Hysteresis" together.When "Enhanced Concentric Allowed" is set to OFF, "TA Hysteresis", "RX_LEV Threshold", "RX_LEV Hysteresis", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric Allowed" is set to ON, "TA Hysteresis", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric Allowed" is set to OFF, "TA Hysteresis", "RX_LEV Threshold", "RX_LEV Hysteresis", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric Allowed" is set to ON, "TA Hysteresis", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL subcell and UL subcell.

If a cell supports the enhanced concentric cell function, when an overlaid-to-underlaid handover or an underlaid-to-overlaid handover is decided, the MS compares the receive level value respectively with the values of "OtoU HO Received Level Threshold" and "UtoO HO Received Level Threshold" in "SET GCELLHOIUO" to decide whether to trigger an enhanced concentric cell handover.If the cell does not support the enhanced concentric cell function, the MS compares the actual receive level value with the threshold of receive level to decide whether to trigger a concentric cell handover. In addition, when an underlaid-to-overlaid handover is decided, the underlay cell load is considered.

One of the parameters that decide the underlay and overlay areas. If "Enhanced Concentric Allowed" is set to OFF, the underlay and overlay areas are determined by "RX_QUAL Threshold", "RX_LEV Threshold", "RX_LEV Hysteresis", "TA Threshold", and "TA Hysteresis" together; if "Enhanced Concentric Allowed" is set to ON, the underlay and overlay areas are determined by "RX_QUAL Threshold", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "TA Threshold", and "TA Hysteresis" together.When "Enhanced Concentric Allowed" is set to OFF, "TA Hysteresis", "RX_LEV Threshold", "RX_LEV Hysteresis", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric Allowed" is set to ON, "TA Hysteresis", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric Allowed" is set to OFF, "TA Hysteresis", "RX_LEV Threshold", "RX_LEV Hysteresis", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric Allowed" is set to ON, "TA Hysteresis", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL subcell and UL subcell.

If the existing call is performed in the UL subcell, a UL subcell to OL subcell handover is triggered, and "UL to OL HO Allowed" is set to YES, the timer is started and the calls in the UL subcell are hierarchically handed over to the OL subcell if the traffic volume in the UL subcell reaches "En Iuo Out Cell General OverLoad Thred". Otherwise, if the traffic volume in the UL subcell is smaller than "En Iuo Out Cell General OverLoad Thred", the timer stops, and hierarchical handovers are not performed.If this parameter is set to NO, the traffic volume in the UL subcell is not taken into account for triggering the UL subcell to OL subcell handover or the OL subcell to UL subcell handover in an enhanced concentric cell.

If all the calls in the overlaid subcell are handed over to the underlaid subcell when the channel seizure ratio of the underlaid subcell is less than "En Iuo Out Cell Low Load Thred", the BSC load increases sharply. In this case, the target subcell may be congested and drop calls. To avoid such a problem, the hierarchical load-based handover algorithm is used to hand over the calls from the overlaid subcell to the underlaid cell level by level.This parameter specifies the period of the handover at each hierarchy level.

Distance between the boundary of the overlaid subcell and the boundary of the underlaid subcell. This parameter specifies the difference between the coverage of the overlaid subcell and the coverage of the underlaid subcell in the concentric cell or dual-frequency network scenario. The boundaries of the overlaid and underlaid subcells are determined according to the relative value between the signal strength of the serving cell and the signal strength of the neighbor cell. Assume that the signal strength of the serving cell is SS(s) and that the signal strength of the neighbor cell is SS(n). If SS(s) = SS(n), the MS is on the boundary of the underlaid subcell. If SS(s) - SS(n) > "Distance Between Boudaries of Subcells", the MS is in the coverage of the overlaid subcell.In the tight BCCH handover algorithm, this parameter specifies the difference between the coverage of the TRX that carries the BCCH and the coverage of the TRX that does not carry the BCCH. The relevant computation is the same as the preceding computation.

SET GCELLHOIUO(Optional) Preferentially assigns channels on the overlay when the up Interval Type

SET GCELLHOIUO(Optional) Preferentially assigns channels on the overlay when the up Interval Type

SET GCELLHOIUO(Optional) Enumeration T

SET GCELLHOIUO(Optional) Subcell preferred during the incoming inter-BSC handover to tEnumeration T


SET GCELLHOBASIC(Optional) Enumeration T

SET GCELLHOBASIC(Optional) Whether to allow AMR handovers. This parameter has no Enumeration T

SET GCELLHOBASIC(Optional) The triggering of intra-cell F-H handovers must meet the P/N Interval Type


SET GCELLHOBASIC(Optional) For an AMR call, if the currently occupied channel is a full Interval Type

SET GCELLHOBASIC(Optional) For an AMR call, if the currently occupied channel is a half Interval Type

SET GCELLCHMGAD(Optional) Whether to enable the BSC to assign AMR half rate channels Enumeration T

SET GCELLCHMGAD(Optional) Load threshold for assigning half rate channels preferentiallyInterval Type


SET GCELLHOINTERRATLDB(OptiThreshold of uplink Basic Congestion state in a 2G Cell Interval Type

SET GCELLHOINTERRATLDB(OptiThreshold of uplink overload congestion state in a 2G Cell Interval Type

SET GCELLHOINTERRATLDB(OptiThreshold of downlink Basic Congestion state in a 2G Cell Interval Type

SET GCELLHOINTERRATLDB(OptiThreshold of downlink overload congestion state in a 2G CelInterval Type

SET GCELLHOINTERRATLDB(OptiThreshold for setting the flag of accepting inter-RAT CS ser Interval Type

SET GCELLNC2PARA(Optional) When the uplink load or downlink load of the target cell is lo Interval Type

SET GCELLHOINTERRATLDB(OptiWhen this parameter is set to Service-based, the inter-RAT handoverEnumeration T

SET GCELLHOINTERRATLDB(OptiCoefficient used to modulate the load level of a 2G system Interval Type

SET OTHSOFTPARA(Optional) If the load balance between a 2G cell and a 3G cell is greateInterval Type

SET GCELLHOAD(Optional) The system flux level is the current flux control level of th Interval Type

SET GCELLHOAD(Optional) The load handover is triggered when the traffic load in a cellInterval Type

SET GCELLHOINTERRATLDB(OptiInitial RSCP value of the inter-RAT load-based handover b Interval Type


SET GCELLHOINTERRATLDB(OptiMinimum RSCP value of a 3G cell during the load-based Interval Type

SET GCELLHOINTERRATLDB(OptiInitial EcNo value of the inter-RAT load-based handover ba Interval Type

SET GCELLHOINTERRATLDB(OptiMinimum Ec/No value of a 3G cell during the load-based Interval Type

SET GCELLCCAD(Optional) This parameter specifies whether to allow a mobile phone toEnumeration T

SET OTHSOFTPARA(Optional) This parameter specifies whether the SI Type 3 message c Enumeration T

SET GCELLHOBASIC(Optional) This parameter specifies whether the handover from 3G cellsEnumeration T

SET GCELLHOBASIC(Optional) This parameter specifies whether the handover from 2G cellsEnumeration T

This parameter specifies whether a 2G cell or to a 3G cell is preferEnumeration T

If the receive level of the neighboring 2G cell that ranks the Interval Type

This parameter specifies whether to allow 3G better cell ha Enumeration T

SET GCELLCCUTRANSYS(OptionThis parameter specifies whether Ec/No or RSCP is used for Enumeration T


If this parameter is set to USubcell, a channel in the underlaid subcell is assigned preferentially.If this parameter is set to NoPrefer, a channel is assigned simply according to channel assignment algorithms.

Whether to allow intra-cell handovers. This parameter does not affect concentric cell handovers and forced handovers. During an AMR handover, aninterference handover, and a bad quality handover, an intra-cell handover is unavailable if this parameter is set to NO.

In the handover algorithm of the first generation, load handovers can be performed only when the receive level of the current serving cell is in the range "Edge HO DL RX_LEV Threshold" to "Edge HO DL RX_LEV Threshold" + "Load HO Bandwidth". In the handover algorithm of the second generation, load handovers can be performed only when the level difference between the neighboring cell and the serving cell is between "Inter-cell HO Hysteresis" - "Load HO Bandwidth" and "Inter-cell HO Hysteresis".

SET GCELLHOUTRANFDD(Optional)SET GCELLHOUTRANTDD(Optional)SET GCELLHOUTRANFDD(Optional)SET GCELLHOUTRANTDD(Optional)SET GCELLHOUTRANFDD(Optional)SET GCELLHOUTRANTDD(Optional)

According to the P/N rule, if the conditions for the handover to a better 3G cell are met for P seconds within N seconds, the handover is triggered.This parameter specifies the number P.

The 3G better cell handover is triggered only when the RSCP oInterval Type


SET GCELLHOUTRANFDD(OptionThe 3G better cell handover can be triggered only when the EcInterval Type

SET GCELLHOINTERRATLDB(OptiThis parameter specifies whether to allow the inter-RAT loa Enumeration T

If the load of a cell is lower than the value of this paramete Interval Type

SET OTHSOFTPARA(Optional) When this parameter is set to Open, the BSS decides whethEnumeration T

ADD GEXT3GCELL(Mandatory) This parameter specifies the type of a 3G cell. A cell type Enumeration T


SET GCELLPWRBASIC(Optional)Whether to enable power control algorithm II or power controlEnumeration T

SET GCELLBASICPARA(OptionalWhether to allow MS power control Enumeration T

SET GCELLBASICPARA(OptionalWhether to allow BTS power control Enumeration T

SET GCELLPWRBASIC(Optional)Minimum interval between two consecutive power control Interval Type


SET GCELLPWR2(Optional) Enumeration T

SET GCELLPWR2(Optional) Interval Type


SET GCELLPWR2(Optional) When the network receives measurement reports, in consideraInterval Type

SET GCELLPWR2(Optional) Number of measurement reports sampled for averaging downliInterval Type

SET GCELLPWR2(Optional) When the network receives measurement reports, the measuremInterval Type

SET GCELLPWR2(Optional) Number of measurement reports sampled for averaging downliInterval Type

SET GCELLPWRBASIC(Optional)When the uplink receive level reaches the threshold, HuaweiInterval Type

SET GCELLPWRBASIC(Optional)When the uplink receive level is below the threshold, HuaweiInterval Type

SET GCELLPWRBASIC(Optional)The MS transmit power is decreased only when the quality leInterval Type

SET GCELLPWRBASIC(Optional)The MS transmit power is increased only when the quality leInterval Type

SET GCELLPWRBASIC(Optional) Interval Type

SET GCELLPWRBASIC(Optional) Interval Type

SET GCELLPWRBASIC(Optional)Quality level threshold for decreasing downlink signal powe Interval Type

SET GCELLPWRBASIC(Optional)Quality level threshold for increasing downlink signal powe Interval Type

SET GCELLPWR2(Optional) Huawei power control algorithm II divides three quality zon Interval Type



SET GCELLPWR2(Optional) Step of upward power adjustment according to the quality ofInterval Type

SET GCELLPWR2(Optional) Step of downward power adjustment according to the quality Interval Type

SET GCELLPWR2(Optional) Step of upward power adjustment according to the quality ofInterval Type

SET GCELLPWR2(Optional) In the case of power control, when the uplink receive quali Interval Type

SET GCELLPWR2(Optional) In the case of power control, when the uplink receive quali Interval Type

SET GCELLPWR2(Optional) During downlink power control, if the downlink receive qual Interval Type

SET GCELLPWR2(Optional) During downlink power control, if the downlink receive qual Interval Type

SET GCELLHOUTRANFDD(Optional)SET GCELLHOUTRANTDD(Optional)According to the P/N rule, if the conditions for the handover to a better 3G cell are met in P of N measurement reports, the handover is triggered.

This parameter specifies the number N.

ADD GEXT3GCELL(Optional)SET GCELLHOAD(Optional)

Whether power control algorithm II allows measurement report compensation. When making a power control decision, the BSC retrieves a certain number of history measurement reports and performs weighted filtering on the receive level values and receive quality values in these reports, which may be obtained when different transmit powers were used by BTSs or MSs. To ensure that correct receive level values and receive quality values are used in filtering, you must compensate the receive level values and receive quality values in history measurement reports obtained when transmit powers different than the current one were used.To compensate the delay of power adjustment, the power control algorithm implements the prediction and filtering function. In other words, the BSC samples several uplink measurement reports, performs weighted filtering, and predicts N measurement reports from the current time onwards in a short period. This parameter determines the number of uplink measurement reports predicted by the BSC. In other words, the value of this parameter equals to the previous number N.To prevent late power control to a certain degree, the power control algorithm involves a measurement report prediction filter. The BSC can sample several downlink measurement reports in a short time and then weight them to predict future N measurement reports.This parameter specifies the number N.

Power decrease = downlink received signal level - ("DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold")/2The maximum power adjustment step allowed by the quality zone is chosen from "MAX Down Adj.Value Qual.Zone 0", "MAX Down Adj.Value Qual.Zone 1", and "MAX Down Adj.Value Qual.Zone 2" according to the quality zone.If the downlink received signal level is less than this threshold, a power increase is computed. Then, the power is increased by the least of the power increase, "MAX Up Adj. PC Value by RX_LEV", and "MAX Up Adj. PC Value by Qual.".Power increase = ("DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold")/2 - downlink received signal level


SET GCELLPWR3(Optional) When the number of the lost measurement reports exceeds thInterval Type

SET GCELLPWR3(Optional) Maximum number of discarded MRs allowed on the SDCCH inInterval Type

SET GCELLPWR3(Optional) Maximum number of discarded MRs allowed on the TCH in aInterval Type

SET GCELLPWR3(Optional) Length of the exponential filter for downlink signal strengt Interval Type

SET GCELLPWR3(Optional) Length of the exponential filter for downlink signal quality Interval Type

SET GCELLPWR3(Optional) Length of the slide window filter for downlink signal streng Interval Type

SET GCELLPWR3(Optional) Length of the slide window filter for downlink signal qualit Interval Type





SET GCELLPWR3(Optional) Upper receive level threshold for downlink power control. If Interval Type

SET GCELLPWR3(Optional) Lower receive level threshold for downlink power control. If Interval Type

SET GCELLPWR3(Optional) Upper quality threshold for Huawei power control generation IIIInterval Type

SET GCELLPWR3(Optional) Lower quality threshold for Huawei power control generation IIIInterval Type

SET GCELLPWR3(Optional) Upper quality threshold for Huawei power control generation IIInterval Type

SET GCELLPWR3(Optional) Lower quality threshold for Huawei power control generation IIInterval Type

SET GCELLPWR3(Optional) If the downlink receive quality level of an AMR full rate call Interval Type

SET GCELLPWR3(Optional) If the downlink receive quality level of an AMR full rate call Interval Type

SET GCELLPWR3(Optional) If the downlink receive quality level of an AMR half rate cal Interval Type

SET GCELLPWR3(Optional) If the downlink receive quality level of an AMR half rate cal Interval Type

SET GCELLPWR3(Optional) When the uplink receive level reaches the threshold, Huawei Interval Type

SET GCELLPWR3(Optional) When the uplink receive level is lower than the threshold, H Interval Type

SET GCELLPWR3(Optional) Current call is a full-rate call, and when the uplink receive q Interval Type

SET GCELLPWR3(Optional) Current call is a full-rate call, and when the uplink receive q Interval Type

SET GCELLPWR3(Optional) Current call is a half-rate call, and when the uplink receive Interval Type

SET GCELLPWR3(Optional) Current call is a half-rate call, and when the uplink receive Interval Type

SET GCELLPWR3(Optional) Current call is an AMR full-rate call, and when the uplink recInterval Type

SET GCELLPWR3(Optional) Current call is an AMR full-rate call, and when the uplink recInterval Type

SET GCELLPWR3(Optional) Current call is an AMR half-rate call, and when the uplink reInterval Type

SET GCELLPWR3(Optional) Current call is an AMR half-rate call, and when the uplink reInterval Type

SET GCELLPWR3(Optional) Step adjustment ratio of the receive level in the uplink powerInterval Type

SET GCELLPWR3(Optional) Step adjustment ratio of the receive quality in the uplink powInterval Type

SET GCELLPWR3(Optional) Percentage of signal strength in the factors by which to det Interval Type

SET GCELLPWR3(Optional) Percentage of quality level in the factors by which to deter Interval Type

SET GCELLPWR3(Optional) Maximum permissible adjustment step when the BSC decreasInterval Type

SET GCELLPWR3(Optional) Maximum permissible adjustment step when the BSC increasInterval Type

SET GCELLPWR3(Optional) Maximum step by which to decrease downlink power accordinInterval Type

SET GCELLPWR3(Optional) Maximum step by which to increase downlink power accordinInterval Type


SET GCELLCCACCESS(Optional)Speech version supported by a cell Bit Field Type

ADD BTS(Optional) Enumeration T

SET GCELLCCCH(Optional) Whether to support the half-rate service in this cell. It is o Enumeration T

SET GTRXCHAN(Optional) Enumeration T

SET GTRXDEV(Optional) Whether to allow the cell to dynamically change a channel froEnumeration T

SET GCELLCHMGBASIC(OptionalWhether to enable the cell to centralize two busy half rate TEnumeration T

SET GCELLCHMGAD(Optional) If the current channel seizure ratio reaches or exceeds this vInterval Type

SET GCELLCHMGAD(Optional) Whether to enable the BSC to assign AMR half rate channels Enumeration T

SET GCELLCHMGAD(Optional) Load threshold for assigning half rate channels preferentiallyInterval Type

SET GCELLCHMGAD(Optional) Whether to enable the BSC to assign half or full rate channeEnumeration T

SET GCELLCHMGAD(Optional) Threshold for determining that the underlaid subcell is busy Interval Type

SET GCELLCHMGAD(Optional) Interval Type

SET GCELLCCAMR(Optional) Active coding set (ACS)[F], indicates a set of full-rate codi Bit Field Type

SET GCELLCCAMR(Optional) Active coding set (ACS)[H], indicates set of half-rate coding Bit Field Type

SET GCELLCCAMR(Optional) Active coding set (ACS)[WB], indicates a set of wide-band coBit Field Type

SET GCELLCCAMR(Optional) Initial coding mode used for full rate AMR calls. The four va Interval Type

SET GCELLCCAMR(Optional) Initial coding mode used for half rate AMR calls. The four vaInterval Type

SET GCELLCCAMR(Optional) Initial coding mode used for broadband AMR calls. The threeInterval Type

SET GCELLCCAMR(Optional) Based on the RQI in the call measurement report, the BTS andInterval Type






SET GCELLCCAMR(Optional) Adjustment threshold 1 of AMR downlink coding rate (full ra Interval Type



SET GCELLCCAMR(Optional) Adjustment hysteresis 1 of AMR downlink coding rate (full raInterval Type









SET GCELLCCAMR(Optional) Adjustment threshold 1 of AMR downlink coding rate (half raInterval Type



SET GCELLCCAMR(Optional) Adjustment hysteresis 1 of AMR downlink coding rate (half rInterval Type



SET GCELLHOBASIC(Optional) Whether to allow AMR handovers. This parameter has no Enumeration T

Statistical multiplexing means that signaling timeslots are time-division multiplexed in an E1 timeslot, such as the OML and RSL timeslots or the RSL timeslots. For example, in the case of 4:1 multiplexing, one 64 kbit/s timeslot multiplexes one OML and three RSL links or four RSL links of the BTS. The 64 kbit/s timeslot that multiplexes the OML has a multiplexing ratio of up to 4:1 even if the multiplexing ratio exceeds 4:1.HDLC and IP BTS is not support this parameter.

In the case of half-rate networking, each E1 supports up to 13 TRXs. If the LAPD signaling links are unmultiplexed, each E1 supports fewer TRXs.

The BSC assigns channels in the overlaid subcell to the MS in a concentric cell. If the channel seizure ratio of overlaid subcell is greater than the value of this parameter, half-rate channels are assigned. Otherwise, full-rate channels are assigned. Channel seizure ratio = (Num. of busy TCHF + Num. of busy TCHH/2)/(Num. of available TCHF + Num. of available TCHH /2) x 100%. This parameter is valid for the concentric cell. When the "Allow Rate Selection Based on Overlaid/Underlaid Subcell Load" is set to Yes, the "TCH Traffic Busy Threshold (%)" is invalid for the concentric cell.

SET GCELLHOBASIC(Optional) Whether to allow intra-cell handovers Enumeration T



SET GCELLHOBASIC(Optional) For an AMR call, if the currently occupied channel is a full Interval Type

SET GCELLHOBASIC(Optional) For an AMR call, if the currently occupied channel is a half Interval Type

SET GCELLHOFITPEN(Optional) Within the preset time, no AMR FR-to-HR handover is allowedInterval Type





SET GCELLPWR2(Optional) Quality level threshold for decreasing the power of an upl Interval Type

SET GCELLPWR2(Optional) Quality level threshold for increasing the power of an upl Interval Type

SET GCELLPWR2(Optional) Quality level threshold for decreasing downlink AMR signal Interval Type

SET GCELLPWR2(Optional) Quality level threshold for increasing downlink AMR signal Interval Type

SET BSCBASIC(Optional) Phase tag for GSM protocols supported by the A interface. TEnumeration T

SET BSCBASIC(Optional) Phase tag for GSM protocols that the Um interface supportsEnumeration T

SET BSCBASIC(Optional) Phase tag for GSM protocols that the Abis interface supportEnumeration T


SET GCELLHOPQUICKSETUP(ManFrequency hopping mode of the TRX that carries the BCCHEnumeration T

SET GCELLCCCH(Optional) Whether an MS uses the calculated value as the final receivEnumeration T

This parameter specifies the frequency hopping mode of a celEnumeration T

ADD GCELLMAGRP(Mandatory) Index of the frequency hopping data, used for a TRX to loc Interval Type

ADD GCELLMAGRP(Mandatory) Implementation mode of frequency hopping Enumeration T

SET OTHSOFTPARA(Optional) If this parameter is set to ON, the channel on a single freq Enumeration T

SET GTRXHOP(Optional) Enumeration T

ADD GCELLMAGRP(Optional) Interval Type

SET GCELLSOFT(Optional) Coding mode in which an ARFCN is sent to an MS during an Enumeration T

SET BSCFCPARA(Optional) Whether to preferentially use the variable bitmap code wh Enumeration T

SET GTRXCHANHOP(Optional) Frequency hopping index of the channel in the TRX Interval Type

List of IDs of carriers for frequency hopping. String Type

SET GTRXCHANHOP(Optional) Mobile allocation index offset (MAIO) of the channel in the Interval Type

ADD GCELLMAGRP(Optional) Interval Type


ADD BC(Optional) Protocol type of the trunk frame Enumeration T

ADD NSVC(Mandatory) ID of the data link connection of the NSVC. It is an interw Interval Type

ADD NSE(Mandatory) Subnet protocol type Enumeration T

ADD NSE(Optional) Configuration mode of the IP subnetwork. Static configura Enumeration T

ADD NSE(Mandatory) Server IP address used on the SGSN side in the IP subnet IP Address Ty

Identifies a unique NSE Interval Type

Power decrease = uplink received signal level - ("AMR UL RX_LEV Upper Threshold" + "AMR UL RX_LEV Lower Threshold")/2The maximum power adjustment step allowed by the quality zone is chosen from "AMR MAX Down Adj. Value Qual. Zone 0", "AMR MAX Down Adj. Value Qual. Zone 1", and "AMR MAX Down Adj. Value Qual. Zone 2" according to the quality zone.If the uplink received AMR signal level is less than this threshold, a power increase is computed. Then, the power is increased by the least of the power increase, "AMR MAX Up Adj. PC Value by RX_LEV", and "AMR MAX Up Adj. PC Value by Qual.".Power increase = ("AMR UL RX_LEV Upper Threshold" + "AMR UL RX_LEV Lower Threshold")/2 - uplink received signal level.Power decrease = downlink received signal level - ("AMR DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold")/2The maximum power adjustment step allowed by the quality zone is chosen from "AMR MAX Down Adj. Value Qual. Zone 0", "AMR MAX Down Adj. Value Qual. Zone 1", and "AMR MAX Down Adj. Value Qual. Zone 2" according to the quality zone.If the downlink received AMR signal level is less than this threshold, a power increase is computed. Then, the power is increased by the least of the power increase, "AMR MAX Up Adj. PC Value by RX_LEV", and "AMR MAX Up Adj. PC Value by Qual.".Power increase = ("AMR DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold")/2 - downlink received signal level.

SET GCELLHOPTP(Optional)SET GCELLHOPQUICKSETUP(Mandatory)

Frequency hopping mode of the TRX. Frequency hopping assists in interference averaging and frequency diversity.If this parameter is set to RF_FH, the TX and RX parts of the TRX take part in the frequency hopping. In this case, the number of hopping frequencies can exceed the number of TRXs in the cell. If this parameter is set to BaseBand_FH, each transmitter works at a fixed frequency. That is, the TX part does not take part in the frequency hopping. The baseband signals are switched for the frequency-hopping transmission. The RX part, however, takes part in the frequency hopping.Hopping sequence number (HSN), indicating 64 types of frequency hopping sequences. If this parameter is set to 0, the frequency hopping is performed in sequence.If this parameter is set to a value from 1 to 63, the frequency hopping is performed in a pseudo-random manner, that is a disciplinary random manner.

SET GCELLHOPQUICKSETUP(Optional)SET GCELLHOPANTQUICKSETUP(Optional)

The TSC is short for the Training Sequence Code.The TSC must be the same as the BCC. The delay equalization is performed by using the specified TSC when the MS or BTS receives the signal. The demodulation cannot be received because the delay equalization cannot be performed for the signals with same frequency using different TSCs. This can effectively prevent incorrectly invalid reception, and prevent the co-channel interference.

ADD PTPBVC(Mandatory)BLK PTPBVC(Mandatory)

SET GCELLBASICPARA(Optional Interval Type

SET GCELLPSCS(Optional) Default coding scheme of the uplink GPRS link. If the uplin Enumeration T

SET GCELLPSCS(Optional) Coding scheme of the default GPRS downlink. Dynamic adjustEnumeration T

SET GCELLPSCS(Optional) Adjustment mode of the uplink GPRS link coding scheme. If Enumeration T

SET GCELLPSCS(Optional) Adjustment mode of the downlink GPRS link coding scheme. IEnumeration T

SET GCELLPSCS(Optional) Retransmission threshold when the coding mode of the uplinInterval Type






SET GCELLPSCS(Optional) Retransmission threshold when the coding mode of the downInterval Type

SET GCELLPSCS(Optional) Retransmission threshold when the coding mode of the TBF Interval Type



SET GCELLPSCS(Optional) Retransmission threshold when the coding mode of the TBF Interval Type


SET GCELLEGPRSPARA(OptionaDefault coding scheme of the uplink EDGE link. If the uplin Enumeration T

SET GCELLEGPRSPARA(OptionaDefault coding scheme of the downlink EDGE link. If the do Enumeration T

SET GCELLEGPRSPARA(OptionaCoding scheme of the uplink EDGE link. If the uplink uses Enumeration T

SET GCELLEGPRSPARA(OptionaCoding scheme of the downlink EDGE link. If the downlink uEnumeration T

SET GCELLEGPRSPARA(OptionaAverage period for sending the measurement report over Interval Type

SET GTRXCHAN(Optional) Enumeration T

SET BSCPSSOFTPARA(Optional)Switch specifying whether to allow the downlink EGPRS TBEnumeration T

SET GCELLPSCHM(Optional) Maximum value of the PDCH ratio in a cell. The number of avInterval Type

SET GCELLPSCHM(Optional) PDCH uplink multiplex threshold, indicating the maximum T Interval Type

SET GCELLPSCHM(Optional) PDCH downlink multiplex threshold, Indicating the maximu Interval Type

SET GCELLPSCHM(Optional) Uplink multiplex threshold of dynamic channel conversion. WInterval Type

SET GCELLPSCHM(Optional) Downlink multiplex threshold of dynamic channel conversionInterval Type

SET GCELLPSCHM(Optional) Enumeration T

SET GCELLPSCHM(Optional) Number of full-rate TCHs reserved for the CS domain. This Interval Type

SET GCELLPSBASE(Optional) This parameter is related to the paging channel of the syst Enumeration T

SET GCELLPSBASE(Optional) T3168 is used to set the maximum duration for the MS to waiEnumeration T

SET GCELLPSBASE(Optional) Duration of releasing the TBF after the MS receives the las Enumeration T

SET GCELLPSBASE(Optional) Whether to support the 11-bit EGPRS access request Enumeration T

SET GCELLPSBASE(Optional) Enumeration T

SET GCELLPSBASE(Optional) Access priority of the MS that is allowed to access the cell. Enumeration T

SET BSCPSSOFTPARA(Optional)Whether to support USF granularity 4 Enumeration T

SET GCELLEGPRSPARA(OptionaIt is applicable to the radio transmission environment to i Enumeration T

SET GCELLPSBASE(Optional) Whether to support the paging function of the CS domain o Enumeration T

SET BSCPSSOFTPARA(Optional)This parameter specifies whether to receive the CS paging rEnumeration T

SET GCELLPSOTHERPARA(OptioMinimum bandwidth of the POC service (push to talk over ceInterval Type

SET GCELLPSOTHERPARA(OptioMaximum bandwidth of the POC service (push to talk over ceInterval Type

SET GCELLPSOTHERPARA(OptioMaximum transmission delay of the POC service (push to talkInterval Type

SET GCELLPSOTHERPARA(OptioObtains the QoS parameter from the Aggregate BSS QoS ProEnumeration T

Timeslot power attenuation level of the EDGE TRX in 8PSK. The attenuation level ranges from 0 to 50, each of which corresponds to an attenuation of 0.2 dB. When the EDGE TRX sends signals in 8PSK, the transmit power must be lower than the mean power in GMSK.

If this parameter is set to EGPRSSPECH, only the EDGE MSs can use this channel.If this parameter is set to NONGPRS, this parameter becomes invalid.

"No preempt of CCHs" indicates the circuit domain can preempt all the dynamic channels except the CCHs."No preempt of service TCHF" indicates the circuit domain cannot preempt all the dynamic channels of bearer services.

Access pulse type of the PRACH, uplink PTCCH and packet control acknowledge message of the MS.8bit: 8 bit pulse access mode; 11bit: 11 bit pulse access mode.

SET GCELLPSOTHERPARA(OptioWhether to support QoC optimization. The GSN equipment for Enumeration T

SET GCELLPSPWPARA(OptionalExpected signal receiving strength on the BTS side when Interval Type

SET GCELLPSPWPARA(OptionalIt is used to perform open loop power control. Alpha param Enumeration T

SET GCELLCCCH(Optional) Interval Type

SET GCELLPSPWPARA(OptionalChannel used for the measured receiving power. It is used tEnumeration T

SET GCELLPSBASE(Optional) Network control mode for cell reselection of the MS. There Enumeration T

SET GCELLGPRS(Optional) Whether to support the network assisted cell change (NACC).Enumeration T

SET GCELLGPRS(Optional) Whether to support the network control 2 (NC2). The NC2 enaEnumeration T

SET BTSIDLETS(Mandatory) Number of the cabinet group where the idle timeslot is locat Interval Type

SET BTSIDLETS(Mandatory) Number of idle timeslots. You can configure up to 128 idle t Interval Type

SET GCELLPSBASE(Optional) Whether to send the Dummy message during the deactivatedEnumeration T

SET GCELLPSOTHERPARA(OptioThis parameter specifies whether to support the takeover Enumeration T

SET GCELLPSOTHERPARA(OptioWhether to support the function of moving the packet assi Enumeration T

SET GCELLPRIVATEOPTPARA(OpDelay of releasing the downlink TBF. After the last downlinkInterval Type

SET GCELLPRIVATEOPTPARA(OpDelay of releasing the non-extended uplink TBF. After receivInterval Type

SET GCELLSTANDARDOPTPARA(OMaximum value of the N3101 counter. In the dynamic uplink aInterval Type

SET GCELLSTANDARDOPTPARA(OMaximum value of the N3101 counter. When the uplink transmInterval Type

SET GCELLSTANDARDOPTPARA(OMaximum value of the N3105 counter. After the downlink TBFInterval Type

SET GCELLPRIVATEOPTPARA(OpInactive period of extended uplink TBF. After the network si Interval Type


SET GCELLPSCHM(Optional) Time to wait for releasing the dynamic channel after the TBFInterval Type


SET GTRXBASE(Optional) Maximum number of PDCHs that can be assigned in the T Interval Type

SET GCELLPSCHM(Optional) Conversion policy of the dynamic channel of the concentric cEnumeration T

In a GSM900 cell, the maximum power control level of an MS ranges from 0 to 19, corresponding respectively to the following values (unit: dBm): 43, 41, 39, 37, 35, 33, 31, 29, 27, 25, 23, 21, 19, 17, 15, 13, 11, 9, 7, and 5.Generally, the maximum transmit power supported by an MS is level 5 (corresponding to 33 dBm). The minimum transmit power supported by an MS is level 19 (corresponding to 5 dBm). Other transmit power levels are reserved for high-power MSs.In a GSM1800 or GSM1900 cell, the maximum power control level of an MS ranges from 0 to 31, corresponding respectively to the following values (unit: dBm): 30, 28, 26, 24, 22, 20, 18, 16, 14, 12, 10, 8, 6, 4, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 36, 34, and 32. Generally, the maximum transmit power supported by an MS is level 0 (corresponding to 30 dBm). The minimum transmit power supported by an MS is level 15 (corresponding to 0 dBm). Other transmit power levels are reserved for high-power MSs.

1. When "Level of Preempting Dynamic Channel" is set to "No preempt of service TCHF" and "PDCH Reforming" is set to "Yes", the channels for the CS service is released if the CS service fails be switched to another channel.2: When "Level of Preempting Dynamic Channel" is set to "Preempt all dynamic TCHFs" or "No preempt of CCHs" and "PDCH Reforming" is set to "Yes", the CS service is switched to the original channel if the CS service fails to be switched to another channel.

"No preempt of CCHs" indicates the circuit domain can preempt all the dynamic channels except the CCHs."No preempt of service TCHF" indicates the circuit domain cannot preempt all the dynamic channels of bearer services.

To be updated by project

Unit

None 3 digit None None None Versions earlier than BSC6900 V900R011

None 2~3 digit None None None Versions earlier than BSC6900 V900R011

1~65533,65531~65533, 65535 None None None Versions earlier than BSC6900 V900R011

0~65535 0~65535 None None None Versions earlier than BSC6900 V900R011




Unit

NO(No), YES(NO, YES None YES YES Versions earlier than BSC6900 V900R011

1 Non-compou1 Non-compoundNone 1 Compou1 Compounding C Versions earlier than BSC6900 V900R011

0~7 0~7 None 1 1 Versions earlier than BSC6900 V900R011

2_M_PERIOD(2 940~4230, step: ms 2_M_PER2_M_PERIOD Versions earlier than BSC6900 V900R011

0~255 0~1530, step: 6 min 20 20 Versions earlier than BSC6900 V900R011


Unit

1_Times(1_Tim1_Times, 2_TimeNone 4_Times 4_Times Versions earlier than BSC6900 V900R011

TX_3(3), TX_4TX_3, TX_4, TX_None TX_32 TX_32 Versions earlier than BSC6900 V900R011

-121~-104 -121~-104 dBm -109 -109 Versions earlier than BSC6900 V900R011

-121~-104 -121~-104 dBm -109 -109 Versions earlier than BSC6900 V900R011

4_Times, 8_Ti1920~30720, stems 52_Times 52_Times Versions earlier than BSC6900 V900R011

0~63 0~30240, step: 4ms 32 32 Versions earlier than BSC6900 V900R011

SELECTION0_SELECTION0_PNone SELECTIOSELECTION0_PERVersions earlier than BSC6900 V900R011

L0_FORBID, LL0_FORBID, L1_None L0_FORBIL0_FORBID-0&L1_Versions earlier than BSC6900 V900R011

L11_FORBID, L11_FORBID, L None L11_FORBL11_FORBID-0&L1Versions earlier than BSC6900 V900R011

0~3 0~3 None 0 If the traffic volu Versions earlier than BSC6900 V900R011

NO(No), YES(NO, YES None YES 1. For a 900/1800 MHzVersions earlier than BSC6900 V900R011

NO(No), YES(NO, YES None NO NO Versions earlier than BSC6900 V900R011


Unit

0~63 0~63 (-110 dBm dB 8 8 Versions earlier than BSC6900 V900R011


NO(NO), YES(NO, YES None NO The CBA function apVersions earlier than BSC6900 V900R011


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0~63 0~126, step: 2 dB 0 0 Versions earlier than BSC6900 V900R011

0~7 0~7 (the correspoNone 0 0 Versions earlier than BSC6900 V900R011

0~31 0~31 (the corress 0 0 Versions earlier than BSC6900 V900R011


0dB, 2dB, 4dB0dB, 2dB, 4dB, dB 6dB 6dB Versions earlier than BSC6900 V900R011

0~15 -98, -94, -90, -86None 15 15 Versions earlier than BSC6900 V900R011



Use_Qsearch_IUse_Qsearch_I, None Use_QsearUse_Qsearch_I Versions earlier than BSC6900 V900R011


0~15 Negative infinity,dB 8 8 Versions earlier than BSC6900 V900R011

0~7 -20, -6, -18, -8, - dB 0 0 Versions earlier than BSC6900 V900R011


Unit

NO(No), YES(NO, YES None YES If this parameter i Versions earlier than BSC6900 V900R011


NO(No), YES(NO, YES None NO Versions earlier than BSC6900 V900R011


DISABLE(DisaDISABLE, ENABNone DISABLE DISABLE Versions earlier than BSC6900 V900R011

0~100 0~100 per cent 90 90 Versions earlier than BSC6900 V900R011


0~63 0~63 dB 16 16 Versions earlier than BSC6900 V900R011


0~255 0~2550, step:10 ms 7 7 Versions earlier than BSC6900 V900R011


Normal_cell(NoNormal_cell, DuaNone Normal_celNormal_cell Versions earlier than BSC6900 V900R011

0~255 0~255 None 62 In Normal cell,the Versions earlier than BSC6900 V900R011







1~31 480~14880, stepms 20 20 Versions earlier than BSC6900 V900R011

May_Use(May UMay_Use, Shall None Shall_UseShall_Use Versions earlier than BSC6900 V900R011

May_Use(May UMay_Use, Shall None Shall_UseShall_Use Versions earlier than BSC6900 V900R011



6~240 60~2400 (step: 1ms 12 Versions earlier than BSC6900 V900R011

1~3 1~3 None 3 Versions earlier than BSC6900 V900R011

OFF(Off), ON(OFF, ON None OFF OFF Versions earlier than BSC6900 V900R011


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Yes: when the Transmission Mode of the BTS is Satellite transmissionNo: when the Transmission Mode of the BTS is Terrestrial transmission

When the transmission quality is good, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 12; "T203" = 1; and "N200" = 3.When the transmission quality is bad, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 24; "T203" = 3; and "N200" = 3.When the transmission quality is good, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 12; "T203" = 1; and "N200" = 3.When the transmission quality is bad, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 24; "T203" = 3; and "N200" = 3.

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Unit


0~255 0~255 bit 255 255 Versions earlier than BSC6900 V900R011


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NO(No), YES(NO, YES None NO In dual-band networVersions earlier than BSC6900 V900R011












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NO(Close), Y NO, YES None NO NO Versions earlier than BSC6900 V900R011








1~255 1~255 s 10 10 Versions earlier than BSC6900 V900R011



0~100 0~100 per cent 90 90 BSC6900 V900R011










Unit


0,8~11 0, 8~11 None 10 10 Versions earlier than BSC6900 V900R011






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0~63 0~63 (-110 dBm dB 10 Versions earlier than BSC6900 V900R011

0~63 0~63 (-110 dBm dB 20 Versions earlier than BSC6900 V900R011

1~32 0.5~16, step:0.5 s 1 1 Versions earlier than BSC6900 V900R011






0~63 0~63 dB 4 In densely populat Versions earlier than BSC6900 V900R011


Unit

NO(No), YES(NO, YES None NO Set this parameter Versions earlier than BSC6900 V900R011





Unit






0~127 0~127 (-64 dB todB 67 67 Versions earlier than BSC6900 V900R011


Unit




0~127 0~127 (-64 dB todB 68 In densely populat Versions earlier than BSC6900 V900R011


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20: suburbs with a single BTS20: urban areas with PBGT handover enabledThe recommended value is 20 when HUAWEI I Handover is used.The recommended value is 15 when HUAWEI II Handover is used.

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Unit

OFF(Off), ON(OFF, ON None ON ON Versions earlier than BSC6900 V900R011

NO(Close), Y NO, YES None NO NO Versions earlier than BSC6900 V900R011

Enumeration NO(No), YES(YeNO, YESNone YES Versions earlier than BSC6900 V900R011























Unit


0~255 0~255 bit 0 0: normal cells, 63:Versions earlier than BSC6900 V900R011

SysOpt(System SysOpt, OSubcellNone SysOpt SysOpt Versions earlier than BSC6900 V900R011

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SysOpt(System SysOpt, OSubcellNone SysOpt SysOpt Versions earlier than BSC6900 V900R011

OSubcell(OverlOSubcell, USubceNone Usubcell Usubcell Versions earlier than BSC6900 V900R011


Unit

NO(No), YES(NO, YES None NO In the hot-spot ar Versions earlier than BSC6900 V900R011









Unit

1~100 1~100 None 90 90 BSC6900 V900R011

1~100 1~100 None 100 100 BSC6900 V900R011

1~100 1~100 None 90 90 BSC6900 V900R011

1~100 1~100 None 100 100 BSC6900 V900R011

1~100 1~100 None 80 80 BSC6900 V900R011


Service-based{0~4} None OFF OFF BSC6900 V900R011

0~100 0~100 None 10 10 BSC6900 V900R011

0~200 -100~100 per cent 110 110 BSC6900 V900R011

0,8~11 0, 8~11 None 10 10 Versions earlier than BSC6900 V900R011


0~91 0~91 dB 91 91 BSC6900 V900R011


0~91 0~91 dB 30 30 BSC6900 V900R011

0~49 0~49 dB 49 49 BSC6900 V900R011

0~49 0~49 dB 25 25 BSC6900 V900R011

NO(No), YES(NO, YES None NO NO BSC6900 V900R011




Pre_2G_Cell(PrPre_2G_Cell, Pr None Pre_2G_CePre_2G_CellThres Versions earlier than BSC6900 V900R011



RSCP(RSCP), RSCP, EcN0 None RSCP RSCP Versions earlier than BSC6900 V900R011


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CLOSE(Close)CLOSE, OPEN None CLOSE CLOSE Versions earlier than BSC6900 V900R011

FDD(FDD), T FDD, TDD None None None Versions earlier than BSC6900 V900R011


Unit

PWR2(Power conPWR2, PWR3 None PWR3 PWR3 Versions earlier than BSC6900 V900R011



1~15 TCH:480~7200, sms 3 3 Versions earlier than BSC6900 V900R011


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0~19 TCH:0~9120, stems 3 3 Versions earlier than BSC6900 V900R011





































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FULL_RATE_VFull_rate_Ver1, None FULL_RATFULL_RATE_VER1Versions earlier than BSC6900 V900R011

MODE1_1, MOMODE1_1, MODENone MODE4_1MODE4_1 Versions earlier than BSC6900 V900R011


TCHFR(TCH FTCHFR, TCHHRNone TCHFR TCHFR Versions earlier than BSC6900 V900R011


NO(No), YES(NO, YES None YES None Versions earlier than BSC6900 V900R011







4_75KBIT/S~04_75KBIT/S, 5_1None 4_75KBIT/4_75KBIT/S-1&5_1Versions earlier than BSC6900 V900R011

4_75KBIT/S~04_75KBIT/S, 5_1None 4_75KBIT/4_75KBIT/S-1&5_1Versions earlier than BSC6900 V900R011

6_60KBIT/S, 0~7 None 6_60KBIT/6_60KBIT/S-1&8_8Versions earlier than BSC6900 V900R011



0~2 0~2 None 2 2 BSC6900 V900R011


























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NO(No), YES(NO, YES None NO In the hot-spot ar Versions earlier than BSC6900 V900R011














GSM_PHASE_1GSM_PHASE_1,None GSM_PHAGSM_PHASE_2 is reVersions earlier than BSC6900 V900R011

GSM_PHASE_1GSM_PHASE_1,None GSM_PHAIt is recommended tVersions earlier than BSC6900 V900R011

GSM_PHASE_1GSM_PHASE_1,None GSM_PHAIt is recommended tVersions earlier than BSC6900 V900R011


Unit

NO_Hop(No hoNO_Hop, Hop None None None Versions earlier than BSC6900 V900R011


NO_FH(No freqNO_FH, BaseBanNone NO_FH NO_FH Versions earlier than BSC6900 V900R011


BaseBand_FH(BaseBand_FH, None None None Versions earlier than BSC6900 V900R011

OFF(Off), ON(OFF, ON None OFF OFF Versions earlier than BSC6900 V900R011

NO_FH(No FreNO_FH, BaseBaNone NO_FH NO_FH Versions earlier than BSC6900 V900R011


CA_MA(CA+MA)CA_MA, FrequenNone CA_MA CA_MA Versions earlier than BSC6900 V900R011


0~63,255 0~63, 255 None 255 255 Versions earlier than BSC6900 V900R011

None 1~120 character None None None Versions earlier than BSC6900 V900R011




Unit

Q933(Q933), AQ933, ANSI None Q933 Q933 Versions earlier than BSC6900 V900R011


GB_OVER_FR(GGB_OVER_FR, None None None Versions earlier than BSC6900 V900R011

STATIC(Stati STATIC, DYNAMNone None None Versions earlier than BSC6900 V900R011

None 0.0.0.0~255.255 None None None Versions earlier than BSC6900 V900R011


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CS1(CS1), CSCS1, CS2, CS3, None CS1 CS1 Versions earlier than BSC6900 V900R011

CS1(CS1), CSCS1, CS2, CS3, None CS2 CS2 Versions earlier than BSC6900 V900R011

CS1(CS1), CSCS1, CS2, CS3, None UNFIXED UNFIXED Versions earlier than BSC6900 V900R011

CS1(CS1), CSCS1, CS2, CS3, None UNFIXED UNFIXED Versions earlier than BSC6900 V900R011













MCS1(MCS1),MCS1, MCS2, MNone MCS2 MCS2 Versions earlier than BSC6900 V900R011

MCS1(MCS1),MCS1, MCS2, MNone MCS6 MCS6 Versions earlier than BSC6900 V900R011

MCS1(MCS1),MCS1, MCS2, MNone UNFIXED UNFIXED Versions earlier than BSC6900 V900R011

MCS1(MCS1),MCS1, MCS2, MNone UNFIXED UNFIXED Versions earlier than BSC6900 V900R011


GPRS(GPRS ChGPRS, EGPRSNNone NONGPRSNONGPRS Versions earlier than BSC6900 V900R011

OPEN(Open), OPEN, CLOSE None OPEN OPEN Versions earlier than BSC6900 V900R011






LEVEL0(PreempLEVEL0, LEVEL1None LEVEL0 LEVEL0 Versions earlier than BSC6900 V900R011


NMOI(Network NMOI, NMOII, NMNone NMOII NMOII Versions earlier than BSC6900 V900R011

500ms(500ms)500ms, 1000ms,ms 500ms 500ms Versions earlier than BSC6900 V900R011

0ms(0ms), 80 0ms, 80ms, 120mms 500ms 500ms Versions earlier than BSC6900 V900R011

NO(NO), YES(NO, YES None YES YES Versions earlier than BSC6900 V900R011

8BIT(8BIT), 1 8BIT, 11BIT None 8BIT 8BIT Versions earlier than BSC6900 V900R011

0(No packet ac0, 3, 4, 5, 6 None 6 6 Versions earlier than BSC6900 V900R011

NOTSUPPORT(NNOTSUPPORT, None NOTSUPPNOTSUPPORT Versions earlier than BSC6900 V900R011

IR(IR), LA(LA)IR, LA None IR IR Versions earlier than BSC6900 V900R011

NO(NO), YES(NO, YES None YES YES Versions earlier than BSC6900 V900R011

CLOSE(Close)CLOSE, OPEN None CLOSE CLOSE Versions earlier than BSC6900 V900R011




NO(Not SupporNO, YES None NO NO Versions earlier than BSC6900 V900R011



0(0.0), 1(0.1), 0, 1, 2, 3, 4, 5, 6 None 6 6 Versions earlier than BSC6900 V900R011


BCCH(BCCH),BCCH, PDCH None PDCH PDCH Versions earlier than BSC6900 V900R011

NC0(NC0), NCNC0, NC1, NC2 None NC0 NC0 Versions earlier than BSC6900 V900R011

NO(No), YES(NO, YES None NO None Versions earlier than BSC6900 V900R011

NO(No), YES(NO, YES None NO None Versions earlier than BSC6900 V900R011



SEND(SEND)SEND, NOTSENNone SEND SEND BSC6900 V900R011



0~5000 0~5000 ms 2400 2400 Versions earlier than BSC6900 V900R011






NO(NO), YES(NO, YES None NO NO Versions earlier than BSC6900 V900R011


LEVEL0(PreempLEVEL0, LEVEL1None LEVEL0 LEVEL0 Versions earlier than BSC6900 V900R011


CONVERT0(OnlyCONVERT0, CONone CONVERTCONVERT0 Versions earlier than BSC6900 V900R011


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2g huawei recommended parameters

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