TYPE
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
NAME
PAGING OVERLOAD RATE
PAGING OVERLOAD CS NUMBER
PAGING OVERLOAD PS NUMBER
RACH_SUCCESS_RATE
DISCARDED RACH NUMBER
SDCCH BLOCKING CONGESTION
SDCCH BLOCKING CONGESTION NUMBER
SD_USAGE_MOC_CALL
SD_USAGE_MOC_SMS
SD_USAGE_MOC_MTC
SD_USAGE_MOC_EMERGENCY
SD_USAGE_MOC_CALL REESTABLISHMENT
SD_USAGE_MOC_LOCAITON UPDATING
SD_USAGE_MOC_IMSI DETACH
SD_USAGE_MOC_PACKET SERVICE
SDCCH SEIZ SUCCESS RATE
SDCCH SEIZ FAIL NUMBER
IMMEDIATE_ASSIGNMENT_SUCCESS_RATE
T3101_TIMER_EXPIRE
TCH BLOCKING CALL SETUP
TCH BLOCKING HO
TCH BLOCKING CALL SETUP NUMBER
TCH BLOCKING HO NUMBER
TCH SEIZ SUCCESS RATE
ASSIGNMENT SUCCESS RATE
LOCATION UPDATE SUCCESS RATE
TCH AVAILABILITY
SD AVAILABILITY
CELL OUT OF SERVICE
AVERAGE CALL SETUP DURATION
AVERAGE CALL ACCESS DURATION
CHANNEL REQUIRED MOC
CHANNEL REQUIRED MTC
CHANNEL REQUIRED ECALL
CHANNEL REQUIRED RE ESTABLISHMENT
CHANNEL REQUIRED LOCATION UPDATE
CHANNEL REQUIRED PACKET CALL
CHANNEL REQUIRED LMU AND RESERVED
CHANNEL REQUIRED PROTOCOL INCOMPT
CHANNEL ACTIVATION TIMEOUT IMMEDIATE ASSIGNMENT
CHANNEL ACTIVATION TIMEOUT ASSIGNMENT PROCEDURE
CHANNEL ACTIVATION TIMEOUT MODE MODIFY
CHANNEL ACTIVATION TIMEOUT INTRACELL HO
CHANNEL ACTIVATION TIMEOUT INCOMING INTERNAL INTERCELL
CHANNEL ACTIVATION TIMEOUT INCOMING EXTERNAL
FAILED ASSIGNMENTS ON A INTERFACE MOC
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
FAILED ASSIGNMENTS ON A INTERFACE MTC
FAILED ASSIGNMENTS ON A INTERFACE EMERGENCY CALL
FAILED ASSIGNMENTS ON A INTERFACE EMERGENCY REESTAB
FAILED ASSIGNMENTS SIGNALIING CHANNEL
REASON FAILED ASSIGNMENTS INVALID STATE
REASON FAILED ASSIGNMENTS INVALID MESSAGE
REASON FAILED ASSIGNMENTS CIC UNAVAILABLE
REASON FAILED ASSIGNMENT A INTERFACE FAILURES
REASON FAILED ASSIGNEMNTS CLEAR COMMAND SEND BY BSC
REASON FAILED ASSIGNEMNTS NO CHANNEL
REASON FAILED ASSIGNEMNTS TIME OUT
REASON FAILED ASSIGNEMNTS TERESTRIAL RES REQ FAILED
REASON FAILED ASSIGNEMNTS NO ABIS RESOURCE
REASON FAILED ASSIGNEMNTS REQUESTED SPEECH VERISONS UNAVAILABLE
REASON FAILED ASSIGNEMNTS RADIO FAILUER
TRAFFIC VOLUME ON TCH
TRAFFIC VOLUME ON TCHF
TRAFFIC VOLUME ON TCHH
TRAFFIC VOLUME ON EFR
TRAFFIC VOLUME ON AMR TCHF
TRAFFIC VOLUME ON AMR TCHH
TRAFFIC VOLUME ON SD
TRX USEABILITY
SDCCH DROP RATE
SDCCH DROP NUMBER
SDCCH DROPS ERROR INDICATION T200
SDCCH DROPS ERROR INDICATION UDM RESPONSE
SDCCH DROPS ERROR INDICATION SEQUENCE ERROR
SDCCH DROPS CONNECTION FAILURE RL FAILURE
SDCCH DROPS CONNECTION FAILURE HO ACCESS FAILURE
SDCCH DROPS CONNECTION FAILURE OM INTERVENTION
SDCCH DROPS CONNECTION FAILURE NO RADIO RESOURCE
SDCCH DROPS CONNECTION FAILURE OTHER
SDCCH DROPS RELEASE INDICATION
SDCCH DROPS NO MR FOR LONG TIME
SDCCH DROPS ABIS TRESTRIAL FAILURE
SDCCH DROPS EQUIPMENT FAILURE
SDCCH DROPS FORCED HO
SDCCH DROPS RESOURCE CHECK
SD_RADIO_DROPS REASON TA
SD RADIO DROPS REASON RX LEVEL
SD RADIO DROPS REASON RX QUAL
SD RADIO DROPS OTHER
NUMBER OF CHANNEL CONVERSION (TCH-SDCCH)
NUMBER OF CHANNEL CONVERSION (SDCCH-TCH)
MAX NUMBER OF BUSY CHANNELS (SDCCH)
MAX NUMBER OF BUSY CHANNELS (TCHF)
CS_ACCESSIBILITY
CS_ACCESSIBILITY
CS_ACCESSIBILITY
MAX NUMBER OF BUSY CHANNELS (TCHH)
MEAN DURATION OF CALL ACCESS
MEAN DURATION OF CALL ESTABLISHMENT
SHORT NAME
PAG_OVER_LOAD_R
PAG_OVER_LOAD_CS_N
PAG_OVER_LOAD_PS_N
RACH_SUCC_RATE
RACH_DISCARDED_N
SD_BLK_R
SD_BLK_N
SD_USAGE_MOC_CALL_N
SD_USAGE_MOC_SMS_N
SD_USAGE_MTC_N
SD_USAGE_EMER_N
SD_USAGE_CALL_RESTAB_N
SD_USAGE_LU_N
SD_USAGE_IMSI_N
SD_USAGE_PS_N
SD_SEIZ_SUCC_R
SD_SEIZ_FAIL_N
IASS_SUCC_R
T3101_EXPIRE_N
TCH_RAW_BLK_R
TCH_HO_BLK
TCH_RAW_BLK_N
TCH_HO_BLK_N
TCH_SEIZ_SUCC_R
ASS_SUCC_R
LOC_UPDATE_SUCC_RATE
TCH_AVAILABILITY
SD_AVAILABILITY
CELL_OUT_SERVE_DUR
AVG_CALL_SETP_DUR
AVG_CALL_ACCESS_DUR
CH_REQ_MOC_N
CH_REQ_MTC_N
CH_REQ_ECALL_N
CH_REQ_REESTAB_N
CH_REQ_LU_N
CH_REQ_PACK_CALL_N
CH_REQ_LMU_RES_N
CH_REQ_PROT_INCOM_N
CH_ACT_TO_IMAS_N
CH_ACT_TO_ASS_N
CH_ACT_TO_MMOD_N
CH_ACT_TO_INTRACELL_N
CH_ACT_TO_INCOM_INTER_N
CH_ACT_TO_INCOM_EXT_N
FAIL_ASS_A_MOC_N
HUAWEI FORMULA
VALUE
%
#
#
((A300A+A300C+A300D+A300E+A300F+A300H+A300I+A300K)-L3189I)/iif((A300A+A
%
L3189I
#
K3001/iif(K3000=0,1,K3000)*100
%
K3001
#
A3030A
#
A3030B
#
A3030C
#
A3030D
#
A3030E
#
A3030F
#
A3030G
#
A3030H
#
(CR330A-CR330B)/iif(CR330A=0,1,CR330A)*100
%
CR330B
#
CA3030J/iif(CA301J=0,1,CA301J)*100
%
CA304
#
(K3021+K3011A)
%
K3011B/iif(K3010B=0,1,K3010B)*100
%
K3011A
#
K3011B
#
(CR331A-CR331B)/iif(CR331A=0,1,CR331A)*100
%
CA313/iif(CA310=0,1,CA310)*100
%
%
K3015/iif(K3016=0,1,K3016)*100
%
K3005/iif(K3006=0,1,K3006)*100
%
(86400-CR373)
Sec
AA3251
sec
AA3250
sec
A300A
%
A300C
#
A300D
#
A300E
#
A300F
#
A300H
#
A300I
#
A300K
#
CR330C
#
CR331C
#
CR332C
#
CR333C
#
CR334C
#
CR335C
#
A312Aa
#
(L3188C+L3188D)
L3188C
L3188D
FAIL_ASS_A_MTC_N
FAIL_ASS_A_ECALL_N
FAIL_ASS_A_REESTAB_N
FAIL_ASS_SIG_CH_N
REA_FAIL_ASS_INVALID_STAT_N
REA_FAIL_ASS_INVALID_MSG_N
REA_FAIL_ASS_CIC_UNVAVAI_N
REA_FAIL_ASS_A_INTER_FAIL_N
REA_FAIL_ASS_A_CC_MSC_N
REA_FAIL_ASS_NR_N
REA_FAIL_ASS_TO_N
REA_FAIL_ASS_TRES_RES_FAIL_N
REA_FAIL_ASS_NO_ABIS_N
REA_FAIL_ASS_SPE_VER_UNAVIL_N
REA_FAIL_ASS_RIMF_FAIL_N
TCH_TRAFFIC
TCH_TRAF_FR
TCH_TRAF_HR
TCH_TRAF_EFR
TCH_TRAF_AMR_FR
TCH_TRAF_AMR_HR
SD_TRAFFIC
TRX_USE
SD_DROP_R
SD_DROP_N
SD_DROP_ERR_IND_T200_N
SD_DROP_ERR_IND_UDM_RSP_N
SD_DROP_ERR_IND_SE_N
SD_DROP_CONN_FAIL_RLF_N
SD_DROP_CONN_FAIL_HO_ACCESS_N
SD_DROP_CONN_FAIL_OMI_N
SD_DROP_CONN_FAIL_NR_N
SD_DROP_CONN_FAIL_OTH_N
SD_DROP_RELEASE_IND_N
SD_DROP_NO_MR_N
SD_DROP_ABIS_FAIL_N
SD_DROP_EQ_FAIL_N
SD_DROP_FORCED_HO_N
SD_DROP_RES_CHECK_N
SD_RADIO_DROP_TA_N
SD_RADIO_DROP_RXLEV_N
SD_RARIO_DROP_RXQUAL_N
SD_RADIO_DROP_OTHER_N
A312Ca
A312Da
A312Ea
A312S
A3129I
A3129J
A3129E
A3129G
A3129H
A312A
A3129C
A3129N
A312F
A3129S
CA315
K3014
(([CR3551]*24)-[AR3551C]-[AR3557C])
(([CR3552]*24)-[AR3552C])
AR3557C
AR3551C
AR3552C
K3004
S3656/iif(S3655=0,1,S3655)*100
CM30/iif(CA3030J=0,1,CA3030J)*100
CM30
M3000A
M3000B
M3000C
M3001A
M3001B
M3001C
M3001D
M3001E
M3002
M302
M303
M304
M305
M306
M3020A
M3020B
M3020C
M3020D
R3516A
R3516B
R3560
R3561
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
Erl
Erl
Erl
Erl
%
%
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
MEAN_DUR_ACCESS
MEAN_DUR_ESTAB
R3562
AA032
AA033
MS ACESS FORMAT
PAG_OVER_LOAD_R:(L3188C+L3188D)
PAG_OVER_LOAD_CS_N:L3188C
PAG_OVER_LOAD_PS_N:L3188D
RACH_SUCC_RATE:((A300A+A300C+A300D+A300E+A300F+A300H+A300I+A300K)-L3189I)/iif((A300A+A300C+A300D+A300E+
RACH_DISCARDED_N:L3189I
SD_BLK_R:K3001/iif(K3000=0,1,K3000)*100
SD_BLK_N:K3001
SD_USAGE_MOC_CALL_N:A3030A
SD_USAGE_MOC_SMS_N:A3030B
SD_USAGE_MTC_N:A3030C
SD_USAGE_EMER_N:A3030D
SD_USAGE_CALL_RESTAB_N:A3030E
SD_USAGE_LU_N:A3030F
SD_USAGE_IMSI_N:A3030G
SD_USAGE_PS_N:A3030H
SD_SEIZ_SUCC_R:(CR330A-CR330B)/iif(CR330A=0,1,CR330A)*100
SD_SEIZ_FAIL_N:CR330B
IASS_SUCC_R:CA3030J/iif(CA301J=0,1,CA301J)*100
T3101_EXPIRE_N:CA304
TCH_RAW_BLK_R:(K3021+K3011A)
TCH_HO_BLK:K3011B/iif(K3010B=0,1,K3010B)*100
TCH_RAW_BLK_N:K3011A
TCH_HO_BLK_N:K3011B
TCH_SEIZ_SUCC_R:(CR331A-CR331B)/iif(CR331A=0,1,CR331A)*100
ASS_SUCC_R:CA313/iif(CA310=0,1,CA310)*100
LOC_UPDATE_SUCC_RATE:
TCH_AVAILABILITY:K3015/iif(K3016=0,1,K3016)*100
SD_AVAILABILITY:K3005/iif(K3006=0,1,K3006)*100
CELL_OUT_SERVE_DUR:(86400-CR373)
AVG_CALL_SETP_DUR:AA3251
AVG_CALL_ACCESS_DUR:AA3250
CH_REQ_MOC_N:A300A
CH_REQ_MTC_N:A300C
CH_REQ_ECALL_N:A300D
CH_REQ_REESTAB_N:A300E
CH_REQ_LU_N:A300F
CH_REQ_PACK_CALL_N:A300H
CH_REQ_LMU_RES_N:A300I
CH_REQ_PROT_INCOM_N:A300K
CH_ACT_TO_IMAS_N:CR330C
CH_ACT_TO_ASS_N:CR331C
CH_ACT_TO_MMOD_N:CR332C
CH_ACT_TO_INTRACELL_N:CR333C
CH_ACT_TO_INCOM_INTER_N:CR334C
CH_ACT_TO_INCOM_EXT_N:CR335C
FAIL_ASS_A_MOC_N:A312Aa
FAIL_ASS_A_MTC_N:A312Ca
FAIL_ASS_A_ECALL_N:A312Da
FAIL_ASS_A_REESTAB_N:A312Ea
FAIL_ASS_SIG_CH_N:A312S
REA_FAIL_ASS_INVALID_STAT_N:A3129I
REA_FAIL_ASS_INVALID_MSG_N:A3129J
REA_FAIL_ASS_CIC_UNVAVAI_N:A3129E
REA_FAIL_ASS_A_INTER_FAIL_N:A3129G
REA_FAIL_ASS_A_CC_MSC_N:A3129H
REA_FAIL_ASS_NR_N:A312A
REA_FAIL_ASS_TO_N:A3129C
REA_FAIL_ASS_TRES_RES_FAIL_N:A3129N
REA_FAIL_ASS_NO_ABIS_N:A312F
REA_FAIL_ASS_SPE_VER_UNAVIL_N:A3129S
REA_FAIL_ASS_RIMF_FAIL_N:CA315
TCH_TRAFFIC:K3014
TCH_TRAF_FR:(([CR3551]*24)-[AR3551C]-[AR3557C])
TCH_TRAF_HR: (([CR3552]*24)-[AR3552C])
TCH_TRAF_EFR:AR3557C
TCH_TRAF_AMR_FR:AR3551C
TCH_TRAF_AMR_HR:AR3552C
SD_TRAFFIC:K3004
TRX_USE:S3656/iif(S3655=0,1,S3655)*100
SD_DROP_R:CM30/iif(CA3030J=0,1,CA3030J)*100
SD_DROP_N:CM30
SD_DROP_ERR_IND_T200_N:M3000A
SD_DROP_ERR_IND_UDM_RSP_N:M3000B
SD_DROP_ERR_IND_SE_N:M3000C
SD_DROP_CONN_FAIL_RLF_N:M3001A
SD_DROP_CONN_FAIL_HO_ACCESS_N:M3001B
SD_DROP_CONN_FAIL_OMI_N:M3001C
SD_DROP_CONN_FAIL_NR_N:M3001D
SD_DROP_CONN_FAIL_OTH_N:M3001E
SD_DROP_RELEASE_IND_N:M3002
SD_DROP_NO_MR_N:M302
SD_DROP_ABIS_FAIL_N:M303
SD_DROP_EQ_FAIL_N:M304
SD_DROP_FORCED_HO_N:M305
SD_DROP_RES_CHECK_N:M306
SD_RADIO_DROP_TA_N:M3020A
SD_RADIO_DROP_RXLEV_N:M3020B
SD_RARIO_DROP_RXQUAL_N:M3020C
SD_RADIO_DROP_OTHER_N:M3020D
:R3516A
:R3516B
:R3560
:R3561
:R3562
MEAN_DUR_ACCESS:AA032
MEAN_DUR_ESTAB:AA033
0K)-L3189I)/iif((A300A+A300C+A300D+A300E+A300F+A300H+A300I+A300K)=0,1,(A300A+A300C+A300D+A300E+A300F+A300H+A300I+A3
E+A300F+A300H+A300I+A300K))*100
NAME
CALL DROPS ON TCH INCLUDING HO
CALL DROPS ON TCH EXLUDING HO
MINUTES PER DROP
RADIO DROP RATE
HO DROP RATE
TOTAL DROPS
HO DROPS
RADIO DROPS
TCH DROPS ERROR INDICATIONS
TCH DROPS CONNECTION FAILURE
TCH DROPS RELEASE INDICATION
TCH DROPS ERROR INDICATION T200
TCH DROPS ERROR INDICATION UDM RESPONSE
TCH DROPS ERROR INDICATION SEQUENCE ERROR
TCH DROPS CONNECTION FAILURE RL FAILURE
TCH DROPS CONNECTION FAILURE HO ACCESS FAILURE
TCH DROPS CONNECTION FAILURE OM INTERVENTION
TCH DROPS CONNECTION FAILURE NO RADIO RESOURCE
TCH DROPS CONNECTION FAILURE OTHER
TCH DROPS RELEASE INDICATION
TCH DROPS NO MR FOR LONG TIME
TCH DROPS ABIS TRESTRIAL FAILURE
TCH DROPS EQUIPMENT FAILURE
TCH DROPS FORCED HO
TCH DROPS RESOURCE CHECK
TCH DROP TA
TCH DROP UL REC Level
TCH DROP DL Level
TCH DROP UL/DL Level
TCH DROP UL FER
TCH DROP DL FER
TCH DROP UL/DL FER
TCH DROP UL QUAL
TCH DROP DL QUAL
TCH DROP UL/DL QuAL
TCH DROP OTHER
NORMAL SPEECH DISCONNECTIONS
BAD SPEECH CONNECTIONS
NUMBER OF MUTE TIMES
MEAN TA DURING RADIO LINK FAILURE
INTERFERENCE BAND SDCCH 1
INTERFERENCE BAND SDCCH 2
INTERFERENCE BAND SDCCH 3
INTERFERENCE BAND SDCCH 4
INTERFERENCE BAND SDCCH 5
INTERFERENCE BAND TCH 1 %
INTERFERENCE BAND TCH 2 %
INTERFERENCE BAND TCH 3 %
INTERFERENCE BAND TCH 4 %
INTERFERENCE BAND TCH 5 %
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
Uplink Quality Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
TA Share
RADIO LINK FAILURES PER TRX
UL DL Balance Level 1
UL DL Balance Level 2
UL DL Balance Level 3
UL DL Balance Level 4
UL DL Balance Level 5
UL DL Balance Level 6
UL DL Balance Level 7
UL DL Balance Level 8
UL DL Balance Level 9
UL DL Balance Level 10
UL DL Balance Level 11
MAIN LEVEL MR
DIVERSITY LEVEL MR
Uplink Interference Message
Downlink interference indication message
Mean Quality of UL Signal
Mean Quality of DL Signal
SHORT NAME
DCR_INCL_HO
DCR_EXCLU_HO
MPD_SUB
DCR_RADIO
DCR_HO
TOTAL_DROPS_N
HO_DROPS_N
RADIO_DROPS_N
TCH_DROP_ERR_IND_N
TCH_DROP_CONN_FAIL_N
TCH_DROP_RELEASE_IND_N
TCH_DROP_ERR_IND_T200_N
TCH_DROP_ERR_IND_UDM_RSP_N
TCH_DROP_ERR_IND_SE_N
TCH_DROP_CONN_FAIL_RLF_N
TCH_DROP_CONN_FAIL_HO_ACCESS_N
TCH_DROP_CONN_FAIL_OMI_N
TCH_DROP_CONN_FAIL_NR_N
TCH_DROP_CONN_FAIL_OTH_N
TCH_DROP_RELEASE_IND_N
TCH_DROP_NO_MR_N
TCH_DROP_ABIS_FAIL_N
TCH_DROP_EQ_FAIL_N
TCH_DROP_FORCED_HO_N
TCH_DROP_RES_CHECK_N
TCH_DROP_TA_N
TCH_DROP_UL_LEV_N
TCH_DROP_DL_LEV_N
TCH_DROP_UL_DL_LEV_N
TCH_DROP_UL_FER_N
TCH_DROP_DL_FER_N
TCH_DROP_UL_DL_FER_N
TCH_DROP_UL_QUAL_N
TCH_DROP_DL_QUAL_N
TCH_DROP_UL_DL_QUAL_N
TCH_DROP_OTH_N
SPEECH_DISC_NOR_N
SPEECH_DISC_BAD_N
CALL_MUTE_N
MEAN_TA_RLF
IB_SD_1_PER
IB_SD_2_PER
IB_SD_3_PER
IB_SD_4_PER
IB_SD_5_PER
IB_TCH_1_PER
HUAWEI FORMULA
CM33/iif((K3013A+K3013B+K3023)=0,1,(K3013A+K3013B+K3023))*100
CM33/iif((K3013A+CH323+CH343-CH313-CH333)=0,1,(K3013A+CH323+CH
CM33/iif(K3014=0,1,K3014)*60
CM330/iif((K3013A+K3013B)=0,1,(K3013A+K3013B))*100
(RH3331+K3012B)
CM33
(RH3331+K3012B)
CM33C
(M3100A+M3200A+M3100B+M3200B+M3100C+M3200C)
(M3101A+M3201A+M3101B+M3201B+M3101C+M3201C+M3101D+M3201D
(M3102+M3202)
M3100A+M3200A
M3100B+M3200B
(M3100C+M3200C)
(M3101A+M3201A)
(M3101B+M3201B)
(M3101C+M3201C)
(M3101D+M3201D)
(M3101E+M3201E)
(M3102+M3202)
(M312+M322)
(M313+M323)
(M314+M324)
(M315+M325)
M316
M3030A
M3030B
M3030C
M3030D
M3030E
M3030F
M3030G
M3030H
M3030I
M3030J
M3030K
A03701
A03702
M3128A
(AS4347D+AS4348D)
S4200A/iif((S4200A+S4200B+S4200C+S4200D+S4200E)=0,1,(S4200A+S420
S4200B/iif((S4200A+S4200B+S4200C+S4200D+S4200E)=0,1,(S4200A+S420
S4200C/iif((S4200A+S4200B+S4200C+S4200D+S4200E)=0,1,(S4200A+S420
S4200D/iif((S4200A+S4200B+S4200C+S4200D+S4200E)=0,1,(S4200A+S420
S4200E/iif((S4200A+S4200B+S4200C+S4200D+S4200E)=0,1,(S4200A+S420
(S4207A+S4208A)/iif((S4207A+S4208A+S4207B+S4208B+S4207C+S4208C+
IB_TCH_2_PER
IB_TCH_3_PER
IB_TCH_4_PER
IB_TCH_5_PER
UL_Q_0_PER
UL_Q_1_PER
UL_Q_2_PER
UL_Q_3_PER
UL_Q_4_PER
UL_Q_5_PER
UL_Q_6_PER
UL_Q_7_PER
DL_Q_0_PER
DL_Q_1_PER
DL_Q_2_PER
DL_Q_3_PER
DL_Q_4_PER
DL_Q_5_PER
DL_Q_6_PER
DL_Q_7_PER
TA0
TA1
TA2
TA3
TA4
TA5
TA6
TA7
TA8
TA9
TA10
TA11
TA12
TA13
TA14
TA15
TA16
TA17
TA18
TA19
TA20
TA21
TA22
TA23
TA24
TA25
TA26
(S4207B+S4208B)/iif((S4207A+S4208A+S4207B+S4208B+S4207C+S4208C+
(S4207C+S4208C)/iif((S4207A+S4208A+S4207B+S4208B+S4207C+S4208C
(S4207D+S4208D)/iif((S4207A+S4208A+S4207B+S4208B+S4207C+S4208C
(S4207E+S4208E)/iif((S4207A+S4208A+S4207B+S4208B+S4207C+S4208C+
(CS410C+CS410A)/iif(UL_SUM=0,1,UL_SUM)*100
(CS411C+CS411A)/iif(UL_SUM=0,1,UL_SUM)*100
(CS412C+CS412A)/iif(UL_SUM=0,1,UL_SUM)*100
(CS413C+CS413A)/iif(UL_SUM=0,1,UL_SUM)*100
(CS414C+CS414A)/iif(UL_SUM=0,1,UL_SUM)*100
(CS415C+CS415A)/iif(UL_SUM=0,1,UL_SUM)*100
(CS416C+CS416A)/iif(UL_SUM=0,1,UL_SUM)*100
(CS417C+CS417A)/iif(UL_SUM=0,1,UL_SUM)*100
(CS410D+CS410B)/iif(DL_SUM=0,1,UL_SUM)*100
(CS411D+CS411B)/iif(DL_SUM=0,1,UL_SUM)*100
(CS412D+CS412B)/iif(DL_SUM=0,1,UL_SUM)*100
(CS413D+CS413B)/iif(DL_SUM=0,1,UL_SUM)*100
(CS414D+CS414B)/iif(DL_SUM=0,1,UL_SUM)*100
(CS415D+CS415B)/iif(DL_SUM=0,1,UL_SUM)*100
(CS416D+CS416B)/iif(DL_SUM=0,1,UL_SUM)*100
(CS417D+CS417B)/iif(DL_SUM=0,1,UL_SUM)*100
S4400A/iif(TA_SUM=0,1,TA_SUM)*100
S4401A/iif(TA_SUM=0,1,TA_SUM)*100
S4402A/iif(TA_SUM=0,1,TA_SUM)*100
S4403A/iif(TA_SUM=0,1,TA_SUM)*100
S4404A/iif(TA_SUM=0,1,TA_SUM)*100
S4405A/iif(TA_SUM=0,1,TA_SUM)*100
S4406A/iif(TA_SUM=0,1,TA_SUM)*100
S4407A/iif(TA_SUM=0,1,TA_SUM)*100
S4408A/iif(TA_SUM=0,1,TA_SUM)*100
S4409A/iif(TA_SUM=0,1,TA_SUM)*100
S4410A/iif(TA_SUM=0,1,TA_SUM)*100
S4411A/iif(TA_SUM=0,1,TA_SUM)*100
S4412A/iif(TA_SUM=0,1,TA_SUM)*100
S4413A/iif(TA_SUM=0,1,TA_SUM)*100
S4414A/iif(TA_SUM=0,1,TA_SUM)*100
S4415A/iif(TA_SUM=0,1,TA_SUM)*100
S4416A/iif(TA_SUM=0,1,TA_SUM)*100
S4417A/iif(TA_SUM=0,1,TA_SUM)*100
S4418A/iif(TA_SUM=0,1,TA_SUM)*100
S4419A/iif(TA_SUM=0,1,TA_SUM)*100
S4420A/iif(TA_SUM=0,1,TA_SUM)*100
S4421A/iif(TA_SUM=0,1,TA_SUM)*100
S4422A/iif(TA_SUM=0,1,TA_SUM)*100
S4423A/iif(TA_SUM=0,1,TA_SUM)*100
S4424A/iif(TA_SUM=0,1,TA_SUM)*100
S4425A/iif(TA_SUM=0,1,TA_SUM)*100
S4426A/iif(TA_SUM=0,1,TA_SUM)*100
TA27
TA28
TA29
TA30
TA32
TA34
TA36
TA38
TA40
TA45
TA50
TA55
TAGT63
RLF_PER_TRX
UL_DL_BAL_1
UL_DL_BAL_2
UL_DL_BAL_3
UL_DL_BAL_4
UL_DL_BAL_5
UL_DL_BAL_6
UL_DL_BAL_7
UL_DL_BAL_8
UL_DL_BAL_9
UL_DL_BAL_10
UL_DL_BAL_11
MAIN_LEVEL
DIVERSITY_LEVEL
UL_INTERFERENCE_MSG
DL_INTERFERENCE_MSG
MEAN_UL_QUALITY
MEAN_DL_QUALITY
S4427A/iif(TA_SUM=0,1,TA_SUM)*100
S4428A/iif(TA_SUM=0,1,TA_SUM)*100
S4429A/iif(TA_SUM=0,1,TA_SUM)*100
S4430A/iif(TA_SUM=0,1,TA_SUM)*100
S4432A/iif(TA_SUM=0,1,TA_SUM)*100
S4434A/iif(TA_SUM=0,1,TA_SUM)*100
S4436A/iif(TA_SUM=0,1,TA_SUM)*100
S4438A/iif(TA_SUM=0,1,TA_SUM)*100
S4440A/iif(TA_SUM=0,1,TA_SUM)*100
S4445A/iif(TA_SUM=0,1,TA_SUM)*100
S4450A/iif(TA_SUM=0,1,TA_SUM)*100
S4455A/iif(TA_SUM=0,1,TA_SUM)*100
S4463A/iif(TA_SUM=0,1,TA_SUM)*100
S4357D+S4358D
S462A
S462B
S462C
S462D
S462E
S462F
S462G
S462H
S462I
S462J
S462K
S4556
S4557
S4219A
S4219B
AS326A
AS326B
VALUE
%
%
#
%
%
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
MS ACCESS FORMAT
DCR_INCL_HO:CM33/iif((K3013A+K3013B+K3023)=0,1,(K3013A+K3013B+K3023))*100
DCR_EXCLU_HO:CM33/iif((K3013A+CH323+CH343-CH313-CH333)=0,1,(K3013A+CH323+CH343-CH313-CH333))*
MPD_SUB:CM33/iif(K3014=0,1,K3014)*60
DCR_RADIO:CM330/iif((K3013A+K3013B)=0,1,(K3013A+K3013B))*100
DCR_HO:(RH3331+K3012B)
TOTAL_DROPS_N:CM33
HO_DROPS_N:(RH3331+K3012B)
RADIO_DROPS_N:CM33C
TCH_DROP_ERR_IND_N:(M3100A+M3200A+M3100B+M3200B+M3100C+M3200C)
TCH_DROP_CONN_FAIL_N:(M3101A+M3201A+M3101B+M3201B+M3101C+M3201C+M3101D+M3201D+M310
TCH_DROP_RELEASE_IND_N:(M3102+M3202)
TCH_DROP_ERR_IND_T200_N:M3100A+M3200A
TCH_DROP_ERR_IND_UDM_RSP_N:M3100B+M3200B
TCH_DROP_ERR_IND_SE_N:(M3100C+M3200C)
TCH_DROP_CONN_FAIL_RLF_N:(M3101A+M3201A)
TCH_DROP_CONN_FAIL_HO_ACCESS_N:(M3101B+M3201B)
TCH_DROP_CONN_FAIL_OMI_N:(M3101C+M3201C)
TCH_DROP_CONN_FAIL_NR_N:(M3101D+M3201D)
TCH_DROP_CONN_FAIL_OTH_N:(M3101E+M3201E)
TCH_DROP_RELEASE_IND_N:(M3102+M3202)
TCH_DROP_NO_MR_N:(M312+M322)
TCH_DROP_ABIS_FAIL_N:(M313+M323)
TCH_DROP_EQ_FAIL_N:(M314+M324)
TCH_DROP_FORCED_HO_N:(M315+M325)
TCH_DROP_RES_CHECK_N:M316
TCH_DROP_TA_N:M3030A
TCH_DROP_UL_LEV_N:M3030B
TCH_DROP_DL_LEV_N:M3030C
TCH_DROP_UL_DL_LEV_N:M3030D
TCH_DROP_UL_FER_N:M3030E
TCH_DROP_DL_FER_N:M3030F
TCH_DROP_UL_DL_FER_N:M3030G
TCH_DROP_UL_QUAL_N:M3030H
TCH_DROP_DL_QUAL_N:M3030I
TCH_DROP_UL_DL_QUAL_N:M3030J
TCH_DROP_OTH_N:M3030K
SPEECH_DISC_NOR_N:A03701
SPEECH_DISC_BAD_N:A03702
CALL_MUTE_N:M3128A
MEAN_TA_RLF:(AS4347D+AS4348D)
IB_SD_1_PER:S4200A/iif((S4200A+S4200B+S4200C+S4200D+S4200E)=0,1,(S4200A+S4200B+S4200C+S4200D+S4
IB_SD_2_PER:S4200B/iif((S4200A+S4200B+S4200C+S4200D+S4200E)=0,1,(S4200A+S4200B+S4200C+S4200D+S4
IB_SD_3_PER:S4200C/iif((S4200A+S4200B+S4200C+S4200D+S4200E)=0,1,(S4200A+S4200B+S4200C+S4200D+S4
IB_SD_4_PER:S4200D/iif((S4200A+S4200B+S4200C+S4200D+S4200E)=0,1,(S4200A+S4200B+S4200C+S4200D+S4
IB_SD_5_PER:S4200E/iif((S4200A+S4200B+S4200C+S4200D+S4200E)=0,1,(S4200A+S4200B+S4200C+S4200D+S4
IB_TCH_1_PER:(S4207A+S4208A)/iif((S4207A+S4208A+S4207B+S4208B+S4207C+S4208C+S4207D+S4208D+S420
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
IB_TCH_2_PER:(S4207B+S4208B)/iif((S4207A+S4208A+S4207B+S4208B+S4207C+S4208C+S4207D+S4208D+S420
IB_TCH_3_PER:(S4207C+S4208C)/iif((S4207A+S4208A+S4207B+S4208B+S4207C+S4208C+S4207D+S4208D+S420
IB_TCH_4_PER:(S4207D+S4208D)/iif((S4207A+S4208A+S4207B+S4208B+S4207C+S4208C+S4207D+S4208D+S420
IB_TCH_5_PER:(S4207E+S4208E)/iif((S4207A+S4208A+S4207B+S4208B+S4207C+S4208C+S4207D+S4208D+S420
UL_Q_0_PER:(CS410C+CS410A)/iif(UL_SUM=0,1,UL_SUM)*100
UL_Q_1_PER:(CS411C+CS411A)/iif(UL_SUM=0,1,UL_SUM)*100
UL_Q_2_PER:(CS412C+CS412A)/iif(UL_SUM=0,1,UL_SUM)*100
UL_Q_3_PER:(CS413C+CS413A)/iif(UL_SUM=0,1,UL_SUM)*100
UL_Q_4_PER:(CS414C+CS414A)/iif(UL_SUM=0,1,UL_SUM)*100
UL_Q_5_PER:(CS415C+CS415A)/iif(UL_SUM=0,1,UL_SUM)*100
UL_Q_6_PER:(CS416C+CS416A)/iif(UL_SUM=0,1,UL_SUM)*100
UL_Q_7_PER:(CS417C+CS417A)/iif(UL_SUM=0,1,UL_SUM)*100
DL_Q_0_PER:(CS410D+CS410B)/iif(DL_SUM=0,1,UL_SUM)*100
DL_Q_1_PER:(CS411D+CS411B)/iif(DL_SUM=0,1,UL_SUM)*100
DL_Q_2_PER:(CS412D+CS412B)/iif(DL_SUM=0,1,UL_SUM)*100
DL_Q_3_PER:(CS413D+CS413B)/iif(DL_SUM=0,1,UL_SUM)*100
DL_Q_4_PER:(CS414D+CS414B)/iif(DL_SUM=0,1,UL_SUM)*100
DL_Q_5_PER:(CS415D+CS415B)/iif(DL_SUM=0,1,UL_SUM)*100
DL_Q_6_PER:(CS416D+CS416B)/iif(DL_SUM=0,1,UL_SUM)*100
DL_Q_7_PER:(CS417D+CS417B)/iif(DL_SUM=0,1,UL_SUM)*100
TA0:S4400A/iif(TA_SUM=0,1,TA_SUM)*100
TA1:S4401A/iif(TA_SUM=0,1,TA_SUM)*100
TA2:S4402A/iif(TA_SUM=0,1,TA_SUM)*100
TA3:S4403A/iif(TA_SUM=0,1,TA_SUM)*100
TA4:S4404A/iif(TA_SUM=0,1,TA_SUM)*100
TA5:S4405A/iif(TA_SUM=0,1,TA_SUM)*100
TA6:S4406A/iif(TA_SUM=0,1,TA_SUM)*100
TA7:S4407A/iif(TA_SUM=0,1,TA_SUM)*100
TA8:S4408A/iif(TA_SUM=0,1,TA_SUM)*100
TA9:S4409A/iif(TA_SUM=0,1,TA_SUM)*100
TA10:S4410A/iif(TA_SUM=0,1,TA_SUM)*100
TA11:S4411A/iif(TA_SUM=0,1,TA_SUM)*100
TA12:S4412A/iif(TA_SUM=0,1,TA_SUM)*100
TA13:S4413A/iif(TA_SUM=0,1,TA_SUM)*100
TA14:S4414A/iif(TA_SUM=0,1,TA_SUM)*100
TA15:S4415A/iif(TA_SUM=0,1,TA_SUM)*100
TA16:S4416A/iif(TA_SUM=0,1,TA_SUM)*100
TA17:S4417A/iif(TA_SUM=0,1,TA_SUM)*100
TA18:S4418A/iif(TA_SUM=0,1,TA_SUM)*100
TA19:S4419A/iif(TA_SUM=0,1,TA_SUM)*100
TA20:S4420A/iif(TA_SUM=0,1,TA_SUM)*100
TA21:S4421A/iif(TA_SUM=0,1,TA_SUM)*100
TA22:S4422A/iif(TA_SUM=0,1,TA_SUM)*100
TA23:S4423A/iif(TA_SUM=0,1,TA_SUM)*100
TA24:S4424A/iif(TA_SUM=0,1,TA_SUM)*100
TA25:S4425A/iif(TA_SUM=0,1,TA_SUM)*100
TA26:S4426A/iif(TA_SUM=0,1,TA_SUM)*100
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
#
TA27:S4427A/iif(TA_SUM=0,1,TA_SUM)*100
TA28:S4428A/iif(TA_SUM=0,1,TA_SUM)*100
TA29:S4429A/iif(TA_SUM=0,1,TA_SUM)*100
TA30:S4430A/iif(TA_SUM=0,1,TA_SUM)*100
TA32:S4432A/iif(TA_SUM=0,1,TA_SUM)*100
TA34:S4434A/iif(TA_SUM=0,1,TA_SUM)*100
TA36:S4436A/iif(TA_SUM=0,1,TA_SUM)*100
TA38:S4438A/iif(TA_SUM=0,1,TA_SUM)*100
TA40:S4440A/iif(TA_SUM=0,1,TA_SUM)*100
TA45:S4445A/iif(TA_SUM=0,1,TA_SUM)*100
TA50:S4450A/iif(TA_SUM=0,1,TA_SUM)*100
TA55:S4455A/iif(TA_SUM=0,1,TA_SUM)*100
TAGT63:S4463A/iif(TA_SUM=0,1,TA_SUM)*100
RLF_PER_TRX:S4357D+S4358D
UL_DL_BAL_1:S462A
UL_DL_BAL_2:S462B
UL_DL_BAL_3:S462C
UL_DL_BAL_4:S462D
UL_DL_BAL_5:S462E
UL_DL_BAL_6:S462F
UL_DL_BAL_7:S462G
UL_DL_BAL_8:S462H
UL_DL_BAL_9:S462I
UL_DL_BAL_10:S462J
UL_DL_BAL_11:S462K
MAIN_LEVEL:S4556
DIVERSITY_LEVEL:S4557
UL_INTERFERENCE_MSG:S4219A
DL_INTERFERENCE_MSG:S4219B
MEAN_UL_QUALITY:AS326A
MEAN_DL_QUALITY:AS326B
CH343-CH313-CH333))*100
101D+M3201D+M3101E+M3201E)
0B+S4200C+S4200D+S4200E))*100
B+S4200C+S4200D+S4200E))*100
B+S4200C+S4200D+S4200E))*100
0B+S4200C+S4200D+S4200E))
B+S4200C+S4200D+S4200E))
TYPE
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
MOBILITY
NAME
OUT GOING HANDOVER SUCCESS RATE
OUT GOING RADIO HANDOVER SUCCESS RATE
INCOM HO SUCCESS RATE
INTRA CELL HO SUCCESS RATE
INTERNAL RADIO HO SUCCESS RATE
EXTERNAL INCOMING INTERCELL HO SUCCESS RATE
EXTERNAL INCOMING RADIO HO SUCCESS RATE
EXTERNAL OUTGOING HO SUCCESS RATE
EXTERNAL OUTGOING CELL RADIO HO SUCCESS RATE
IRAT HO SUCCESS RATE
INTRACELl HO REQ ULAID TO OLAID
INTRACELl HO REQ OLAID TO ULAID
INTRACELl HO REQ AMR TCHF TO TCHH
INTRACELl HO REQ TCHH to TCHF
INTRACELl HO REQ UL INTERVENTION
INTRACELl HO REQ DL INTERVENTION
FAILED INTRAL CELL HO NO CHANNEL AVAILABLE
FAILED INTRAL CELL HO TRESTRIAL RESOURCE REQUEST FAILED
FAILED INTRAL CELL HO A INTERFACE FAILURE
FAILED INTRAL CELL HO TIMER EXPIRE
FAILED INTRA CELL HO F to H
FAILED INTRA CELL HO H to F
FAILED INTRA CELL HO NO ABIS
FAILED INTRA CELL HO SPEECH UNAVAILABLE
FAILED INTRA CELL HO CHANNEL ACTIVATION FAILED
FAILED INCOMING HO NO RESOURCE AVAILABLE
FAILED INCOMING HO TERESTRIAL RESOUCE REQUEST FAILED
FAILED INCOMING HO RECONECTION TO OLD CHANNEL
FAILED INCOMING HO FAILURE A INTERFACE
FAILED OUTGOING HO NO RADIO
FAILED OUTGOING HO TERESTRIAL RESOURCE REQUEST FAILED
FAILED OUTGOING HO A INTERFACE FAIL
OUTGOING HO ATTEMPTS UL QUALITY
OUTGOING HO ATTEMPTS DL QUALITY
OUTGOING HO ATTEMPTS UL LEVEL
OUTGOING HO ATTEMPTS DL LEVEL
OUTGOING HO ATTEMPTS TA
OUTGOING HO ATTEMPTS PBGT
OUTGOING HO ATTEMPTS LOAD
OUTGOING HO ATTEMPTS RAPID FIELD DROP
OUTGOING HO ATTEMPTS MSC INTERVENTION
OUTGOING HO ATTEMPTS OM INTERVENTION
OUTGOING HO ATTEMPTS OTHER
SHORT NAME
HOSR_OUT
HOSR_RADIO
HOSR_INCOM
HOSR_INTRACELL
HOSE_INTERNAL_RADIO
HOSR_EXT_INCOM
HOSR_EXT_INCOM_RADIO
HOSR_EXT_OUT
HOSR_EXT_OUT_RADIO
HOSR_IRAT
ATT_INTRACELL_UOLAID
ATT_INTRACELL_OULAID
ATT_INTRACELL_AMR_FH
ATT_INTRACELL_AMR_HF
ATT_INTRACELL_ULINT
ATT_INTRACELL_DLINT
INTRA_FAIL_HO_RADIO
INTRA_FAIL_HO_TRES_FAIL
INTRA_FAIL_HO_A_INTER
INTRA_FAIL_HO_A_TIMER
INTRA_FAIL_HO_A_FH
INTRA_FAIL_HO_A_HF
INTRA_FAIL_HO_NO_ABIS
INTRA_FAIL_HO_SPEECH_UNAV
INTRA_FAIL_HO_CH_ACTV_FAIL
INCOM_FAIL_NO_RADIO
INCOM_FAIL_HO_TRES_FAIL
INCOM_FAIL_RFOC
INCOM_FAIL_A_INTER
OUT_FAIL_HO_NO_RADIO
OUT_FAIL_HO_TRES_FAIL
OUT_FAIL_HO_A_INTER
HO_ATT_UL_QUAL
HO_ATT_DL_QUAL
HO_ATT_UL_LEVEL
HO_ATT_DL_LEVEL
HO_ATT_TA
HO_ATT_PBGT
HO_ATT_LOAD
HO_ATT_RPD
HO_ATT_MSC_INTERVEN
HO_ATT_OM_INTERVEN
HO_ATT_OTHER
HUAWEI FORMULA
(CH313+CH333)/iif((CH310+CH330)=0,1,(CH310+CH330))*100
(CH313+CH333)/iif((CH311+CH331)=0,1,(CH311+CH331))*100
CH323/iif(CH321=0,1,CH321)*100
CH303/iif(CH300=0,1,CH300)*100
(CH303+CH323)/iif((CH300+CH320)=0,1,(CH300+CH320))*100
CH343/iif(CH340=0,1,CH340)*100
CH343/iif(CH341=0,1,CH341)*100
CH333/iif(CH330=0,1,CH330)*100
CH333/iif(CH331=0,1,CH331)*100
CH3531H35071+H35081
H3002
H3001
H3005A
H3005B
CH3036A
CH3036B
H3029A
H302B
H302G
(H3027Ca+H3028Ca)
H3025A
H3025B
H302E
H302H
H302I
H3229A
H3229B
H322D
H322G
H312A
H312B
H312G
H310A
H310B
H310C
H310D
H310E
H310F
H310G
H310H
H310I
H310J
H310L
MS ACCESS FORMAT
HOSR_OUT:(CH313+CH333)/iif((CH310+CH330)=0,1,(CH310+CH330))*100
HOSR_RADIO:(CH313+CH333)/iif((CH311+CH331)=0,1,(CH311+CH331))*100
HOSR_INCOM:CH323/iif(CH321=0,1,CH321)*100
HOSR_INTRACELL:CH303/iif(CH300=0,1,CH300)*100
HOSE_INTERNAL_RADIO:(CH303+CH323)/iif((CH300+CH320)=0,1,(CH300+CH320))*100
HOSR_EXT_INCOM:CH343/iif(CH340=0,1,CH340)*100
HOSR_EXT_INCOM_RADIO:CH343/iif(CH341=0,1,CH341)*100
HOSR_EXT_OUT:CH333/iif(CH330=0,1,CH330)*100
HOSR_EXT_OUT_RADIO:CH333/iif(CH331=0,1,CH331)*100
HOSR_IRAT:CH3531H35071+H35081
ATT_INTRACELL_UOLAID:H3002
ATT_INTRACELL_OULAID:H3001
ATT_INTRACELL_AMR_FH:H3005A
ATT_INTRACELL_AMR_HF:H3005B
ATT_INTRACELL_ULINT:CH3036A
ATT_INTRACELL_DLINT:CH3036B
INTRA_FAIL_HO_RADIO:H3029A
INTRA_FAIL_HO_TRES_FAIL:H302B
INTRA_FAIL_HO_A_INTER:H302G
INTRA_FAIL_HO_A_TIMER:(H3027Ca+H3028Ca)
INTRA_FAIL_HO_A_FH:H3025A
INTRA_FAIL_HO_A_HF:H3025B
INTRA_FAIL_HO_NO_ABIS:H302E
INTRA_FAIL_HO_SPEECH_UNAV:H302H
INTRA_FAIL_HO_CH_ACTV_FAIL:H302I
INCOM_FAIL_NO_RADIO:H3229A
INCOM_FAIL_HO_TRES_FAIL:H3229B
INCOM_FAIL_RFOC:H322D
INCOM_FAIL_A_INTER:H322G
OUT_FAIL_HO_NO_RADIO:H312A
OUT_FAIL_HO_TRES_FAIL:H312B
OUT_FAIL_HO_A_INTER:H312G
HO_ATT_UL_QUAL:H310A
HO_ATT_DL_QUAL:H310B
HO_ATT_UL_LEVEL:H310C
HO_ATT_DL_LEVEL:H310D
HO_ATT_TA:H310E
HO_ATT_PBGT:H310F
HO_ATT_LOAD:H310G
HO_ATT_RPD:H310H
HO_ATT_MSC_INTERVEN:H310I
HO_ATT_OM_INTERVEN:H310J
HO_ATT_OTHER:H310L
NAME
SUCCESS UPLINK ASSIGNMENT RATE
SUCCESS UPLINK ASSIGNMENT ON PS
SUCCESS UPLINK ASSIGNMENT PACCH
SUCCESSFUL DOWNLINK ASSIGNMENT RATE
SUCCESS DOWNLINK ASSIGNMENT RATE PS
SUCCESS DOWNLINK ASSIGNMENT RATE PACCH
TBF ESTABLISHMENT SUCCESS RATE
UL TBF ESTABLISHMENT SUCCESS RATE
DL TBF ESTABLISHMENT SUCCESS RATE
UL GPRS TBF ESTABLISHMENT SUCCESS RATE
UL EDGE TBF ESTABLISHMENT SUCCESS RATE
DL GPRS TBF ESTABLISHMENT SUCCESS RATE
DL EDGE TBF ESTABLISHMENT SUCCESS RATE
UL PDCH UTILIZATION
DL PDCH UTILIZATION
PDCH OCCUPATION RATE
BSC RECLAIMED DYNAMIC PDCH
FAILED UL GPRS TBF ESTABLISHMENT NR
FAILED UL GPRS TBF ESTABLISHMENT MS NO RESPONSE
FAILED UL GPRS TBF ESTABLISHMENT OTH CAUSE
FAILED DL GPRS TBF ESTABLISHMENT NR
FAILED DL GPRS TBF ESTABLISHMENT MS NO RESPONSE
FAILED DL GPRS TBF ESTABLISHMENT OTH CAUSE
FAILED UL EGPRS TBF ESTABLISHMENT NR
FAILED UL EGPRS TBF ESTABLISHMENT MS NO RESPONSE
FAILED UL EGPRS TBF ESTABLISHMENT OTH CAUSE
FAILED DL EGPRS TBF ESTABLISHMENT NR
FAILED DL EGPRS TBF ESTABLISHMENT MS NO RESPONSE
FAILED DL EGPRS TBF ESTABLISHMENT OTH CAUSE
SHORT NAME
UL_ASS_SUCC_RATE
UL_ASS_SUCC_RATE_PS
UL_ASS_SUCC_RATE_PACCH
DL_ASS_SUCC_RATE
DL_ASS_SUCC_RATE_PS
DL_ASS_SUCC_RATE_PACCH
TBF_ESTAB_SUCC_RATE
UL_TBF_ESTAB_SUCC_RATE
DL_TBF_ESTAB_SUCC_RATE
UL_GPRS_TBF_ESTAB_SUCC_RATE
UL_EDGE_TBF_ESTAB_SUCC_RATE
DL_GPRS_TBF_ESTAB_SUCC_RATE
DL_EDGE_TBF_ESTAB_SUCC_RATE
UL_PDCH_UTIL
DL_PDCH_UTIL
PDCH_OCC_RATE
BSC_RECLAIM_DYN_PDCH
FAIL_UL_GPRS_TBF_NR
FAIL_UL_GPRS_TBF_MS_NO_RES
FAIL_UL_GPRS_TBF_OTH
FAIL_DL_GPRS_TBF_NR
FAIL_DL_GPRS_TBF_MS_NO_RES
FAIL_DL_GPRS_TBF_OTH
FAIL_UL_EDGE_TBF_NR
FAIL_UL_EDGE_TBF_MS_NO_RES
FAIL_UL_EDGE_TBF_OTH
FAIL_DL_EDGE_TBF_NR
FAIL_DL_EDGE_TBF_MS_NO_RES
FAIL_DL_EDGE_TBF_OTH
HUAWEI FORMULA NUM
A9502*100
A9504*100
A9506*100
A9508*100
A9510*100
A9512*100
(A9002+A9102+A9202+A9302)*100
(A9002+A9202)*100
(A9102+A9302)*100
A9002*100
A9202*100
A9102*100
A9302*100
R9204*100
R9205*100
AR9311*100
R9344*100
A9003
A9004
A9016
A9103
A9104
A9115
A9203
A9204
A9216
A9303
A9304
A9315
HUAWEI FORMULA DEN
A9501
A9503
A9505
A9507
A9509
A9511
(A9001+A9101+A9201+A9301)
(A9001+A9201)
(A9101+A9301)
A9001
A9201
A9101
A9301
R9206
R9207
AR9303
R9343
VALUE
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
#
#
#
#
#
#
#
#
#
#
#
#
MS ACESS FORMAT
Comments
UL_ASS_SUCC_RATE:round(A9502*100/A9501,2)
0
UL_ASS_SUCC_RATE_PS:round(A9504*100/A9503,2)
0
UL_ASS_SUCC_RATE_PACCH:round(A9506*100/A9505,2)
0
DL_ASS_SUCC_RATE:round(A9508*100/A9507,2)
0
DL_ASS_SUCC_RATE_PS:round(A9510*100/A9509,2)
0
DL_ASS_SUCC_RATE_PACCH:round(A9512*100/A9511,2)
0
TBF_ESTAB_SUCC_RATE:round((A9002+A9102+A9202+A9302)*100/(A9001+A9101+A9201+A9301),2)
0
UL_TBF_ESTAB_SUCC_RATE:round((A9002+A9202)*100/(A9001+A9201),2)
0
DL_TBF_ESTAB_SUCC_RATE:round((A9102+A9302)*100/(A9101+A9301),2)
0
UL_GPRS_TBF_ESTAB_SUCC_RATE:round(A9002*100/A9001,2) 0
UL_EDGE_TBF_ESTAB_SUCC_RATE:round(A9202*100/A9201,2) 0
DL_GPRS_TBF_ESTAB_SUCC_RATE:round(A9102*100/A9101,2) 0
DL_EDGE_TBF_ESTAB_SUCC_RATE:round(A9302*100/A9301,2)
UL_PDCH_UTIL:round(R9204*100/R9206,2)
DL_PDCH_UTIL:round(R9205*100/R9207,2)
PDCH_OCC_RATE:round(AR9311*100/AR9303,2)
BSC_RECLAIM_DYN_PDCH:round(R9344*100/R9343,2)
FAIL_UL_GPRS_TBF_NR:A9003
FAIL_UL_GPRS_TBF_MS_NO_RES:A9004
FAIL_UL_GPRS_TBF_OTH:A9016
FAIL_DL_GPRS_TBF_NR:A9103
FAIL_DL_GPRS_TBF_MS_NO_RES:A9104
FAIL_DL_GPRS_TBF_OTH:A9115
FAIL_UL_EDGE_TBF_NR:A9203
FAIL_UL_EDGE_TBF_MS_NO_RES:A9204
FAIL_UL_EDGE_TBF_OTH:A9216
FAIL_DL_EDGE_TBF_NR:A9303
0
FAIL_DL_EDGE_TBF_MS_NO_RES:A9304
0
FAIL_DL_EDGE_TBF_OTH:A9315
0
NAME
UL GPRS RLC RETRANS
DL GPRS RLC RETRANS
UL EDGE RLC RETRANS
DL EDGE RLC RETRANS
UL AVG THP GPRS RLC PER PDCH
DL AVG THP GPRS RLC PER PDCH
UL AVG THP EDGE RLC PER PDCH
DL AVG THP EDGE RLC PER PDCH
UL AVG THP PER PDCH
DL AVG THP PER PDCH
UL AVG THP GPRS RLC PER CELL
DL AVG THP GPRS RLC PER CELL
UL AVG THP EDGE RLC PER CELL
DL AVG THP EDGE RLC PER CELL
UL AVG THP PER CELL
DL AVG THP PER CELL
UL CS1 CODING SHARE
UL CS2 CODING SHARE
UL CS3 CODING SHARE
UL CS4 CODING SHARE
DL CS1 CODING SHARE
DL CS2 CODING SHARE
DL CS3 CODING SHARE
DL CS4 CODING SHARE
CS1 CODING SHARE
CS2 CODING SHARE
CS3 CODING SHARE
CS4 CODING SHARE
UL MCS1 CODING SHARE
UL MCS2 CODING SHARE
UL MCS3 CODING SHARE
UL MCS4 CODING SHARE
UL MCS5 CODING SHARE
UL MCS6 CODING SHARE
UL MCS7 CODING SHARE
UL MCS8 CODING SHARE
UL MCS9 CODING SHARE
DL MCS1 CODING SHARE
DL MCS2 CODING SHARE
DL MCS3 CODING SHARE
DL MCS4 CODING SHARE
DL MCS5 CODING SHARE
DL MCS6 CODING SHARE
DL MCS7 CODING SHARE
DL MCS8 CODING SHARE
DL MCS9 CODING SHARE
SHORT NAME
UL_GPRS_RLC_RETRAN
DL_GPRS_RLC_RETRAN
UL_EDGE_RLC_RETRAN
DL_EDGE_RLC_RETRAN
UL_AVG_THP_GPRS_RLC_PDCH
DL_AVG_THP_GPRS_RLC_PDCH
UL_AVG_THP_EDGE_RLC_PDCH
DL_AVG_THP_EDGE_RLC_PDCH
UL_AVG_THP_PDCH
DL_AVG_THP_PDCH
UL_AVG_THP_GPRS_RLC_CELL
DL_AVG_THP_GPRS_RLC_CELL
UL_AVG_THP_EDGE_RLC_CELL
DL_AVG_THP_EDGE_RLC_CELL
UL_CS1_COD_SH
UL_CS2_COD_SH
UL_CS3_COD_SH
UL_CS4_COD_SH
DL_CS1_COD_SH
DL_CS2_COD_SH
DL_CS3_COD_SH
DL_CS4_COD_SH
CS1_COD_SHARE
CS2_COD_SHARE
CS3_COD_SHARE
CS4_COD_SHARE
UL_MCS_1_COD_SH
UL_MCS_2_COD_SH
UL_MCS_3_COD_SH
UL_MCS_4_COD_SH
UL_MCS_5_COD_SH
UL_MCS_6_COD_SH
UL_MCS_7_COD_SH
UL_MCS_8_COD_SH
UL_MCS_9_COD_SH
DL_MCS_1_COD_SH
DL_MCS_2_COD_SH
DL_MCS_3_COD_SH
DL_MCS_4_COD_SH
DL_MCS_5_COD_SH
DL_MCS_6_COD_SH
DL_MCS_7_COD_SH
DL_MCS_8_COD_SH
DL_MCS_9_COD_SH
MCS1 CODING SHARE
MCS2 CODING SHARE
MCS3 CODING SHARE
MCS4 CODING SHARE
MCS5 CODING SHARE
MCS6 CODING SHARE
MCS7 CODING SHARE
MCS8 CODING SHARE
MCS9 CODING SHARE
MCS1_COD_SH
MCS2_COD_SH
MCS3_COD_SH
MCS4_COD_SH
MCS5_COD_SH
MCS6_COD_SH
MCS7_COD_SH
MCS8_COD_SH
MCS9_COD_SH
HUAWEI FORMULA NUM
HUAWEI FORMULA DEN
VALUE
(L9001-(L9006+L9007+L9008+L9009))
L9001
%
(L9101-(L9106+L9107+L9108+L9109))
L9101
%
(L9201-(L9211+L9212+L9213+L9214+L9215+L9216+L9217+L9218+L9219))
L9201
%
(L9301-(L9311+L9312+L9313+L9314+L9315+L9316+L9317+L9318+L9319))
L9301
%
(((L9006*23+L9007*34+L9008*40+L9009*54)*8)/1024) ((L9002+L9003+L9004+L9005)/50)
kbps
(((L9106*23+L9107*34+L9108*40+L9109*54)*8)/1024) ((L9102+L9103+L9104+L9105)/50)
kbps
(((L9211*22+L9212*28+L9213*37+L9214*44+L9215*56+L9216*74+L9217*56+L9218*68+L9219*74)*8)/1024)
(((L9202+L9203+L9204+L9205+L9206+L9207+(L9208/2)+(L9209/2)+(
kbps
(((L9311*22+L9312*28+L9313*37+L9314*44+L9315*56+L9316*74+L9317*56+L9318*68+L9319*74)*8)/1024)
(((L9302+L9303+L9304+L9305+L9306+L9307+(L9308/2)+(L9309/2)+(
kbps
(((L9006*23+L9007*34+L9008*40+L9009*54+L9211*22+L9212*28+L9213*37+L9214*44+L9215*56+L9216*74+L9217*56+L9
((L9002+L9003+L9004+L9005)/50)+(((L9202+L9203+L9204+L9205+L9
kbps
(((L9106*23+L9107*34+L9108*40+L9109*54+L9311*22+L9312*28+L9313*37+L9314*44+L9315*56+L9316*74+L9317*56+L9
((L9102+L9103+L9104+L9105)/50)+(((L9302+L9303+L9304+L9305+L9
kbps
L9006*23+L9007*34+L9008*40+L9009*54*8
L9020
L9106*23+L9107*34+L9108*40+L9109*54*8
L9121
L9211*22+L9212*28+L9213*37+L9214*44+L9215*56+L9216*74+L9217*56+L9218*68+L9219*74*8
L9235
L9311*22+L9312*28+L9313*37+L9314*44+L9315*56+L9316*74+L9317*56+L9318*68+L9319*74*8
L9336
L9002
L9003
L9004
L9005
L9102
L9103
L9104
L9105
(L9002+L9102)
(L9003+L9103)
(L9004+L9104)
(L9005+L9105)
L9202
L9203
L9204
L9205
L9206
L9207
L9208
L9209
L9210
L9302
L9303
L9304
L9305
L9306
L9307
L9308
L9309
L9310
(L9002+L9003+L9004+L9005)
%
(L9002+L9003+L9004+L9005)
%
(L9002+L9003+L9004+L9005)
%
(L9002+L9003+L9004+L9005)
%
(L9102+L9103+L9104+L9105)
%
(L9102+L9103+L9104+L9105)
%
(L9102+L9103+L9104+L9105)
%
(L9102+L9103+L9104+L9105)
%
(L9002+L9003+L9004+L9005+L9102+L9103+L9104+L9105)
%
(L9002+L9003+L9004+L9005+L9102+L9103+L9104+L9105)
%
(L9002+L9003+L9004+L9005+L9102+L9103+L9104+L9105)
%
(L9002+L9003+L9004+L9005+L9102+L9103+L9104+L9105)
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)
%
(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)
%
(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)
%
(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)
%
(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)
%
(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)
%
(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)
%
(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)
%
(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)
%
(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)
%
(L9202+L9302)
(L9203+L9303)
(L9204+L9304)
(L9205+L9305)
(L9206+L9306)
(L9207+L9307)
(L9208+L9308)
(L9209+L9309)
(L9210+L9310)
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9
%
(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9
%
MS ACESS FORMAT
Comments
UL_GPRS_RLC_RETRAN:(L9001-(L9006+L9007+L9008+L9009))/L9001*100
0
DL_GPRS_RLC_RETRAN:(L9101-(L9106+L9107+L9108+L9109))/L9101*100
0
UL_EDGE_RLC_RETRAN:(L9201-(L9211+L9212+L9213+L9214+L9215+L9216+L9217+L9218+L9219))/L9201*100
0
DL_EDGE_RLC_RETRAN:(L9301-(L9311+L9312+L9313+L9314+L9315+L9316+L9317+L9318+L9319))/L9301*100
0
UL_AVG_THP_GPRS_RLC_PDCH:(((L9006*23+L9007*34+L9008*40+L9009*54)*8)/1024)/((L9002+L9003+L9004+L9005)/50)
0
DL_AVG_THP_GPRS_RLC_PDCH:(((L9106*23+L9107*34+L9108*40+L9109*54)*8)/1024)/((L9102+L9103+L9104+L9105)/50)
0
UL_AVG_THP_EDGE_RLC_PDCH:(((L9211*22+L9212*28+L9213*37+L9214*44+L9215*56+L9216*74+L9217*56+L9218*68+L9
0
DL_AVG_THP_EDGE_RLC_PDCH:(((L9311*22+L9312*28+L9313*37+L9314*44+L9315*56+L9316*74+L9317*56+L9318*68+L9
0
UL_AVG_THP_PDCH:(((L9006*23+L9007*34+L9008*40+L9009*54+L9211*22+L9212*28+L9213*37+L9214*44+L9215*56+L9
0
DL_AVG_THP_PDCH:(((L9106*23+L9107*34+L9108*40+L9109*54+L9311*22+L9312*28+L9313*37+L9314*44+L9315*56+L9
0
UL_AVG_THP_GPRS_RLC_CELL:L9006*23+L9007*34+L9008*40+L9009*54*8/L9020
Counters not available in PRS
DL_AVG_THP_GPRS_RLC_CELL:L9106*23+L9107*34+L9108*40+L9109*54*8/L9121
Counters not available in PRS
UL_AVG_THP_EDGE_RLC_CELL:L9211*22+L9212*28+L9213*37+L9214*44+L9215*56+L9216*74+L9217*56+L9218*68+L9219
Counters not available in PRS
DL_AVG_THP_EDGE_RLC_CELL:L9311*22+L9312*28+L9313*37+L9314*44+L9315*56+L9316*74+L9317*56+L9318*68+L9319
Counters not available in PRS
Counters not available in PRS
Counters not available in PRS
UL_CS1_COD_SH:L9002/(L9002+L9003+L9004+L9005)*100
0
UL_CS2_COD_SH:L9003/(L9002+L9003+L9004+L9005)*100
0
UL_CS3_COD_SH:L9004/(L9002+L9003+L9004+L9005)*100
0
UL_CS4_COD_SH:L9005/(L9002+L9003+L9004+L9005)*100
0
DL_CS1_COD_SH:L9102/(L9102+L9103+L9104+L9105)*100
0
DL_CS2_COD_SH:L9103/(L9102+L9103+L9104+L9105)*100
0
DL_CS3_COD_SH:L9104/(L9102+L9103+L9104+L9105)*100
0
DL_CS4_COD_SH:L9105/(L9102+L9103+L9104+L9105)*100
0
CS1_COD_SHARE:(L9002+L9102)/(L9002+L9003+L9004+L9005+L9102+L9103+L9104+L9105)*100
0
CS2_COD_SHARE:(L9003+L9103)/(L9002+L9003+L9004+L9005+L9102+L9103+L9104+L9105)*100
0
CS3_COD_SHARE:(L9004+L9104)/(L9002+L9003+L9004+L9005+L9102+L9103+L9104+L9105)*100
0
CS4_COD_SHARE:(L9005+L9105)/(L9002+L9003+L9004+L9005+L9102+L9103+L9104+L9105)*100
0
UL_MCS_1_COD_SH:L9202/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)*100
0
UL_MCS_2_COD_SH:L9203/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)*100
0
UL_MCS_3_COD_SH:L9204/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)*100
0
UL_MCS_4_COD_SH:L9205/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)*100
0
UL_MCS_5_COD_SH:L9206/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)*100
0
UL_MCS_6_COD_SH:L9207/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)*100
0
UL_MCS_7_COD_SH:L9208/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)*100
0
UL_MCS_8_COD_SH:L9209/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)*100
0
UL_MCS_9_COD_SH:L9210/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210)*100
0
DL_MCS_1_COD_SH:L9302/(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)*100
0
DL_MCS_2_COD_SH:L9303/(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)*100
0
DL_MCS_3_COD_SH:L9304/(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)*100
0
DL_MCS_4_COD_SH:L9305/(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)*100
0
DL_MCS_5_COD_SH:L9306/(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)*100
0
DL_MCS_6_COD_SH:L9307/(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)*100
0
DL_MCS_7_COD_SH:L9308/(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)*100
0
DL_MCS_8_COD_SH:L9309/(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)*100
0
DL_MCS_9_COD_SH:L9310/(L9302+L9303+L9304+L9305+L9306+L9307+L9308+L9309+L9310)*100
0
MCS1_COD_SH:(L9202+L9302)/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9302+L9303+L9304+L930
0
MCS2_COD_SH:(L9203+L9303)/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9302+L9303+L9304+L930
0
MCS3_COD_SH:(L9204+L9304)/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9302+L9303+L9304+L930
0
MCS4_COD_SH:(L9205+L9305)/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9302+L9303+L9304+L930
0
MCS5_COD_SH:(L9206+L9306)/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9302+L9303+L9304+L930
0
MCS6_COD_SH:(L9207+L9307)/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9302+L9303+L9304+L930
0
MCS7_COD_SH:(L9208+L9308)/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9302+L9303+L9304+L930
0
MCS8_COD_SH:(L9209+L9309)/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9302+L9303+L9304+L930
0
MCS9_COD_SH:(L9210+L9310)/(L9202+L9203+L9204+L9205+L9206+L9207+L9208+L9209+L9210+L9302+L9303+L9304+L930
0
NAME
TBF DROP RATE
UL TBF DROP RATE
DL TBF DROP RATE
UL GPRS TBF DROP RATE
DL GPRS TBF DROP RATE
UL EDGE TBF DROP RATE
DL EDGE TBF DROP RATE
UL GPRS PAY LOAD
DL GPRS PAT LOAD
UL EDGE PAY LOAD
DL EDGE PAY LOAD
TOTAL UL PAY LOAD
TOTAL DL PAY LOAD
DL EGPRS TBF ABNORMAL RELEASE N3105 OVER FLOW
DL EGPRS TBF ABNORMAL RELEASE SUSPEND
DL EGPRS TBF ABNORMAL RELEASE FLUSH
DL EGPRS TBF ABNORMAL RELEASE NO CHANNEL
DL EGPRS TBF ABNORMAL RELEASE PREEMPTION
DL EGPRS TBF ABNORMAL RELEASE OTHER CAUSES
DL EGPRS TBF ABNORMAL RELEASE CS HANDOVER
DL EGPRS TBF ABNORMAL RELEASE ABIS RESOURCE PREEMPTION
DL GPRS TBF ABNORMAL RELEASE N3105 OVER FLOW
DL GPRS TBF ABNORMAL RELEASE SUSPEND
DL GPRS TBF ABNORMAL RELEASE FLUSH
DL GPRS TBF ABNORMAL RELEASE NO CHANNEL
DL GPRS TBF ABNORMAL RELEASE PREEMPTION
DL GPRS TBF ABNORMAL RELEASE OTHER CAUSES
DL GPRS TBF ABNORMAL RELEASE CS HANDOVER
DL GPRS TBF ABNORMAL RELEASE ABIS RESOURCE PREEMPTION
DL GPRS TBF ABNORMAL RELEASE EDGE USER
UL EGPRS TBF ABNORMAL RELEASE N3101 OVER FLOW
UL EGPRS TBF ABNORMAL RELEASE N3103 OVER FLOW
UL EGPRS TBF ABNORMAL RELEASE SUSPEND
UL EGPRS TBF ABNORMAL RELEASE FLUSH
UL EGPRS TBF ABNORMAL RELEASE NO CHANNEL
UL EGPRS TBF ABNORMAL RELEASE PREEMPTION
UL EGPRS TBF ABNORMAL RELEASE OTHER CAUSES
UL EGPRS TBF ABNORMAL RELEASE CS HANDOVER
UL EGPRS TBF ABNORMAL RELEASE ABIS RESOURCE PREEMPTION
UL GPRS TBF ABNORMAL RELEASE N3101 OVER FLOW
UL GPRS TBF ABNORMAL RELEASE N3103 OVER FLOW
UL GPRS TBF ABNORMAL RELEASE SUSPEND
UL GPRS TBF ABNORMAL RELEASE FLUSH
UL GPRS TBF ABNORMAL RELEASE NO CHANNEL
UL GPRS TBF ABNORMAL RELEASE PREEMPTION
UL GPRS TBF ABNORMAL RELEASE OTHER CAUSES
UL GPRS TBF ABNORMAL RELEASE CS HANDOVER
UL GPRS TBF ABNORMAL RELEASE ABIS RESOURCE PREEMPTION
AVG DURATION OF UL EDGE TBF
TOTAL DURATION OF UL EDGE TBF
AVG DURATION OF DL GPRS TBF
TOTAL DURATION OF DL GPRS TBF
ABIS TDM SUCCESS RATE
ABIS IP/HDLC SUCCESS RATE
UNSUCCESSFUL APPLICATION ATTEMPTS NO IDLE TS
UNSUCCESSFUL APPLICATION ATTEMPTS CONNECTION FAILURE
UNSUCCESSFUL APPLICATION ATTEMPTS BTS FAILURE
UNSUCCESSFUL APPLICATION ATTEMPTS OTHERS
UNSUCCESSFUL APPLICATION ATTEMPTS LIMIT BTS DSP
SHORT NAME
TBF_DROP_RATE
UL_TBF_DROP_RATE
DL_TBF_DROP_RATE
UL_GPRS_TBF_DROP_RATE
DL_GPRS_TBF_DROP_RATE
UL_EDGE_TBF_DROP_RATE
DL_EDGE_TBF_DROP_RATE
UL_GPRS_PAYLOAD
DL_GPRS_PAYLOAD
UL_EDGE_PAYLOAD
DL_EDGE_PAYLOAD
TOTAL_UL_PAY_LOAD
TOTAL_DL_PAY_LOAD
DL_EDGE_TBF_REL_N3105
DL_EDGE_TBF_REL_SUSPEND
DL_EDGE_TBF_REL_FLUSH
DL_EDGE_TBF_REL_NR
DL_EDGE_TBF_REL_PREEMP
DL_EDGE_TBF_REL_OTH
DL_EDGE_TBF_REL_CSHO
DL_GPRS_TBF_REL_ABIS_PREEMP
DL_GPRS_TBF_REL_N3105
DL_GPRS_TBF_REL_SUSPEND
DL_GPRS_TBF_REL_FLUSH
DL_GPRS_TBF_REL_NR
DL_GPRS_TBF_REL_PREEMP
DL_GPRS_TBF_REL_OTH
DL_GPRS_TBF_REL_CSHO
DL_GPRS_TBF_REL_ABIS_PREEMP
DL_GPRS_TBF_REL_ABIS_EDGEUSER
UL_EDGE_TBF_REL_N3101
UL_EDGE_TBF_REL_N3103
UL_EDGE_TBF_REL_SUSPEND
UL_EDGE_TBF_REL_FLUSH
UL_EDGE_TBF_REL_NR
UL_EDGE_TBF_REL_PREEMP
UL_EDGE_TBF_REL_OTH
UL_EDGE_TBF_REL_CSHO
UL_EDGE_TBF_REL_ABIS_PREEMP
UL_GPRS_TBF_REL_N3101
UL_GPRS_TBF_REL_N3103
UL_GPRS_TBF_REL_SUSPEND
UL_GPRS_TBF_REL_FLUSH
UL_GPRS_TBF_REL_NR
UL_GPRS_TBF_REL_PREEMP
UL_GPRS_TBF_REL_OTH
UL_GPRS_TBF_REL_CSHO
UL_GPRS_TBF_REL_ABIS_PREEMP
AVG_DUR_UL_EDGE_TBF
TOT_DUR_UL_EDGE_TBF
AVG_DUR_DL_GPRS_TBF
TOT_DUR_DL_GPRS_TBF
ABIS_TDM_SUCC_R
ABIS_IP_HDLC_SUCC_R
FAIL_APP_ATT_NO_IDLE_TS
FAIL_APP_ATT_NO_CON_FAIL
FAIL_APP_ATT_BTS_FAIL
FAIL_APP_ATT_OTHER
FAIL_APP_ATT_LIM_BTS_DSP
FORMULA NUM
007+A9010+A9017+A9018+A9206+A9207+A9210+A9217+A9218+A9106+A9109+A9116+A9117+A9306+A9309+A9316+A9317)
(A9006+A9007+A9010+A9017+A9018+A9206+A9207+A9210+A9217+A9218)
(A9106+A9109+A9116+A9117+A9306+A9309+A9316+A9317)
(A9006+A9007+A9010+A9017+A9018)
(A9106+A9109+A9116+A9117)
(A9206+A9207+A9210+A9217+A9218)
(A9306+A9309+A9316+A9317)
((L9006*23+L9007*34+L9008*40+L9009*54)*8)/1024
((L9106*23+L9107*34+L9108*40+L9109*54)*8)/1024
((L9211*22+L9212*28+L9213*37+L9214*44+L9215*56+L9216*74+L9217*56+L9218*68+L9219*74)*8)/1024
((L9311*22+L9312*28+L9313*37+L9314*44+L9315*56+L9316*74+L9317*56+L9318*68+L9319*74)*8)/1024
((L9006*23+L9007*34+L9008*40+L9009*54*8/1024+L9211*22+L9212*28+L9213*37+L9214*44+L9215*56+L9216*74+L921
((L9106*23+L9107*34+L9108*40+L9109*54*8/1024+L9311*22+L9312*28+L9313*37+L9314*44+L9315*56+L9316*74+L931
A9306
A9307
A9308
A9309
A9316
A9317
A9335
A9336
A9106
A9107
A9108
A9109
A9116
A9117
A9137
A9138
A9132
A9206
A9207
A9208
A9209
A9210
A9217
A9218
A9237
A9238
A9006
A9007
A9008
A9009
A9010
A9017
A9018
A9039
A9040
AA9213
A9214
AA9114
A9113
R9102
R9106
R9109
R9110
R9111
R9112
R9115
FORMULA DEN
(A9002+A9202+A9102+A9302)
(A9002+A9202)
(A9102+A9302)
A9002
A9102
A9202
A9302
VALUE MS ACESS FORMAT
COMMENTS
%
TBF_DROP_RATE:(A9006+A9007+A9010+A9017+A9018+A9206+A9207+A9210+A9
0
%
UL_TBF_DROP_RATE:(A9006+A9007+A9010+A9017+A9018+A9206+A9207+A9210
0
%
DL_TBF_DROP_RATE:(A9106+A9109+A9116+A9117+A9306+A9309+A9316+A9317
0
%
UL_GPRS_TBF_DROP_RATE:(A9006+A9007+A9010+A9017+A9018)/A9002*100
0
%
DL_GPRS_TBF_DROP_RATE:(A9106+A9109+A9116+A9117)/A9102*100
0
%
UL_EDGE_TBF_DROP_RATE:(A9206+A9207+A9210+A9217+A9218)/A9202*100
0
%
DL_EDGE_TBF_DROP_RATE:(A9306+A9309+A9316+A9317)/A9302*100
0
MB UL_GPRS_PAYLOAD:((L9006*23+L9007*34+L9008*40+L9009*54)*8)/1024
0
MB DL_GPRS_PAYLOAD:((L9106*23+L9107*34+L9108*40+L9109*54)*8)/1024
0
MB UL_EDGE_PAYLOAD:((L9211*22+L9212*28+L9213*37+L9214*44+L9215*56+L921
0
MB DL_EDGE_PAYLOAD:((L9311*22+L9312*28+L9313*37+L9314*44+L9315*56+L931
0
MB TOTAL_UL_PAY_LOAD:((L9006*23+L9007*34+L9008*40+L9009*54*8/1024+L9211
0
MB TOTAL_DL_PAY_LOAD:((L9106*23+L9107*34+L9108*40+L9109*54*8/1024+L9311
0
#
DL_EDGE_TBF_REL_N3105:A9306
0
#
DL_EDGE_TBF_REL_SUSPEND:A9307
0
#
DL_EDGE_TBF_REL_FLUSH:A9308
0
#
DL_EDGE_TBF_REL_NR:A9309 0
#
DL_EDGE_TBF_REL_PREEMP:A9316
0
#
DL_EDGE_TBF_REL_OTH:A93170
#
DL_EDGE_TBF_REL_CSHO:A93350
#
DL_GPRS_TBF_REL_ABIS_PREEMP:A9336
0
#
DL_GPRS_TBF_REL_N3105:A9106
0
#
DL_GPRS_TBF_REL_SUSPEND:A9107
0
#
DL_GPRS_TBF_REL_FLUSH:A9108
0
#
DL_GPRS_TBF_REL_NR:A9109 0
#
DL_GPRS_TBF_REL_PREEMP:A9116
0
#
DL_GPRS_TBF_REL_OTH:A9117 0
#
DL_GPRS_TBF_REL_CSHO:A91370
#
DL_GPRS_TBF_REL_ABIS_PREEMP:A9138
0
#
DL_GPRS_TBF_REL_ABIS_EDGEUSER:A9132
0
#
UL_EDGE_TBF_REL_N3101:A9206
0
#
UL_EDGE_TBF_REL_N3103:A9207
0
#
UL_EDGE_TBF_REL_SUSPEND:A9208
0
#
UL_EDGE_TBF_REL_FLUSH:A9209
0
#
UL_EDGE_TBF_REL_NR:A9210 0
#
UL_EDGE_TBF_REL_PREEMP:A9217
0
#
UL_EDGE_TBF_REL_OTH:A92180
#
UL_EDGE_TBF_REL_CSHO:A92370
#
UL_EDGE_TBF_REL_ABIS_PREEMP:A9238
0
#
UL_GPRS_TBF_REL_N3101:A9006
0
#
UL_GPRS_TBF_REL_N3103:A9007
0
#
UL_GPRS_TBF_REL_SUSPEND:A9008
0
#
UL_GPRS_TBF_REL_FLUSH:A9009
0
#
UL_GPRS_TBF_REL_NR:A9010 0
#
UL_GPRS_TBF_REL_PREEMP:A9017
0
#
UL_GPRS_TBF_REL_OTH:A9018 0
R9101
R9105
#
UL_GPRS_TBF_REL_CSHO:A90390
#
UL_GPRS_TBF_REL_ABIS_PREEMP:A9040
0
SEC AVG_DUR_UL_EDGE_TBF:AA9213
0
SEC TOT_DUR_UL_EDGE_TBF:A92140
SEC AVG_DUR_DL_GPRS_TBF:AA9114
0
SEC TOT_DUR_DL_GPRS_TBF:A91130
ABIS_TDM_SUCC_R:R9102/R9101*100
%
0
ABIS_IP_HDLC_SUCC_R:R9106/R9105*1000
%
FAIL_APP_ATT_NO_IDLE_TS:R9109
#
0
FAIL_APP_ATT_NO_CON_FAIL:R9110
#
0
F#AIL_APP_ATT_BTS_FAIL:R9111
0
#FAIL_APP_ATT_OTHER:R9112
0
FAIL_APP_ATT_LIM_BTS_DSP:R9115
#
0
COUNTER_NO DESCRIPTION
H371
Out going inter cell HO commands
Fail Outgoing intercell Hos
H373
Successful Outgoing intercell HOS
H380
Incoming Intercell HO Request
H382
Failed incoming Intercell Hos
H383
Successful Incoming intercell HOS
FEATURE_NAME
IMPACT
PARAMETER_ID
2G/3G Cell Reselection Based on MS State
2G/3G Co-Transmission Resources Management on MBSC
A Interface Protocol Process
A5/1 and A5/2 Ciphering AlgorithmA5/1 Encryption Flow Optimization
A5/1 Encryption Flow Optimization
Access
Access
Access
Access
Access
Access
Access
Access
Access
Access
Access
Access
Adaptive Adjustment of Uplink and Downlink Channels
Adjustment of Adaptive Timing Advance
AFCAutomatic Frequency Correction
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
POS2QUATER
ENGSMPSDLMACFLOWCTR
MSCVER
ENCRY
SDFASTHOSWITCH
ACCCONTROLCLASS
MAXRETRANS1
MAXRETRANS2
MAXRETRANS3
MAXRETRANS4
PL1
PL2
PL3
PL4
SVALUE
TXINT
ACCBURST
AccStaServiceType
MAXTA
FREQADJ
AFCAutomatic Frequency Correction
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
Cell
Cell
Cell
Cell
Cell
FREQADJVALUE
RTPSWITCH
AMRDADTHAW
AMRUADTHAW
DLLTFERLOWTH
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
AMR Coding Rate Threshold Adaptive Adjustment
AMR FR
AMR FR
AMR FR
AMR FR
AMR FR
AMR FR
AMR FR
AMR FR
AMR FR
AMR FR
AMR FR
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
DLLTFERTGT
DLLTFERUPTH
DLLTTHADJFA
LTFERLOWTH
LTFERTGT
LTFERUPTH
LTTHADJFA
RATECTRLSW
RATSCCHENABLED
ACTCDSETF
AUTOADJULTHHYSTF
DLHYSTF1
DLHYSTF2
DLHYSTF3
DLTHF1
DLTHF2
DLTHF3
INITCDMDF
ULHYSTF1
ULHYSTF2
AMR FR
AMR FR
AMR FR
AMR FR
AMR FRAMR HRTFO
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR HR
AMR Wireless Link Timer
AMR Wireless Link Timer
AMR Wireless Link Timer
AMR Wireless Link Timer
Antenna Frequency Hopping
Antenna Frequency Hopping
Antenna Frequency Hopping
Antenna Frequency Hopping
Assignment and Immediate Assignment
Assignment and Immediate Assignment
Assignment and Immediate Assignment
Basic Cell Re-selection
Basic Cell Re-selection
Basic Cell Re-selection
Basic Cell Re-selection
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
ULHYSTF3
ULTHF1
ULTHF2
ULTHF3
NBAMRTFOSWITCH
ACTCDSETH
AUTOADJULTHHYSTH
DLHYSTH1
DLHYSTH2
DLHYSTH3
DLTHH1
DLTHH2
DLTHH3
INITCDMDH
ULHYSTH1
ULHYSTH2
ULHYSTH3
ULTHH1
ULTHH2
ULTHH3
AMRTCHHPRIORALLOW
AMRTCHHPRIORLOAD
AFRDSBLCNT
AFRSAMULFRM
AHRDSBLCNT
AHRSAMULFRM
HOPTRXHSN
HOPTRXINDEX
HPANTMODE
HPANTMODE
FASTCALLTCHTHRESHOLD
IMMASSCBB
IMMASSEN
ACS
PT
TO
CRH
Basic Cell Re-selection
Cell
CRO
Basic Cell Re-selection
Basic Cell Selection
Basic Cell SelectionBasic Cell Re-selection
Cell
Cell
Cell
PI
CBQ
CBA
Basic Cell SelectionBasic Cell Re-selection
BCCH Dense Frequency Multiplexing
BCCH Dense Frequency Multiplexing
Cell
Cell
Cell
NCCPERMIT
TIGHTBCCHASSMAINBCCHL
TIGHTBCCHASSMAINBCCHQ
BCCH Dense Frequency Multiplexing
BSC Node Redundancy
BSC Node Redundancy
BSC Node Redundancy
BSC Node Redundancy
BSS Paging Coordination
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
BSS-Based LCS Cell ID + TA
Call Control
Call Control
Call Control
Call Control
Call Reestablishment
Cell Frequency Scan
Cell Frequency Scan
Cell Frequency Scan
Cell Frequency Scan
Co-BCCH Cell
Compact BTS Automatic Capacity Planning
Compact BTS Automatic Capacity Planning
Compact BTS Automatic Capacity Planning
Compact BTS Automatic Capacity Planning
Compact BTS Automatic Configuration and Planning
Compact BTS Automatic Configuration and Planning
Compact BTS Automatic Configuration and Planning
Compact BTS Automatic Configuration and Planning
Compact BTS Automatic Configuration and Planning
Compact BTS Automatic Configuration and Planning
Concentric Cell
Concentric Cell
Cell
TIGHTBCCHSWITCH
Cell
CNFAULTDELAY
Cell
REHOSTABSTIME
Cell
REHOSTDELAYTIME
Cell
REHOSTTYPE
Cell
BSSPAGINGCOORDINATION
Cell
ALTIDECI
Cell
ALTITUDE
Cell
ANTAANGLE
Cell
INCLUDEANG
Cell
INPUTMD
Cell
NSLATI
Cell
WELONGI
Cell
LATIDECI
Cell
LATIDEGREE
Cell
LATIINT
Cell
LATIMINUTE
Cell
LATISECONDDECI
Cell
LATISECONDINT
Cell
LONGIDECI
Cell
LONGIDEGREE
Cell
LONGIINT
Cell
LONGIMINUTE
Cell
LONGISECONDDECI
Cell
LONGISECONDINT
Cell
ACTL2REEST
Cell
FORCEDCELLEFRSWITCH
Cell
MSCAPABLESTATSWITCH
Cell
TMRBADQUALDISCSTAT
Cell
CALLRESTABDIS
Cell
FREQLST
Cell
STRTM
Cell
FREQSCANRLSTTYPE
Cell
INTERBANDSTATALGO
Cell
DBFREQBCCHIUO
Define Cell LAC1
Cell
MAXFQNUM1
Cell
NBRCELLSWITCH
Cell
RA1
Cell
TYPE
Cell
CGIRACSWITCH
Cell
FQBSICOPTSWITCH
Cell
FQBSICSWITCH
Cell
FQBSICSWITCH1
Cell
RA
Cell
ENIUO
Cell
ASSOLRXLEVOFFSET
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Cell
Cell
Cell
Cell
HOOLRXLEVOFFSET
HRIUOLDRATESELALLOW
LOWRXLEVOLFORBIDSWITC
TCHTRIBUSYUNDERLAYTHR
Concentric Cell
Concentric Cell
Concentric CellEnhanced Dual-Band Network
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Cell
TCHTRICBUSYOVERLAYTHR
Cell
IUOCHNTRAN
Cell
IUOTP
Define Cell BCC
Cell
BSPAGBLKSRES
Cell
BSPBCCHBLKS
Cell
BSPRACHBLKS
Define Cell NCC
Cell
NBR2GNCELL1ID
Cell
NBR2GNCELL2ID
Cell
CELLLIST
Cell
CELLNAMELIST
Cell
CI1
Cell
CELL2GBA1BCCH
Cell
CELL2GBA1TAG
Cell
VOICEVER
Cell
CELL2GBA2BCCH
Cell
CELL2GBA2TAG
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Cell
Cell
Cell
Cell
HOCTRLSWITCH
FDDBA2TAG
TDDBA2TAG
TDDSCRAMBLE
Configuration Management
Cell
ITEM
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Direct Retry
Direct Retry
Direct Retry
Direct Retry
Discontinuous Reception DRX
Discontinuous Reception DRX
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
ITEMVALID
FRAMEOFFSET
RFMAXPWRDEC
TFRMSTARTTIME
ITEMINDEX
ITEMVALUE
DIRECTRYEN
ASSLOADJUDGEEN
DTLOADTHRED
CDRTTRYFBDTHRES
DRXTIMERMAX
SPGCCCCHSUP
Discontinuous Transmission DTX Downlink
Cell
FRDLDTX
Discontinuous Transmission DTX Downlink
Half Rate Speech
Cell
HRDLDTX
Discontinuous Transmission DTX Uplink
Cell
FRULDTX
Discontinuous Transmission DTX Uplink
Half Rate Speech
Dynamic Adjustment Between FR and HR
Dynamic Cell Power Off
Dynamic Cell Power Off
Dynamic Cell Power Off
Dynamic Cell Power Off
Dynamic Cell Power Off
Dynamic Cell Power Off
Dynamic Cell Power Off
Dynamic Cell Power Off
Dynamic Cell Power Off
Dynamic Cell Power Off
Dynamic Cell Power Off
Dynamic Transmit Diversity
EICC
Emergency Call Service TS12
Emergency Call Service TS12
Emergency Call Service TS12
Emergency Call Service TS12
Encrypted Network Management
Encrypted Network Management
Encrypted Network Management
Encrypted Network Management
Encrypted Network ManagementSoft-Synchronized Network
Enhanced BCCH Power Consumption Optimization
Enhanced BCCH Power Consumption Optimization
Enhanced BCCH Power Consumption Optimization
Enhanced BCCH Power Consumption Optimization
Enhanced BCCH Power Consumption Optimization
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
HRULDTX
ENTCHADJALLOW
PROTECTTIME
SAMECVGCELLLOADSTATT
SAMECVGCELLLOADTHRD
TURNOFFCELLCHANNUM
TURNOFFCELLSTPTIME
TURNOFFCELLSTRTIME
TURNONCELLLOADTHRD
SAMECVGCELLID
SAMECVGCELLIDTYPE
SAMECVGCELLNAME
TURNOFFENABLE
DYNPBTSUPPORTED
STIRCALLOWED
EMCPRILV
PREEMPTIONPERMIT
ERGCALLDIS
RSVCHMFORECNUM
DUMMYBITRANDSWITCH
STOPSI5SWITCH
TCHTIMEHOPERIOD
TCHTIMEHOSWITCH
FLEXTSCSWITCH
MAINBCCHPWDTACTCHEN
MAINBCCHPWRDTEN
MAINBCCHPWRDTETIME
MAINBCCHPWRDTRANGE
MAINBCCHPWRDTSTIME
CHANINTERMESALLOW
CHPWRINSUFFALLOWED
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
CIRESTVALUE
FREQLOADSHARETRAFFTH
HISPRIOALLOW
INTERFPRIALLOW
LOADSHAREALLOW
MCPAOPTALG
NAMRLFRMTRXALLOWED
PWRPRIORALLOW
QTRUPWRSHARE
TCHBUSYTHRES
TRXPRIALLOW
ALLOWAMRHALFRATEUSER
ALLOWHALFRATEUSERPER
CHALLOCSTRATEGY
FACTORYMODE
INTERFTHRES0
INTERFTHRES1
INTERFTHRES2
INTERFTHRES3
INTERFTHRES4
INTERFTHRES5
INTERPERIOD
CELLINEXTP
DBLFREQADJCID
DBLFREQADJCNAME
DBLFREQADJIDTYPE
ATCBHYST
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
ATCBTHRED
EDBLASTTIME
EDBSTATTIME
EDBSYSFLOWLEV
HOPENALTYTIME
INNASSOPTEN
INNCELLEDGEHOEN
INNLOADHOEN
INNLOADHOPERI
INNLOADHOSTEP
INNSERIOVERLDTHRED
INTOINNREXLEVTHRED
OUTASSOPTEN
OUTGENOVERLDTHRED
OUTINNREXLEVTHRED
OUTLOADHOENABLE
OUTLOADHOMODPERI
OUTLOADHOPERIOD
OUTLOADHOSTEP
OUTLOWLOADTHRED
Enhanced Dual-Band Network
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Enhanced Measurement ReportEMR
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
OUTSERIOVERLDTHRED
INVALBSICEN
MEASURETYPE
SCALEORDER
SEARCH3G
CBSIGNLEN
CBTRAFFLEN
MBSIGNLEN
MBTRAFFLEN
NRBSDCCHFFLEN
NRBTCHFFLEN
RQSIGNLEN
RQTRAFFLEN
Enhanced Multi Level Precedence and PreemptionEMLPP
Enhanced Multi Level Precedence and PreemptionEMLPP
Enhanced Multi Level Precedence and PreemptionEMLPP
Enhanced Power Control AlgorithmHUAWEI III Power Control Algorithm
Cell
Cell
Cell
Cell
EMLPPEN
HIGHESTPRIORITQUALFIRS
HIGHPRIUSERQUALFIRST
DNPCEN
Enhanced Power Control AlgorithmHUAWEI III Power Control Algorithm
Extended Cell
Extended Cell
Fast 3G Reselection at 2G CS Call Release
Flex Abis
Flex Abis
Flex MAIO
Flex MAIO
Frequency Band
Frequency Band
Frequency Band
Frequency Band
Cell
UPPCEN
Cell
EXTTP
Cell
EXTCELLTHRENH
Cell
CELLSELECTAFTERCALLRE
Cell
LOWLEVSUBRESPREEMPTF
Cell
SUBRESPREEMPTFLG
Cell
FLEXMAIO
Cell
HSNSW
Cell
TYPE
Cell
OTHERFREQ
Define Cell BCCHFREQ
Cell
TYPE
Frequency Hopping RF hopping, baseband hopping
Frequency Hopping RF hopping, baseband hopping
Frequency Hopping RF hopping, baseband hopping
Frequency Hopping RF hopping, baseband hopping
Frequency Hopping RF hopping, baseband hopping
Frequency Hopping RF hopping, baseband hopping
Define Cell HSN
Define Cell TSC
Define Cell HOPINDEX
Define Cell HOPMODE
Cell
CANPC
Cell
BCCHTRXHP
Frequency Hopping RF hopping, baseband hopping
Frequency Hopping RF hopping, baseband hopping
G3 Fax TS61, TS62
Cell
Cell
Cell
FHMODE
MACODINGMOD
DATATRAFFSET
Gb Interface Function
Group Call EMLPP
Group Call EMLPP
Group Call EMLPP
Group Call EMLPP
Group Call EMLPP
Group Call EMLPP
GSM Flow Control
GSM Flow Control
GSM Flow Control
GSM Flow Control
GSM Flow Control
GSM Flow Control
GSM Flow Control
GSM Flow Control
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
BVCI
EMLPPPRIORITY
FACCHSENDNOTMSGIND
FACCHSENDPGMSGIND
GCSIMPREEMPTIONEN
SENDFACCHNOTPRI
SENDFACCHPAGPRI
CSDSP
CSVSP
PSHPSP
PSLPSVP
VIPCELL
ABISFCEN
PAGINGAVGCAPACITYINPER
PAGINGMAXCAPACITYINPE
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
Cell
Cell
Cell
Cell
Cell
Cell
DIVERSITY
FDDCELLOFF
FDDCELLTHRED
FDDFREQCNUM
FDDQMIN
FDDQMINOFFSET
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
Cell
Cell
Cell
Cell
Cell
Cell
Cell
FDDQOFF
FDDREP
FDDRSCPMIN
FDDBA1TAG
FDDDIVERSITY
FDDDLUARFAN
FDDSCRAMBLE
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
Cell
SCRAMBLE
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
Cell
Cell
Cell
Cell
Cell
Cell
DF
CELL1800OFF
CELL1800THRED
CELL900OFF
CELL900THRED
QCI
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
Cell
Cell
QI
QP
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
Cell
Cell
QSEARCHC
HOECNOTH3G
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
Cell
BET3GHOEN
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
Half Rate Speech
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
HORSCPTH3G
HRATESPT
NBR2GNCELL1NAME
NBR2GNCELL2NAME
IBCAAFRSOFTBLKTHRD
IBCAAHRSOFTBLKTHRD
IBCAALLOWED
IBCAASSWAITMEASURERPT
IBCACALLINFOFILTERLEN
IBCACALLSOFTBLOCKTHOF
IBCACALLTARGETCIROFFSE
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
IBCADLPATHLOSSOFF
IBCAEHOASSWAITMEASURE
IBCAFLEXTSCALLOWED
IBCAFORCEDBTSSYNCALLO
IBCAFRSOFTBLKTHRD
IBCAHOASSWAITMEASURER
IBCAHRSOFTBLKTHRD
IBCAICDMRELEVOFFSET
IBCAICDMSWITCH
IBCAINITPCRXLEVDLOFFSE
IBCAINITPCRXLEVULOFFSE
IBCAINITPCRXQUALDLOFFS
IBCAINITPCRXQUALULOFFS
IBCAIUOPATHLOSSOFF
IBCAMAIOUSMTD
IBCAMAXINTFSRCNUM
IBCANCELLPATHLOSSESTIM
IBCANEWCALLCIROFFSET
IBCANHOASSWAITMEASUR
IBCANONMEANCELLSTATNU
IBCAOPRREVISEFACTOR
IBCAPATHLOSSOFF
IBCAPLFILTFACTOR
IBCASCELLPATHLOSS
IBCASOFTBLKSAICOFF
IBCASOFTBLKSWITCH
IBCASUBCHNHANDOVERAL
IBCATARGETCIRTHRSH
IBCAUSEDIUOSUBLAY
IBCAUSRDYNCMEASURENC
IBCAWAFRSOFTBLKTHRD
LOOSESDCCHLOADTHRED
TIGHTSDCCHRXLEVTHRED
WAITSDCCHIDLETIMER
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IMSI Detach
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
MAIO1
MAIO10
MAIO11
MAIO12
MAIO2
MAIO3
MAIO4
MAIO5
MAIO6
MAIO7
MAIO8
MAIO9
HOPINDEX
ATT
Intelligent Combiner Bypass
Latency Reduction
MBSC Load Balancing
MBSC Load Balancing
MSRD
Cell
Cell
Cell
Cell
Cell
ICBALLOW
RTTIPDCHMULTIPLEXTHRE
OutSysLoadHoEn
IDTYPE
MSRDMCSLEV
Multi-band Sharing One BSC
Multi-band Sharing One BSC
Multi-band Sharing One BSC
Multi-band Sharing One BSC
Multi-band Sharing One BSC
Multi-site Cell
Network Operation Mode Support
Network Support SAIC
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
MBR
GSMFREQCNUM
BANDINDICATOR1900
BANDINDICATOR850
BANDINDICATOR900
PWRLOCATION
NMO
BTSSAICPCADJSWITCH
ALLOWEDMEASRPTMISSED
CELLRESELSTRATEGY
CELLRXQUALWORSENRATI
EGPRSBEPLIMIT8PSK
EGPRSBEPLIMITGMSK
FILTERWNDSIZE
GPRSRXQUALLIMIT
LOADRESELALLOW
LOADRESELMAXRXLEV
LOADRESELRXTHRSH
LOADRESELSTARTTHRSH
MINACCRXLEV
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Network-Controlled Cell Reselection NC2
Networking Control Mode
Networking Control Mode
Networking Control Mode
Networking Control Mode
None
None
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BSC
O&M of BTS
O&M of BTS
O&M of BTS
O&M of BTS
O&M of BTS
O&M of BTS
O&M of BTS
O&M of BTS
O&M of BTS
O&M of BTSTRX Working Voltage Adjustment
Packet Assignment Taken Over by the BTS
Packet Assignment Taken Over by the BTS
Packet System Information
Packet System Information
Packet System Information
Paging
Paging
Paging
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
MSRXQUALSTATTHRSH
NORMALRESELALLOW
PENALTYLASTTM
PENALTYRXLEV
RESELHYST
RESELINTERVAL
RESELWATCHPERIOD
RESELWORSENLEVTHRSH
URGENTRESELALLOW
NONDRXPERIOD
RPTPERIODI
RPTPERIODT
NCO
CHANFAULTALMPDCHTH
CHANPDOUTTIME
HOCELLIDTYPE
HOCELLNAME
HOMOD
CHANFAULTALMSWITCH
CHANFAULTALMTCHTH
DETECTFRAMEPERIOD
EXCEPFRAMETHRES
MUTECHECKCLASS1PERIOD
MUTECHECKCLASS2SWITC
MUTECHECKPEIROD
MUTEFORBITCALLTMINTVA
MUTERELCALLEN
TCMUTEDETECTFLAG
UMCROSSTALKOPTALLOWE
OPC
ADMSTAT
LOWNOISESWH
CELLCOVERAGETYPE
PODECTHRES
POERRTHRES
VSWRERRTHRES
VSWRUNJUSTTHRES
OUTSERVICEALM
BTSadjust
IMMASSDLSHIFT
PACKASSDLSHIFT
MEASORDER
PSI1RPT
PSISTATUSIND
PAGTIMES
BSPAMFRAMS
PAGINGLIFETIME
Paging
Paging
Paging
PoC QoS
PoC QoS
PoC QoS
PoC QoS
Point To Point Short Message Service TS21, TS22
Point To Point Short Message Service TS21, TS22
Power Control
Power Optimization Based on Channel Type
Power Optimization Based on Channel Type
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
Public Voice Group Call Service
Public Voice Group Call Service
Public Voice Group Call ServicePublic Voice Broadcast Service
Public Voice Group Call ServicePublic Voice Broadcast Service
Public Voice Group Call ServicePublic Voice Broadcast Service
Public Voice Group Call ServicePublic Voice Broadcast Service
Public Voice Group Call ServicePublic Voice Broadcast Service
Public Voice Group Call ServicePublic Voice Broadcast Service
Public Voice Group Call ServicePublic Voice Broadcast Service
Public Voice Group Call ServicePublic Voice Broadcast Service
Public Voice Group Call ServicePublic Voice Broadcast Service
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
QoS ARP&THP
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
PMOAFLAG
PMI
PMNUM
POCDELAY
POCGBRMAX
POCGBRMIN
PocSup
DNSENDSMDIS
UPSENDSMDIS
CELL8PSKPOWERLEVEL
TIMESLOTVOLADJALLOW
PDCHPWRSAVEN
LEVELRPT
EXTMEASORD
EXTRPTPERIOD
EXTRPTTYPE
INTFREQUENCY
NCCPERMITED
CELLOVERCVGRXLEVDLTH
CELLOVERCVGTALTH
CELLWEAKCVGRXLEVDLTH
CELLWEAKCVGTALTH
DTRTYPE
NY2
CRMSGRESENDINT
CRMSGRESENDNUM
DLTESTRESENDINT
DLTESTRESENDNUM
FACCHRESENDINT
GCSCHNASSULCHNEN
NCHOCBLOCKNUM
NCHSTARTBLOCK
UIC
BEARP1PRIWEIGHT
BEARP2PRIWEIGHT
BEARP3PRIWEIGHT
BKGARP1PRIWEIGHT
BKGARP2PRIWEIGHT
BKGARP3PRIWEIGHT
THP1ARP1PRIWEIGHT
THP1ARP2PRIWEIGHT
THP1ARP3PRIWEIGHT
THP2ARP1PRIWEIGHT
THP2ARP2PRIWEIGHT
THP2ARP3PRIWEIGHT
THP3ARP1PRIWEIGHT
THP3ARP2PRIWEIGHT
QoS ARP&THP
QoS ARP&THP
Radio Common Channel Management
Radio Common Channel Management
Radio Common Channel Management
Radio Common Channel Management
Radio Common Channel Management
Radio Common Channel Management
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
THP3ARP3PRIWEIGHT
QOSOPT
PSRACHACCLEV
PWRDIV
PWRDIVIND
RACHACCLEV
RANERRTHRED
COMMACC
Radio Common Channel Management
Radio Common Channel Management
Radio Common Channel Management
Radio Common Channel Management
Radio Common Channel Management
Cell
Cell
Cell
Cell
Cell
MSMAXRETRAN
RACHBUSYTHRED
SPECACC
CCCHLOADINDPRD
CCCHLOADTHRES
Radio Common Channel Management
Radio Common Channel Management
Radio Common Channel Management
Radio Common Channel Management
Cell
Cell
Cell
Cell
FMSMAXOPCC
OVERLOADINTV
RACHLDAVERSLOT
BSAGBLKSRES
Radio Common Channel Management
Radio Common Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
TX
CELLPAGINGOVERLOADCO
MAXTADROPCALLFILTER
MAXTADROPCALLSWITCH
MAXTADROPCALLTHRESHO
RLT
SAMULFRM
RFRESINDPRD
SDDROPSTATDLLEV
SDDROPSTATDLQUAL
SDDROPSTATULLEV
SDDROPSTATULQUAL
TCHDROPSTATDLFER
TCHDROPSTATDLLEV
TCHDROPSTATDLQUAL
TCHDROPSTATULFER
TCHDROPSTATULLEV
TCHDROPSTATULQUAL
BADQUALDISCTHRES
DROPCTRLABISCONNFAIL
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
RAN Sharing
Resource Reservation
Resource Reservation
Resource Reservation
Robust Air Interface Signalling
Robust Air Interface Signalling
Robust Air Interface Signalling
SDCCH Dynamic Adjustment
SDCCH Dynamic Adjustment
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
DROPCTRLCONNFAILHOAC
DROPCTRLCONNFAILOM
DROPCTRLCONNFAILOTHE
DROPCTRLCONNFAILRLFAI
DROPCTRLCONNFAILRRNO
DROPCTRLEQUIPFAIL
DROPCTRLERRINDDMRSP
DROPCTRLERRINDSEQERR
DROPCTRLERRINDT200
DROPCTRLFORCHOFAIL
DROPCTRLINBSCHO
DROPCTRLINTRABSCOUTH
DROPCTRLINTRACELLHO
DROPCTRLNOMR
DROPCTRLOUTBSCHOT8
DROPCTRLRELIND
DROPCTRLRESCHK
CELLOPPWRGRP
GRADEACCALLOW
HPRIOR
REVCHANNUM
REPEATDLFASET
REPEATDLFATHRED
REPEATSASET
SDDYN
CELLMAXSD
SDCCH Dynamic Adjustment
SDCCH Dynamic Adjustment
SDCCH HandoverEnhanced Channel Assignment Algorithm
Short Message Service Cell Broadcast TS23
Simplified Cell Broadcast
Simplified Cell Broadcast
Simplified Cell Broadcast
Simplified Cell Broadcast
Simplified Cell Broadcast
Simplified Cell Broadcast
Simplified Cell Broadcast
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
IDLESDTHRES
MINRESTIMETCH
DIFFBANDSDCCHUSINGOPT
IFCBSHAKEHAND
CODE
ET
INT
REP
ST
TEXT
UPDATE
Simplified Cell Broadcast
Simplified Cell Broadcast
Simplified Cell Broadcast
Simplified Cell Broadcast
Cell
Cell
Cell
Cell
DRXEN
BROADCASTCONTENT
BROADCASTINTERVAL
SUPPORTCELLBROADCAST
Simplified Cell Broadcast
Cell
CHANID
Simplified Cell Broadcast
Cell
GS
Simplified Cell Broadcast
Soft-Synchronized Network
Streaming QoSGBR
Streaming QoSGBR
System Information Sending
System Information Sending
Talker Identification
TC Pool
TCH Re-assignment
TCH Re-assignment
TRX Cooperation
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
SCHEME
TSCPLANEN
GBRQOS
OccupyStreamingSwitch
RXMIN
ECSC
TALKERINFINT
TCPOOLID
REASSFREQBAND
REASSEN
BHPREPOLICY
TRX Cooperation
TRX Cooperation
TRX Power Amplifier Intelligent Shutdown
TRX Power Amplifier Intelligent Shutdown
Uplink EGPRS2-ADownlink EGPRS2-A
Voice Quality Index Uplink VQI
Voice Quality Index Uplink VQI
Voice Quality Index Uplink VQI
Voice Quality Index Uplink VQI
Voice Quality Index Uplink VQI
Voice Quality Index Uplink VQI
Voice Quality Index Uplink VQI
Voice Quality Index Uplink VQI
Voice Quality Index Uplink VQI
Voice Quality Index Uplink VQI
WB AMR
WB AMR
WB AMR
WB AMR
WB AMR
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
TRXAIDSWITCH
AIDDELAYPROTECTTIME
DYNOpenTrxPower
ReservedIdleCh
CELLSCENARIO
RPTVOICE
FERSTATTH1
FERSTATTH2
FERSTATTH3
FERSTATTH4
FERSTATTH5
FERSTATTH6
FERSTATTH7
FERRPTEN
RPTDLVQIALLOWED
ACTCDSETWB
DLHYSTWB1
DLHYSTWB2
DLTHWB1
DLTHWB2
WB AMR
WB AMR
WB AMR
WB AMR
WB AMR
Cell
Cell
Cell
Cell
Cell
INITCDMDWB
ULHYSTWB1
ULHYSTWB2
ULTHWB1
ULTHWB2
PARAMETER_NAME
MML_COMMAND
2Quater Message Transmission
SET GCELLCCUTRANSYS
Channel
User Plane DL Flow CtrlSET
Switch
GCELLPSOTHERPARA
MSC Version Indication SET GCELLCCUTRANSYS
Encryption Algorithm SET GCELLBASICPARA
SD Quick HO
SET GCELLSOFT
Access Control Class SET GCELLPRACH
Max Retransmissions forSET
Radio
GCELLPRACH
Priority 1
Max Retransmissions forSET
Radio
GCELLPRACH
Priority 2
Max Retransmissions forSET
Radio
GCELLPRACH
Priority 3
Max Retransmissions forSET
Radio
GCELLPRACH
Priority 4
Persistence Level 1
SET GCELLPRACH
Persistence Level 2
SET GCELLPRACH
Persistence Level 3
SET GCELLPRACH
Persistence Level 4
SET GCELLPRACH
S Value
SET GCELLPRACH
TX_INT
SET GCELLPRACH
Access Burst Type
SET GCELLPSBASE
PS Initial Access ServiceSET
Type
GCELLPSOTHERPARA
Max TA
SET GCELLBASICPARA
Frequency Adjust SwitchSET GCELLOTHEXT
Frequency Adjust ValueSET GCELLOTHEXT
Measure Link Delay Switch
SET GCELLBASICPARA
AMR Downlink AdaptiveSET
Threshold
GCELLCCAMR
Allowed
AMR Uplink Adaptive Threshold
SET GCELLCCAMR
Allowed
Downlink Long-term FER
SET
Lower
GCELLCCAMR
Threshold
DESCRIPTION
Whether to transmit the 2Quater message on the BCCH Norm
Whether to support PS downlink MAC back pressures in GSM.
Protocol version of the MSC that is connected to the BSC6900.
Encryption algorithm supported by the BSS side
Whether to enable the SDCCH quick handover test function. If
Access control class of the MS
Maximum retransmission for radio priority 1. The 2bit Radio Prio
Maximum retransmission for radio priority 2. The 2bit Radio Prio
Maximum retransmission for radio priority 3. The 2bit Radio Prio
Maximum retransmission for radio priority 4. The 2bit Radio Prio
Persistence level 1 of the radio access priority.During MS acces
Persistence level 2 of the radio access priority. During MS acce
Persistence level 3 of the radio access priority. During MS acce
Persistence level 4 of the radio access priority. During MS acce
Minimum timeslots between two successive channel requests.
Extension transmission timeslots of random access. This param
Access pulse type of the PRACH, uplink PTCCH and packet co
Whether the initial service is uplink, downlink or neutral
Maximum time advance TA. The value of this parameter is dete
Whether to enable the automatic frequency correction algorithm
Frequency correction parameter.
Used for the fast-moving
handover algorithm, the value of
this parameter must be
translated into a binary number.
The value consists of 16 bit. The
most significant bit indicates
whether the parameter is valid.
Bits 14 to 8 indicate the level
threshold. Bits 7 to 0 indicate the
threshold of the bit error ratio
BER.
The BSC6900 sends this
parameter to the BTS, which
adjusts the frequency of an MS
according to the value of this
parameter.
Whether to measure the delay on the link between the BTSs th
Whether to enable the adaptive adjustment function of AMR do
Whether to enable the adaptive adjustment function of AMR up
Lower voice quality threshold associated with the automatic adj
Downlink Long-term FER
SET
Target
GCELLCCAMR
Downlink Long-term FER
SET
Upper
GCELLCCAMR
Threshold
Downlink Threshold Adjust
SETFactor
GCELLCCAMR
Uplink Long-term FER Lower
SET GCELLCCAMR
Threshold
Uplink Long-term FER Target
SET GCELLCCAMR
Uplink Long-term FER Upper
SET GCELLCCAMR
Threshold
Uplink Threshold Adjust SET
Factor
GCELLCCAMR
AMR Rate Control Switch
SET GCELLCCAMR
Is Ratscch Function Enabled
SET GCELLCCAMR
AMR ACS[F]
SET GCELLCCAMR
Auto Adjust UL TH and Hysteresis
SET GCELLCCAMR
[F]
AMR DL Coding Rate adj.hyst1[F]
SET GCELLCCAMR
AMR DL Coding Rate adj.hyst2[F]
SET GCELLCCAMR
AMR DL Coding Rate adj.hyst3[F]
SET GCELLCCAMR
AMR DL Coding Rate adj.th1[F]
SET GCELLCCAMR
AMR DL Coding Rate adj.th2[F]
SET GCELLCCAMR
AMR DL Coding Rate adj.th3[F]
SET GCELLCCAMR
AMR Starting Mode[F] SET GCELLCCAMR
AMR UL Coding Rate adj.hyst1[F]
SET GCELLCCAMR
AMR UL Coding Rate adj.hyst2[F]
SET GCELLCCAMR
Target value of the voice quality automatically adjusted through
Upper voice quality threshold associated with the automatic adj
Factor of downlink threshold adjustment. It indicates the linear r
Lower voice quality threshold associated with the automatic adj
Target voice quality value associated with the automatic adjustm
Upper voice quality threshold associated with the automatic adj
Factor of uplink threshold adjustment. It indicates the linear rela
Switch for controlling the AMR rate. Value 0 indicates that C/I is
This parameter specifies whether the RATSCCH function is ena
Active coding set ACS[F], indicates a set of full-rate coding rate
Whether to allow automatic adjustment for the uplink threshold
Adjustment hysteresis 1 of AMR downlink coding rate full rate. A
Adjustment hysteresis 2 of AMR downlink coding rate full rate. A
Adjustment hysteresis 3 of AMR downlink coding rate full rate. A
Adjustment threshold 1 of AMR downlink coding rate full rate. A
Adjustment threshold 2 of AMR downlink coding rate full rate. A
Adjustment threshold 3 of AMR downlink coding rate full rate. T
Initial coding mode used for full rate AMR calls. The four values
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
AMR UL Coding Rate adj.hyst3[F]
SET GCELLCCAMR
AMR UL Coding Rate adj.th1[F]
SET GCELLCCAMR
AMR UL Coding Rate adj.th2[F]
SET GCELLCCAMR
AMR UL Coding Rate adj.th3[F]
SET GCELLCCAMR
TFO Switch
SET GCELLBASICPARA
AMR ACS[H]
SET GCELLCCAMR
Auto Adjust UL TH and Hysteresis
SET GCELLCCAMR
[H]
AMR DL Coding Rate adj.hyst1[H]
SET GCELLCCAMR
AMR DL Coding Rate adj.hyst2[H]
SET GCELLCCAMR
AMR DL Coding Rate adj.hyst3[H]
SET GCELLCCAMR
AMR DL Coding Rate adj.th1[H]
SET GCELLCCAMR
AMR DL Coding Rate adj.th2[H]
SET GCELLCCAMR
AMR DL Coding Rate adj.th3[H]
SET GCELLCCAMR
AMR Starting Mode[H] SET GCELLCCAMR
AMR UL Coding Rate adj.hyst1[H]
SET GCELLCCAMR
AMR UL Coding Rate adj.hyst2[H]
SET GCELLCCAMR
AMR UL Coding Rate adj.hyst3[H]
SET GCELLCCAMR
AMR UL Coding Rate adj.th1[H]
SET GCELLCCAMR
AMR UL Coding Rate adj.th2[H]
SET GCELLCCAMR
AMR UL Coding Rate adj.th3[H]
SET GCELLCCAMR
AMR TCH/H Prior Allowed
SET GCELLCHMGAD
AMR TCH/H Prior Cell Load
SET Threshold
GCELLCHMGAD
AFR Radio Link TimeoutSET GCELLCCBASIC
AFR SACCH Multi-Frames
SET GCELLCCBASIC
AHR Radio Link TimeoutSET GCELLCCBASIC
AHR SACCH Multi-Frames
SET GCELLCCBASIC
Hop TRX Group HSN ADD GCELLHOPANTGRP
Hop TRX Group Index ADD GCELLHOPANTGRP
Cell Antenna Hopping SET GCELLHOPANT
Cell Antenna Hopping SET GCELLHOPANTQUICKSETUP
Fast Call Setup TCH Usage
SET Threshold
GCELLBASICPARA
Immediate Assignment Optimized
SET GCELLBASICPARA
TCH Immediate Assignment
SET GCELLBASICPARA
Additional Reselect Parameter
SET GCELLIDLEAD
Indication
Cell Reselect Penalty Time
SET GCELLIDLEAD
Cell Reselect TemporarySET
Offset
GCELLIDLEAD
Cell Reselect HysteresisSET
Parameters
GCELLIDLEBASIC
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
Whether to enable the Tandem Free Operation TFO function o
Active coding set ACS[H], indicates set of half-rate coding rates
Whether to allow automatic adjustment for the uplink threshold
Adjustment hysteresis 1 of AMR downlink coding rate half rate.
Adjustment hysteresis 2 of AMR downlink coding rate half rate.
Adjustment hysteresis 3 of AMR downlink coding rate half rate.
Adjustment threshold 1 of AMR downlink coding rate half rate. A
Adjustment threshold 2 of AMR downlink coding rate half rate. A
Adjustment threshold 3 of AMR downlink coding rate half rate. A
Initial coding mode used for half rate AMR calls. The four value
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
Whether to enable the BSC to assign AMR half rate channels p
Load threshold for assigning half rate channels preferentially. If
Counter for radio link failures during an AMR full rate call. See t
Number of SACCH multiframes during an AMR full rate call. Se
Counter for radio link failures during an AMR half rate call. See
Number of SACCH multiframes during an AMR half rate call. S
Hoping sequence number HSN of a hopping antenna group. If t
TRX index that a hopping antenna index corresponds to. A hop
Whether to enable the TRX to support antenna hoppingIn a GS
Whether to enable the TRX to support antenna hoppingIn a GS
After a channel request message is received, the type of the ch
The channel activation and immediate assignment messages a
Whether to allow immediate TCH assignment. If this parameter
Used for notifying MSs where to retrieve relevant parameters du
Cell Reselect Penalty Time PT is used to ensure the safety and
Cell Reselect Temporary Offset TO indicates the temporary cor
Cell reselection hysteresis. This is one of the parameters used
Cell Reselect Offset
SET GCELLIDLEBASIC
Cell Reselect Offset CRO,
indicating a correction of the C2.
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.
Cell Reselect Parameters
SET
Indication
GCELLIDLEBASIC
Cell Bar Qualify
SET GCELLIDLEBASIC
Cell Bar Access
SET GCELLIDLEBASIC
NCC Permitted
SET GCELLIDLEBASIC
Level Thresh for Assign SET
BCCH
GCELLCHMGAD
Under TBCCH
Quality Thresh for Assign
SET
BCCH
GCELLCHMGAD
Under TBCCH
Cell Reselect Parameters Indication PI, sent on the broadcast c
Used together with "Cell Bar Access" to decide the priority statu
Used together with "Cell Bar Qualify" to decide the priority statu
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.
During channel assignment, the assignment of channels on the
During channel assignment, the assignment of channels on the
TIGHT BCCH Switch SET GCELLCHMGBASIC
CN Fault Delay
SET GBSCREDGRP
ReHost Absolute Time SET GREDGRPPRIMHOSTPOLICY
ReHostDelayTime
SET GREDGRPPRIMHOSTPOLICY
ReHost Type
SET GREDGRPPRIMHOSTPOLICY
BSS Paging Co-ordination
SET GCELLPSBASE
Antenna Altitude Decimal
SET
PartGCELLLCS
Antenna Altitude Int PartSET GCELLLCS
Antenna Azimuth Angle SET GCELLLCS
Included Angle
SET GCELLLCS
Latitude and Longitude Input
SET GCELLLCS
Mode
NS Latitude
SET GCELLLCS
WE Longitude
SET GCELLLCS
Latitude Decimal Part SET GCELLLCS
Latitude Degree Part SET GCELLLCS
Latitude Int Part
SET GCELLLCS
Latitude Minute Part
SET GCELLLCS
Latitude Second Decimal
SET
PartGCELLLCS
Latitude Second Int PartSET GCELLLCS
Longitude Decimal Part SET GCELLLCS
Longitude Degree Part SET GCELLLCS
Longitude Int Part
SET GCELLLCS
Longitude Minute Part SET GCELLLCS
Longitude Second Decimal
SETPart
GCELLLCS
Longitude Second Int Part
SET GCELLLCS
Activate L2 Re-establishment
SET GCELLSOFT
Allow Forced EFR in CellSET GCELLSOFT
MS Capability Statistic Switch
SET GCELLSOFT
Timer for Bad Quality DISC
SETStatistic
GCELLSOFT
Call Reestablishment Forbidden
SET GCELLBASICPARA
Freq Band List
SET GCELLFREQSCAN
Start Time
SET GCELLFREQSCAN
Frequency Scan Result SET
TypeGCELLSOFT
Interfere Band Stat Algorithm
SET GCELLSOFT
Type
BCCH IUO of Double Frequency
ADD GCELL
Cell
Cell LAC
SET BTSAUTOPLANCFG
Maximum TRX NumberSET BTSAUTOPLANCFG
Neighbor Cell Plan Switch
SET BTSAUTOPLANCFG
Route Area
SET BTSAUTOPLANCFG
Freq. Band
ADD BTSAUTOPLAN
CGI and RAC Plan Switch
SET BTSAUTOPLANCFG
Freq. and BSIC OptimizeSET
Switch
BTSAUTOPLANCFG
Freq. and BSIC Plan Switch
SET BTSAUTOPLANCFG
Freq. and BSIC Plan Switch
SET BTSAUTOPLANCFG
Route Area
SET BTSAUTOPLANCFG
Enhanced Concentric Allowed
ADD GCELL
Assign to Overlayer RxLev
SETOffset
GCELLCHMGAD
Whether to enable the BCCH aggressive frequency reuse algor
Time delay of the detection on core network interface failure. W
Absolute time of re-homing
Delay time of re-homing
Policy type of re-homing
Whether to support the paging function of the CS domain of the
Decimal part of the antenna altitude
Integer part of the antenna altitude
Size of the azimuth angle of the cell antenna
Included angle formed by the major lobe azimuths of the antenn
Mode of inputting the latitude and longitude of a cell location
Whether the cell is located in the south latitude or north latitude
This parameter is used to select the location of a cell, east or w
Decimal value when the latitude where a cell is located is indica
Decimal value when the longitude where a cell is located is indi
Integer value when the latitude where a cell is located is indicat
Value of the minute part when the latitude is indicated in the for
Decimal value of the second part when the latitude is indicated
Integer value of the second part when the latitude is indicated in
Decimal value when the longitude where a cell is located is indi
Value of the degree part when the latitude is indicated in the for
Integer value when the longitude where a cell is located is indic
Value of the minute part when the longitude is indicated in the f
Decimal value of the second part when the longitude is indicate
Integer value of the second part when the longitude is indicated
Whether to activate the function of L2 re-establishment. If this f
Whether to forcibly enable the EFR function. When this parame
Whether to collect the information about the MSs of different ca
Duration time for determining that a call is hung up because of
Whether to allow call re-establishment. Burst interference or bli
List of frequency bands
Start time of frequency scanning
Type of a scanning result in the period from the start of a freque
Type of an interference band statistics algorithm used when the
Whether the primary BCCH is configured on the inner or extra p
Location area code LAC. The MS can move within the local loca
Maximum number of TRXs that can be configured for one cell.
When this switch is on, it indicates that the data of the adjacent
Route area of the current cell
Frequency band to which the newly added cell belongs. Only on
If the parameter is set to 1, it indicates that the CGI and RAC da
Whether to generate the frequency and BSIC by using the auto
If this switch is on, it indicates that the frequency and BSIC are
If this switch is on, it indicates that the frequency and BSIC are
Route area of the current cell
Whether to enable the enhanced concentric cell algorithm in a c
Offset relative to the level threshold for determining whether to
Handover to Underlayer SET
RxLev
GCELLCHMGAD
Offset
Load of UL-OL Cells Rate
SET
Select
GCELLCHMGAD
Allowed
Allocate OL Channel Based
SETon
GCELLCHMGAD
RX Level
Tch Traffic Busy Underlay
SET
Threshold
GCELLCHMGAD
Tch Traffic Busy OverlaySET
Threshold
GCELLCHMGAD
Dynamic Channel Conversion
SET GCELLPSCHM
Parameter of Concentric Cell
Cell IUO Type
ADD GCELL
BCC
ADD GCELL
Number of PAGCH Blocks
ADD GCELL
Number of PBCCH Blocks
ADD GCELL
Number of PRACH Blocks
ADD GCELL
ADD GCELL
NCC
Neighbor 2G Cell 1 Index
ADD GIBCAPNCGRP
Neighbor 2G Cell 2 Index
ADD GIBCAPNCGRP
Cell Index List
ADD GSMSCB
Cell Name List
ADD GSMSCB
Cell CI
SET BTSAUTOPLANCFG
2G NCELL BCCH
SET GCELL2GBA1
2GBA1 Input Tag
SET GCELL2GBA1
Speech Version
SET GCELLCCACCESS
2G NCELL BCCH
SET GCELLHO2GBA2
2GBA2 Input Tag
SET GCELLHO2GBA2
SET GCELLHOBASIC
SET GCELLHOEMG
SET GCELLHOFITPEN
SET GCELLHOIUO
Current HO Control Algorithm
FDDBA2 Input Tag
TDDBA2 Input Tag
Cell Parameter ID
SET GCELLHOFDDBA2
SET GCELLHOTDDBA2
SET GCELLHOTDDBA2
If the cell is an enhanced concentric cell, this parameter with th
Whether to enable the BSC to assign half or full rate channels t
Whether to assign overlay channels in an IUO cell based on the
Threshold for determining that the underlaid subcell is busy. Th
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%. 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.
Conversion policy of the dynamic channel of the concentric cell
Whether a cell is a normal cell, concentric cell, or enhanced du
Base station color code BCC of a cell, provided by the network
Number of PAGCH blocks
Number of PBCCH blocks
Number of PRACH blocks
Network color code that is provided by the telecom operator. Th
Uniform number of neighboring cell 1 index within a BSC6900,
Index of neighboring GSM cell 2. Uniform number of a cell inde
List of cell indexes. All cell indexes are combined as a characte
List of cell names. All cell names are combined as a character s
Cell identity code. The cell is a radio coverage area that is ident
BCCH frequency of a 2G neighbor cell that MSs can measure i
Whether to generate the 2G BA1 table automatically according
Speech version supported by a cell
BCCH frequency of a 2G neighbor cell that MSs can measure i
This parameter indicate whether to generate the 2G BA2 table
Whether to use handover algorithm generation 1 or 2 currently
This parameter indicate whether to generate the FDD BA2 table
Whether the FDD BA2 table is generated automatically accordi
Cell parameter ID of a TDD cell. The cell parameter ID distingu
NCCELL No.
SET GCELLIDLEFDDBA1
SET GCELLIDLETDDBA1
SET GCELL2GBA1
SET GCELLHO2GBA2
SET GCELLHOFDDBA2
SET GCELLHOTDDBA2
SET GCELLIDLEFDDBA1
SET GCELLIDLETDDBA1
SET GCELL2GBA1
SET GCELLHO2GBA2
SET GCELLHOFDDBA2
SET GCELLHOTDDBA2
Number of a row to be changed in a BA list
Item Valid
Frame Offset
SET GCELLOTHEXT
Max RC Power Reduction
SET GCELLOTHEXT
Frame Start Time
SET GCELLOTHEXT
Item Index
SET GCELLREV
Value
SET GCELLREV
Directed Retry
SET GCELLBASICPARA
Assignment Cell Load Judge
SET GCELLCCBASIC
Enable
Directed Retry Load Access
SET Threshold
GCELLCCBASIC
Cell Directed Retry Forbidden
SET GCELLOTHEXT
Threshold
Max. Duration of DRX SET GCELLPSBASE
Support SPLIT_PG_CYCLE
SET on
GCELLPSBASE
CCCH
Used for parameter control
Frame offset. The frame offset technology arranges the frame n
Maximum number of levels that the BTS RF power decreases.
This parameter indicates start frame number of the BTS. It is us
Reserved parameter for cells. There are 30 parameters of this t
Value of a reserved parameter for cells
Whether to enable a directed retry. The directed retry is to hand
When this parameter is set to ENABLE, if the cell supports dire
Threshold of the load in the target cell for the directed retry. On
Threshold of forbidding directed retry for cells. When the value
Duration of the timer for entering the DRX mode. DRX is the pa
Whether to support SPLIT_PG_CYCLE on CCCH. The parame
FR Use Downlink DTX SET GCELLBASICPARA
Whether the downlink discontinuous transmission DTX function
HR Use Downlink DTX SET GCELLBASICPARA
Whether the downlink DTX function is enabled for half rate HR
FR Uplink DTX
Whether the uplink DTX function is enabled for FR calls. For de
SET GCELLBASICPARA
HR Uplink DTX
SET GCELLBASICPARA
Enhanced TCH Adjust Allowed
SET GCELLCHMGBASIC
Dyn. Turning Off Cell Protection
SET GCELLDYNTURNOFF
Time
Same Coverage Cell Load
SET
Stat.
GCELLDYNTURNOFF
Time
Same Coverage Cell Load
SET
Threshold
GCELLDYNTURNOFF
Dyn. Turning Off Cell Busy
SETChannel
GCELLDYNTURNOFF
Num.
Dyn. Turning Off Cell Stop
SET
Time
GCELLDYNTURNOFF
Dyn. Turning Off Cell Start
SET
Time
GCELLDYNTURNOFF
Dyn. Turning On Cell Load
SETThreshold
GCELLDYNTURNOFF
Same Coverage Cell NoSET GCELLDYNTURNOFF
Same Coverage Cell Index
SETType
GCELLDYNTURNOFF
Same Coverage Cell Name
SET GCELLDYNTURNOFF
Enable Turning Off Cell SET GCELLDYNTURNOFF
Dynamic Transmission Div
SETSupported
GCELLCHMGBASIC
EICC Allowed
SET GCELLSOFT
Priority of Emergency Call
SET GCELLCCAD
Emergency Call Preemption
SET Permitted
GCELLCCAD
Emergent Call Disable SET GCELLCCBASIC
Max Channel Num Reserved
SET GCELLCHMGBASIC
for EC
Dummy Bit Randomization
SETSwitch
GCELLSOFT
Stop Send SI 5/5bis/5terSET
afterGCELLSOFT
Encrypt
TCH Time Handover Period
SET GCELLSOFT
TCH Time Handover Switch
SET GCELLSOFT
Flex TSC Switch
SET GCELLSOFT
Power Derating Active Channel
SET GCELLOTHEXT
Enabled
Power Derating EnabledSET GCELLOTHEXT
Power Derating End Time
SET GCELLOTHEXT
Power Derating Range SET GCELLOTHEXT
Power Derating Start Time
SET GCELLOTHEXT
Active CH Interf. Meas.Allowed
SET GCELLCHMGAD
Channel Assign Allow forSET
Insuff
GCELLCHMGAD
Power
Whether the uplink DTX function is enabled for HR calls. For de
Whether to enable the cell to centralize two busy half rate TCHs
This parameter specifies a period of time during which a cell ca
The BSC6900 checks the load of the same coverage cell of the
A cell that can be disabled is allowed to be disabled only when
If the number of channels including PDCH and TCH occupied o
This parameter specifies the end time of a period during which
This parameter specifies the start time of a period during which
When the load of the same coverage cell is higher than this thre
Index of a cell with the same coverage as the current cell
Index type used when the command is executed
Name of the same coverage cell
This parameter specifies whether to enable the Dynamic Cell P
Whether to enable the cell to support dynamic transmit diversity
Whether to enable the EICC algorithm
Priority level of an emergency call. If this parameter is set to 15
If this parameter is set to ON, the BSC initiates a TCHF preemp
Whether to disable emergency calls. For the MSs of access lev
Maximum number of TCH channels reserved for emergency ca
Whether a BTS randomizes the dummy bits 0x2B in all the sign
This parameter specifies whether the sending of system inform
This parameter specifies the interval at which the speech servic
This parameter specifies whether to perform periodic intra-cell h
Whether to enable the function of the Flex training sequence co
This parameter specifies whether to reduce the transmit power
This parameter specifies whether to enable the Enhanced BCC
This parameter specifies the end time of the period during whic
This parameter specifies the range of power derating over the n
This parameter specifies the start time of the period during whic
Whether to measure the channel interference during channel a
Whether to allow a multi-density TRX board that uses the dynam
C/I Estimate Value
SET GCELLCHMGAD
GSM900 Band Traffic Load
SETShare
GCELLCHMGAD
Threshold
History Record Priority Allowed
SET GCELLCHMGAD
Interf. Priority Allowed SET GCELLCHMGAD
Balance Traffic Allowed SET GCELLCHMGAD
MCPA Optimization Switch
SET GCELLCHMGAD
Assign Non-AMR User Loose
SET GCELLCHMGAD
Fre. Reuse TRX
Power Priority Allowed SET GCELLCHMGAD
Multi-Density TRX Power
SET
Sharing
GCELLCHMGAD
TCH Traffic Busy Threshold
SET GCELLCHMGAD
Allocation TRX Priority Allowed
SET GCELLCHMGAD
Ratio of AMR-HR
SET GCELLCHMGBASIC
Ratio of TCHH
SET GCELLCHMGBASIC
Channel Allocate Strategy
SET GCELLCHMGBASIC
Factory Mode
SET GCELLCHMGBASIC
Interference Band Threshold
SET GCELLOTHEXT
0
Interference Band Threshold
SET GCELLOTHEXT
1
Interference Band Threshold
SET GCELLOTHEXT
2
Interference Band Threshold
SET GCELLOTHEXT
3
Interference Band Threshold
SET GCELLOTHEXT
4
Interference Band Threshold
SET GCELLOTHEXT
5
Interference Calculation SET
Period
GCELLOTHEXT
Cell Inner/Extra PropertyADD GCELL
Same Group Cell Index ADD GCELL
Same Group Cell NameADD GCELL
Same Group Cell Index ADD
Type GCELL
Distance Hysteresis Between
SET GCELLHOEDBPARA
Boundaries
This parameter specifies the estimated carrier-to-interference ra
Threshold for load sharing in the 900 MHz frequency band. Ass
Whether to consider history priority records during channel assi
Whether to consider interference priorities during channel assig
If this parameter is set to YES, the channel assignment algorith
If the MCPA Optimization Switch is turned on, the MCPA priorit
Whether to preferentially allocate loose multiplexing frequencie
This parameter specifies whether to enable the TRX with good
Whether to use the statistical multiplexing algorithm for multi-de
If the current channel seizure ratio reaches or exceeds this valu
This parameter specifies whether the TRX priority is considered
Maximum ratio of the number of AMR half rate channels to the
Maximum ratio of the number of half rate channels to the total n
Channel assignment priority of the cellIf this parameter is set to
If this parameter is set to ON, the BSC assigns the channels in
Threshold used for interference measurement.The BSS measu
Threshold used for interference measurement.The BSS measu
Threshold used for interference measurement.The BSS measu
Threshold used for interference measurement.The BSS measu
Threshold used for interference measurement.The BSS measu
Threshold used for interference measurement.The BSS measu
Period during which interference levels are averaged. The inter
This parameter specifies whether a cell is the OL subcell or the
Index of a same group cell in an enhanced dual band network
Name of a same group cell in an enhanced dual band network
Index type of a same group cell in an enhanced dual band netw
Hysteresis in the distance between the boundary of the overlaid
Distance Between Boundaries
SET GCELLHOEDBPARA
of Subcells
Number of Satisfactory Measurements
SET GCELLHOEDBPARA
Total Number of Measurements
SET GCELLHOEDBPARA
Subcell HO Allowed Flow
SET
Control
GCELLHOEDBPARA
Level
Inter UL/OL Subcells HOSET
Penalty
GCELLHOEDBPARA
Time
OL Subcell Assignment SET
Optimization
GCELLHOEDBPARA
Inner Cell EDGE HO Enable
SET GCELLHOEDBPARA
Load HO of OL Subcell to
SET
ULGCELLHOEDBPARA
Subcell
OL Subcell Load Diversity
SET
HOGCELLHOEDBPARA
Period
Step Length of OL Subcell
SET
Load
GCELLHOEDBPARA
HO
Inner Cell Serious OverLoad
SET GCELLHOEDBPARA
Thred
Incoming OL Subcell HOSET
Level
GCELLHOEDBPARA
TH
UL Subcell Assignment SET
Optimization
GCELLHOEDBPARA
UL Subcell General Overload
SET GCELLHOEDBPARA
Threshold
Outgoing OL Subcell HOSET
Level
GCELLHOEDBPARA
TH
Load HO Allowed
SET GCELLHOEDBPARA
MOD Step LEN of UL Load
SETHO
GCELLHOEDBPARA
Period
UL Subcell Load Hierarchical
SET GCELLHOEDBPARA
HO Periods
Step Length of UL Subcell
SET
Load
GCELLHOEDBPARA
HO
UL Subcell Lower Load Threshold
SET GCELLHOEDBPARA
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 SSs and that the signal
strength of the neighbor cell is
SSn. If SSs = SSn, the MS is on
the boundary of the underlaid
subcell. If SSs - SSn > "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
According to the P/N rule, if the conditions for the handover bet
According to the P/N rule, if the conditions for the handover bet
If the current system flow control level is greater than this param
An MS cannot be handed over from the underlaid subcell to the
Whether to assign channel requests in the overlay subcell to th
Whether to allow underlay-to-overlay edge handovers
Whether to allow underlay-to-overlay load handovers
Overlay-to-underlay load handovers are performed by levels. Th
Level step during overlay-to-underlay hierarchical load handove
In an enhanced dual-band network, if the load of the overlay su
Lower threshold of the overlay level during underlay-to-overlay h
Whether to assign channel requests initiated in the underlay su
When the load of the underlay subcell is higher than this param
Lower threshold of the overlay level during overlay-to-underlay h
Whether to switch some of the calls in the underlay subcell to th
If the underlay load is higher than "UL Subcell Serious Overload
When the load of the underlay subcell exceeds "UL Subcell Ge
Level step during underlay-to-overlay hierarchical load handove
When the load of the underlay subcell is lower than this parame
UL Subcell Serious Overload
SET GCELLHOEDBPARA
Threshold
Invalid BSIC Reporting SET GCELLCCUTRANSYS
Measurement Report Type
SET GCELLCCUTRANSYS
SCALE_ORDER
SET GCELLCCUTRANSYS
3G Search PRIO
SET GCELLCCUTRANSYS
Filter Length for SDCCHSET
CV_BEP
GCELLHOFITPEN
Filter Length for TCH CV_BEP
SET GCELLHOFITPEN
Filter Length for SDCCHSET
MEAN_BEP
GCELLHOFITPEN
Filter Length for TCH MEAN_BEP
SET GCELLHOFITPEN
Filter Length for SDCCHSET
NBR_RCVD_BLOCK
GCELLHOFITPEN
Filter Length for TCH NBR_RCVD_BLOCK
SET GCELLHOFITPEN
Filter Length for SDCCHSET
REP_QUANT
GCELLHOFITPEN
Filter Length for TCH REP_QUANT
SET GCELLHOFITPEN
Allow EMLPP
SET GCELLCCBASIC
Highest Priority for Quality
SET
First
GCELLCHMGBASIC
Highest Priority User Quality
SET First
GCELLCHMGBASIC
DL PC Allowed
SET GCELLBASICPARA
When the load of the underlay subcell is higher than this param
Whether a measurement report can contain the information abo
Type of the measurement report MR reported by the MS
This parameter indicates that when the MS reports the EMR, it
Whether to allow the MS to search for a 3G cell when the BSIC
Number of enhanced measurement reports EMRs sampled for
Number of enhanced measurement reports EMRs sampled for
For the purpose of accurately reflecting the radio environment o
For the purpose of accurately reflecting the radio environment o
For the purpose of accurately reflecting the radio environment o
For the purpose of accurately reflecting the radio environment o
For the purpose of accurately reflecting the radio environment o
For
the purpose
accurately
reflecting the radio environment o
Whether
to allowofthe
function of
enhanced multi-level precedence
and preemption eMLPP. With
the eMLPP function enabled, the
network can use different
policies such as queuing,
preemption, or directed retry
based on the priorities of
different calls when network
resources are occupied. If this
parameter is set to YES, when
preemption occurs, the MS with
the lowest priority initiates a
handover, and the MS with a
higher priority seizes the idle
channel after a handover. If this
parameter is set to NO, an MS
with a lower priority releases the
channel, the MS with a higher
priority seizes the idle channel
after the release.
The eMLPP has up to seven
priorities: A, B, 0, 1, 2, 3, and 4.
The two highest priorities A and
B are internally reserved for local
use only. Priorities 0 to 4 can be
subscribed by MSs for global
use.
With the support of the MSC,
HLR, and mobile terminal
containing a SIM card, the
eMLPP function can be perfectly
implemented.
Full rate TCHs are assigned preferentially to the MSs with prior
Whether to enable the priority-based channel assignment algor
Whether to allow BTS power control
UL PC Allowed
SET GCELLBASICPARA
Cell Extension Type
ADD GCELL
Extended Cell Throughput
SET
Enhancement
GCELLPSOTHERPARA
Select 3G Cell After CallSET
Release
GCELLCCAD
Low-level Sublink Resource
SET Preempt
GCELLSOFT
Switch
Sublink Resources Preemption
SET GCELLSOFT
Switch
Start Flex MAIO Switch ADD GCELL
HSN Modification SwitchADD GCELL
Freq. Band
ADD GCELL
Other Frequency
ADD GCELLQUICKSETUP
Main BCCH Frequency ADD GCELLQUICKSETUP
Cell Type
ADD GCELLQUICKSETUP
Whether to allow MS power control
Whether a cell is an extension cell.A double-timeslot extension
Whether to support the downlink throughput enhancement func
This parameter specifies whether to allow a mobile phone to pr
Whether to permit the preemption of lower-level sublink resourc
This parameter specifies whether the CS services preempt the
Whether to enable the function of Flex mobile allocation index o
Whether dynamic use of HSNs is enabled. If the functions of fre
This parameter specifies the frequency band of new cells. Each
Ordinary frequency. Multiple frequencies are separated by "&".
Frequency of the BCCH TRX
Cell type. Currently, the fast BTS construction is available for on
HSN
ADD GCELLMAGRP
TSC
ADD GCELLMAGRP
Hop Index
ADD GCELLMAGRP
Hop Mode
ADD GCELLMAGRP
PWRC
SET GCELLCCCH
Frequency Hopping Mode
SET
of GCELLHOPQUICKSETUP
BCCH TRX
SET GCELLHOPTP
SET GCELLHOPQUICKSETUP
Frequency Hopping Mode
ARFCN Coding SchemeSET GCELLSOFT
Data Service Allowed SET GCELLOTHEXT
ADD PTPBVC
BLK PTPBVC
PTP BVC Identifier
eMLPP Priority
SET GCELLGSMR
FACCH Send Notification
SET
Msg
GCELLGSMR
Indication
FACCH Send Paging Msg
SET
Indication
GCELLGSMR
VGCS IM Preemption Enable
SET GCELLGSMR
Send FACCH Notification
SET
Priority
GCELLGSMR
Send FACCH Paging Priority
SET GCELLGSMR
CS Data Service PRI ADD GCELL
CS Voice Service PRI ADD GCELL
PS High PRI Service PRI
ADD GCELL
PS Low PRI Service PRIADD GCELL
VIP Cell
ADD GCELL
SDCCH Congestion Flow
SET
Control
GCELLCCCH
Allowed
Average Paging Message
SET
Number
GCELLSOFT
In Period
MAX Paging Message Number
SET GCELLSOFT
In Period
ADD GEXT3GCELL
SET GCELLHOFDDBA2
SET GCELLHOTDDBA2
Diversity
FDD Reporting Offset SET GCELLCCUTRANSYS
FDD Reporting Threshold
SET GCELLCCUTRANSYS
FDD Multirate ReportingSET GCELLCCUTRANSYS
FDD Qmin
SET GCELLCCUTRANSYS
FDD Qmin Offset
SET GCELLCCUTRANSYS
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.
The TSC is short for the Training Sequence Code.The TSC mu
Index of the frequency hopping data, used for a TRX to locate t
Implementation mode of frequency hopping
Whether an MS uses the calculated value as the final receive le
Frequency hopping mode of the TRX that carries the BCCH
This parameter specifies the frequency hopping mode of a cell.
Coding mode in which an ARFCN is sent to an MS during an as
Data service supported by the BSC6900. You can set this param
Identifies a unique PTP BVC with NSE
Indicating whether the eMLPP function is enabled in a cell and
Whether to allow sending notification messages on the FACCH
Whether to allow sending paging messages on the FACCH. If t
Whether direct preemption of the channels of other services is
Priority of the notification message transmission on the FACCH
Priority of the paging message transmission on the FACCH. Fro
Priority of the CS data service. The parameter is used for BSC6
Priority of a speech service in the CS domain. The parameter is
Priority of the PS high priority service
Priority of the PS low priority service
Is VIP Cell.The parameter is used for BSC6900 flow control.
Whether to permit Abis flow control.The flow control function he
Average number of paging messages allowed in a cell in a peri
Maximum number of paging messages allowed in a cell in a pe
Whether to activate transmit diversity on the common channel o
Offset of a FDD cell report.When the priority of a 3G cell is sequ
Threshold of a FDD cell report.When the receive level value in
Number of UTRAN FDD cells that should be included in measu
This parameter specifies one of the thresholds of the signal lev
Offset of the minimum threshold for Ec/No during a FDD cell re
FDD Q Offset
FDD REP QUANT
FDD RSCP Min.
FDDBA1 Input Tag
Diversity Indication
Downlink Frequency
Scrambling Code
SET GCELLCCUTRANSYS
SET GCELLCCUTRANSYS
SET GCELLCCUTRANSYS
SET GCELLIDLEFDDBA1
SET GCELLIDLEFDDBA1
SET GCELLIDLEFDDBA1
SET GCELLIDLEFDDBA1
ADD GEXT3GCELL
GCELLHOFDDBA2
Scrambling Code or CellSET
Parameter
Id
ADD GEXT3GCELL
SET GCELLHOFDDBA2
SET GCELLHOTDDBA2
DL UARFCN
1800 Reporting Offset SET GCELLCCUTRANSYS
1800 Reporting Threshold
SET GCELLCCUTRANSYS
900 Reporting Offset SET GCELLCCUTRANSYS
900 Reporting ThresholdSET GCELLCCUTRANSYS
Qsearch C Initial
SET GCELLCCUTRANSYS
A 3G cell can be a candidate cell
only when the average receive
level of the 3G cell is greater
than the value of this parameter
of the current serving cell.
The values of this parameter
correspond to the following
decibel values:
0: - always select a cell if
acceptable
1: -28 dB
2: -24 dB
...
15: 28 dB
This parameter specifies whether Ec/No or RSCP is used for th
Minimum level threshold of UTRAN cell reselection. During the
Input mode of the BA lists.AUTO: In this mode, the system fills
Diversity indication of a 3G cell. This parameter indicates wheth
Downlink frequency number that an MS in the connected mode
Scrambling code of a 3G cell, used for distinguishing MSs or ce
Scrambling code of a 3G cell. The scrambling code is used to
Downlink frequency of the external 3G cell
Offset of the measurement report about the cells at the 1800 M
Threshold of the measurement report about the cells at the 180
Offset applied to the receive level of a GSM900 cell in the meas
Threshold of the measurement report of the cells at the 900 MH
This parameter specifies the threshold of the signal level for ce
Qsearch I
Qsearch P
SET GCELLCCUTRANSYS
SET GCELLCCUTRANSYS
This parameter specifies the
level threshold for cell
reselection in idle mode.
In idle mode, if the signal level of
the serving cell is below [0, 7] or
above [8, 15], the MS starts to
search for 3G cells. For
example, if this parameter is set
to 5 and if the signal level of the
serving cell is lower than 5, the
MS starts to search for 3G cells;
if this parameter is set to 10 and
if the signal level of the serving
cell is above 10, then the MS
starts to search for 3G cells.
The values of this parameter
correspond to the following
decibel values:
0: -98 dBm
1: -94 dBm
2: -90 dBm
3: -86 dBm
4: -82 dBm
5: -78 dBm
6: -74 dBm
7: always, that is, the MS keeps
searching for 3G cells
8: -78 dBm
9: -74 dBm
10: -70 dBm
11: -66 dBm
12: -62 dBm
13: -58 dBm
This parameter specifies one threshold of the signal level for ce
Qsearch C
SET GCELLCCUTRANSYS
Ec/No Threshold for Better
SET3G
GCELLHOUTRANFDD
Cell HO
SET GCELLHOUTRANFDD
SET GCELLHOUTRANTDD
Better 3G Cell HO Allowed
SET GCELLHOUTRANFDD
SET3G
GCELLHOUTRANTDD
RSCP Threshold for Better
Cell HO
Support Half Rate
SET GCELLCCCH
Neighbor 2G Cell 1 Name
ADD GIBCAPNCGRP
Neighbor 2G Cell 2 Name
ADD GIBCAPNCGRP
IBCA AMR FR Soft Block
SET
Threshold
GCELLCHMGAD
IBCA AMR HR Soft Block
SET
Threshold
GCELLCHMGAD
IBCA Allowed
SET GCELLCHMGAD
IBCA Assign Waiting MrSET
TimeGCELLCHMGAD
IBCA Call Information Filter
SET GCELLCHMGAD
IBCA Set-up Call Soft Block
SET Threshold
GCELLCHMGAD
Offset
Target CIR Offset of IBCA
SET
Set-up
GCELLCHMGAD
Call
In connection mode, if the signal
level is below [0-7] or above [815], the MS starts to search for
3G cells. For example, if this
parameter is set to 5 and if the
signal level of the serving cell is
lower than 5, the MS starts to
search for 3G cells; if this
parameter is set to 10 and if the
signal level of the serving cell is
above 10, then the MS starts to
search for 3G cells.
0: -98 dBm
1: -94 dBm
...
6: -74 dBm
7: always
8: -78 dBm
9: -74 dBm
...
14: -54 dBm
15: Positive infinity never
The 3G better cell handover can be triggered only when the Ec/
This parameter specifies whether to allow 3G better cell handov
The 3G better cell handover is triggered only when the RSCP o
Whether to support the half-rate service in this cell. It is one of t
Name of neighboring GSM cell 1
Name of neighboring GSM cell 2
Minimum C/I ratio that IBCA AMR FR services allow. An idle ch
Minimum C/I ratio that IBCA AMR HR services allow. An idle ch
Whether to enable the IBCA algorithm
Length of the timer for a new call to wait for the measurement r
Number of measurement reports sampled for averaging path lo
When the IBCA algorithm is enabled, this parameter is used to
When the IBCA algorithm is enabled, this parameter is used to
IBCA Downlink Path Loss
SET
Offset
GCELLCHMGAD
IBCA Urgent HO WaitingSET
Mr Time
GCELLCHMGAD
IBCA Flexible TSC Allowed
SET GCELLCHMGAD
IBCA Forced BTS Synchronization
SET GCELLCHMGAD
Allowed
IBCA FR/EFR Soft BlockSET
Threshold
GCELLCHMGAD
IBCA HO Waiting Effective
SETMrGCELLCHMGAD
Time
IBCA HR Soft Block Threshold
SET GCELLCHMGAD
IBCA ICDM Initial Level SET
Offset
GCELLCHMGAD
IBCA ICDM Switch
SET GCELLCHMGAD
IBCA Init. Power ControlSET
RexLevDL
GCELLCHMGAD
Offset
IBCA Init. Power ControlSET
RexLevUL
GCELLCHMGAD
Offset
IBCA Init. Pwr Ctrl Rx Qual
SETDL
GCELLCHMGAD
Offset
IBCA Init. Pwr Ctrl Rx Qual
SETUL
GCELLCHMGAD
Offset
IBCA IUO Path Loss Offset
SET GCELLCHMGAD
IBCA MAIO Using Method
SET GCELLCHMGAD
IBCA Max. Interference SET
Source
GCELLCHMGAD
Num.
IBCA Pathloss Est of Non.
SET
MR
GCELLCHMGAD
Ncell
Target CIR Offset of IBCA
SET
New
GCELLCHMGAD
Call
IBCA Natural HO Waiting
SET
Mr GCELLCHMGAD
Time
IBCA Non MeasurementSET
Ncell
GCELLCHMGAD
Stat. Num
Corrected Factor of IBCA
SET
Priority
GCELLCHMGAD
IBCA Pathloss Offset SET GCELLCHMGAD
IBCA Path Lose Filter Factor
SET GCELLCHMGAD
IBCA Service Cell Pathloss
SET GCELLCHMGAD
IBCA Soft Block SAIC Offset
SET GCELLCHMGAD
IBCA Soft Block Switch SET GCELLCHMGAD
IBCA Sub-Channel Handover
SET GCELLCHMGAD
Allowed
IBCA MAIO Target C/I Threshold
SET GCELLCHMGAD
IUO IBCA Allowed
SET GCELLCHMGAD
IBCA User Dyn MeasureSET
Neighbor
GCELLCHMGAD
Cell
IBCA WAMR FR Soft Block
SETThreshold
GCELLCHMGAD
IBCA Loose Trx SDCCHSET
Load
GCELLCHMGAD
Threshold
IBCA Tight Trx SDCCH SET
RxlevGCELLCHMGAD
Threshold
IBCA Wait SDCCH Idle SET
TimerGCELLCHMGAD
Difference between uplink and
downlink path losses, which is
used to estimate the downlink
path loss of a call when the
downlink path loss cannot be
computed directly according to a
measurement report. This
parameter is configured
according to the combined loss
and hierarchical dual-antenna
gain 3 dB of the BTS.
"IBCA Downlink Path Loss
Offset" = combined loss of BTS
+ hierarchical dual-antenna gain
of BTS 3 dB
Length of the timer for a call to measure the path loss in the nei
Whether the IBCA flexible TSC function is enabled. When this p
Whether the IBCA forced BTS synchronization is allowed. Whe
Minimum C/I ratio that IBCA FR/EFR services allow. An idle cha
Length of the timer for a call to wait for other valid MRs after rec
Minimum C/I ratio that IBCA HR services allow. An idle channel
In the ICDM matrix algorithm, the signal strength 0-63 is divided
Whether to enable the ICDM algorithm for the cell. The ICDM a
Adds a specified offset to the downlink target receive level when
Adds a specified offset to the uplink target receive level when p
Adds a specified offset to the downlink target receive quality wh
Adds a specified offset to the uplink target receive quality when
In an IUO cell or a CoBCCH cell, the path loss of an MS to the
Determines the MAIO selection method for each timeslot. The O
The IBCA interference evaluation process only considers the in
Estimates the receive level of the unmeasured IBCA neighborin
When the IBCA algorithm is enabled, this parameter is used to
Length of the timer for a call to measure the path loss in the nei
Estimates the receive level of the unmeasured IBCA neighborin
When the IBCA algorithm is enabled and the HSN is not 0, the
When the path loss of an MS to a neighboring cell cannot be m
Considers the influence of history path loss information during t
Use this parameter when the path loss of an MS to serving cells
MSs that support SAIC can tolerate a lower carrier-to-interferen
Whether to deny the access of a call when none of the MAIO ev
Whether the handover of the calls on the single channels is allo
Whether a MAIO meets the access requirement. When the C/I
Whether to enable the IBCA algorithm for the overlay and unde
Whether a single IBCA MS can dynamically measure the neigh
The lowest C/I ratio that can be tolerated by IBCA WAMR FR. T
When the load of an SDCCH on the TRX that is in loose freque
If the SDCCH load on the TRXs of the compatible BCCH in loos
When the dynamic PDCH needs to use MAIO of the SDCCH, th
MAIO 1
SET GCELLMAIOPLAN
MAIO 10
SET GCELLMAIOPLAN
MAIO 11
SET GCELLMAIOPLAN
MAIO 12
SET GCELLMAIOPLAN
MAIO 2
SET GCELLMAIOPLAN
MAIO 3
SET GCELLMAIOPLAN
MAIO 4
SET GCELLMAIOPLAN
MAIO 5
SET GCELLMAIOPLAN
MAIO 6
SET GCELLMAIOPLAN
MAIO 7
SET GCELLMAIOPLAN
MAIO 8
SET GCELLMAIOPLAN
MAIO 9
SET GCELLMAIOPLAN
Hop Index
SET GCELLMAIOPLAN
Attach-detach Allowed SET GCELLIDLEBASIC
ICB Allowed
SET GCELLBASICPARA
RTTI PDCH Multiplex Threshold
SET GCELLPSCHM
Allow Inter-RAT Load HO
SET
in Connect
GCELLHOINTERRATLDB
State
Index Type
SET GCELLHOINTERRATLDB
MSRD MCS Threshold SET GCELLPSCHM
Mobile allocation index offset 1. Start frequency number, which
Mobile allocation index offset 10. Start frequency number, which
Mobile allocation index offset 11. Start frequency number, which
Mobile allocation index offset 12. Start frequency number, which
Mobile allocation index offset 2. Start frequency number, which
Mobile allocation index offset 3. Start frequency number, which
Mobile allocation index offset 4. Start frequency number, which
Mobile allocation index offset 5. Start frequency number, which
Mobile allocation index offset 6. Start frequency number, which
Mobile allocation index offset 7. Start frequency number, which
Mobile allocation index offset 8. Start frequency number, which
Mobile allocation index offset 9. Start frequency number, which
Logical number of the MA group
Attach-detach Allowed ATT. If this parameter is set to YES, whe
This parameter is used to enable
the Intelligent Combiner Bypass
ICB function on the BCCH TRX
of a cell.
This parameter specifies
whether to allow the cell to
enable the ICB function. When
this parameter is set to YES, the
TCHs on the non-BCCH TRX
are preferentially assigned. In
this way, the largest possible
number of idle TCHs is reserved
on the BCCH TRX, and thus the
BCCH TRX enters the ICB
mode.
Maximum number of RTTI TBFs that can be multiplexed on the
This parameter specifies whether to allow the inter-RAT load ha
Type of an index
Threshold of the MS Receiver Diversity MSRD mode
Multi-band report
SET GCELLCCBASIC
Serving Band ReportingSET GCELLCCUTRANSYS
High Band Indicator of Cell
SET1900
GCELLSOFT
High Band Indicator of Cell
SET850
GCELLSOFT
High Band Indicator of Cell
SET900
GCELLSOFT
Location Group Power Switch
SET GCELLSOFT
Network Operation Mode
SET GCELLPSBASE
Switch for BTS Supporting
SET
SAIC
GCELLSOFT
PC Adjust
Allowed Measure ReportSET
Missed
GCELLNC2PARA
Number
2G/3G Cell Reselection SET
Strategy
GCELLNC2PARA
Cell Rx Quality Worsen SET
RatioGCELLNC2PARA
Threshold
EDGE 8PSK Quality Threshold
SET GCELLNC2PARA
EDGE GMSK Quality Threshold
SET GCELLNC2PARA
Filter Window Size
SET GCELLNC2PARA
GPRS Quality ThresholdSET GCELLNC2PARA
Cell Load Reselection Allowed
SET GCELLNC2PARA
Load Reselect Level Threshold
SET GCELLNC2PARA
Load Reselection Receive
SET
Threshold
GCELLNC2PARA
Load Reselection Start Threshold
SET GCELLNC2PARA
Cell Reselection Level Threshold
SET GCELLNC2PARA
Used for requesting the MS to report the measurement informa
Number of neighboring cells that meet the following conditions:
Whether the cells at the 1900 frequency support high frequency
Whether the cells at the 850 frequency support high frequency
Whether the cells at the 900 frequency support high frequency
Whether to enable the power amplifier for all location groups. 0
This parameter is related to the paging channel of the system. T
Whether to specify "Power Control threshold Adjust for SAIC" in
Number of allowed measure report missed. If the number of allo
This parameter specifies whether a 2G cell or 3G cell is selecte
The number of times that the downlink transmission quality of th
Used for EDGE 8PSK transmission quality statistics. If MEAN_B
Used for EDGE GMSK transmission quality statistics. If MEAN_
Maximum number of former values when the receive level of th
Used for the GPRS transmission quality statistics. When the tra
Whether to allow the cell load reselection. If this parameter is s
Threshold for allowing the MS to reselect a cell during load reel
When the uplink load or downlink load of the target cell is lower
When the uplink load or downlink load of the cell exceeds this t
Minimum receive level for a neighbor cell to become a candidat
MS Rx Quality Statistic Threshold
SET GCELLNC2PARA
Cell Normal ReselectionSET
Allowed
GCELLNC2PARA
Cell Penalty Duration SET GCELLNC2PARA
Cell Penalty Level
SET GCELLNC2PARA
Cell Reselection Hysteresis
SET GCELLNC2PARA
Cell Reselect Interval SET GCELLNC2PARA
Normal Cell ReselectionSET
Watch
GCELLNC2PARA
Period
Normal Cell ReselectionSET
Worsen
GCELLNC2PARA
Level Threshold
Cell Urgent Reselection SET
Allowed
GCELLNC2PARA
Non-DRX Period
SET GCELLNWCTRLMSRPARA
Cell Reselection MR Period
SETinGCELLNWCTRLMSRPARA
Packet Idle Mode
Cell Reselection MR Period
SETinGCELLNWCTRLMSRPARA
Packet Transfer Mode
Network Control Mode SET GCELLPSBASE
PDCH Available Threshold
SETofGCELLSOFT
Channel Failure
PDCH Out-of-Synchronization
SET GCELLSOFT
Period
Specify Index of Cell Handover
SET FHO
to
Cell Name of Handover SET
to FHO
Handover Scope
SET FHO
Monitoring Alarm SwitchSET
for Channel
GCELLSOFT
Failure
TCH Available Threshold
SET
of Channel
GCELLSOFT
Failure
Period of Mute Detect Class2
SET GCELLSOFT
TRAU Frame
Exceptional Frame Threshold
SET GCELLSOFT
of Mute Detect Class1
Period of Mute Detect Class1
SET GCELLSOFT
Mute Detect Class2 Switch
SET GCELLSOFT
Period of Mute Detect Class2
SET GCELLSOFT
Access Prohibited UponSET
One-Way
GCELLSOFT
Audio
Forced Call Release Upon
SET
Failed
GCELLSOFT
Handover in One-Way Audio
Mute Detect Class1 Switch
SET GCELLSOFT
Um Interface Crosstalk Optimization
SET GCELLSOFT
Allowed
OSP Code
ADD GCELLQUICKSETUP
Administrative State
SET GCELLADMSTAT
Diversity LNA Bypass Permitted
SET GCELLOTHBASIC
Cell Coverage Type
SET GCELLOTHEXT
Power Output ReductionSET
Threshold
GCELLOTHEXT
Power Output Error Threshold
SET GCELLOTHEXT
VSWR TRX UnadjustedSET
Threshold
GCELLOTHEXT
VSWR TRX Error Threshold
SET GCELLOTHEXT
Cell Out-of-Service Alarm
SET
Switch
GCELLSOFT
Adjust Voltage
SET GCELLBASICPARA
Move Immediate Assignment
SET GCELLPSOTHERPARA
Down to BTS
Move Packet Assignment
SET
Down
GCELLPSOTHERPARA
to BTS
Allow MR Command or not
SET GCELLPSI1
PSI1 Repetition Period SET GCELLPSI1
Support PSI Status Message
SET GCELLPSI1
Paging Times
SET GCELLCCBASIC
Multi-Frames in a Cycle SET
on the
GCELLIDLEBASIC
Paging CH
BTS Paging Lifetime SET GCELLSOFT
When the number of received measurement reports on the dow
Whether to allow the cell normal reselection. If this parameter is
Penalty duration for cell reselection. Cell penalty can be perform
When the cell reselection failure message is received or the loa
Indicating that during cell reselection, the level of the target cell
NC2 cell reselection interval in the same cell
The number of received Packet Measurement Report message
If the number of times when the receive level of the serving cell
Whether to allow cell urgent reselection. If this parameter is set
Period when the cell is in the non-DRX state
Cell reselection measurement report period in packet idle mod
Cell reselection measurement report period in packet transmis
Network control mode for cell reselection of the MS. There are
This parameter specifies the proportion of available PDCHs in a
This parameter is used to check whether the Abis timeslot for th
Type of indexing the target cell
Unique name of the target cell
Type of handover in terms of connection transfer between chnn
This parameter determines whether to activate the function of m
This parameter specifies the proportion of available TCHs in a c
Interval for sending test TRAU frames in the period of class-2 m
Threshold for the rate of the number of bad frames to the total n
Period of performing class-1 mute detection. If the bad frame ra
Whether to enable the class-2 mute detection
Period of performing the class-2 mute detection. After the BTS
Time for prohibiting the call from accessing the corresponding
Whether to forcibly release a call after the forced handover fails
Whether to enable the class-1 mute detection.
Whether the crosstalk optimization function over the Um interfa
Code of the signaling point of the local office in the signaling ne
Administrative state of a cell
Whether to permit the low noise amplifier LNA bypass
If the coverage type of a cell is outdoor coverage, the BTS dete
This parameter specifies a condition for generating a BTS alarm
This parameter specifies a condition for generating a BTS alarm
This parameter specifies a condition for generating a BTS alarm
This parameter specifies a condition for generating a BTS alarm
Whether to report a cell out-of-service alarm after a cell is out o
This parameter specifies whether to enable the TRX Working V
This parameter specifies whether to support the takeover of the
Whether to support the function of moving the packet assignme
Whether to allow the MS to the send the PS measurement repo
Period for sending the packet message PSI. If the period is too
Whether the BSC supports the state message PSI. The state m
For the BTS, this parameter is used to determine paging retran
Number of multiframes in a cycle on a paging sub-channel. In f
Lifetime of a paging message in the queue of the BTS. The set
Cell Paging Package Switch
SET GCELLSOFT
Interval for Sending CellSET
Paging
GCELLSOFT
Package
Number of Cell Pagings SET
in One
GCELLSOFT
Package
Transmission Delay of POC
SET Service
GCELLPSOTHERPARA
Max. GBR for POC Service
SET GCELLPSOTHERPARA
Min. GBR for POC Service
SET GCELLPSOTHERPARA
POC Support
SET GCELLPSOTHERPARA
Short Message DownlinkSET
Disabled
GCELLCCAD
Short Message Uplink Disabled
SET GCELLCCAD
Cell 8PSK Power Attenuation
SET GCELLBASICPARA
Grade
Voltage Adjust Based Timeslots
SET GCELLBASICPARA
Allowed
PDCH Power Saving Enable
SET GCELLSOFT
Level Report Switch
SET GCELLBASICPARA
Extension MeasurementSET
Command
GCELLEXTMSRPARA
Extension MR Period SET GCELLEXTMSRPARA
Extension MR Type
SET GCELLEXTMSRPARA
Interference Frequency SET GCELLEXTMSRPARA
NCC Permitted
SET GCELLEXTMSRPARA
Cell Over Coverage DL RxLev
SET GCELLOTHEXT
Threshold
Cell Over Coverage TA Threshold
SET GCELLOTHEXT
Cell Weak Coverage DLSET
RxLev
GCELLOTHEXT
Threshold
Cell Weak Coverage TASET
Threshold
GCELLOTHEXT
DRX Type
SET GCELLGSMR
Ny2
SET GCELLGSMR
Channel Release Resend
SET
Interval
GCELLGSMR
Channel Release Resend
SET
Number
GCELLGSMR
Download Test Resend SET
Interval
GCELLGSMR
Download Test Resend SET
Number
GCELLGSMR
FACCH Msg Resend Interval
SET GCELLGSMR
VGCS Channel Assign in
SET
Channel
GCELLGSMR
Enable
NCH Occupy Block Number
SET GCELLGSMR
NCH Start Block
SET GCELLGSMR
UIC
SET GCELLGSMR
BestEffort-ARP1 PrioritySET
Weight
GCELLPSCHM
BestEffort-ARP2 PrioritySET
Weight
GCELLPSCHM
BestEffort-ARP3 PrioritySET
Weight
GCELLPSCHM
Background-ARP1 Priority
SET
Weight
GCELLPSCHM
Background-ARP2 Priority
SET
Weight
GCELLPSCHM
Background-ARP3 Priority
SET
Weight
GCELLPSCHM
THP1-ARP1 Priority Weight
SET GCELLPSCHM
THP1-ARP2 Priority Weight
SET GCELLPSCHM
THP1-ARP3 Priority Weight
SET GCELLPSCHM
THP2-ARP1 Priority Weight
SET GCELLPSCHM
THP2-ARP2 Priority Weight
SET GCELLPSCHM
THP2-ARP3 Priority Weight
SET GCELLPSCHM
THP3-ARP1 Priority Weight
SET GCELLPSCHM
THP3-ARP2 Priority Weight
SET GCELLPSCHM
Whether to enable Paging Messages Optimize at Abis Interface
Interval for sending cell paging group packets when Paging Me
Number of cell paging group packets when Paging Messages O
Maximum transmission delay of the POC service push to talk o
Maximum bandwidth of the POC service push to talk over cellu
Minimum bandwidth of the POC service push to talk over cellula
Whether to support the push to talk over cellular POC service
Whether to prohibit sending point-to-point short messages. If ne
This parameter specifies whether the transmission of point-to-p
Timeslot power attenuation level of the EDGE TRX in 8PSK. Th
This parameter determines whether the dynamic voltage adjust
This parameter specifies whether to enable the Power Optimiza
Whether to support the reporting of the main diversity level
Whether the network requires an MS to send an extension mea
Time interval between two extension measurement reports
Type of an extension measurement report.There are three type
Frequency index of the interference measurement in type 3 of a
NCC bitmap of the measurement report sent by the MS. The M
Threshold of the downlink receive level of an over-coverage cel
Threshold of the TA of an over-coverage cell. If the downlink lev
Threshold of the downlink receive level of an weak-coverage ce
Threshold of the TA of an weak-coverage cell. If the downlink le
Type of the DRX supporting the VGCS service. An MS reads th
Number of retransmissions of the VGCS UPLINK GRANT mes
Time interval for the BTS resending a channel release message
Number of times of the BTS resending a channel release mess
Interval for resending downlink test messages
Number of times of the BSC6900 resending downlink test mess
Interval of sending a paging message or notification message o
Whether the assignment of channels in overlaid subcells is ena
Number of blocks occupied by the NCH in the group call service
Number of the start block occupied by the NCH in the group ca
Used to identify the uplink access message from the MS. The v
ARP1 priority in the BE service. ARP1 priority weight determine
ARP2 priority in the BE service. ARP2 priority weight determine
ARP3 priority in the BE service. ARP3 priority weight determine
ARP1 priority in the Background service. ARP1 priority weight d
ARP2 priority in the Background service. ARP2 priority weight d
ARP3 priority in the Background service. ARP3 priority weight d
Combination of the THP1 and ARP1 priority in the Interactive se
Combination of the THP1 and ARP2 priority in the Interactive se
Combination of the THP1 and ARP3 priority in the Interactive se
Combination of the THP2 and ARP1 priority in the Interactive se
Combination of the THP2 and ARP2 priority in the Interactive se
Combination of the THP2 and ARP3 priority in the Interactive se
Combination of the THP3 and ARP1 priority in the Interactive se
Combination of the THP3 and ARP2 priority in the Interactive se
THP3-ARP3 Priority Weight
SET GCELLPSCHM
Support QoS Optimize SET GCELLPSOTHERPARA
PS RACH Min. Access Level
SET GCELLCCACCESS
Power Deviation
SET GCELLCCACCESS
Power Deviation Indication
SET GCELLCCACCESS
CS RACH Min. Access Level
SET GCELLCCACCESS
Random Access Error Threshold
SET GCELLCCACCESS
Common Access Control
SET
Class
GCELLCCBASIC
MS MAX Retrans
SET GCELLCCBASIC
RACH Busy Threshold SET GCELLCCBASIC
Special Access Control Class
SET GCELLCCBASIC
CCCH Load Indication Period
SET GCELLCCCH
CCCH Load Threshold SET GCELLCCCH
Combination of the THP3 and ARP3 priority in the Interactive se
Whether to support QoC optimization. The GSN equipment for
Minimum access level of the random access channel RACH in
If a class 3 MS on the DCS1800 band does not receive the orig
The MS does not receive the original power command after ran
Minimum access level of the random access channel RACH in
Correlation threshold of the training sequence for the random a
Level of common access control, used for load control, allowing
Maximum number of Channel
Request messages that can be
sent by an MS in an immediate
assignment procedure.
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.
Level threshold of the MS random access for the BTS to determ
This parameter is used for load control. It determines whether t
Time interval for sending overload messages, used for the BTS
Used for the BTS to notify the BSC6900 of the load over a spec
MS_TXPWR_MAX_CCH
SET GCELLCCCH
Overload Indication Period
SET GCELLCCCH
Average RACH Load Timeslot
SET GCELLCCCH
Number
CCCH Blocks ReservedSET
for AGCH
GCELLIDLEBASIC
Maximum transmit power level of
MSs. As one of the cell
reselection parameters in system
message 3, this parameter is
used to control the transmit
power of MSs. For details, see
GSM Rec. 05.05.
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
Interval for the BTS transmitting overload messages to the BSC
Number of RACH burst timeslots in a RACH load measuremen
BS-AG-BLKS-RES, indicating the number of the CCCH messag
TX-integer
SET GCELLIDLEBASIC
Cell Paging Overload Threshold
SET GCELLSOFT
MAX TA Drop Call FilterSET GCELLCCAD
Max TA Drop Call SwitchSET GCELLCCAD
MAX TA Drop Call Threshold
SET GCELLCCAD
Radio Link Timeout
SET GCELLCCBASIC
SACCH Multi-Frames SET GCELLCCBASIC
Radio Resource Report SET
Period
GCELLCCCH
DL Level Threshold for SDCCH
SET GCELLOTHEXT
Call Drop
DL Quality Threshold forSET
SDCCH
GCELLOTHEXT
Call Drop
UL Level Threshold for SDCCH
SET GCELLOTHEXT
Call Drop
UL Quality Threshold forSET
SDCCH
GCELLOTHEXT
Call Drop
DL FER Threshold for TCH
SETCall
GCELLOTHEXT
Drop
DL Level Threshold for TCH
SET Call
GCELLOTHEXT
Drop
DL Quality Threshold forSET
TCHGCELLOTHEXT
Call Drop
UL FER Threshold for TCH
SETCall
GCELLOTHEXT
Drop
UL Level Threshold for TCH
SET Call
GCELLOTHEXT
Drop
UL Quality Threshold forSET
TCHGCELLOTHEXT
Call Drop
Bad Quality Disconnection
SET
Threshold
GCELLSOFT
Drop Optimize ABIS LinkSET
Failure
GCELLSOFT
Tx-integer T for short. This
parameter specifies the number
of timeslots between two
transmissions when an MS
sends multiple consecutive
channel requests.
The access algorithm is defined
in GSM Rec. 04.08 to reduce the
collisions on the RACH and
improve the efficiency of the
RACH. The algorithm specifies
three parameters: Tx-integer T
for short, maximum number of
retransmissions RET, and S
related to channel combination.
This parameter works with the
configuration of the CCCH to
determine the parameter S. The
relations between this parameter
and the configuration of the
CCCH are as follows:
When this parameter is set to 3,
8, 14, or 50, S is 55 if the CCCH
and SDCCH do not share a
physical channel.
When this parameter is set to 3,
8, 14, or 50, S is 41 if the CCCH
and SDCCH share a physical
channel.
When this parameter is set to 4,
9, or 6, S is 76 if the CCCH and
SDCCH do not share a physical
channel.
Maximum number of reported paging overload messages in the
Number of measurement reports MRs used for averaging the ti
Whether to initiate a forcible call drop when the time advance e
Whether the time advance after filtering exceeds the threshold.
Time for disconnecting a call when the MS fails to decode the S
This parameter is used by the BTS to inform the BSC6900 of ra
Interval for sending the radio resource indication messages. Th
Level threshold for measuring the number of call drops on SDC
Quality threshold for measuring the number of call drops on SD
Level threshold for measuring the number of call drops on SDC
Quality threshold for measuring the number of call drops on SD
When a call drops on the TCH, the corresponding TCH call dro
When a call drops on the TCH, the corresponding TCH call dro
When a call drops on the TCH, the corresponding TCH call dro
When a call drops on the TCH, the corresponding TCH call dro
When a call drops on the TCH, the corresponding TCH call dro
When a call drops on the TCH, the corresponding TCH call dro
Quality threshold for determining that a call is disconnected bec
Whether to optimize the call drops resulting from Abis territorial
Drop Optimize Conn Fail[HO
SET GCELLSOFT
access fail]
Drop Optimize Conn Fail[OM
SET GCELLSOFT
intervention]
Drop Optimize Conn Fail[other]
SET GCELLSOFT
Drop Optimize Conn Fail[radio
SET GCELLSOFT
link fail]
Drop Optimize Conn Fail[resource
SET GCELLSOFT
not available]
Drop Optimize Equipment
SET
Failure
GCELLSOFT
Drop Optimize Err Ind[unsolicited
SET GCELLSOFT
DM response]
Drop Optimize Err Ind[sequence
SET GCELLSOFT
error]
Drop Optimize Err Ind[T200
SETtimeout]
GCELLSOFT
Drop Optimize Forced Handover
SET GCELLSOFT
Failure
Drop Optimize Into-BSCSET
Handover
GCELLSOFT
Timeout
Drop Optimize Intra-BSCSET
Handover
GCELLSOFT
Timeout
Drop Optimize Intra-CellSET
Handover
GCELLSOFT
Timeout
Drop Optimize No MR for
SET
Long
GCELLSOFT
Time
Drop Optimize Out-BSCSET
Handover
GCELLSOFT
Timeout
Drop Optimize Release Indication
SET GCELLSOFT
Drop Optimize ResourceSET
Check
GCELLSOFT
Cell Operator Power Group
SET GCELLCHMGAD
Grade Access Allow
SET GCELLCHMGBASIC
Highest Priority
SET GCELLCHMGBASIC
Reserved Channel Number
SET GCELLCHMGBASIC
Repeated Downlink FACCH
SET GCELLCCBASIC
Repeated Downlink FACCH
SET Threshold
GCELLCCBASIC
Repeated SACCH
SET GCELLCCBASIC
SDCCH Dynamic Allocation
SET Allowed
GCELLBASICPARA
Cell SDCCH Channel Maximum
SET GCELLCHMGBASIC
Whether to optimize the call drops resulting from connection fai
Whether to optimize the call drops resulting from connection fai
Whether to optimize the call drops resulting from a connection f
Whether to optimize the call drops resulting from connection fai
Whether to optimize the call drops resulting from connection fai
Whether to optimize the call drops resulting from equipment fau
Whether to optimize the call drops resulting from error indicatio
Whether to optimize the call drops resulting from error indicatio
Whether to optimize the call drops resulting from error indicatio
Whether to optimize the call drops resulting from forced handov
Whether to optimize the call drops resulting from incoming-BSC
Whether to optimize the call drops resulting from outgoing inter
Whether to optimize the call drops resulting from intra-cell hand
Whether to optimize the call drops resulting from no MS measu
Whether to optimize the call drops resulting from outgoing-BSC
Whether to optimize the call drops resulting from release indica
Whether to optimize the call drops resulting from resource chec
Power of each passage on the MRRU in the cell
Whether to allow hierarchical access and to reserve resources
Maximum priority level of an MS that can use reserved channel
When assign channels, the BSC ensures that the sum of the nu
Whether to enable the Repeated Downlink FACCH function for
If the cell supports the Repeated Downlink FACCH function and
Whether to enable the Repeated SACCH function for the cell
Whether to allow SDCCH dynamic allocation, that is, whether to
Maximum number of SDCCHs in the cell. Before converting a T
Idle SDCCH Threshold N1
SET GCELLCHMGBASIC
TCH Minimum RecoverySET
Time
GCELLCHMGBASIC
Different Band SDCCH Using
SET GCELLCHMGBASIC
Optimize
If CB Shake Hand
ADD GCBSADDR
Code
ADD GSMSCB
End Time
ADD GSMSCB
Broadcast Interval
ADD GSMSCB
Repeat
ADD GSMSCB
Start Time
ADD GSMSCB
Content of Message
ADD GSMSCB
Update
ADD GSMSCB
When the number of idle SDCCH channels in a cell is smaller t
Minimum time required for a TCH to transform to a SDCCH and
Whether to allow an MS to report the classmark and whether to
Whether the handshake mechanism is enabled at the Cb interf
Number of a simple cell broadcast message. You can run "DSP
End date and time of a broadcast message. This is a key param
Time interval for sending a simple cell broadcast message
A key parameter that indicates how many times the BSC6900 b
A key parameter that indicates the date and time when the BSC
Content of the cell broadcast message
Update code for a simple cell broadcast message.This parame
SMCBC DRX
SET GCELLOTHEXT
Broadcast Content
SET GCELLSBC
Broadcast Interval
SET GCELLSBC
Support Cell Broadcast Name
SET GCELLSBC
SET GCELLSBC
ADD GSMSCB
Chan ID
SET GCELLSBC
ADD GSMSCB
Geography Scope
SET GCELLSBC
ADD GSMSCB
Coding Scheme
TSC Plan Enable
SET GCELLSOFT
Support GBR QoS
SET GCELLPSOTHERPARA
Preempt Switch of Streaming
SET GCELLPSOTHERPARA
Resource
Minum Access RXLEV SET GCELLBASICPARA
ECSC
SET GCELLCCBASIC
Talker Info Interval
SET GCELLGSMR
TC Pool ID
SET BSCBASIC
Frequency Band of Reassign
SET GCELLCCAD
Allow Reassign
SET GCELLCCBASIC
Switchback Policy of Baseband
SET GCELLCCACCESS
FH Mutual Aid
Whether to support the
discontinuous reception
mechanism DRX. To reduce the
power consumption, the DRX is
introduced into the GSM
Specification. MSs supporting
the DRX can consume less
power to receive interested
broadcast messages. This
prolongs the service time of MS
batteries.
BSCs supporting the DRX must
send scheduling messages to
MSs so that the MSs can use the
DRX function. The period
occupied by broadcast
messages that are contained in
a scheduling message is called a
scheduling period. In the sending
sequence, a scheduling
message contain the description
of each short message to be
broadcasted and the position of
each broadcast message in the
scheduling period.
Contents of a cell broadcast message
Time interval for a cell broadcast message
Whether to support the broadcast of the cell name
Channel number of a simple cell broadcast message. This is a
Geographical coverage of a simple cell broadcast message. Yo
A key parameter that indicates the coding scheme of a simple c
Whether to allow TSC planning. If this parameter is set to No, th
Obtains the QoS parameter from the Aggregate BSS QoS Prof
When the PDCHs are insufficient, the streaming service with hi
Minimum received signal level of the MS. This level is reported
The early classmark sending control ECSC parameter specifies
This parameter specifies the interval of broadcasting the speec
If you enable the TC pool function when configuring the basic in
Whether to re-assign the radio channels on a different band or
Whether to allow the reassignment function
Mutual-aid changeback policy of baseband frequency hopping F
TRX Aiding Function Control
SET GCELLCCACCESS
Aiding Delay Protect Time
SET GCELLSOFT
Allow Dynamic Shutdown
SET
TRX
GCELLBASICPARA
Reserved TCH Number SET
for PA
GCELLOTHEXT
Turning On
Cell Scenario
SET GCELLBASICPARA
Report Speech Quality SET GCELLOTHBASIC
FER Threshold 1
SET GCELLOTHEXT
FER Threshold 2
SET GCELLOTHEXT
FER Threshold 3
SET GCELLOTHEXT
FER Threshold 4
SET GCELLOTHEXT
FER Threshold 5
SET GCELLOTHEXT
FER Threshold 6
SET GCELLOTHEXT
FER Threshold 7
SET GCELLOTHEXT
FER Report Enable
SET GCELLSOFT
Report Downlink VQI Allowed
SET GCELLSOFT
AMR ACS[WB]
SET GCELLCCAMR
AMR DL Coding Rate adj.hyst1[WB]
SET GCELLCCAMR
AMR DL Coding Rate adj.hyst2[WB]
SET GCELLCCAMR
AMR DL Coding Rate adj.th1[WB]
SET GCELLCCAMR
AMR DL Coding Rate adj.th2[WB]
SET GCELLCCAMR
Whether to enable the TRX aiding function. Four aiding modes
Delay time for mutual-aid detection on a cell after the cell is initi
This parameter specifies whether to allow the BSC6900 to enab
This parameter specifies the number of idle channels that shou
Information about the cell scenario. It needs to be sent to the B
Whether to allow the BTS to report the voice quality index VQI.
If the FER carried in the measurement report MR received is lo
If the FER carried in the MR received is greater than "FER thres
If the FER carried in the MR received is greater than "FER thres
If the FER carried in the MR received is greater than "FER thres
If the FER carried in the MR received is greater than "FER thres
If the FER carried in the MR received is greater than "FER thres
If the FER carried in the MR received is greater than "FER thres
Whether the BTS reports the frame erase ratio in a measureme
Whether to allow the BTS to report the downlink voice quality in
Active coding set ACS[WB], indicates a set of wide-band coding
Adjustment hysteresis 1 of AMR downlink coding rate wide ban
Adjustment hysteresis 2 of AMR downlink coding rate wide ban
Adjustment threshold 1 of AMR downlink coding rate wide band
Adjustment threshold 2 of AMR downlink coding rate wide band
AMR Starting Mode[WB]SET GCELLCCAMR
AMR UL Coding Rate adj.hyst1[WB]
SET GCELLCCAMR
AMR UL Coding Rate adj.hyst2[WB]
SET GCELLCCAMR
AMR UL Coding Rate adj.th1[WB]
SET GCELLCCAMR
AMR UL Coding Rate adj.th2[WB]
SET GCELLCCAMR
Initial coding mode used for broadband AMR calls. The three va
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
Based on the RQI in the call measurement report, the BTS and
GUI_VALUE_RANGE
ACTUAL_VALUE_RANGE
UNIT DEFAULT_VALUE
RECOMMENDED_VALUE
BCCHNormBCCHNorm,BCCHNorm,
BCCHExtBCCHExt
BCCHExt
None BCCHNorm
BCCHNorm
OFFOFF, ONON
OFF, ON
None OFF
OFF
R98_or_belowR98 or below,
R98_or_below,
R99_or_aboveR99
R99_or_above
or above
None R98_or_below
R98_or_below
A5/0~0 A5/1~1 A5/2~2 A5/3~3
A5/0, A5/1,
A5/4~4
A5/2,
A5/5~5
A5/3,A5/6~6
A5/4, None
A5/5,
A5/7 A5/6,
A5/0-1&A5/1-0&A5/2-0&A5/3-0&A5/4-0&A5/5-0&A5/6-0&A5/7-0
A5/7
A5/0-1&A5/1-0&A5/2-0&A5/3-0&A5/4-0&A5/5-0
OFFOff, ONOn
OFF, ON
None OFF
OFF
0~65535
0~65535
None
0
0
1_Times1_Times, 2_Times2_Times,
1_Times, 2_Times,
4_Times4_Times,
4_Times,None
7_Times
7_Times7_Times
7_Times
7_Times
1_Times1_Times, 2_Times2_Times,
1_Times, 2_Times,
4_Times4_Times,
4_Times,None
7_Times
7_Times7_Times
7_Times
7_Times
1_Times1_Times, 2_Times2_Times,
1_Times, 2_Times,
4_Times4_Times,
4_Times,None
7_Times
7_Times7_Times
7_Times
7_Times
1_Times1_Times, 2_Times2_Times,
1_Times, 2_Times,
4_Times4_Times,
4_Times,None
7_Times
7_Times7_Times
7_Times
7_Times
0_level0_level, 1_level1_level,
0_level,2_level2_level,
1_level, 2_level,
3_level3_level,
3_level,
None4_level,
12_level
4_level4_level,
5_level, 6_level,
5_level5_level,
12_level
7_level, 8_level,
6_level6_level,
9_level, 10_level,
7_level7_level,
11_level,
8_le
0_level0_level, 1_level1_level,
0_level,2_level2_level,
1_level, 2_level,
3_level3_level,
3_level,
None4_level,
13_level
4_level4_level,
5_level, 6_level,
5_level5_level,
13_level
7_level, 8_level,
6_level6_level,
9_level, 10_level,
7_level7_level,
11_level,
8_le
0_level0_level, 1_level1_level,
0_level,2_level2_level,
1_level, 2_level,
3_level3_level,
3_level,
None4_level,
14_level
4_level4_level,
5_level, 6_level,
5_level5_level,
14_level
7_level, 8_level,
6_level6_level,
9_level, 10_level,
7_level7_level,
11_level,
8_le
0_level0_level, 1_level1_level,
0_level,2_level2_level,
1_level, 2_level,
3_level3_level,
3_level,
None4_level,
16_level
4_level4_level,
5_level, 6_level,
5_level5_level,
16_level
7_level, 8_level,
6_level6_level,
9_level, 10_level,
7_level7_level,
11_level,
8_le
T_1212, T_1515, T_2020,
T_12,
T_3030,
T_15,T_4141,
T_20, T_30,
T_5555,
T_41,
None
T_7676,
T_55,
T_20
T_109109,
T_76, T_109,
T_163163,
T_163,
T_20T_217
T_217217
T_22, T_33, T_44, T_55,T_2,
T_66,
T_3,
T_77,
T_4,T_88,
T_5, T_6,
T_99,T_7,
T_1010,
None
T_8, T_20
T_1212,
T_9, T_10,
T_1414,
T_12, T_1616,
T_14,
T_20T_16,
T_2020,
T_20,T_2525,
T_25, T_32,
T_3232,
T_50
T_5050
8BIT8BIT, 11BIT11BIT 8BIT, 11BIT
None 8BIT
8BIT
ULPRIORITYUplink Priority,
ULPRIORITY,
NEUTRALNeutral
NEUTRAL,
Priority,
DLPRIORITY
None
DLPRIORITYDownlink
NEUTRAL
Priority
NEUTRAL
0~255
0~255
None
62 In Normal cell,the recommended value is 62;in
NONo, YESYes
NO, YES
None NO
NO
0~65535
0~65535
DISABLEDisable, ENABLEEnable
DISABLE, ENABLE
NONo, YESYes
NO, YES
NONo, YESYes
NO, YES
2~255
2~255
None
None DISABLE
None NO
None NO
None
36671
36671
DISABLE
NO
NO
2
2
2~255
2~255
None
8 The recommended value is 8 when DTX is disa
2~255
2~255
None
60
60
2~255
2~255
None
2
2
2~255
2~255
None
2
2
2~255
2~255
None
8
8
2~255
2~255
None
60
60
2~255
2~255
None
2
2
ALG1Algorithm I, ALG2Algorithm
ALG1, ALG2,
II, NONENone
NONE
None ALG1
ALG1
DISABLEDisable, ENABLEEnable
DISABLE, ENABLE
None DISABLE
DISABLE
4_75KBIT/S~0 5_15KBIT/S~1
4_75KBIT/S,
5_90KBIT/S~2
5_15KBIT/S,
6_70KBIT/S~3
5_90KBIT/S,
None 4_75KBIT/S-1&5_15KBIT/S-0&5_90KBIT/S-1&6_70KBIT/S-0&7_40
7_40KBIT/S~4
6_70KBIT/S,7_95KBIT/S~5
7_40KBIT/S,
4_75KBIT/S-1&5_15KBIT/S-0&5_90KBIT/S-1&
7_95KBIT/S,
10_2KBIT/S~6
10_2KBIT/S,
12_2KBIT/S
12_2KBIT
NONo, YESYes
NO, YES
None YES
YES
0~15
0~15
None
2
2
0~15
0~15
None
3
3
0~15
0~15
None
3
3
0~63
0~63
dB
12
12
0~63
0~63
dB
17
17
0~63
0~63
dB
25
25
0~3
0~3
None
1
1
0~15
0~15
None
2
2
0~15
0~15
None
3
3
0~15
0~15
None
3
3
0~63
0~63
dB
15
15
0~63
0~63
dB
19
19
0~63
0~63
dB
28
28
DISABLEDisable, ENABLEEnable
DISABLE, ENABLE
None DISABLE
DISABLE
4_75KBIT/S~0 5_15KBIT/S~1
4_75KBIT/S,
5_90KBIT/S~2
5_15KBIT/S,
6_70KBIT/S~3
5_90KBIT/S,
None 4_75KBIT/S-1&5_15KBIT/S-0&5_90KBIT/S-1&6_70KBIT/S-0&7_40
7_40KBIT/S~4
6_70KBIT/S,7_95KBIT/S
7_40KBIT/S,
4_75KBIT/S-1&5_15KBIT/S-0&5_90KBIT/S-1&
7_95KBIT/S
NONo, YESYes
NO, YES
None YES
YES
0~15
0~15
None
3
3
0~15
0~15
None
4
4
0~15
0~15
None
15
15
0~63
0~63
dB
23
23
0~63
0~63
dB
31
31
0~63
0~63
dB
63
63
0~3
0~3
None
0
0
0~15
0~15
None
3
3
0~15
0~15
None
4
4
0~15
0~15
None
15
15
0~63
0~63
dB
23
23
0~63
0~63
dB
31
31
0~63
0~63
dB
63
63
OFFOff, ONOn
OFF, ON
None ON
ON
0~99
0~99
per cent
55
55
4_Times, 8_Times, 12_Times,
1920~30720,
16_Times,
step:480
20_Times,ms
24_Times,
64_Times
28_Times, 32_Times,
64_Times
36_Times, 40_Times, 44_Times, 48_Tim
0~63
0~30240, step:480
ms
48
48
4_Times, 8_Times, 12_Times,
1920~30720,
16_Times,
step:480
20_Times,ms
24_Times,
52_Times
28_Times, 32_Times,
52_Times
36_Times, 40_Times, 44_Times, 48_Tim
0~63
0~30240, step:480
ms
32
32
0~63
0~63
None
0
0
0~23
0~23
None None
None
NO_HPANTNo, YES_HPANTYes,
NO_HPANT,
NONENone
YES_HPANT, NONE
None NONE
NONE
NO_HPANTNo, YES_HPANTYes
NO_HPANT, YES_HPANT None None
None
0~100
0~100
per cent
0
0
NONO, YESYES
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None NO
NO
COMPUL0Compulsory 0,
COMPUL0,
COMPUL1Compulsory
COMPUL1, FLEX
1, FLEXFlexible
None FLEX
FLEX
0~31
0~31
s
0
0
0~7
0~7
None
0
0
0dB, 2dB, 4dB, 6dB, 8dB,
0dB,
10dB,
2dB,
12dB,
4dB,14dB
6dB, 8dB, 10dB,
dB 12dB,
6dB14dB
6dB
0~63
0~126, step: 2
dB
0
0
NONo, YESYes
NONo, YESYes
NONO, YESYES
NO, YES
NO, YES
NO, YES
None YES
None NO
None NO
YES
NO
The CBA function applies to special scenarios.
SELECTION0_PERM, SELECTION1_PERM,
SELECTION0_PERM,SELECTION2_PERM,
SELECTION1_PERM,
None SELECTION0_PERM-1&SELECTION1_PERM-1&SELECTION2_P
SELECTION3_PERM,
SELECTION2_PERM,
SELECTION0_PERM-1&SELECTION1_PERM
SELECTION4_PERM,
SELECTION3_PERM,SELECTION
SELECTIO
0~63
0~63
dB
30
30
0~7
0~7
None
1
1
OFFOff, ONOn
OFF, ON
None OFF
OFF
1~60
1~60
s
30
30
hour, min, sec
00:00:00~23:59:59
None None
None
1~3600
1~3600
s
600 None
REHOSTRIGHTNOWReHostRightNow,
REHOSTRIGHTNOW,
REHOSTDELAYReHostDelay,
REHOSTDELAY,
None REHOSTDELAY
REHOSTWHEN
REHOSTWHENReHostWhen
REHOSTDELAY
NONO, YESYES
NO, YES
None YES
YES
0~9
0~0.9, step:0.1
m
0
0
0~6553
0~6553
m
40
40
0~360
0~360
degree
360 None
0~360
0~360
degree
360
360
DegreeDegree, D_min_secDegree
Degree, D_min_sec
Minute Second None Degree
Degree
North_latitudeNorth latitude,
North_latitude,
South_latitudeSouth
South_latitude
latitude
None None
None
East_LongitudeEast Longitude,
East_Longitude,
West_LongitudeWest
West_Longitude
None
Longitude
None
None
None
1~5 characters
degreeNone
None
0~90
0~90
degreeNone
None
0~90
0~90
degreeNone
None
0~59
0~59
minuteNone
None
0~9
0~9
secondNone
None
0~59
0~59
secondNone
None
None
1~5 characters
degreeNone
None
0~180
0~180
degreeNone
None
0~180
0~180
degreeNone
None
0~59
0~59
minuteNone
None
0~9
0~9
secondNone
None
0~59
0~59
secondNone
None
NONo, YESYes
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None NO
NO
OFFOff, ONOn
OFF, ON
None OFF
OFF
2~4
2~4
s
3
3
NONo, YESYes
NO, YES
None YES
If this parameter is set to NO, the average call d
0~1023
0~1023
None None
None
hour, min, sec
HOUR{0~23}, MIN{0~59}, SEC{0~59}
None None
None
MainDiversityMainDiversity,
MainDiversity,
MaximumMeanValueMaximumMeanValue
MaximumMeanValue
None MaximumMeanValueMaximumMeanValue
INTBANIINTBANI, INTBANIIINTBANII
INTBANI, INTBANII
None INTBANII
INTBANII
InnerInner, ExtraExtra Inner, Extra
None None
If the coverage area in the underlaid subcell is l
1~65533,65535
1~65533, 65535
None None
None
1~2
1~2
None
1
1
OFFOFF, ONON
OFF, ON
None None
None
0~255
0~255
None None
None
GSM900, DCS1800, GSM850,
GSM900,
PCS1900
DCS1800, GSM850,
None
PCS1900
None
None
OFFOFF, ONON
OFF, ON
None None
None
OFFOFF, ONON
OFF, ON
None None
None
OFFOFF, ONON
OFF, ON
None None
None
OFFOFF, ONON
OFF, ON
None None
None
0~255
0~255
None None
None
OFFOff, ONOn
OFF, ON
None ON
ON
0~61
0~61
dB
35
35
0~61
NONo, YESYes
OFFOff, ONOn
0~100
0~61
NO, YES
OFF, ON
0~100
dB
None YES
None ON
per cent
32
32
YES
ON
60
60
0~100
0~100
per cent
70
70
CONVERT0Only convertCONVERT0,
at UL, CONVERT1Only
CONVERT1,convert
CONVERT2,
Noneat CONVERT0
OL, CONVERT2UL
CONVERT3 CONVERT0
first and convert allowed, CONVERT3OL first a
Normal_cellNormal Cell,Normal_cell,
Concentric_cellConcentric
Concentric_cell,
Cell,
None
EDB_cell
EDB_cellEnhanced
Normal_cell
Double
Normal_cell
Frequency Cell
0~7
0~7
None None
None
0~12
0~12
None
4
4
1~4
1~4
None
1
1
0~12
0~12
None
1
1
0~7
0~7
None None
None
0~5047
0~5047
None None
None
0~5047
0~5047
None None
None
None
0~5000 characters
None None
None
None
0~5000 characters
None None
None
0~65535
0~65535
None None
None
0~1023
0~1023
None None
None
AUTOAuto, MANUManuAUTO, MANU
None None
None
FULL_RATE_VER1, FULL_RATE_VER2,
Full_rate_Ver1, Full_rate_Ver2,
FULL_RATE_VER3,
None
Full_rate_Ver3,
FULL_RATE_VER1-1&FULL_RATE_VER2-1&FULL_RATE_VER3HALF_RATE_VER1,
Half_rate_Ver1,
FULL_RATE_VER1-1&FULL_RATE_VER2-1&
HALF_RATE_VER2,
Half_rate_Ver2, Half_rate_Ver3,
HALF_RATE_VER3,
Full_r
0~1023
0~1023
None None
None
AUTOAuto, MANUManuAUTO, MANU
None None
None
HOALGORITHM1Handover
HOALGORITHM1,
algorithm I, HOALGORITHM2Handover
HOALGORITHM2
None HOALGORITHM1
algorithm II HOALGORITHM1
AUTOAuto, MANUManuAUTO, MANU
None None
None
AUTOAuto, ManualManual
AUTO, Manual
None None
None
0~127
0~127
None None
None
1~64
1~64
None None
TRUESupport, FALSENot
TRUE,
Support
FALSE
0~255
0~255
0~21
0~21
0~65535
0~65535
1~30
1~30
0~65535
0~65535
NONo, YESYes
NO, YES
DISABLEDisable, ENABLEEnable
DISABLE, ENABLE
0~100
0~100
0~100
0~100
00, 11, 22, 44, 88, 1616,0,3232,
1, 2, 6464
4, 8, 16, 32, 64
NONO, YESYES
NO, YES
None None
None
None
None
None None
None
None YES
None DISABLE
per cent
per cent
s
None NO
NONo, YESYes
None YES
NO, YES
None
None
0
5
65535
0
5
65535
None
65535
65535
YES
DISABLE
85
90
4
85
90
4
NO
YES
NONo, YESYes
NO, YES
None YES
May_UseMay Use, Shall_UseShall
May_Use, Shall_Use,
Use, Shall_NOT_UseShall
Shall_NOT_Use
None Shall_Use
not Use
YES
Shall_Use
May_UseMay Use, Shall_UseShall
May_Use, Shall_Use,
Use, Shall_NOT_UseShall
Shall_NOT_Use
None Shall_Use
not Use
Shall_Use
NONo, YESYes
NO, YES
None YES
None
0~255
0~255
min
5
5
1~16
1~16
None
5
5
0~100
0~100
per cent
50
50
0~8
0~8
None
6
6
HOUR, MINUTE
00:00~23:59
None
0:00 None
HOUR, MINUTE
00:00~23:59
None
0:00 None
0~100
0~100
per cent
80
80
0~2047
0~2047
None None
None
BYNAMEBy name, BYIDBy
BYNAME,
index BYID
None BYNAME
BYNAME
None
1~64 characters
None None
None
DISABLEDisable, ENABLEEnable,
DISABLE, ENABLE,
SLEEPINGSleeping
SLEEPING
None None
DISABLE
NOTSUPPORTNot Support,
NOTSUPPORT,
DDIVERSITYDDIVERSITY,
DDIVERSITY,
None
DPBT
DPBTDPBT
NOTSUPPORT
NOTSUPPORT
NONo, YESYes
NO, YES
None NO
NO
1~15
1~15
None
15
15
OFFOff, ONOn
OFF, ON
None OFF
OFF
NONo, YESYes
NO, YES
None NO
NO
0~190
0~190
None
0
0
OFFOff, ONOn
OFF, ON
None OFF
OFF
OFFOff, ONOn
OFF, ON
None OFF
OFF
1~600
1~600
s
60
60
OFFOff, ONOn
OFF, ON
None OFF
OFF
OFFOff, ONOn
OFF, ON
None OFF
OFF
NONo, YESYes
NO, YES
None YES
YES
NONo, YESYes
NO, YES
None NO
NO
hour, min
00:00~23:59
None None
None
0~15
0~3, Step:0.2
dB
0
0
hour, min
00:00~23:59
None
0:00 None
NONo, YESYes
NO, YES
None YES
YES
NONo, YESYes
NO, YES
None YES
YES
0~22
0~22
dB
22
22
0~100
0~100
per cent
25
25
NONo, YESYes
NO, YES
None YES
YES
NONo, YESYes
NO, YES
None YES
YES
NONo, YESYes
NO, YES
None YES
YES
OFFOff, ONOn
ON, OFF
None OFF
OFF
NONo, YESYes
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None YES
YES
NONENone, DYNAMICDynamic
NONE, DYNAMIC
power sharing
None NONE
NONE
0~100
0~100
per cent
60
60
NONo, YESYes
NO, YES
None YES
YES
0~100
0~100
per cent
100
100
0~100
0~100
per cent
100
100
CAPABILITYCapability preferred,
CAPABILITY,
QUALITYQuality
QUALITY, PSRELATIVELY,
preferred,
None CAPABILITY
PSRELATIVELYPS
PSABSOLUTELY
CAPABILITY
relatively preferred, PSABSOLUTELYPS abso
OFFOff, ONOn
OFF, ON
None OFF
None
48~115
48~115
None
110
110
48~115
48~115
None
105
105
48~115
48~115
None
98
98
48~115
48~115
None
92
92
48~115
48~115
None
87
87
48~115
48~115
None
85
85
1~31
480~14880, step: 480
ms
20
20
InnerInner, ExtraExtra Inner, Extra
None None
None
0~2047
0~2047
None None
None
None
1~64 characters
None None
None
BYNAMEBy Name, BYIDBy
BYNAME,
Index BYID
None None
None
0~63
0~63
dB
2
2
0~63
1~255
1~255
0~11
0~255
NONo, YESYes
NONo, YESYes
NONo, YESYes
1~255
0~63
0~100
0~63
NONo, YESYes
0~100
0~63
NONo, YESYes
1~255
1~255
0~63
0~100
0~63
1~255
1~255
0~11
0~255
NO, YES
NO, YES
NO, YES
1~255
0~63
0~100
0~63
NO, YES
0~100
0~63
NO, YES
1~255
1~255
0~63
0~100
dB
s
s
None
s
None NO
None YES
None NO
s
dB
per cent
dB
None YES
per cent
dB
None YES
s
s
dB
per cent
10
4
5
10
5
10
4
5
10
5
NO
YES
NO
10
5
90
30
10
5
90
30
YES
80
25
80
25
YES
1
5
5
50
1
5
5
50
0~100
0~100
per cent
90
90
NONo, YESYes
NO, YES
None NO
NO
EnhMeasReportEnhanced
EnhMeasReport,
Measurement Report,
ComMeasReport
ComMeasReportCommon
None ComMeasReportMeasurement
ComMeasReport
Report
ADD0dB+0dB, ADD10dB+10dB,
ADD0dB,AutomaticAutomatic
ADD10dB, Automatic
None ADD0dB
ADD0dB
NONo, YESYes
NO, YES
None YES
YES
0~31
TCH:0~14880, step:480; SDCCH:0~14570,
ms
step:470 2
2
0~31
TCH:0~14880, step:480; SDCCH:0~14570,
ms
step:470 6
6
0~31
TCH:0~14880, step:480; SDCCH:0~14570,
ms
step:470 2
2
0~31
TCH:0~14880, step:480; SDCCH:0~14570,
ms
step:470 6
6
0~31
TCH:0~14880, step:480; SDCCH:0~14570,
ms
step:470 2
2
0~31
TCH:0~14880, step:480; SDCCH:0~14570,
ms
step:470 6
6
0~31
TCH:0~14880, step:480; SDCCH:0~14570,
ms
step:470 2
2
0~31
TCH:0~14880, step:480; SDCCH:0~14570,
ms
step:470 6
6
NONo, YESYes
1~14
NONo, YESYes
NONo, YESYes
NO, YES
1~14
NO, YES
NO, YES
None NO
None
None NO
None YES
NO
1
1
NO
YES
NONo, YESYes
NO, YES
None YES
YES
Normal_cellNormal cell, Normal_cell,
DualTS_ExtCellDouble
DualTst_ExtCell
Timeslot
NoneExtension
Normal_cell
Cell
Normal_cell
CLOSEClose, OPENOpen
CLOSE, OPEN
None CLOSE
CLOSE
NONo, YESYes
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None NO
NO
OFFOff, ONOn
OFF, ON
None OFF
When tight frequency reuse is used, the recom
OFFOff, ONOn
OFF, ON
None OFF
OFF
GSM900, DCS1800, GSM900_DCS1800,
GSM900, DCS1800,
GSM850,
GSM900_DCS1800,
PCS1900,
None None
GSM850_1800,
GSM850, PCS1900,
GSM850_1900
None GSM850_1800, GSM850_1900
None
1~200 characters
None None
None
0~1023
0~1023
None None
None
GSM900GSM900, DCS1800DCS1800
GSM900, DCS1800
None None
None
0~63
0~63
0~7
0~7
0~63
0~63
BaseBand_FHBaseBandBaseBand_FH,
FH, RF_FHRFRF_FH
FH
NONo, YESYes
NO, YES
NO_HopNo hop, HopHop
NO_Hop, Hop
None
None None
None None
None None
None YES
None None
0
0
None
None
None
YES
None
NO_FHNo frequency hopping,
NO_FH,
BaseBand_FHBaseband
BaseBand_FH, RF_FH,
None
frequency
Hybrid_FH
NO_FHhopping, RF_FHRF
NO_FHfrequency hopping, Hybrid_FHHybrid fre
CA_MACA+MA, Frequency_ListFrequency
CA_MA, Frequency_List,
List, OPTIMIZED_CA_MAOptimized
OPTIMIZED_CA_MA
None CA_MA
CA_MA
CA+MA
NT14_5K~0 NT12K~1 NT6K~2
NT14_5K,
T14_4K~3
NT12K, T9_6K~4
NT6K, T14_4K,
T4_8K~5
None T9_6K,
NT14_5K-0&NT12K-1&NT6K-1&T14_4K-0&T9_6K-1&T4_8K-1&T2
T2_4K~6
T4_8K,
T1_2K~7
T2_4K,
NT14_5K-0&NT12K-1&NT6K-1&T14_4K-0&T9
T600_BITS~8
T1_2K, T600_BITS,
T1200_75
T1200_75
2~65534
2~65534
None None
None
NoPriorityNo Priority, Priority4Priority
NoPriority, Priority4,
4, Priority3Priority3,
Priority3,None
Priority2,
Priority2Priority
Priority4
Priority1, Priority0,
2, Priority1Priority
Priority4
PriorityB,1,
PriorityA
Priority0Priority 0, PriorityBPriority
NONo, YESYes
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None YES
YES
NoPriorityNo Priority, Priority4Priority
NoPriority, Priority4,
4, Priority3Priority3,
Priority3,None
Priority2,
Priority2Priority
NoPriority
Priority1, Priority0,
2, Priority1Priority
NoPriority
PriorityB,1,
PriorityA
Priority0Priority 0, PriorityBPriority
NoPriorityNo Priority, Priority4Priority
NoPriority, Priority4,
4, Priority3Priority3,
Priority3,None
Priority2,
Priority2Priority
NoPriority
Priority1, Priority0,
2, Priority1Priority
NoPriority
PriorityB,1,
PriorityA
Priority0Priority 0, PriorityBPriority
0~7
0~7
None
5
5
0~7
0~7
None
3
3
0~7
0~7
None
4
4
0~7
0~7
None
6
6
NONo, YESYes
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None YES
YES
10~65535
10~65535
None
180
180
10~65535
10~65535
None
220
220
NONo, YESYes
0~7
0~7
0~3
0~7
0~7
NO, YES
None None
0~42, step: 6
dB
0~36, Positive infinity, step: 6dB
0~3
None
-20, -6, -18, -8, -16, -10, -14, dB
-12
0~7
dB
None
0
0
2
0
0
0
0
2
0
0
0~15
Negative infinity, -28~28, step:
dB4
RSCPRSCP, EcN0Ec/N0
RSCP, EcN0
None RSCP
0~15
-114~-84, step: 2
dBm
AUTOAuto, MANUManuAUTO, MANU
None None
0~1
0~1
None None
0~16383
0~16383
None None
0~511
0~511
None None
0~511
0~511
8
8
RSCP
6
6
None
None
None
None
None None
0~16383
0~16383
None None
0~7
0~42, step: 6
dB
0~7
0~36, Positive infinity, step: 6dB
0~7
0~42, step: 6
dB
0~7
0~36, Positive infinity, step: 6dB
Use_Qsearch_IUse Qsearch_I,
Use_Qsearch_I,
AlwaysAlways
Always
None Use_Qsearch_I
0
None
0
0
0
0
0
0
0
0
Use_Qsearch_I
0~15
0~15
-98, -94, -90, -86, -82, -78, -74,
None
always, -78, -74, -70, 15
-66, -62, -58, -54, Positive
15
infinitynever
-98, -94, -90, -86, -82, -78, -74,
None
always, -78, -74, -70, 15
-66, -62, -58, -54, Positive
15
infinitynever
0~15
0~49
-98, -94, -90, -86, -82, -78, -74,
None
always, -78, -74, -70, 15
-66, -62, -58, -54, Positive
15
infinitynever
0~49
dB
35
35
NONo, YESYes
NO, YES
0~63
NONo, YESYes
None
None
0~23
0~23
NONo, YESYes
0~20
1~4
0~14
0~14
0~63
dB
50
NO, YES
None NO
NO
1~64 characters
None None
None
1~64 characters
None None
None
0~23
dB
4
0~23
dB
10
NO, YES
None NO
NO
0~10, Step: 0.5
s
4
TCH:480~1920, step:480; SDCCH:470~1880,
ms
step:470
4
0~14
dB
0
0~14
dB
4
None NO
NO
50
4
10
4
4
0
4
0~63
0~63
dB
7
7
0~20
0~10, Step: 0.5
s
0
0
OFFNot Allowed, ONAllowed
OFF, ON
None OFF
OFF
OFFNot Allowed, ONAllowed
OFF, ON
None OFF
OFF
0~23
0~23
dB
10
10
0~20
0~10, Step: 0.5
s
2
2
0~23
0~23
dB
13
13
0~31
0~31
dB
10
10
NONo, YESYes
NO, YES
None YES
YES
0~63
0~63
dB
0
0
0~63
0~63
dB
0
0
0~22
0~22
dB
0
0
0~22
0~22
dB
0
0
0~63
0~63
dB
4
4
0Max. optimized MAIO, 1Randomization
0, 1
MAIO
None
0
0
5~40
5~40
None
20
20
0~63
0~63
dB
0
0
0~30
0~30
dB
7
7
0~20
0~10, Step: 0.5
s
9
9
0~16
0~16
None
4
4
0~63
0~63
None
0
0
0~50
0~50
dB
15 It is recommended that you set the path loss of
0~10
0~10
None
6
6
0~160
0~160
dB
110
110
0~23
0~23
dB
1
1
NONo, YESYes
NO, YES
None NO
NO
OFFNot Allowed, ONAllowed
OFF, ON
None OFF
OFF
0~63
0~63
None
20
20
NODisabled in OL and UL
NO,
subcell,
UNDER,
UNDEREnabled
INNER, YES inNone
UL subcell,
UNDER
INNER Enabled
UNDER
in OL subcell, YESEnabled in OL and UL sub
NONo, YESYes
NO, YES
None NO
NO
0~23
0~23
dB
5
5
0~100
0~100
per cent
80
80
0~63
0~63
dB
40
40
0~60
0~60
s
4
4
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~63
NONo, YESYes
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~11
0~63
NO, YES
None None
None None
None None
None None
None None
None None
None None
None None
None None
None None
None None
None None
None None
None YES
None
None
None
None
None
None
None
None
None
None
None
None
None
YES
NONO, YESYES, NULLNULL
NO, YES, NULL
None NO
NO
10~80
10~80
None
30
30
NONo, YESYes
NO, YES
None NO
NO
BYNAMEBy Name, BYIDBy
BYNAME,
Index BYID
None None
None
MCS1MCS1, MCS2MCS2,
MCS1,
MCS3MCS3,
MCS2, MCS3,
MCS4MCS4,
MCS4,None
MCS5,
MCS5MCS5,
MCS5
MCS6, MCS6MCS6,
MCS7, MCS8,
MCS5
MCS7MCS7,
MCS9
MCS8MCS8, MCS9MCS9
0~3
0~3
None
0 If the traffic volume on each frequency band is
0~3
0~3
None
3
3
0~1
0~1
None
1
1
0~1
0~1
None
1
1
0~1
0~1
None
1
1
OnlyCurPwrLocOnly Current
OnlyCurPwrLoc,
Working Location
ALLPwrLoc
TRXes
None
be Turned
ALLPwrLoc
On, ALLPwrLocAll
ALLPwrLoc
Location TRXes be Turned On
NMOINetwork OperationNMOI,
Mode NMOII,
I, NMOIINetwork
NMOIII Operation
None Mode
NMOIIII, NMOIIINetwork
NMOII
Operation Mode III
OFFOff, ONOn
OFF, ON
None OFF
OFF
0~16
0~16
None
4
4
2GPreference for 2G Cell,
2G,3GPreference
3G
for 3G Cell None 2G
2G
0~100
0~100
per cent
30
30
0~31
0~31
None
16
16
0~31
0~31
None
7
7
0~32
0~32
None
6
6
0~7
0~7
None
5
5
FORBIDForbid, PERMITPermit
FORBID, PERMIT
None PERMIT
PERMIT
0~63
0~63
None
40
40
0~100
0~100
per cent
60
60
0~100
0~100
per cent
85
85
0~63
0~63
None
15
15
0~255
0~255
None
200
200
FORBIDForbid, PERMITPermit
FORBID, PERMIT
None PERMIT
PERMIT
0~255
0~255
s
10
10
0~63
0~63
None
30
30
0~63
0~63
None
6
6
1~10
1~10
s
2
2
1~32
1~32
None
10
10
1~32
1~32
None
1
1
FORBIDForbid, PERMITPermit
FORBID, PERMIT
None PERMIT
PERMIT
NODRXNODRX, 0.24sec0.24sec,
NODRX, 0.24sec,
0.48sec0.48sec,
0.48sec, 0.72sec0.72sec,
0.72sec,
s
0.24sec
0.96sec,0.96sec0.96sec,
1.20sec, 1.44sec,
0.24sec
1.20sec1.20sec,
1.92sec
1.44sec1.44sec, 1.92se
0.48sec0.48sec, 0.96sec0.96sec,
0.48sec, 0.96sec,
1.92sec1.92sec,
1.92sec, 3.84sec3.84sec,
3.84sec,
s
15.36sec
7.68sec,7.68sec7.68sec,
15.36sec, 15.36sec
30.72sec,
15.36sec15.36sec,
61.44sec
30.72sec30.72sec, 61
0.48sec0.48sec, 0.96sec0.96sec,
0.48sec, 0.96sec,
1.92sec1.92sec,
1.92sec, 3.84sec3.84sec,
3.84sec,
s
0.96sec
7.68sec,7.68sec7.68sec,
15.36sec, 0.96sec
30.72sec,
15.36sec15.36sec,
61.44sec
30.72sec30.72sec, 61
NC0NC0, NC1NC1, NC2NC2
NC0, NC1, NC2
None NC0
NC0
0~100
0~100
per cent
0
0
1~64
1~64
s
10
10
BYCELLNAMEBy cell name,
BYCELLNAME,
BYCGIBy CGI
BYCGI
None None
None
None
1~64 characters
None None
None
FREEFree, INCELLIntra-cell,
FREE,OUTCELLOutgoing
INCELL, OUTCELL,
cell,
OUTST,
None
OUTSTOutgoing
None
OUTBSC, OUTSYS,
site, OUTBSCOutgoing
None
SPCELL
BSC, OUTSYSOutgoing system
OFFOff, ONOn
OFF, ON
None OFF
OFF
0~100
0~100
per cent
100
100
0~255
0~255
s
None
2
0~100
0~100
per cent
None
25
0~255
0~255
s
None
5
DISABLEDISABLE, ENABLEENABLE
DISABLE, ENABLE
None None
DISABLE
0~255
0~255
s
None
4
0~15
0~15
min
0
0
NONo, YESYes
NO, YES
None NO
NO
DISABLEDISABLE, ENABLEENABLE
DISABLE, ENABLE
None None
DISABLE
NONot Allowed, YESAllowed
NO, YES
None NO
NO
1~16777215
1~16777215
None None
None
LOCKLock, UNLOCKUnlock,
Lock, SHUTDOWNShutdown
Unlock, Shutdown
None UNLOCK
UNLOCK
OFFOff, ONOn
OFF, ON
None ON
ON
OUTDOOR_CELLOutdoor
OUTDOOR_CELL,
Cell, INDOOR_CELLIndoor
INDOOR_CELL
None
Cell OUTDOOR_CELL OUTDOOR_CELL
0~9
0~9
None
2
2
0~9
0~9
None
2
2
0~12
0~12
None
2
2
0~12
0~12
None
2
2
NONo, YESYes
NO, YES
None YES
YES
NONo, YESYes
NO, YES
None YES
YES
NONot Support, YESSupport
NO, YES
None NO
NO
NONot Support, YESSupport
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None NO
NO
1~16
1~16
None
6
6
NONo, YESYes
NO, YES
None NO
NO
1~8
1~8
None
4
4
2_M_PERIOD2 Multiframe
940~4230,
Period, 3_M_PERIOD3
step: 470
Multiframe
ms
2_M_PERIOD
Period, 4_M_PERIOD4
2_M_PERIOD
Multiframe Period, 5_M_PERIOD5 Multif
0~255
0~255
ms
255
255
CLOSEForced turn-off, OPENForced
CLOSE, OPEN,
turn-on,
AUTOAUTOSelf-adaptive
None OPEN
OPEN
1~8
50~400, step: 50
ms
2
2
2~15
2~15
None
5
5
250~650
250~650
None
650
650
6~120
6~120
None
16
16
6~120
6~120
None
6
6
NotSupportNot Support,NotSupport,
SupportSupport
Support
None Support
Support
NONo, YESYes
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None NO
NO
0~50
0~50
None
0
0
NONo, YESYes, NULLNull
NO, YES, NULL
None NO
NO
NONo, YESYes
NO, YES
None NO
NO
NONot Support, YESSupport,
NO, YES,
NONEInvalid
NONE
None YES
None
EM0EM0, EM1EM1
EM0, EM1
None EM0
EM0
60sec60sec, 120sec120sec,
60sec,
240sec240sec,
120sec, 240sec,
480sec480sec,
480sec,
s 960sec,
60sec
960sec960sec,
1920sec, 3840sec,
1920sec1920sec,
60sec7680sec 3840sec3840sec, 7680sec7680
TYPE1TYPE1, TYPE2TYPE2,
TYPE1,TYPE3TYPE3
TYPE2, TYPE3
None TYPE1
TYPE1
0~31
0~31
None
1
1
0~255
0~255
None
1
1
0~63
0~63
dB
30
30
0~63
0~63
None
1
1
0~63
0~63
dB
20
20
0~63
0~63
None
1
1
NONo, YESYes
NO, YES
None YES
YES
1~255
1~255
None
10
10
1~255
10~2550, step: 10
ms
10
10
1~255
1~255
None
3
3
0~255
0~255
s
0
0
1~255
1~255
None
5
5
0~255
0~12750, step: 50
ms
8
8
NONo, YESYes
NO, YES
None YES
YES
0~7
0~7
None
0
0
0~7
0~7
None
0
0
0~64
0~64
None
64
64
1~10
1~10
None
8
8
1~10
1~10
None
4
4
1~10
1~10
None
2
2
1~10
1~10
None
4
4
1~10
1~10
None
2
2
1~10
1~10
None
1
1
1~10
1~10
None
10
10
1~10
1~10
None
6
6
1~10
1~10
None
4
4
1~10
1~10
None
8
8
1~10
1~10
None
4
4
1~10
1~10
None
3
3
1~10
1~10
None
6
6
1~10
1~10
None
3
3
1~10
1~10
None
2
2
NONot Support, YESSupport
NO, YES
None NO
NO
-121~-104
-121~-104
dBm
-109
-109
0~3
0~3
None
1
1
NONo, YESYes
NO, YES
None YES
YES
-121~-104
-121~-104
dBm
-109
-109
0~255
0~255
None
225
225
L0_FORBID, L1_FORBID,
L0_FORBID,
L2_FORBID,
L1_FORBID,
L3_FORBID,
L2_FORBID,
None
L4_FORBID,
L0_FORBID-0&L1_FORBID-0&L2_FORBID-0&L3_FORBID-0&L4_
L3_FORBID,
L5_FORBID,
L4_FORBID,
L0_FORBID-0&L1_FORBID-0&L2_FORBID-0&
L6_FORBID,
L5_FORBID,
L7_FORBID,
L6_FORBID,
L8_FORBID,
L7_FOR
L9_F
1_Times1_Times, 2_Times2_Times,
1_Times, 2_Times,
4_Times4_Times,
4_Times,None
7_Times
7_Times7_Times
4_Times
4_Times
0~63
0~63
dB
16
16
L11_FORBID, L12_FORBID,
L11_FORBID,
L13_FORBID,
L12_FORBID,
L14_FORBID,
None
L13_FORBID,
L15_FORBID
L11_FORBID-0&L12_FORBID-0&L13_FORBID-0&L14_FORBID-0&
L14_FORBID,
L11_FORBID-0&L12_FORBID-0&L13_FORBID
L15_FORBID
0~255
0~255
s
15
15
20~100
20~100
per cent
80
80
0~19
1~255
0~65535
0~7
0~19
1~255
0~65535
0~7
None
s
None
None
5
15
5000
1
5
15
5000
1
TX_33, TX_44, TX_55, TX_66,
TX_3, TX_4,
TX_77,
TX_5,
TX_88,
TX_6,
TX_99,
TX_7,
None
TX_1010,
TX_8,
TX_32
TX_9,
TX_1111,
TX_10,
TX_1212,
TX_11,
TX_32TX_12,
TX_1414,
TX_14,
TX_1616,
TX_16,
TX_2020,
TX_20, TX_2525
TX_25, T
1~20
1~20
None
4
4
0~31
0~31
None
20
20
OFFOff, ONOn
OFF, ON
None OFF
OFF
0~255
0~255
None
255
255
4_Times, 8_Times, 12_Times,
1920~30720,
16_Times,
step:20_Times,
480
ms
24_Times,
52_Times
28_Times, 32_Times,
52_Times
36_Times, 40_Times, 44_Times, 48_Tim
0~63
0~30240, step: 480
ms
32
32
0~255
0~255
s
10
10
0~63
0~63
dB
6
6
0~70
0~70
None
55
55
0~63
0~63
dB
6
6
0~70
0~70
None
55
55
0~1000
0~1000
per mill
40
40
0~63
0~63
dB
6
6
0~70
0~70
None
55
55
0~1000
0~1000
per mill
40
40
0~63
0~63
dB
6
6
0~70
0~70
None
55
55
0~70
0~70
None
55
55
0~1
0~1
None
1
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
0~1
0~1
None
1
OP1Operator 1, OP2Operator
OP1, OP2,
2, OP3Operator
OP3, OP4, NONE
3, OP4Operator
None
4, NONENot255
Shared
NONo, YESYes
NO, YES
None NO
NO
1~14
1~14
None
1
0~190
0~190
None
0
NONo, YESYes
NO, YES
None NO
NO
0~7
0~7
None
5
NONo, YESYes
NO, YES
None NO
NO
NONo, YESYes
NO, YES
None YES
YES
0~255
0~255
None
80
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
255
1
0
5
80
0~63
0~63
None
2
2
60~3600
60~3600
s
60
60
NONo, YESYes
NO, YES
None NO
NO
YESYes, NONo
YES, NO
None YES
YES
1~1023
1~1023
None None
None
year, month, day, hour, min,
1970-1-1
sec 00:00:00~2538-12-31
None
23:59:59
None
None
2~3600
2~3600
s
None
60
0~65535
0~65535
None None
None
year, month, day, hour, min,
1970-1-1
sec 00:00:00~2538-12-31
None
23:59:59
None
None
None
1~615 charactersGB2312, KOI8-R,
None None
KOI8-U, KOI8, WINDOWS-1251,
None
ASMO_449, WINDOWS-1256, W
0~15
0~15
None None
None
NONo, YESYes
None
2~3600
NONo, YESYes
NO, YES
1~80 characters
2~3600
NO, YES
None YES
None Cell name
s
None NO
0~65535
0~65535
None None
None
None None
LAC_CI
LAC_CICELL IMME, PLMNALL,
LAC_CI, LACLAC,
PLMN, LAC,
CICELL
CI
YES
None
60
60
NO
GERMANGERMAN, ENGLISHENGLISH,
GERMAN, ENGLISH,
ITALIANITALIAN,
ITALIAN,
None
FRENCH,
None
FRENCHFRENCH,
SPANISH, DUTCH,
ENGLISH
SPANISHSPANISH,
SWEDISH, DANISH,
DUTCHDUTCH,
PORTUGUESE,
SWEDIS
F
NONo, YESYes
NO, YES
None NO
NO
NONot Support, YESSupport
NO, YES
None NO
NO
OFFOFF, ONON
OFF, ON
None OFF
OFF
0~63
0~63
dB
8
8
NONo, YESYes
NO, YES
None YES
1. For a 900/1800 MHz Co-BCCH cell, it is reco
0~255
0~255
s
0
0
0~4095
0~4095
None None
None
Same_BandSame Band,Same_Band,
Diff_BandDifferent
Diff_Band
Band None Diff_Band
Diff_Band
NONo, YESYes
NO, YES
None YES
YES
ALLAll, PARTPart
ALL, PART
None ALL
ALL
TRXAid_NotAllowTRX Aiding
TRXAid_NotAllow,
Not Allowed, AllowReForbidAllowed
AllowReForbid,
None AllowReImmed,
AllowReCheckRes
& Recover
AllowReCheckRes
Forbidden,
AllowReCheckRes
AllowReImmedAllowed & Recover Imm
1~60
1~60
min
15
15
NONo, YESYes
NO, YES
None YES
YES
0~16
0~16
None
2
2
COMMONCOMMON, MULTIPATHMULTIPATH,
COMMON, MULTIPATH,INDOORINDOOR,
INDOOR,
None COMMON
HIGHWAY
HIGHWAYHIGHWAY
COMMON
NONot report, YESReport,
NO,NONENone
YES, NONE
None NO
NO
0~1000
0~1000
per mill
2
2
0~1000
0~1000
per mill
4
4
0~1000
0~1000
per mill
8
8
0~1000
0~1000
per mill
16
16
0~1000
0~1000
per mill
32
32
0~1000
0~1000
per mill
64
64
0~1000
0~1000
per mill
128
128
NONo, YESYes
NO, YES
None NO
For the double-transceiver BTS and NGBTS, th
DISABLEDisable, ENABLEEnable,
DISABLE, ENABLE,
UNSUPPORTUnsupport
UNSUPPORT
None DISABLE
DISABLE
6_60KBIT/S, 8_85KBIT/S,
0~712_65KBIT/S
None 6_60KBIT/S-1&8_85KBIT/S-1&12_65KBIT/S-1
6_60KBIT/S-1&8_85KBIT/S-1&12_65KBIT/S-1
0~15
0~15
None
2
2
0~15
0~15
None
2
2
0~63
0~63
dB
12
12
0~63
0~63
dB
18
18
0~2
0~15
0~15
0~63
0~63
0~2
0~15
0~15
0~63
0~63
None
None
None
dB
dB
2
2
2
21
25
2
2
2
21
25
PARAMETER_RELATIONSHIP
CAUTION RADIO_PERFORMACE_IMPACT
ATTRIBUTE
If this parameter is BCCHExt,"CCCH
None
Blocks Reserved
None
for AGCH" must be more than
Radio
0.
None
None
The number of block retransmissionsEquipment
is decreased and the throughput is increase
None
If the GSM BSC
Noneis connected to the GSM MSC, Radio
it is recommended that you set this parameter
None
The value ofNone
this parameter must be the same atRadio
both the BSS side and the NSS side. Wheth
None
None
If this function is enabled after encryption
Radiois enabled, the network security can be i
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
The throughput is affected.
Radio
None
If this parameter
Noneis set to a smaller value, the handover
Radio success rate may be affected.
None
None
None
Radio
None
None
None
Radio
None
None
When this parameter is set to on, theRadio
MOS of a MS-initiated and MS-terminated ca
None
None
When this parameter is set to YES and
Radio
the value of the downlink threshold is not r
None
None
When this parameter is set to YES and
Radio
the value of the uplink threshold is not reas
The setting of this parameter mustGenerally,
meet the the
following
None
value conditions:
of this parameter
"DLLTFERLOWTH"
does not need
Radio
<adjustment.
"DLLTFERTGT";
It is the
"DLLTFERLOWTH"
lower limit for adjusti
<
This
parameter
is used for
the
adaptive
adjustmen
t function
of AMR
downlink
threshold.
When the
voice is in
poor
performan
ce not
being
affected by
the
channel
quality: If
the low
rate mode
is more
used in the
adaptation
, you can
increase
the value
of this
parameter;
if the high
rate mode
morethe following
The setting of this parameter mustismeet
None condition: "LTFERLOWTH" Radio
< "DLLTFERTGT" < "LTFERUPTH".
The setting of this parameter mustGenerally,
meet the the
following
None
value conditions:
of this parameter
"DLLTFERUPTH"
does not need
Radio
> "DLLTFERTGT";
adjustment. It is "DLLTFERUPTH"
the upper limit for >
adjust
"DLL
None
Generally, the
None
value of this parameter is fixed to Radio
2, with no need of adjustment. The value of th
The setting of this parameter mustGenerally,
meet the the
following
None
value conditions:
of this parameter
"LTFERLOWTH"
does not need
Radio
< "LTFERTGT";
adjustment. It"LTFERLOWTH"
is the lower limit<for
"LTFERU
adjusti
The setting of this parameter mustThe
meet
value
the of
following
None
this parameter
conditions:"LTFERLOWTH"
decides whether theRadio
<threshold
"LTFERTGT";"LTFERTGT"
is adjusted upwards<or
"LTFERUPTH
downwards
The setting of this parameter mustGenerally,
meet the the
following
None
value conditions:
of this parameter
"LTFERUPTH"
does not >need
Radio
"LTFERTGT";
adjustment.
"LTFERUPTH"
It is the upper>limit
"LTFERLOW
for adjust
None
Generally, the
None
value of this parameter is fixed to Radio
2, with no need of adjustment. The value of th
None
If this parameter
Noneis set to Algorithm I, the BTS performs
Radio AMR rate adaptation according to the
None
None
When this parameter is set to on, theRadio
MOS of a MS-initiated and MS-terminated ca
None
The numberThe
of the
ACS
chosen
may affect
data rates
the MOS.
must be from
Radio
one to four. If this parameter involves only
None
None
None
Radio
The setting of this parameter mustNone
meet the following
None condition: "DLTHF1" + "DLHYSTF1"
Radio < "DLTHF2" + "DLHYSTF2".
The setting of this parameter mustNone
meet the following
None condition: "DLTHF2" + "DLHYSTF2"
Radio < "DLTHF3" + "DLHYSTF3".
The setting of this parameter mustNone
meet the following
None condition: "DLTHF2" + "DLHYSTF2"
Radio < "DLTHF3" + "DLHYSTF3".
The setting of this parameter mustNone
meet the following
The coding
conditions:
rate and"DLTHF1"
MOS are affected.
< "DLTHF2";"DLTHF1"
Radio
+ "DLHYSTF1" < "DLTHF2"
The setting of this parameter mustNone
meet the following
The coding
conditions:
rate and"DLTHF2"
MOS are affected.
< "DLTHF3";"DLTHF2"
Radio
+ "DLHYSTF2" < "DLTHF3"
The setting of this parameter mustNone
meet the following
The coding
conditions:
rate and"DLTHF2"
MOS are affected.
< "DLTHF3";
Radio
"DLTHF2" +
None
None
The setting of this parameter affects Radio
the MOS. When the C/I ratio is satisfactory, th
The setting of this parameter mustNone
meet the following
None condition: "ULTHF1" + "ULHYSTF1"
Radio < "ULTHF2" + "ULHYSTF2".
The setting of this parameter mustNone
meet the following
None condition: "ULTHF2" + "ULHYSTF2"
Radio < "ULTHF3" + "ULHYSTF3".
None
None
None
Radio
The setting of this parameter mustNone
meet the following
The coding
conditions:
rate and"ULTHF1"
MOS are affected.
< "ULTHF2";
Radio
"ULTHF1"
The setting of this parameter mustNone
meet the following
The coding
conditions:
rate and"ULTHF2"
MOS are affected.
< "ULTHF3";
Radio
"ULTHF2" +
The setting of this parameter mustNone
meet the following
The coding
conditions:
rate and"ULTHF2"
MOS are affected.
< "ULTHF3";
Radio
"ULTHF2"
None
None
When this parameter is set to ENABLE,
Radio
the MOS can be increased in a call betwe
None
The numberThe
of the
ACS
chosen
may affect
data rates
the MOS.
must be from
Radio
one to four. If this parameter involves only
None
None
None
Radio
The setting of this parameter mustNone
meet the following
None condition: "DLTHH1" + "DLHYSTH1"
Radio
< "DLTHH2" + "DLHYSTH2".
The setting of this parameter mustNone
meet the following
None condition: "DLTHH2" + "DLHYSTH2"
Radio
< "DLTHH3" + "DLHYSTH3".
The setting of this parameter mustNone
meet the following
None condition: "DLTHH2" + "DLHYSTH2"
Radio
< "DLTHH3" + "DLHYSTH3".
The setting of this parameter mustNone
meet the following
None conditions: "DLTHH1" < "DLTHH2";
Radio
"DLTHH1" +
The setting of this parameter mustNone
meet the following
None conditions: "DLTHH2" < "DLTHH3";
Radio
"DLTHH2"
The setting of this parameter mustNone
meet the following
None conditions: "DLTHH2" < "DLTHH3";
Radio
"DLTHH2"
None
None
The setting of this parameter affects Radio
the MOS. When the C/I ratio is satisfactory, th
The setting of this parameter mustNone
meet the following
None condition: "ULTHH1" + "ULHYSTH1"
Radio
< "ULTHH2" + "ULHYSTH2".
The setting of this parameter mustNone
meet the following
None condition: "ULTHH2" + "ULHYSTH2"
Radio
< "ULTHH3" + "ULHYSTH3".
None
None
None
Radio
The setting of this parameter mustNone
meet the following
None conditions: "ULTHH1" < "ULTHH2";
Radio
"ULTHH1" +
The setting of this parameter mustNone
meet the following
None conditions: "ULTHH2" < "ULTHH3";
Radio
"ULTHH2"
The setting of this parameter mustNone
meet the following
None conditions: "ULTHH2" < "ULTHH3";
Radio
"ULTHH2"
None
None
None
Radio
None
None
If this parameter is set to a greater value,
Radiocell congestion may not be relieved. If th
None
With a goodIfanti-interference
this parameter iscapability,
set to higher
AMRvalue,
codes
Radio
channel
can support
resources
a lower
may
carrier-to-interference
be wasted; if this p
None
With a goodIfanti-interference
this parameter iscapability,
set to higher
AMRvalue,
codes
Radio
channel
can support
resources
a lower
may
carrier-to-interference
be wasted; if this p
None
With a goodIfanti-interference
this parameter iscapability,
set to higher
AMRvalue,
codes
Radio
channel
can support
resources
a lower
may
carrier-to-interference
be wasted; if this p
None
With a goodIfanti-interference
this parameter iscapability,
set to higher
AMRvalue,
codes
Radio
channel
can support
resources
a lower
may
carrier-to-interference
be wasted; if this p
None
None
None
Equipment
None
The parameter
None
cannot be modified.
Equipment
None
None
None
Radio
None
None
None
Equipment
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
ACS is usually
None
set to 0 because system information
Radio
7 and 8 messages are seldom used in com
None
None
The setting of this parameter affects Radio
the GSM Phase II MS.
None
None
None
Radio
None
None
The MS cannot respond to the paging
Radio
during the location update, thus decreasing
None
The settingsNone
of RXLEV-ACCESS-MIN and CRO Radio
should guarantee that cells with same priority
None
None
None
The MS calculates C1 and C2 of
the serving cell at a minimum
interval of 5s. When necessary, the
MS re-calculates C1 and C2 of all
non-serving cells neighboring cells.
The MS constantly checks whether
a cell reselection is required by
checking following conditions:
Whether the path loss C1 of the
current serving cell drops below 0
within 5s. If yes, the path loss is too
large.
C2 of an appropriate non-serving
cell exceeds that of the serving cell
in 5s and the following conditions
are met:
The C2 of a new cell in another
LAC minus CRH broadcast in the
system information 3 and 4 of the
serving cell exceeds C2 of the
serving cell in 5s.
A cell reselection is performed in
the last 15s, and the C2 of the new
cell minus 5 dB constantly exceeds
the C2 of the serving cell in 5s.
A better cell exists if the above
conditions are met. If a better cell
exists, the MS reselects a cell, and
does not select the previous cell
within 5s.
Radio
None
If the value of
None
"Cell Bar Access" is YES and the value
Radioof "Cell Bar Qualify" is NO, new call acce
If the value of
None
"Cell Bar Access" is YES and the value
Radioof "Cell Bar Qualify" is NO, new call acce
None
None
The most significant three bits of BSIC
Radio
for all cells map with the NCC. NCC Permit
This parameter is valid only whenNone
"TIGHTBCCHSWITCH"
If this parameter
in "SET
is setGCELLCHMGBASIC"
to a greater value,
RadiotheisBCCH
set to ON.
may idle while non-BCCHs ar
This parameter is valid only whenNone
"TIGHTBCCHSWITCH"
If this parameter
in "SET
is setGCELLCHMGBASIC"
to a greater value,
Radiotheisassignment
set to ON. of the BCCH may fail, an
None
Multi-band networks
None
cannot use the TIGHT BCCH
Radio
algorithm.
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
This parameter
None
is valid on a per cell basis and is Radio
valid only when "ACOOPERATPAGINGSWIT
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Radio
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
When this parameter
If this parameter
is set toisYES,
set toduring
YES, the
the channel
speech
Radio quality
activation
is improved.
of the BSC6900, if the alloca
None
None
None
Equipment
None
None
None
Radio
None
None
Call reestablishment can decrease the
Radio
call drop rate but waste channel resources.
None
None
None
Radio
None
None
None
Equipment
None
This parameter
None
is valid in only the cells in the coverage
Radio area of the BTS3X.
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Equipment
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
In an enhanced concentric cell, if None
"LOWRXLEVOLFORBIDSWITCH"
None
is set to ON, Radio
this parameter and "OTOURECEIVETH" dete
This parameter is valid only whenNone
"LOWRXLEVOLFORBIDSWITCH"
If this parameter is set toisaset
smaller
to ON.
value,
Radiocall drops may occur because the hando
None
None
None
Radio
None
None
None
Radio
"TCHTRICBUSYOVERLAYTHR" None
and "TCHTRIBUSYUNDERLAYTHR"
If this parameter is set to acan
greater
be set
value,
Radio
only the
when
half-rate
"HRIUOLDRATESELALLOW"
channels are assigned toisths
"TCHTRICBUSYOVERLAYTHR" None
and "TCHTRIBUSYUNDERLAYTHR"
If this parameter is set to acan
greater
be set
value,
Radio
only the
when
half-rate
"HRIUOLDRATESELALLOW"
channels are assigned toisths
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
The CI can be
None
input in hexadecimal format. The Radio
hexadecimal format is H'****, for example, H'1
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
The value of this parameter must None
be the sameNone
as that of "HOCTRLSWITCH" in "SET
Radio
GCELLHOBASIC".
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
For a BTS ofThis
the technology
BTS3X series,
prevents
the value
the loss
of this
of Radio
measurement
parameter is invalid.
reports caused by the BSIC tha
None
If this parameter
Noneis set to a greater value, the BTS
Radio
power decreases too much. If this paramete
None
For the BTS3001C,
None BTS3001CP, and BTS3002C,
Radio
this parameter is invalid. For other BTSs, th
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Radio
None
None
None
Radio
The value of DTLOADTHRED must
None
be set when
None
"REASSEN" in the "SET GCELLBASICPARA"
Radio
command is set to DIRECTRYE
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
The discontinuous transmission
DTX function allows a transmitter
to stop power transmission in the
case of no voice transfer. This
function has the following benefits:
In the uplink: decreasing the power
consumption of the MS and
reducing system interference
In the downlink: decreasing power
consumption of the BTS, reducing
system interference, and reducing
intermodulation inside the BTS
From the network perspective, the
inter-frequency interference is
reduced and the network quality is
improved.
Radio
None
None
None
The discontinuous transmission
DTX function allows a transmitter
to stop power transmission in the
case of no voice transfer. This
function has the following benefits:
In the uplink: decreasing the power
consumption of the MS and
reducing system interference
In the downlink: decreasing power
consumption of the BTS, reducing
system interference, and reducing
intermodulation inside the BTS
From the network perspective, the
inter-frequency interference is
reduced and the network quality is
improved.
Radio
None
The discontinuous transmission
DTX function allows a transmitter
to stop power transmission in the
case of no voice transfer. This
function has the following benefits:
In the uplink: decreasing the power
consumption of the MS and
reducing system interference
In the downlink: decreasing power
consumption of the BTS, reducing
system interference, and reducing
intermodulation inside the BTS
From the network perspective, the
inter-frequency interference is
reduced and the network quality is
improved.
Radio
The discontinuous transmission
DTX function allows a transmitter
to stop power transmission in the
case of no voice transfer. This
function has the following benefits:
In the uplink: decreasing the power
consumption of the MS and
reducing system interference
In the downlink: decreasing power
consumption of the BTS, reducing
system interference, and reducing
intermodulation inside the BTS
From the network perspective, the
inter-frequency interference is
reduced and the network quality is
improved.
Radio
None
None
None
None
If this parameter is set to NO, the forced
Radio
handover and call delay caused by timesl
This parameter is valid only whenNone
"TURNOFFENABLE"
None
is set to YES.
Equipment
1. This parameter is valid only when
None
"TURNOFFENABLE"
None
is set to ENABLE.
Equipment
2. The setting of this paramete
This parameter is valid only whenWhen
"TURNOFFENABLE"
the same
Nonecoverage
is set
cell
to allows
YES. the load handover,
Equipment
this parameter should be set to a valu
This parameter is valid only whenNone
"TURNOFFENABLE"
None
is set to ENABLE.
Equipment
When "TURNOFFCELLSTPTIME"None
< "TURNOFFCELLSTRTIME",
None
it indicates that Equipment
the Dynamic Cell Power Off feature can be en
This parameter is valid only whenNone
"TURNOFFENABLE"
None
is set to ENABLE or SLEEPING.
Equipment
The following condition must be met: "
This parameter is valid only whenNone
"TURNOFFENABLE"
None
is set to ENABLE.
Equipment
This parameter is valid only whenNone
"TURNOFFENABLE"
None
is set to YES.
Radio
This parameter is valid only whenNone
"TURNOFFENABLE"
None
is set to YES.
Radio
This parameter is valid only whenNone
"TURNOFFENABLE"
None
is set to YES.
Equipment
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
This parameter is valid only whenNone
"EMCPRILV"
None
in "SET GCELLCCAD" is not set toRadio
15.
None
None
None
Radio
None
None
None
Radio
None
None
If this parameter is set to a smaller value,
Radiothe handover frequency is higher.
None
None
If this parameter is set to ON, the calls
Radio
are handed over on schedule. This increas
None
None
None
Radio
This parameter is valid when " MAINBCCHPWRDTEN
None
When this" parameter
in the " SET
is GCELLOTHEXT
set to YES, the
Equipment
network
" command
KPIs ismay
set be
to YES.
deteriorated.
None
None
When this parameter is set to YES, the
Equipment
network KPIs may be deteriorated.
This parameter is valid when " MAINBCCHPWRDTEN
None
None
" in the " SET GCELLOTHEXT
Equipment
" command is set to YES.
This parameter is valid when " MAINBCCHPWRDTEN
None
None
" in the " SET GCELLOTHEXT
Equipment
" command is set to YES.
This parameter is valid when " MAINBCCHPWRDTEN
None
None
" in the " SET GCELLOTHEXT
Equipment
" command is set to YES.
None
None
None
Radio
This parameter is valid only whenNone
"QTRUPWRSHARE"
None
is not set to NONE.
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
This parameter
In scenarios
is valid only
withwhen
heavy
the
traffic,
MCPA
thealgorithm
network
Radio is
performance
enabled. can be improved if this sw
None
None
None
Radio
None
None
None
Equipment
None
None
None
Radio
None
None
If this parameter is set to a greater value,
Radionetwork congestion may occur in the cel
None
None
None
Radio
The following condition must be met:
None
"ALLOWAMRHALFRATEUSERPERC"
None
<= "ALLOWHALFRATEUSERPERC".
Radio
The following condition must be met:
None
"ALLOWHALFRATEUSERPERC"
None
>= "ALLOWAMRHALFRATEUSERPERC".
Radio
None
None
None
Radio
None
None
None
Radio
The setting of this parameter mustNone
meet the following
None condition: "INTERFTHRES0"Radio
> "INTERFTHRES1".
The setting of this parameter mustNone
meet the following
None condition: "INTERFTHRES1"Radio
> "INTERFTHRES2".
The setting of this parameter mustNone
meet the following
None condition: "INTERFTHRES2"Radio
> "INTERFTHRES3".
The setting of this parameter mustNone
meet the following
None condition: "INTERFTHRES3"Radio
> "INTERFTHRES4".
The setting of this parameter mustNone
meet the following
None condition: "INTERFTHRES4"Radio
> "INTERFTHRES5".
The setting of this parameter mustNone
meet the following
None condition: "INTERFTHRES4"Radio
> "INTERFTHRES5".
None
1. Interference
None
band 0 is not counted in the trafficRadio
statistics.2. In the following BTSs, the value
None
None
None
Radio
None
None
None
Radio
None
None
None
Equipment
None
None
None
Radio
This parameter is valid only whenNone
"ATCBHoSwitch"
None is set to OPEN, "IUOTP" is setRadio
to EDB_cell, or "TIGHTBCCHSWITCH" is se
This parameter is valid only whenNone
"ATCBHoSwitch"
If this parameter
is set to OPEN,
is set "IUOTP"
to a greater
is set
value,
Radio
to EDB_cell,
the overlaid
or "TIGHTBCCHSWITCH"
subcell range in the algorithm
is se
This parameter is valid only whenNone
"IUOTP" in None
"ADD GCELL" is set to EDB_cell. The
Radio
following condition must be met: "EDBSTAT
This parameter is valid only whenNone
"IUOTP" in None
"ADD GCELL" is set to EDB_cell. The
Radio
following condition must be met: "EDBSTAT
This parameter is valid only whenNone
"IUOTP" in If"ADD
this parameter
GCELL" is is
set
set
toto
EDB_cell.
a greater orRadio
a smaller value, the balance between the tra
This parameter is valid only whenNone
"IUOTP" in If"ADD
this parameter
GCELL" is is
set
set
toto
EDB_cell.
a greater value,
Radiocongestion may occur in the underlaid su
This parameter is valid only whenNone
"IUOTP" in None
"ADD GCELL" is set to EDB_cell. Radio
This parameter is valid only whenNone
"IUOTP" in None
"ADD GCELL" is set to EDB_cell. Radio
This parameter is valid only whenNone
"IUOTP" in None
"ADD GCELL" is set to EDB_cell. Radio
This parameter is valid only whenNone
"INNLOADHOEN"
None is set to YES.
Radio
This parameter is valid only whenNone
"INNLOADHOEN"
If this parameter
is set to YES.
is set to a greater value,
Radiocongestion may occur in the underlaid su
This parameter is valid only whenNone
"OUTLOADHOENABLE"
None
is set to YES.
Radio
This parameter is valid only whenNone
"IUOTP" in If"ADD
this parameter
GCELL" is is
set
set
toto
EDB_cell.
a greater value,
Radiocongestion may occur in the underlaid su
This parameter is valid only whenNone
"IUOTP" in None
"ADD GCELL" is set to EDB_cell. Radio
This parameter is valid only whenNone
"IUOTP" in If"ADD
this parameter
GCELL" is is
set
set
toto
EDB_cell.
a greaterThe
value,
Radio
following
congestion
condition
may must
occurbe
in met:
the overlaid
"OUTSER
sub
This parameter is valid only whenNone
"IUOTP" in If"ADD
this parameter
GCELL" is is
set
set
toto
EDB_cell.
a greater value,
Radiocongestion may occur in the overlaid sub
This parameter is valid only whenNone
"IUOTP" in None
"ADD GCELL" is set to EDB_cell. Radio
This parameter is valid only whenNone
"OUTLOADHOENABLE"
If this parameter
is set
is set
to YES.
to a greater value,
Radiocongestion may occur in the overlaid sub
This parameter is valid only whenNone
"OUTLOADHOENABLE"
If this parameter
is set
is set
to YES.
to a greater value,
Radiocongestion in the underlaid subcell is diff
This parameter is valid only whenNone
"OUTLOADHOENABLE"
If this parameter
is set
is set
to YES
to a greater
and "IUOTP"
value,
Radioin
congestion
"ADD GCELL"
may occur
is set in
to the
EDB_cell.
overlaid sub
This parameter is valid only whenNone
"IUOTP" in If"ADD
this parameter
GCELL" is is
set
set
toto
EDB_cell.
a greaterThe
value,
Radio
following
congestion
condition
may must
occurbe
in met:
the underlaid
"OUTGEN
su
This parameter is valid only whenNone
"IUOTP" in If"ADD
this parameter
GCELL" is is
set
set
toto
EDB_cell.
a greaterThe
value,
Radio
following
congestion
condition
may must
occurbe
in met:
the underlaid
"OUTSER
su
None
None
None
Radio
None
The Enhanced
None
Measurement Report supports the
Radio
measurement of 3G neighboring cells to im
None
None
None
Radio
None
None
None
Radio
This parameter is valid only whenNone
"MEASURETYPE"
None in "SET GCELLCCUTRANSYS"
Radio
is set to EnhMeasReport.
This parameter is valid only whenNone
"MEASURETYPE"
None in "SET GCELLCCUTRANSYS"
Radio
is set to EnhMeasReport.
This parameter is valid only whenNone
"MEASURETYPE"
None in "SET GCELLCCUTRANSYS"
Radio
is set to EnhMeasReport.
This parameter is valid only whenNone
"MEASURETYPE"
None in "SET GCELLCCUTRANSYS"
Radio
is set to EnhMeasReport.
This parameter is valid only whenNone
"MEASURETYPE"
None in "SET GCELLCCUTRANSYS"
Radio
is set to EnhMeasReport.
This parameter is valid only whenNone
"MEASURETYPE"
None in "SET GCELLCCUTRANSYS"
Radio
is set to EnhMeasReport.
This parameter is valid only whenNone
"MEASURETYPE"
None in "SET GCELLCCUTRANSYS"
Radio
is set to EnhMeasReport.
This parameter is valid only whenNone
"MEASURETYPE"
None in "SET GCELLCCUTRANSYS"
Radio
is set to EnhMeasReport.
None
None
None
Radio
This parameter is valid only whenNone
"HIGHPRIUSERQUALFIRST"
None
is set to YES.
Radio
None
When this parameter
None
is set to No, Highest Priority
Radio
cannot be configured.
None
The downlink
None
power control at the BTS side can Radio
support up to 15 levels, in each of which the p
In a
GSM900
cell, the
power
control
level of the
MS ranges
from 0 to
19.
Generally,
the
maximum
transmit
power
supported
by an MS
is level 5
mapping
to 33 dBm.
The
minimum
transmit
power
supported
by an MS
is level 19
mapping
to 5 dBm.
Other
transmit
power
levels are
reserved None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
This feature only applies to the areasRadio
covered by both the GSM network and the U
This parameter is valid when "FLEXABISMODE"
None
None
in the "MOD BTS" command is set
Transport
to YES.
This parameter is valid when "FLEXABISMODE"
None
None
in the "MOD BTS" command is set
Transport
to YES.
This parameter is valid when "FHMODE"
None in the
None
"SET GCELLHOPTP" command isRadio
not set to NO_FH.
This parameter is valid when "FHMODE"
None in the
None
"SET GCELLHOPTP" command isRadio
not set to NO_FH.
None
The value ofNone
this parameter cannot be changed. Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Equipment
None
None
None
None
None
None
HSNs are optional
None for the cells with frequency hopping
Radio enabled. The cells in the same frequen
None
None
Radio
The value ofNone
this parameter cannot be changed. Radio
The value ofNone
this parameter must be the same asRadio
the attribute value of the TRX frequency hop
None
None
Radio
None
None
Radio
None
None
None
You must deactivate
None
the cell before modifying this
Radio
parameter and activate the cell after modify
If there are fewer
None frequencies in a frequency hopping
Radiogroup, the mode of Frequency List can d
None
None
Radio
None
The parameter
None
cannot be modified.
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
The larger the
None
value of this parameter, the higherRadio
the proportion of discarded messages during
None
The larger the
None
value of this parameter, the higherRadio
the proportion of discarded messages during
None
If this parameter
Noneis set to a larger value, more packets
Radio are discarded when the congestion occ
None
If this parameter
Noneis set to a larger value, more packets
Radio are discarded when the congestion occ
None
None
None
Radio
None
None
None
Equipment
This parameter is valid when "ALLOWG2FLOWCTRALGL"
None
None
in the "SET BSCFCPARA"
Equipment
command is set to YES.
This parameter is valid when "ALLOWG2FLOWCTRALGL"
None
None
in the "SET BSCFCPARA"
Equipment
command is set to YES.
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
This parameter is valid only whenNone
the ""INTERRATCELLRESELEN""
None
parameter regarding
Radio the "SET GCELLHOBASIC" comma
None
None
None
Radio
None
None
None
None
None
None
None
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
The value ranges
None of frequency numbers vary withRadio
corresponding band reporting.
None
None
Radio
None
None
None
Radio
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
Radio
Radio
Radio
Radio
Radio
Radio
None
None
None
None
None
None
Radio
Radio
None
None
None
Radio
This parameter is valid only whenNone
the following
If conditions
this parameter
are met:
is set to a too great Radio
value, the handover cannot be performed
1. The ""IN
tim
This parameter is valid only whenNone
the ""INTERRATOUTBSCHOEN""
None
parameter regarding
Radio the "SET GCELLHOBASIC" comman
This parameter is valid only whenNone
the following
If conditions
this parameter
are met:
is set1.toThe
a too
""INTERRATOUTBSCHOEN""
great Radio
value, the handover cannot
regarding
be performed
the "SET tim
GC
None
None
None
Radio
None
None
None
Equipment
None
None
None
Equipment
This parameter is valid only whenNone
"IBCASOFTBLKSWITCH"
If this parameterisisset
settotoYES.
a smaller value,
Radiothe network interference is increased; if
This parameter is valid only whenNone
"IBCASOFTBLKSWITCH"
If this parameterisisset
settotoYES.
a smaller value,
Radiothe network interference is increased; if
None
None
None
Radio
None
None
If this parameter is set to a greater value,
Radiothe call duration is prolonged; if this para
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
Radio
If this parameter is set to a greater value,
Radiothe handover duration is prolonged and t
None
Radio
None
Radio
If this parameter is set to a smaller value,
Radiothe network interference is increased; if
If this parameter is set to a greater value,
Radiothe handover duration is prolonged and t
If this parameter is set to a smaller value,
Radiothe network interference is increased; if
None
Radio
None
Radio
None
Radio
None
Radio
None
Radio
None
Radio
None
Radio
None
Radio
None
Radio
None
Radio
None
Radio
If this parameter is set to a greater value,
Radiothe handover duration is prolonged and t
None
Radio
None
Radio
None
Radio
None
Radio
None
Radio
None
Radio
If this parameter is set to YES, cell congestion
Radio
may occur when the interference is
None
Radio
None
Radio
None
Radio
None
Radio
If this parameter is set to a smaller value,
Radiothe network interference is increased; if
None
Radio
None
Radio
None
Radio
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
This parameter is valid only whenNone
"IBCAALLOWED"
None in "SET GCELLCHMGAD" is Radio
set to YES.
None
None
None
Radio
None
The ATT must
None
be set to the same value for different
Radio
cells in a same location area. If not, some
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
Equipment
Radio
Radio
Equipment
Radio
In a multi-band network, this
parameter can be set on the basis
of the traffic volume on each
frequency band.
If this parameter is set to 0, the MS
reports the measurement results of
six neighboring cells known and
permitted by the NCC at the bands
with the best signal regardless of
the band at which the neighboring
cell is located.
If this parameter is set to 1, the
MS reports the measurement result
of a neighboring cell known and
permitted by the NCC at each band
with the best signal the band
serving the current cell not
included. The MS reports the
measurement result of the
neighboring cell at the band serving
the current cell in the redundant
position. If the redundant position is
still available, the MS reports the
measurement results of other
neighboring cells regardless of the
bands at which the neighboring
cells are located.
If this parameter is set to 2, the MS
reports the measurement results of
two neighboring cell known and
permitted by the NCC at each band
with the best signal the band
serving the current cell not
Radio
None
None
This parameter is valid when "MEASURETYPE"
None
None
is set to EnhMeasReport.
Equipment
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Equipment
None
None
None
Radio
None
For a double-transceiver
None
BTS or an NGBTS, the Equipment
initial value is ON. For a BTS of any other typ
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
The functionNone
of cell load reselection is valid only when
Radio"NC2LoadResel" in "SET BSCPSSOFT
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
This functionNone
can be activated only when the "Switch
Radio
for Abis Timeslot Detection" is "ON".
None
None
None
Radio
None.
None.
If this timer is set to a greater value, Equipment
channel resources may be wasted, thus caus
None.
None.
None.
Equipment
This parameter is valid when "TCMUTEDETECTFLAG"
None.
None.
is set to YES.
Equipment
This parameter is valid when "TCMUTEDETECTFLAG"
None.
None.
is set to YES.
Equipment
None.
None.
None.
Equipment
None
If the value of
None
this parameter is increased, the cell
Radio
congestion rate increases. If the value of thi
None
If this parameter
Noneis set to YES, the call drop rate Radio
may increase.
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
For the BTS3002C,
None if each cell is configured withEquipment
two TRXs O2 or S2 and the value of this par
None
None
None
Equipment
None
None
None
Equipment
None
If this parameter
Noneis set to a greater value, the error
Equipment
is small.
None
If this parameter
Noneis set to a smaller value, the error
Equipment
is smaller.
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
Properly setting this parameter can increase
Radio the paging success rate. If this param
None
A paging block
If this
four
parameter
continuous
is set
CCCH
to a timeslots
greater value,
can
Radio
bear
the number
two IMSIofpaging
pagingmessages,
subchannels
fourinTM
ac
None
None
None
Radio
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Equipment
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
During upgrade,
Nonepay more attention to the settingRadio
of this parameter. Be sure to check it. If an a
None
Pay special None
attention to the setting of this parameter
Radio
during an upgrade. If sending short mess
This parameter is valid only whenThis
"EDGE"
parameter
in "SET
None
applies
GCELLGPRS"
to only the
is EDGE
set to YES.
trx.
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
If the value of
None
this parameter is too small, extension
Radio
measurement reports are sent frequently.
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
The setting of this parameter mustNone
meet the following
None condition: "NCHSTARTBLOCK""
Radio<= "NCHOCBLOCKNUM".
The setting of this parameter mustNone
meet the following
None condition: "NCHSTARTBLOCK""
Radio<= "NCHOCBLOCKNUM".
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
The value of this parameter must This
be smaller
parameter
than
If this
should
"RACH
parameter
be
Busy
setisThreshold"
on
setthe
to basis
a greater
inofthe
the
value,
"SET
Radio
actual
GCELLCCBASIC"
thereceiver
call drop
sensitivity
rate decreases
command.
of the BTS
but the
andtraff
the
None
None
None
Radio
None
None
None
Radio
The value of this parameter must This
be smaller
parameter
than
If this
should
"RACH
parameter
be
Busy
setisThreshold"
on
setthe
to basis
a greater
inofthe
the
value,
"SET
Radio
actual
GCELLCCBASIC"
thereceiver
call drop
sensitivity
rate decreases
command.
of the BTS
but the
andtraff
the
None
None
If this parameter is set to a smaller value,
Radiothe allowable error rate for the random a
None
None
This parameter can be used to limit the
Radio
user access type to control the network loa
None
None
None
None
None
None
This parameter should be set as required:
Radio In the areas where the traffic volume is
For the BTS3X
If this
series
parameter
and double-transceiver
is set to a smallerBTSs,
value,
Radio
this
theparameter
random access
does not
success
affectrate
MS may
access
de
None
This parameter can be used to control
Radio
network load based on the MS access class
None
If this parameter is set to a smaller value,
Radiothe status of RF resources is reported to
None
If this parameter is set to smaller value,
Radio
the signaling flow over the Abis interface in
None
None
None
None
The default None
value of "MS_TXPWR_MAX_CCH" in
Radio
the GSM900 and GSM850 cells is 5; the de
None
If this parameter is set to a smaller value,
Radiothe BTS frequently reports overload indic
None
If this parameter is set to a smaller value,
Radiothe BTS frequently sends the overload m
As defined in
The
thesetting
protocol,
of this
the parameter
value of this
may
parameter
affect
Radio
the
cannot
MS paging
be 0 inresponse
the following
and performance
cases:The B
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
If the number of RACH conflicts in a Radio
cell is small, T should be set to a great value.
None
None
Radio
None
None
Radio
None
None
Radio
None
If this parameter is set to a smaller value,
Radiothe call drop rate may increase; if this pa
None
If this parameter is set to a smaller value,
Radiothe radio link is vulnerable to failure, thu
None
None
Radio
None
If this parameter is set to a smaller value,
Radiothe radio resource status is reported too
The level values
None0 through 63 map to -110 dBm to
Radio
-47 dBm. A smaller value indicates a lower
The parameter
None
value corresponds to RQ quality level:
Radio0 to 7 multiplied by 10. A greater value i
The level values
None0 through 63 map to -110 dBm to
Radio
-47 dBm. A smaller value indicates a lower
The parameter
None
value corresponds to RQ quality level:
Radio0 to 7 multiplied by 10. A greater value i
None
When this parameter is set to a largeRadio
value, the values of the new counters TCH c
None
When this parameter is set to a largeRadio
value, the values of the new counters TCH c
None
When this parameter is set to a largeRadio
value, the values of the new counters TCH c
None
When this parameter is set to a largeRadio
value, the values of the new counters TCH c
None
When this parameter is set to a largeRadio
value, the values of the new counters TCH c
None
When this parameter is set to a largeRadio
value, the values of the new counters TCH c
None
None
Equipment
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
The parameter value correspondsNone
to the power
Not
ofinvolved
each passage on the MRRU. If the
Radio
cell is configured only on one passage of t
None
None
None
Radio
This parameter is valid only whenNone
"GRADEACCALLOW"
None
is set to YES.
Radio
None
The range ofIf this
this parameter
parameter is
is determined
set to a greater
by the
value,
Radio
cell configuration.
too many channels
The lower
may be
limitreserved
is 0, andfor
th
None
None
None
Radio
This parameter is valid when "REPEATDLFASET"
None
Noneis set to YES.
Radio
None
None
None
Radio
None
The SDCCHNone
dynamic adjustment converts the TCHs
Radioto the SDCCHs, this reduces the availab
This parameter is valid only whenNone
"SDDYN" inIf"SET
this parameter
GCELLBASICPARA"
is set to a smaller
is set to
value,
Radio
YES.dynamic adjustment may not be triggere
This parameter is one of the
conditions for the dynamic
conversion of the TCHF to the
SDCCH.
In addition to the condition that
the number of idle SDCCHs
should be smaller than or equal
to "IDLESDTHRES", the
following three conditions must
be met to trigger the conversion
from the TCHF to the SDCCH:
1. "SDDYN" in "SET
GCELLBASICPARA" is set to
YES.
2. In the cell, the value of
number of idle TCHFs + number
of idle TCHHs/2 is greater than
four and is greater than the
number of TRXs. Idle TCHFs
exist in the cell.
3. Number of SDCCHs + 8 <
"CELLMAXSD".
None
If this parameter is set to a greater value
Radio
and consequently there is a small numbe
This parameter is valid only whenNone
"SDDYN" inIf"SET
this parameter
GCELLBASICPARA"
is set to a smaller
is set to
value,
Radio
YES.the idle state of the current SDCCHs can
None
This parameter
If this
takes
function
effectis only
enabled,
whennumber
the SDCCH
of Radio
signaling
exists on
channel
the TRXs
handovers
on different
is increased
frequency
andb
None
None
None
Radio
None
None
None
Equipment
None
None
None
Radio
None
None
None
Radio
None
None
None
Equipment
None
None
None
Radio
The maximum length of this parameter
None is decided
Noneby "SCHEME": When "SCHEME"
Radio
is set to BINARY, the length of this parame
None
None
None
Equipment
None
None
None
None
None
None
Radio
None
None
Radio
None
None
Radio
When the simple
None cell broadcast function is enabled,
Radio
the BSC6900 provides the simple cell bro
None
None
None
Radio
None
None
None
Equipment
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
If the value of
If this
this parameter
parameter is
is set
too to
small,
a greater
the required
value,
Radiothe
level
callofdrop
received
rate decreases
signals is low.
but the
Therefo
traff
None
It is recommended
None that this parameter be set to Yes
Radio
on a multiband cell.
None
None
None
Radio
None
None
None
Equipment
This parameter is valid when "REASSEN"
To improve
in the
None
the"SET
success
GCELLCCBASIC"
rate of reassignment,
command
it is
Radio
is
recommended
set to YES. that you use the default valu
None
None
If this parameter is set to YES, the BSC6900
Radio initiates a reassignment when receivi
None
None
None
Equipment
This
parameter
specifies
whether to
enable the
TRX
aiding
function.
BCCH
aiding:
The main
BCCH is
aided to
another
normal
TRX in
this cell.
BCCH
aiding
switchbac
k: BCCH
aiding
switchbac
k functions
after the
originally
configured
BCCH
TRX is
recovered.
Baseband
FH aiding:
When the None
None
Radio
None
If this parameter
Noneis set to a greater value, TRX mutual
Equipment
aid may not be triggered promptly in the
None
None
None
Equipment
This parameter is valid when "DYNOpenTrxPower"
The parameter
None
must
in the
be "SET
set to GCELLBASICPARA"
a value smaller than
Equipment
the
command
numberisofset
TCHs
to YES.
available on the BCCH
None
None
None
Equipment
None
None
None
Radio
None
None
This parameter affects only the statistical
Radioresult of the counter "FER I I = 0-7 Quali
None
None
This parameter affects only the statistical
Radioresult of the counter "FER I I = 0-7 Quali
None
None
This parameter affects only the statistical
Radioresult of the counter "FER I I = 0-7 Quali
None
None
This parameter affects only the statistical
Radioresult of the counter "FER I I = 0-7 Quali
None
None
This parameter affects only the statistical
Radioresult of the counter "FER I I = 0-7 Quali
None
None
This parameter affects only the statistical
Radioresult of the counter "FER I I = 0-7 Quali
None
None
This parameter affects only the statistical
Radioresult of the counter "FER I I = 0-7 Quali
None
None
None
Equipment
None
None
None
Radio
None
The numberThe
of the
ACS
chosen
may affect
data rates
the MOS.
must be from
Radio
one to three. If this parameter involves onl
The setting of this parameter mustNone
meet the following
None condition: "DLTHWB1" + "DLHYSTWB1"
Radio
< "DLTHWB2" + "DLHYSTWB2
The setting of this parameter mustNone
meet the following
None condition: "DLTHWB1" + "DLHYSTWB1"
Radio
< "DLTHWB2" + "DLHYSTWB2
The setting of this parameter mustNone
meet the following
None conditions: "DLTHWB1" < "DLTHWB2";
Radio
["DLTH
The setting of this parameter mustNone
meet the following
None conditions: "DLTHWB1" < "DLTHWB2";
Radio
["DLTH
None
None
The setting of this parameter affects Radio
the MOS. When the C/I ratio is satisfactory, th
The setting of this parameter mustNone
meet the following
None condition: "ULTHWB1" + "ULHYSTWB1"
Radio
< "ULTHWB2" + "ULHYSTWB2
The setting of this parameter mustNone
meet the following
None condition: "ULTHWB1" + "ULHYSTWB1"
Radio
< "ULTHWB2" + "ULHYSTWB2
The setting of this parameter mustNone
meet the following
None conditions: "ULTHWB1" < "ULTHWB2";
Radio
"ULTHW
The setting of this parameter mustNone
meet the following
None conditions:"ULTHWB1" < "ULTHWB2";
Radio
"ULTH
IMPACT
PARAMETER_ID
PARAMETER_NAME
MML_COMMAND
DESCRIPTION
FEATURE_NAME
GUI_VALUE_RANGE
ACTUAL_VALUE_RANGE
UNIT
DEFAULT_VALUE
RECOMMENDED_VALUE
PARAMETER_RELATIONSHIP
CAUTION RADIO_PERFORMACE_IMPACT
ATTRIBUTE
FEATURE_NAME
IMPACT
AMR FR
AMR FR
AMR FR
AMR FR/HR Dynamic Adjustment
AMR FR/HR Dynamic Adjustment
AMR FR/HR Dynamic Adjustment
AMR FR/HR Dynamic Adjustment
AMR FR/HR Dynamic Adjustment
AMR HR
AMR HR
Assignment and Immediate Assignment
Assignment and Immediate Assignment
Assignment and Immediate Assignment
Assignment and Immediate Assignment
Assignment and Immediate Assignment
Assignment and Immediate Assignment
BCCH Dense Frequency Multiplexing
BCCH Dense Frequency Multiplexing
BCCH Dense Frequency Multiplexing
BCCH Dense Frequency Multiplexing
Chain Cell Handover
Chain Cell Handover
Chain Cell Handover
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric CellAMR FR
Concentric CellAMR HR
Direct Retry
Fast Move Handover
Fast Move Handover
Fast Move Handover
Fast Move Handover
Fast Move Handover
Fast Move Handover
Fast Move Handover
Fast Move Handover
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
HUAWEI I Handover
HUAWEI I Handover
HUAWEI I Handover
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
HUAWEI I Handover
Cell
HUAWEI I Handover
Cell
HUAWEI I Handover
Cell
HUAWEI I Handover
Cell
HUAWEI I Handover
Cell
HUAWEI I Handover
Cell
HUAWEI I Handover
Cell
HUAWEI I Handover
HUAWEI I Handover
Cell
Cell
HUAWEI I Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
Cell
Cell
Cell
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
HUAWEI I HandoverHUAWEI II Handover
Cell
HUAWEI I HandoverHUAWEI II Handover
Cell
HUAWEI I HandoverHUAWEI II Handover
Cell
HUAWEI I HandoverHUAWEI II Handover
Cell
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
Cell
Cell
Cell
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
HUAWEI I HandoverHUAWEI II Handover
Cell
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI II Handover
Cell
Cell
Cell
Cell
Cell
Cell
Cell
HUAWEI II Handover
HUAWEI II Handover
Cell
Cell
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
Cell
Cell
Cell
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
Pre-processing of Measurement Report
Pre-processing of Measurement Report
Pre-processing of Measurement Report
Pre-processing of Measurement Report
SDCCH Handover
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
PARAMETER_ID
PARAMETER_NAME
DLQUALIMITAMRFR
RXLEVOFF
ULQUALIMITAMRFR
INFHHOLAST
INFHHOSTAT
INHOF2HTH
INHOH2FTH
INTRACELLFHHOEN
DLQUALIMITAMRHR
ULQUALIMITAMRHR
ABCDownQuality
ABCUpQuality
ABCWaitMaxTime
AssignBetterCellEn
SDCCHWaitMREn
SDCCHWaitMRTimeLen
TIGHTBCCHHOLASTTIME
TIGHTBCCHHOSTATTIME
TIGHTBCCHHOLOADTHRES
TIGHTBCCHRXQUALTHRES
HODIRFORECASTEN
HODIRLASTTIME
HODIRSTATIME
ATCBHOEN
ACCESSOPTILAY
ENGOVERLDTHRSH
ENLDHOPRD
ENLDHOSTP
ENLOWLDTHRSH
ENSOVERLDTHRSH
ENUTOOLOADINILEV
HOALGOPERMLAY
IMMASSTAALLOW
IMMASSTATHRES
IUOHODURATIME
IUOHOSTATIME
OLTOULHOALLOW
OPTILAYER
OPTILEVTHRES
OPTITATHRES
OTOURECEIVETH
PSOTOURECEIVETHRSH
PSUTOORECEIVETHRSH
RECLEVHYST
RECLEVTHRES
RECLEVUOHOALLOW
DL Qual. Limit for AMR FR
Interfere HO Qual. Thresh Offset for AMR FR
UL Qual. Limit for AMR FR
Intracell F-H HO Last Time
Intracell F-H HO Stat Time
F2H HO Threshold
H2F HO Threshold
Intracell F-H HO Allowed
DL Qual. Limit for AMR HR
UL Qual. Limit for AMR HR
Downlink Quality Threshold in Assigning Better Cell
Uplink Quality Threshold in Assigning Better Cell
Maximum Better Cell Assigning Duration
Assigning Better Cell Allowed
Waiting for MR on SDCCH Switch
Duration for Waiting MR on SDCCH
TIGHT BCCH HO Valid Time
TIGHT BCCH HO Watch Time
Load Threshold for TIGHT BCCH HO
RX_QUAL Threshold for TIGHT BCCH HO
Handover Direction Forecast Enable
Handover Direction Forecast Last Times
Handover Direction Forecast Statistic Times
Concentric Circles ATCB HO Allowed
Incoming-to-BSC HO Optimum Layer
En Iuo Out Cell General OverLoad Thred
Load Classification HO Period
Load Classification HO Step
En Iuo Out Cell Low Load Thred
En Iuo Out Cell Serious OverLoad Thred
IniLev for EnUtoO Load HO
Pref. Subcell in HO of Intra-BSC
TA Pref. of Imme-Assign Allowed
TA Threshold of Imme-Assign Pref
UO HO Valid Time
UO HO Watch Time
OL to UL HO Allowed
Assign Optimum Layer
Assign-optimum-level Threshold
TA Threshold of Assignment Pref
OtoU HO Received Level Threshold
PS OtoU HO Receive Level Threshold
PS UtoO HO Receive Level Threshold
RX_LEV Hysteresis
RX_LEV Threshold
RX_LEV for UO HO Allowed
RECQUALTH
RECQUALUOHOALLOW
TAFORUOHOALLOW
TAHYST
TATHRES
TIMEOTOUFAILPUN
TIMEUTOOFAILPUN
ULTOOLHOALLOW
UTOOFAILMAXTIME
UTOOHOPENTIME
UTOORECTH
UTOOTRAFHOALLOW
UTRAFHOPERIOD
UTRAFHOSTEP
RECEIVEQUALTHRSHAMRFR
RECEIVEQUALTHRSHAMRHR
MINPWRLEVDIRTRY
QUICKHOEN
HODOWNTRIGE
HOUPTRIGE
IGNOREMRNUM
MOVESPEEDTHRES
MSLEVSTRQPBGT
NCELLFILTER
SCELLFILTER
INTERRATCELLRESELEN
INTERRATINBSCHOEN
INTERRATOUTBSCHOEN
EDGELAST1
EDGESTAT1
PBGTHOEN
RX_QUAL Threshold
RX_QUAL for UO HO Allowed
TA for UO HO Allowed
TA Hysteresis
TA Threshold
Penalty Time after OtoU HO Fail
Penalty Time after UtoO HO Fail
UL to OL HO Allowed
MaxRetry Time after UtoO Fail
Penalty Time of UtoO HO
UtoO HO Received Level Threshold
UtoO Traffic HO Allowed
Underlay HO Step Period
Underlay HO Step Level
ReceiveQualThrshAMRFR
ReceiveQualThrshAMRHR
Min Power Level For Directed Retry
Quick Handover Enable
Quick Handover Down Trigger Level
Quick Handover Up Trigger Level
Ignore Measurement Report Number
Quick Move Speed Threshold
EN Quick PBGT HO ALG When MS Leaves BTS
Neighbor Cell Filter Length MR Number
Serving Cell Filter Length MR Number
Inter-RAT Cell Reselection Enable
Inter-RAT In BSC Handover Enable
Inter-RAT Out BSC Handover Enable
Handover Algorithm I Edge HO Valid Time
Handover Algorithm I Edge HO Watch Time
PBGT HO Allowed
FLTPARAA1
Filter Parameter A1
FLTPARAA2
Filter Parameter A2
FLTPARAA3
Filter Parameter A3
FLTPARAA4
Filter Parameter A4
FLTPARAA5
Filter Parameter A5
FLTPARAA6
Filter Parameter A6
FLTPARAA7
Filter Parameter A7
FLTPARAA8
FLTPARAB
Filter Parameter A8
Filter Parameter B
DIRMAGANSITEFLAG
BQHOEN
COBSCMSCADJEN
CONHOEN
DLEDGETHRES
FRINGEHOEN
HOCDCMINDWPWR
HOCDCMINUPPWR
INTERFHOEN
INTRACELLHOEN
LEVHOEN
LEVHOHYST
LoadHoEn
QCKMVHOEN
RXQCKFALLHOEN
SIGCHANHOEN
TAHOEN
ULEDGETHRES
BANTIME
CONTINTV
KBIAS
LOADHOPERIOD
Directly Magnifier BTS Flag
BQ HO Allowed
Co-BSC/MSC Adj
Concentric Circles HO Allowed
Edge HO DL RX_LEV Threshold
Edge HO Allowed
Min DL Level on Candidate Cell
Min UL Level on Candidate Cell
Interference HO Allowed
Intracell HO Allowed
Level HO Allowed
Inter-layer HO Hysteresis
Load Handover Support
MS Fast Moving HO Allowed
Rx_Level_Drop HO Allowed
SDCCH HO Allowed
TA HO Allowed
Edge HO UL RX_LEV Threshold
Forbidden time after MAX Times
Interval for Consecutive HO Jud.
K Bias
Load HO Step Period
LOADHOSTEP
LOADOFFSET
MAXCNTNUM
Load HO Step Level
Load HO Bandwidth
MAX Consecutive HO Times
MAXRESEND
OutBscLoadHoEn
QCKSTATCNT
QCKTIMETH
QCKTRUECNT
SPEEDPUNISH
SPEEDPUNISHT
SYSFLOWLEV
T3105
TRIGTHRES
RXQUAL1
RXQUAL10
RXQUAL11
RXQUAL12
RXQUAL2
RXQUAL3
RXQUAL4
RXQUAL5
RXQUAL6
RXQUAL7
RXQUAL8
RXQUAL9
CONTHOMININTV
NEWURGHOMININTV
PENALTYEN
SDHOMININTV
TCHHOMININTV
Max Resend Times of Phy.Info.
Inter BSC Load Information Allowed
MS Fast-moving Watch Cells
MS Fast-moving Time Threshold
MS Fast-moving Valid Cells
Penalty on MS Fast Moving HO
Penalty Time on Fast Moving HO
System Flux Threshold for Load HO
T3105
Load HO Threshold
Interfere HO Qual. Thresh 1 for Non-AMR FR
Interfere HO Qual. Thresh 10 for Non-AMR FR
Interfere HO Qual. Thresh 11 for Non-AMR FR
Interfere HO Qual. Thresh 12 for Non-AMR FR
Interfere HO Qual. Thresh 2 for Non-AMR FR
Interfere HO Qual. Thresh 3 for Non-AMR FR
Interfere HO Qual. Thresh 4 for Non-AMR FR
Interfere HO Qual. Thresh 5 for Non-AMR FR
Interfere HO Qual. Thresh 6 for Non-AMR FR
Interfere HO Qual. Thresh 7 for Non-AMR FR
Interfere HO Qual. Thresh 8 for Non-AMR FR
Interfere HO Qual. Thresh 9 for Non-AMR FR
Min Interval for Consecutive Hos
Min Interval for Emerg. HO
Penalty Allowed
Min Interval for SDCCH Hos
Min Interval for TCH Hos
LoadAccThres
Load handover Load Accept Threshold
HOTHRES
Inter-layer HO Threshold
HOOFFSET
Quick Handover Offset
HOPUNISHVALUE
Quick Handover Punish Value
TIMEPUNISH
LAYER
PRIOR
Quick Handover Punish Time
Layer of The Cell
Cell Priority
DLINTERFLEVLIMIT
DLINTERFQUALLIMIT
QLENSD
QLENSI
QTRUDNPWRLASTTIME
QTRUDNPWRSTATTIME
SSLENSD
SSLENSI
UPINTERFQUALLIMIT
UPINTERLEVLIMIT
UPRXLEVLASTTIME
UPRXLEVSMOOTHPARA
UPRXLEVSTATICTIME
DLQUALIMIT
NODLMRHOALLOWLIMIT
NODLMRHOEN
NODLMRHOQUALLIMIT
TALIMIT
ULQUALIMIT
DATAQUAFLTLEN
DATASTRFLTLEN
FAILSIGSTRPUNISH
INTERFEREHOPENTIME
LOADHOPENTIME
LOADHOPENVALUE
MRMISSCOUNT
NCELLFLTLEN
NSIGSTRFLTLEN
PENALTYTIMER
RSCPENALTYTIMER
SIGQUAFLTLEN
SIGSTRFLTLEN
SSBQPUNISH
SSTAPUNISH
TAFLTLEN
TASIGSTRFLTLEN
TIMEAMRFHPUNISH
TIMEBQPUNISH
TIMETAPUNISH
UMPENALTYTIMER
Interf.of DL Level Threshold
Interf.of DL Qual.Threshold
Filter Length for TCH Qual.
Filter Length for SDCCH Qual.
Qtru Down Power Inadequate Last Time
Qtru Down Power Inadequate Stat Time
Filter Length for TCH Level
Filter Length for SDCCH Level
Interf.of UL Qual. Threshold
Interf.of UL Level Threshold
Duration of Uplink Received Level Differ
Smooth Factor of Uplink Received Level
Observe Time of UL RX Level Difference
DL Qual. Threshold
Cons.No Dl Mr.HO Allowed Limit
No Dl Mr.HO Allowed
No Dl Mr.Ul Qual HO Limit
TA Threshold
UL Qual. Threshold
Filter Length for TCH Qual
Filter Length for TCH Level
Penalty Level after HO Fail
Penalty Time on Interfere HO
Penalty Time on Load HO
Penalty Value on Load HO
Allowed MR Number Lost
Filter Length for Ncell RX_LEV
NCell Filter Length for SDCCH Level
CfgPenaltyTimer
RscPenaltyTimer
Filter Length for SDCCH Qual
Filter Length for SDCCH Level
Penalty Level after BQ HO
Penalty Level after TA HO
Filter Length for TA
TA Filter Length for SDCCH Level
Penalty Time after AMR TCHF-H HO Fail
Penalty Time after BQ HO
Penalty Time after TA HO
UmPenaltyTimer
HOOPTSEL
Inter-rat HO Preference
HOPRETH2G
ADAPTASSIGNMENTFLOW
FORCEMSACCESS
QTRUCHANMANGSWITCH
QUERYCMAFTERINBSCHO
SENDCMAFTERINBSCHO
AMRFULLTOHALFHOALLOW
HO Preference Threshold for 2G Cell
Assignment Procedure in Intra-Cell HO Allowed
Force MS to Send Ho Access SWITCH
QTRU Signal Merge Avoid Switch
Query Classmark after In-BSC HO Enabled
Send Classmark ENQ Result to MSC Enabled
AMR F-H Ho Allowed
AMRFULLTOHALFHOATCBADJSTEP
AMRFULLTOHALFHOATCBTHRESH
AMR F-H Ho ATCB Adjust Step
AMR F-H Ho ATCB Threshold
AMRFULLTOHALFHOPATHADJSTEP
AMRFULLTOHALFHOPATHTHRESH
AMRFULLTOHALFHOQUALTHRESH
AMRFULLTOHALFHOTHRESH
AMRHALFTOFULLHOATCBTHRESH
AMRHALFTOFULLHOPATHTHRESH
AMRHALFTOFULLHOQUALALLOW
AMRHALFTOFULLHOQUALTHRESH
AMRHALFTOFULLHOTHRESH
BETTERCELLHOEN
EDGELAST
EDGESTAT
FULLTOHALFHOATCBOFFSET
FULLTOHALFHODURATION
FULLTOHALFHOLASTTIME
FULLTOHALFHOPATHOFFSET
FULLTOHALFHOPERIOD
FULLTOHALFHOSTATTIME
HALFTOFULLATCBOFFSET
HALFTOFULLHODURATION
HALFTOFULLHOLASTTIME
HALFTOFULLHOPATHOFFSET
HALFTOFULLHOSTATTIME
INTERFERELASTTIME
INTERFERESTATTIME
NOAMRFULLTOHALFHOALLOW
NOAMRFULLTOHALFHOATCBADJSTEP
NOAMRFULLTOHALFHOATCBTHRESH
AMR F-H Ho Pathloss Adjust Step
AMR F-H Ho Pathloss Threshold
AMR F-H Ho Qual. Threshold
AMR F-H Traffic Threshold
AMR H-F Ho ATCB Threshold
AMR H-F Ho Pathloss Threshold
Allow AMR H-F Quality-based HO
AMR H-F Ho Qual. Threshold
AMR H-F Traffic Threshold
Better Cell Handover Enable
Handover Algorithm II Edge HO Valid Time
Handover Algorithm II Edge HO Watch Time
F-H ATCB Offset Overlay
F-H Ho Duration
F-H Ho Last Time
F-H Pathloss Offset Overlay
F-H Ho Period
F-H Ho Stat. Time
H-F ATCB Offset Overlay
H-F Ho Duration
H-F Ho Last Time
H-F Pathloss Offset Overlay
H-F Ho Stat. Time
Interfere HO Valid Time
Interfere HO Static Time
Non-AMR F-H Ho Allowed
Non-AMR F-H Ho ATCB Adjust Step
Non-AMR F-H Ho ATCB Threshold
NOAMRFULLTOHALFHOPATHADJSTEP
NOAMRFULLTOHALFHOPATHTHRESH
NOAMRFULLTOHALFHOQUALTHRESH
Non-AMR F-H Ho Pathloss Adjust Step
Non-AMR F-H Ho Pathloss Threshold
Non-AMR F-H Ho Qual. Threshold
NOAMRFULLTOHALFTHRESH
NOAMRHALFTOFULLHOATCBTHRESH
NOAMRHALFTOFULLHOPATHTHRESH
NOAMRHALFTOFULLHOQUALALLOW
NOAMRHALFTOFULLHOQUALTHRESH
NOAMRHALFTOFULLTHRESH
PATHLOSSHOEN
BSMSPWRLEV
BTSMESRPTPREPROC
MRPREPROCFREQ
PRIMMESPPT
INRBSCSDHOEN
Non-AMR F-H Traffic Threshold
Non-AMR H-F Ho ATCB Threshold
Non-AMR H-F Ho Pathloss Threshold
Allow Non-AMR H-F Quality-based HO
Non-AMR H-F Ho Qual. Threshold
Non-AMR H-F Traffic Threshold
Pathloss Ho. Enable
Transfer BTS/MS Power Class
MR.Preprocessing
Sent Freq.of preprocessed MR
Transfer Original MR
Inter-BSC SDCCH HO ALLowed
MML_COMMAND
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOFAST
SET GCELLHOFAST
SET GCELLHOFAST
SET GCELLHOBASIC
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOIUO
SET GCELLHOCTRL
SET GCELLHOBASIC
SET GCELLHOFAST
SET GCELLHOFAST
SET GCELLHOFAST
SET GCELLHOFAST
SET GCELLHOFAST
SET GCELLHOFAST
SET GCELLHOFAST
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLSOFT
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLHOAD
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLAMRQUL
SET GCELLHOCTRL
SET GCELLHOCTRL
SET GCELLHOCTRL
SET GCELLHOCTRL
SET GCELLHOCTRL
ADD GEXT2GCELL
ADD GEXT3GCELL
SET GCELLHOAD
ADD GEXT2GCELL
SET GCELLHOBASIC
ADD GEXT2GCELL
SET GCELLHOFAST
ADD GEXT2GCELL
SET GCELLHOFAST
ADD GEXT2GCELL
SET GCELLHOFAST
SET GCELLBASICPARA
SET GCELLBASICPARA
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLCHMGAD
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOEMG
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET GCELLHOFITPEN
SET
GCELLHOUTRANFDD
SET
GCELLHOUTRANTDD
SET
GCELLHOUTRANFDD
SET
GCELLHOUTRANTDD
SET GCELLSOFT
SET GCELLSOFT
SET GCELLSOFT
SET GCELLSOFT
SET GCELLSOFT
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOBASIC
SET GCELLHOCTRL
SET GCELLHOCTRL
SET GCELLHOCTRL
SET GCELLHOCTRL
SET GCELLHOCTRL
DESCRIPTION
Downlink quality limit for emergency handover in an AMR full rate call. The value of this parameter corresponds to the quality lev
For AMR FR voice services, a fixed amount of offset is added to the corresponding grade of the received signal quality for the in
The value of this parameter corresponds to multiplying quality level 0 to 7 by 10. An emergency handover can be triggered only
The triggering of intra-cell F-H handovers must meet the P/N criteria, that is, when the condition for intra-cell F-H handovers is m
The triggering of intra-cell F-H handovers must meet the P/N criteria, that is, when the condition for intra-cell F-H handovers is m
For an AMR call, if the currently occupied channel is a full rate channel and the Radio Quality Indication RQI is always higher tha
For an AMR call, if the currently occupied channel is a half rate channel and the Radio Quality Indication RQI is always lower tha
Whether to allow AMR handovers. This parameter has no impact on dynamic non-AMR F-H handovers.
Downlink quality limit for emergency handover in an AMR half rate call. The value of this parameter corresponds to the quality le
The value of this parameter corresponds to multiplying quality level 0 to 7 by 10. An emergency handover can be triggered only
Downlink quality level threshold for the MS to be assigned with a channel of the better cell.
Uplink quality level threshold for the MS to be assigned with a channel of the better cell.
The maximum duration for the BSC to select the best cell according to MRs in the MS assigning procedure. The BSC assigns th
Switch for assigning the channel of a better cell to the MS during MS access.
Whether a call must camp on the SDCCH for a specific duration before being assigned with a traffic channel.
Duration for a call camping on the SDCCH before being assigned with a traffic channel.
The P/N criterion must be met for triggering a TIGHT BCCH handover. That is, the TIGHT BCCH handover can be triggered onl
The P/N criterion must be met for triggering a TIGHTBCCH handover. That is, the TIGHTBCCH handover can be triggered only
uring channel assignment, the assignment of channels on the BCCH TRXs depends on the uplink receive level, quality, and non
When an intra-cell TIGHT BCCH handover needs to be performed handover from the non-BCCH to BCCH, the downlink receive
Handover directio forcast switch. When this parameter is set to YES, the BSC6900 can forecast the handover direction of the ca
This parameter indicates P in the P/N rule for MS handover direction forcast. P/N rule: Among N handovers, the MS is handed o
This parameter indicates N in the P/N rule for MS handover direction forcast. P/N rule: Among N handovers, the MS is handed o
Whether to enable the ATCB handover algorithm for the concentric cell. According to the neighbor cell signal, the ATCB handov
Subcell preferred during the incoming inter-BSC handover to the concentric cell. In the case of incoming inter-BSC handover to
If the load of the underlaid subcell is greater than this threshold, certain calls in the underlaid subcell are handed over to the ove
If all the calls in the overlaid subcell are handed over to the underlaid subcell when the channel seizure ratio of the underlaid sub
Signal level step for the hierarchical load-based handover from the overlaid subcell to the underlaid subcell
If the load of the underlaid subcell is less than this threshold, certain calls in the overlaid subcell are handed over to the underlai
If the load of the underlaid subcell is greater than this threshold, the period of the load-based handover from the underlaid subce
Initial signal level used to compute the handover zone for an MS during the hierarchical load-based handover from the underlaid
Whether to assign a channel in the overlaid or underlaid subcell in the case of the intra-BSC incoming handover to the concentr
Whether to assign channels according to the access_delay value in channel request messages during immediate channel assig
When the access_delay value in the channel request message is smaller than this parameter, the overlay channels are assigne
The triggering of concentric circle handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the
The triggering of concentric circle handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the
Whether to allow overlay-to-underlay handovers
Channel assignment policies used when TCHs are assigned in an IUO cell: SysOpt: The system selects the preferentially-assig
Preferentially assigns channels on the overlay when the uplink receive level on the SDCCH is no smaller than "Assign-optimumPreferentially assigns channels on the overlay when the uplink receive level on the SDCCH is no smaller than "Assign-optimumOne of the parameters that decide the underlay and overlay areas in an enhanced IUO cell. The underlay and overlay areas are
Threshold of the receive level for triggering the handover of the PS services from the overlaid subcell to the underlaid subcell
Threshold of the receive level for triggering the handover of the PS services from the underlaid subcell to the overlaid subcell
One of the parameters that decide the underlay and overlay areas. The underlay and overlay areas are determined by "RX_QUA
One of the parameters that decide the underlay and overlay areas. The underlay and overlay areas are determined by "RX_QUA
Whether to use the downlink receive level as a condition in IUO handover decision
One of the parameters that decide the underlay and overlay areas. If "Enhanced Concentric Allowed" is set to OFF, the underlay
Whether to use the downlink receive quality as a condition in IUO handover decision
Whether the TA is used as a decisive condition for the concentric cell handover
One of the parameters that determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric Allowed" is s
One of the parameters that determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric Allowed" is s
After an OL subcell to UL subcell handover of an MS fails, the MS does not perform OL subell-UL subcell handovers within the v
After an UL subcell to OL subcell handover of an MS fails, the MS does not perform UL subcell to OL subcell handovers within t
Whether a UL subcell to OL subcell handover is allowed
When a UL subcell-OL subcel handover decision is performed to a call, the BSC determines whether the number of handover fa
After an MS performs a OL subcell to UL subcell handover successfully, the MS cannot be handed over to the OL subcell again
One of the parameters that determine the coverage of the OL subcell and of the UL subcell. "UtoO HO Received Level Thresho
When this parameter is set to YES, the existing call is performed in the OL subcell, and "OL to UL HO Allowed" is set to YES, an
Hierarchical handover period of the load handover from the UL subcell to the OL subcell. If the channel seizure ratio of the UL s
Hierarchical level step of the load handover from the UL subcell to the OL subcell
IUO cell receive quality threshold AMRFR, which is used for IUO handover decision
IUO cell receive quality threshold AMRHR, which is used for IUO handover decision
In a direct retry, when the receive level of a neighboring cell is no smaller than this parameter, the neighboring cell can be a can
Whether to allow the fast handover algorithm
Fast handover can be triggered only when the downlink level of the serving cell is less than this parameter.
Fast handover can be triggered only when the uplink signal level of the serving cell is less than this parameter.
Number of invalid measurement reports allowed when the BSC6900 filters the measurement reports. When the number of rece
A quick handover can be initiated only if the rate of an MS is higher than this parameter during a certain period of time.
Whether to enable "Triggering the quick PBGT algorithm only when an MS is far from the BTS"
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in sev
When the network receives measurement reports, in consideration of the accuracy of a single measurement report, the measur
This parameter specifies whether the reselection from 2G cells to 3G cells is allowed.
This parameter specifies whether the handover from 3G cells to 2G cells is allowed.
This parameter specifies whether the handover from 2G cells to 3G cells is allowed.
According to the P/N rule, if the conditions for edge handover are met for P seconds within N seconds, the handover is triggered
According to the P/N rule, if the conditions for edge handover are met for P seconds within N seconds, the handover is triggered
One
of the
filter parameters
A1PBGT
to A8 handovers
and filter parameter
used
configure
the filter
for
Whether
tonine
use parameters
the PBGT handover
algorithm.
are basedBon
pathtoloss.
The PBGT
handover
algorithm search
determining whether the received signal level drops rapidly. The computation formula is as follows:
C1nt = A1 x Cnt + A2 x Cnt-t + A3 x Cnt-2t + ... + A8 x Cnt-7t
If C1nt is less than B and Cnt is less than the threshold for edge handover, the signal level is considered dropping
rapidly.
In theofformula,
to A8 are filter parameters A1 to A8 and
minus
10parameter
and B is the
negative
of filter parameter
B. Cnt
One
the nineA1
parameters
filter
B used
to configure
the filter for
determining whether the received signal level drops rapidly. The computation formula is as follows:
C1nt = A1 x Cnt + A2 x Cnt-t + A3 x Cnt-2t + ... + A8 x Cnt-7t
If C1nt is less than B and Cnt is less than the threshold for edge handover, the signal level is considered dropping
rapidly.
In theofformula,
to A8 are filter parameters A1 to A8 and
minus
10parameter
and B is the
negative
of filter parameter
B. Cnt
One
the nineA1
parameters
filter
B used
to configure
the filter for
determining whether the received signal level drops rapidly. The computation formula is as follows:
C1nt = A1 x Cnt + A2 x Cnt-t + A3 x Cnt-2t + ... + A8 x Cnt-7t
If C1nt is less than B and Cnt is less than the threshold for edge handover, the signal level is considered dropping
rapidly.
In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. Cnt
One of the nine parameters filter parameters A1 to A8 and filter parameter B used to configure the filter for
determining whether the received signal level drops rapidly. The computation formula is as follows:
C1nt = A1 x Cnt + A2 x Cnt-t + A3 x Cnt-2t + ... + A8 x Cnt-7t
If C1nt is less than B and Cnt is less than the threshold for edge handover, the signal level is considered dropping
rapidly.
In theofformula,
to A8 are filter parameters A1 to A8 and
minus
10parameter
and B is the
negative
of filter parameter
B. Cnt
One
the nineA1
parameters
filter
B used
to configure
the filter for
determining whether the received signal level drops rapidly. The computation formula is as follows:
C1nt = A1 x Cnt + A2 x Cnt-t + A3 x Cnt-2t + ... + A8 x Cnt-7t
If C1nt is less than B and Cnt is less than the threshold for edge handover, the signal level is considered dropping
rapidly.
In theofformula,
to A8 are filter parameters A1 to A8 and
minus
10parameter
and B is the
negative
of filter parameter
B. Cnt
One
the nineA1
parameters
filter
B used
to configure
the filter for
determining whether the received signal level drops rapidly. The computation formula is as follows:
C1nt = A1 x Cnt + A2 x Cnt-t + A3 x Cnt-2t + ... + A8 x Cnt-7t
If C1nt is less than B and Cnt is less than the threshold for edge handover, the signal level is considered dropping
rapidly.
In theofformula,
to A8 are filter parameters A1 to A8 and
minus
10parameter
and B is the
negative
of filter parameter
B. Cnt
One
the nineA1
parameters
filter
B used
to configure
the filter for
determining whether the received signal level drops rapidly. The computation formula is as follows:
C1nt = A1 x Cnt + A2 x Cnt-t + A3 x Cnt-2t + ... + A8 x Cnt-7t
If C1nt is less than B and Cnt is less than the threshold for edge handover, the signal level is considered dropping
rapidly.
In
theofformula,
to A8 are filter parameters A1 to A8 and
minus
10parameter
and B is the
negative
of filter parameter
B. Cnt
One
the nineA1
parameters
filter
B used
to configure
the filter for
determining whether the received signal level drops rapidly. The computation formula is as follows:
C1nt = A1 x Cnt + A2 x Cnt-t + A3 x Cnt-2t + ... + A8 x Cnt-7t
If C1nt is less than B and Cnt is less than the threshold for edge handover, the signal level is considered dropping
rapidly.
In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. Cnt
Whether
a cell
is a repeater.
With of
simpler
functions
a BTS,
repeater ishelps
a coverage
extension
device
of a
Trend of the
received
signal level
the cell
during athan
period.
Thisaparameter
to configure
the filter
for determining
whether
BTS. It is applied to widely-stretched areas or indoor areas to solve the dead zone problem of BTS coverage. Using
repeaters cannot increase the traffic capacity of a network but improve the coverage only. Because the BTS
coverage increases, however, the total traffic improves accordingly.
Whether to enable the bad quality BQ handover algorithm. Whether to trigger BQ handover depends on the uplink and downlink
Whether to adjust the candidate cell queue to give priority to intra-BSC/MSC handover
Whether to enable the concentric cell handover algorithm. The concentric cell handover helps to achieve wide coverage in the u
Threshold for downlink edge handover. If the downlink receive level remains less than this threshold for a period of time, the edg
Whether to enable the edge handover algorithm. When an MS makes a call at the edge of a cell, the call may drop if the receive
If the downlink received signal level of a neighbor cell is greater than "Min DL Level on Candidate Cell" plus "Min Access Level O
If the uplink received signal level of a neighbor cell is greater than "Min UL Level on Candidate Cell" plus "Min Access Level Offs
Whether to allow the interference handover algorithm. Interference handovers are triggered when the receive level is higher than
Whether to allow intra-cell handovers
Whether to allow inter-layer and inter-level handovers. The inter-layer and inter-level handover algorithm is achieved through the
Hysteresis value during the handovers between cells on different layers or of different priorities. This value is used to suppress i
This parameter specifies whether a traffic load-sharing handover is enabled. The load handover helps to reduce cell congestion
Whether to enable the fast moving micro-cell handover algorithm. The fast moving micro-cell handover algorithm enables fast m
Whether to use the emergency handover algorithm in case the receive level of the MSs drops rapidly, thus preventing call drops
Whether to enable a handover between signaling channels
Whether to enable the time advance TA handover. The TA handover determines whether the timing advance TA is higher than
If the UL receive level remains lower than the "Edge HO UL RX_LEV Threshold" for a period, the edge handover is triggered.
Duration in which intra-cell handover is forbidden after the number of consecutive intra-cell handovers reaches the maximum. In
The twice intra-cell handover events during this interval are considered consecutive handover events.
K offset used in K sequencing. To reduce ping-pong handovers, the system performs K sorting based on the downlink receive le
When the load of a cell reaches or exceeds "Load HO Threshold", all the calls that are using this cell as the serving cell generat
In hierarchical load handovers, starting from "Edge HO DL RX_LEV Threshold", a "Load HO Step Level" is added to the upper h
In the handover algorithm of the first generation, load handovers can be performed only when the receive level of the current se
Maximum
for a Physical
Information
to abecell.
transmitted.
thebetween
retransmission
timeshandovers
exceeds this
Number oftimes
consecutive
intra-cell
handoversmessage
allowed in
When theWhen
interval
two intra-cell
is lower than a
parameter and the BTS still cannot receive any correct SAMB frame from the MS, the BTS sends a connection
failure message including the handover failure information to the BSC, which releases the assigned channel and
stops timer T3105 after receiving this message.
In a non-synchronized handover, an MS keeps sending Handover Access Burst messages usually, the value of
timer T3124 is 320 ms to the network. When detecting these messages, the BTS returns a Physical Information
message to the MS through the main DCCH FACCH channel, starts timer T3105, and sends a
Whether to use external 2G neighboring cells as the target cells of load handovers
This parameter is used in the P/N criteria decision: If an MS quickly passes through N out of P micro-cells lately, the BSC enable
A time threshold determined based on the radius of a cell and the moving speed of an MS. If the MS crosses the cell in a time p
This parameter is used in the P/N criteria decision: If an MS quickly passes through N out of P micro-cells lately, the BSC enable
Level value of the penalty that is performed on the neighboring cells of the cell where a fast-moving MS is located. The neighbor
Period in which penalty is performed on the neighboring cells of the cell where a fast-moving MS is located. The neighboring cel
The system flux level is the current flux control level of the system. A load handover is allowed only when the system flux is low
When the BTS sends physical information to the MS, the BTS starts the timer T3105.If the timer T3105 expires before the BTS
The load handover is triggered when the traffic load in a cell is greater than the value of this parameter.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate.
Minimum interval between the two consecutive handover decisions of an MS. The BSC cannot make a handover decision during
Minimum interval between two consecutive emergency handovers performed by an MS. During this interval, no emergency hand
Whether to punish the target cell when a handover fails or to punish the current serving cell when a handover is of more TA or b
After a new SDCCH is assigned to an MS, the MS can be handed over to another channel only if the time during which the MS o
After a new TCH is assigned to an MS, the MS can be handed over to another channel only if the time during which the MS occu
If the load of a cell is lower than the value of this parameter, the cell can admit the users handed over from other cells with high
Handover threshold during the handovers between cells on different layers or of different priorities. This value is used to suppres
Fast handover can be triggered only when the path loss difference between the serving cell and a neighbor cell on the chain is e
To avoid ping-pong handover, the received signal of the original serving cell is decreased by "Quick handover punish value" in "Q
After the fast handover is successful, the penalty on the original serving cell is performed within the "Quick handover punish time
Layer where a cell is located. The network designed by Huawei has four layers: Umbrella layer 4, Macro layer 3, Micro layer 2, a
This parameter controls handover between cells at the same layer. Generally, the cells at the same layer are set with the same
Threshold for determining whether downlink interference exists. If the downlink level is equal to or greater than "Interf.of DL Lev
Threshold for determining whether downlink interference exists. If the downlink level is equal to or greater than "Interf.of DL Lev
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in sev
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in sev
The P/N criteria is used to determine low downlink power for multi-density carriers. If the downlink power of a multi-density carrie
The P/N criteria is used to determine low downlink power for multi-density carriers. If the downlink power of a multi-density carrie
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered
One of the thresholds to determine whether the uplink interference exists. If the uplink level is not smaller than "Interf.of UL Leve
One of the thresholds to determine whether the uplink interference exists. If the uplink level is not smaller than "Interf.of UL Leve
If the difference between uplink receive levels of calls within the same timeslot is greater than "Offset of the difference between
After the existing uplink receive level, uplink receive level after the previous optimization, and the value of this parameter are we
If the difference between uplink receive levels of calls within the same timeslot is greater than "Offset of the difference between
Downlink quality threshold for emergency handover. This parameter is represented as the product of 10 and a quality level that r
Decisions of no-downlink measurement report handovers can be made only when the number of consecutive no-downlink meas
Whether to enable the no-downlink measurement report handover algorithm
When a certain number of no-downlink measurement reports are received consecutively and the uplink receive quality is no sma
An emergency handover is triggered when TA is greater than or equal to the value of this parameter.
An emergency handover due to bad quality is triggered when the uplink receive quality is not smaller than "UL Qual. Threshold".
Number of measurement reports sampled for averaging the signal quality on a speech/data channel. Averaging the signal qualit
Number of measurement reports sampled for averaging the signal strength on a speech/data channel. Averaging the signal stre
Penalty signal level imposed on a target cell to which the handover fails due to congestion or poor radio quality. This penalty hel
Specifies an interval between two consecutive interference handovers
After a load handover succeeds, the BSC punishes the former serving cell during "Penalty Time on Load HO" by subtracting "Pe
After a load handover succeeds, the BSC punishes the former serving cell during "Penalty Time on Load HO" by subtracting "Pe
If the number of measurement reports lost consecutively is no larger than this value, linear interpolation is performed for the valu
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in sev
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in sev
Timer of penalty on a neighboring cell when a handover fails due to faults of data configration.
Timer for punishing the neighboring cells when handover failures occur due to resource-related causes, such as resources bein
Number of measurement reports used for averaging the signal quality of signaling channels. This parameter helps avoid sharp d
Number of measurement reports used for averaging the signal strength of signaling channels. This parameter helps avoid sharp
After a handovr due to bad quality is successful, the penalty on the original serving cell is performed within the "Penalty Time aft
After the time advancing handover is successful, the penalty on the original serving cell is performed within the "Penalty Time af
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered
Within the preset time, no AMR FR-to-HR handover is allowed if the previous FR-to-HR handover fails due to channel unavailab
After a handovr due to bad quality is successful, the penalty on the original serving cell is performed within the "Penalty Time aft
After the time advancing handover is successful, the penalty on the original serving cell is performed within the "Penalty Time af
Timer of penalty on a neighboring cell when a handover fails due to faults of air interface connection.
This parameter specifies whether a 2G cell or to a 3G cell is preferentially selected as the target cell for handover.
If the receive level of the neighboring 2G cell that ranks the first in the candidate cell list is equal to or smaller than this threshol
Whether to hand over an MS to another channel during an intra-cell handover through the assignment process
Whether an MS is forced to send a Handover Access message, which is indicated by an information element in the handover co
This parameter is used to avoid allocating the calls whose signal strengths differ greatly to the same timeslot. The BSC measure
Whether to query the classmark of the call in an incoming BSC handover
Whether to report the classmark queried by the BSC6900 to the MSC
With
"F-HtoHo
Period"
the duration
triggering AMR
handover
from between
full rate tofull
half
rate,
determines
Whether
enable
theand
algorithm
for thefor
load-based
handover
rate
andthis
halfparameter
rate
the current ATCB offset by which to choose the MSs to undergo handover from full rate to half rate.
ATCB offset = duration for triggering handover from full rate to half rate/"F-H Ho Period" + 1 x "AMR F-H Ho ATCB
With
Ho Period"
thehandover
duration for
triggering
from
fullATCB
rate toofhalf
determines
ATCB"F-H
threshold
for theand
AMR
from
full rate handover
to half rate.
If the
an rate,
AMRthis
full parameter
rate call is equal
to or greater than t
the current path loss offset by which to choose the MSs to undergo handover from full rate to half rate.
Path loss offset = duration for triggering handover from full rate to half rate/"F-H Ho Period" + 1 x "AMR F-H Ho
Path loss threshold for the AMR handover from full rate to half rate. If the path loss of an AMR full rate call is equal to or less tha
Quality threshold for the AMR handover from full rate to half rate. If the uplink and downlink receive quality levels of an AMR full
Load threshold for the AMR handover from full rate to half rate. If the cell load is greater than this threshold, the AMR full rate ca
ATCB threshold for the AMR handover from half rate to full rate. If the ATCB of an AMR half rate call is less than this threshold,
Path loss threshold for the AMR handover from half rate to full rate. If the path loss of an AMR half rate call is greater than this t
Whether to enable the algorithm for the uplink and downlink receive quality based AMR handover from half rate to full rate
Quality threshold for the AMR handover from half rate to full rate. If the receive quality level of an AMR half rate call is greater th
Load threshold for the AMR handover from half rate to full rate. If the cell load is less than this threshold, the AMR half rate calls
Whether to enable the algorithm for the handover to a better cell
According to the P/N rule, if the conditions for edge handover are met in P of N measurement reports, the handover is triggered
According to the P/N rule, if the conditions for edge handover are met in P of N measurement reports, the handover is triggered
ATCB difference between the overlaid and underlaid subcells
Duration of the handover from full rate to half rate. If the cell load is greater than the preset threshold, the calls that meet the con
According to the P/N rule, if the conditions for the handover from full rate to half rate are met for P seconds within N seconds, th
Path loss difference between the overlaid and underlaid subcells
Period of the handover from full rate to half rate. If the cell load is greater than the preset threshold, the calls that meet the cond
According to the P/N rule, if the conditions for the handover from full rate to half rate are met for P seconds within N seconds, th
ATCB difference between the overlaid and underlaid subcells
Duration of the handover from half rate to full rate. If the cell load is less than the preset threshold, the calls that meet the condit
According to the P/N rule, if the conditions for the handover from half rate to full rate are met for P seconds within N seconds, th
Path loss difference between the overlaid and underlaid subcells
According to the P/N rule, if the conditions for the handover from half rate to full rate are met for P seconds within N seconds, th
The triggering of interference handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the con
The triggering of interference handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the con
Whether to allow non-AMR voice F-H handover
Decides the offset of the current ATCB together with other two parameters: "F-H Ho Period" and period of triggering a F-H hand
Decides
current
path
offset full
together
with is
other
two parameters:
"F-H Ho Period"
and period
triggering
a handovers is
When thethe
ATCB
value
of cost
non-AMR
rate voice
no smaller
than this parameter,
the condition
for of
non-AMR
F-H
F-H handover, thus selecting target users for F-H handovers.
Path cost offset = Period of triggering a F-H handover / "F-H Ho Period" + 1 * "Non-AMR F-H Ho Pathloss Adjust
When the path loss value of non-AMR full rate voice is no larger than this parameter, the condition for non-AMR F-H handovers
Quality threshold for non-AMR F-H handovers. When the uplink receive quality and downlink receive quality of a user are both s
When the load of a cell is no smaller than this threshold, non-AMR F-H handovers are triggered in the cell.
When the ATCB value of non-AMR half rate voice is no larger than this threshold, the condition for non-AMR H-F handovers is m
When the path loss value of non-AMR half rate voice is no smaller than this threshold, the condition for non-AMR H-F handover
Whether to trigger non-AMR H-F handovers according to the uplink and downlink receive quality
Quality threshold for non-AMR H-F handovers. When the receive quality of a user is no smaller than this parameter, the user me
When the load of a cell is no larger than this threshold, non-AMR H-F handovers are triggered in the cell.
Whether to perform path loss-based sorting in a better cell handover algorithm
Whether to enable the BTS to transfer BTS/MS power class to the BSC
Whether to enable the BTS to preprocess measurement reports. This parameter determines where to conduct power control.
Frequency at which the BTSs submit pre-processed measurement reports to the BSC
Whether the BTSs send the original measurement reports to the BSC after pre-processing them. When this parameter is set to
Whether to allow inter-BSC SDCCH handovers
GUI_VALUE_RANGE
ACTUAL_VALUE_RANGE
UNIT
DEFAULT_VALUE
0~70
0~70
None
60
0~70
0~70
None
5
0~70
0~70
None
60
1~32
0.5~16, step:0.5
s
8
1~32
0.5~16, step:0.5
s
10
0~39
0~39
None
25
0~39
0~39
None
12
NONo, YESYes
NO, YES
None
YES
0~70
0~70
None
55
0~70
0~70
None
55
0~70
0~70
None
50
0~70
0~70
None
50
10~80
1~8, step:0.1
s
40
OFFOff, ONOn
OFF, ON
None
OFF
OFFOff, ONOn
OFF, ON
None
OFF
0~100
0~10, step:0.1
s
10
1~32
0.5~16, step:0.5
s
4
1~32
0.5~16, step:0.5
s
6
0~100
0~100
per cent
80
0~7
0~7
None
3
NONo, YESYes
NO, YES
None
NO
0~16
0~16
None
3
0~16
0~16
None
3
NOClose, YESOpen
NO, YES
None
NO
OSubcellOverlaid subcell, OSubcell,
USubcellUnderlaid
USubcell,subcell,
NoPrefer
NoPreferNo
None
Usubcell
preference
0~100
0~100
per cent
70
1~255
1~255
s
5
0~63
0~63
dB
5
0~100
0~100
per cent
20
0~100
0~100
per cent
80
0~63
0~63
dB
63
SysOptSystem optimization,
SysOpt,
OSubcellOverlaid
OSubcell, USubcell,
subcell, None
USubcellUnderlaid
NoPrefer SysOpt subcell, NoPreferNo preference
NONo, YESYes
NO, YES
None
NO
0~255
0~255
bit
0
1~32
0.5~16, step:0.5
s
8
1~32
0.5~16, step:0.5
s
10
NONo, YESYes
NO, YES
None
YES
SysOptSystem optimization,
SysOpt,
OSubcellOverlaid
OSubcell, USubcell,
subcell, None
USubcellUnderlaid
NoPrefer SysOpt subcell, NoPreferNo preference
0~63
0~63
dB
35
0~255
0~255
bit
63
0~63
0~63
dB
20
0~63
0~63
None
25
0~63
0~63
None
35
0~63
0~63
dB
5
0~63
0~63
dB
30
NONo, YESYes
NO, YES
None
YES
0~70
NONo, YESYes
NONo, YESYes
0~255
0~255
0~255
10~255
NONo, YESYes
0~8
0~255
0~63
NONo, YESYes
1~255
1~63
0~70
0~70
0~63
NONo, YESYes
0~63
0~63
0~32
0~600
NONo, YESYes
1~20
1~20
NONo, YESYes
NONo, YESYes
NONo, YESYes
1~32
1~32
NONo, YESYes
0~70
None
60
NO, YES
None
NO
NO, YES
None
NO
0~255
bit
0
0~255
bit
63
0~255
s
10
10~255
s
40
NO, YES
None
YES
0~8
None
3
0~255
s
10
0~63
dB
35
NO, YES
None
NO
1~255
s
5
1~63
dB
5
0~70
None
50
0~70
None
40
0~63
dB
16
NO, YES
None
NO
0~63
dB
50
0~63
dB
50
0~32
None
1
0~600
m/s
35
NO, YES
None
NO
TCH:480~9600, step:480; SDCCH:470~9400,
ms
step:470 4
TCH:480~9600, step:480; SDCCH:470~9400,
ms
step:470 4
NO, YES
None
NO
NO, YES
None
NO
NO, YES
None
NO
0.5~16, step:0.5
s
4
0.5~16, step:0.5
s
6
NO, YES
None
YES
0~20
0~20
None
10
0~20
0~20
None
10
0~20
0~20
None
10
0~20
0~20
None
10
0~20
0~20
None
10
0~20
0~20
None
10
0~20
0~20
None
10
0~20
0~200
0~20
0~200
None
None
10
0
NONo, YESYes
NONo, YESYes
NONo, YESYes
NONo, YESYes
0~63
NONo, YESYes
0~63
0~63
NONo, YESYes
NONo, YESYes
NONo, YESYes
0~63
NONo, YESYes
NONo, YESYes
NONo, YESYes
NONo, YESYes
NONo, YESYes
0~63
1~200
1~200
0~63
1~255
NO, YES
NO, YES
NO, YES
NO, YES
0~63
NO, YES
0~63
0~63
NO, YES
NO, YES
NO, YES
0~63
NO, YES
NO, YES
NO, YES
NO, YES
NO, YES
0~63
1~200
1~200
0~63
1~255
None
None
None
None
dB
None
dB
dB
None
None
None
dB
None
None
None
None
None
dB
s
s
dB
s
NO
YES
YES
NO
20
YES
10
0
YES
NO
YES
2
NO
NO
NO
NO
YES
10
20
6
0
10
1~63
0~63
1~20
1~63
0~63
1~20
dB
dB
None
5
25
3
1~255
NONo, YESYes
1~10
0~255
1~10
0~63
0~255
0,8~11
0~255
0~100
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~60
0~60
NONo, YESYes
0~60
0~60
1~255
NO, YES
1~10
0~255
1~10
0~63
0~255
0, 8~11
0~2550, step:10
0~100
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~60
0~60
NO, YES
0~60
0~60
None
None
None
s
None
dB
s
None
ms
None
None
None
None
None
None
None
None
None
None
None
None
None
s
s
None
s
s
0~100
0~100
per cent
80
0~63
0~63
dB
25
0~127
0~127
dB
68
0~63
0~63
dB
63
30
NO
3
15
2
30
40
10
7
90
60
42
41
40
50
49
48
47
46
45
44
43
4
4
YES
2
2
0~255
0~255
s
10
1, 2, 3, 4
1, 2, 3, 4
None
3
PRIOR-1Priority-1, PRIOR-2Priority-2,
PRIOR-1, PRIOR-2,
PRIOR-3Priority-3,
PRIOR-3,
None
PRIOR-4,
PRIOR-4Priority-4,
None
PRIOR-5,PRIOR-5Priority-5,
PRIOR-6, PRIOR-7,
PRIOR-6Priority-6,
PRIOR-8, PRIOR-9,
PRIOR-7P
PRIOR
0~63
0~70
1~32
1~32
1~16
1~16
1~32
1~32
0~70
0~63
1~16
1~10
1~16
0~70
0~64
NONo, YESYes
0~70
0~255
0~70
1~31
1~31
0~63
0~255
0~255
0~63
0~31
1~31
1~31
0~255
0~255
1~31
1~31
0~63
0~63
1~31
1~31
0~255
0~255
0~255
0~255
0~63
dB
35
0~70
None
40
TCH:480~15360, step:480; SDCCH:470~15040,
ms
step:4706
TCH:480~15360, step:480; SDCCH:470~15040,
ms
step:4702
1~16
s
3
1~16
s
5
TCH:480~15360, step:480; SDCCH:470~15040,
ms
step:4706
TCH:480~15360, step:480; SDCCH:470~15040,
ms
step:4702
0~70
None
40
0~63
dB
30
1~16
s
4
0.1~1, step:0.1
None
6
1~16
s
5
0~70
None
55
0~64
None
8
NO, YES
None
NO
0~70
None
50
0~255
bit
255
0~70
None
55
TCH:480~14880, step:480; SDCCH:470~14570,
ms
step:4704
TCH:480~14880, step:480; SDCCH:470~14570,
ms
step:4704
0~63
dB
30
0~255
s
15
0~255
s
10
0~63
dB
63
0~31
None
4
TCH:480~14880, step:480; SDCCH:470~14570,
ms
step:4704
TCH:480~14880, step:480; SDCCH:470~14570,
ms
step:4702
0~255
s
255
0~255
s
5
TCH:480~14880, step:480; SDCCH:470~14570,
ms
step:4702
TCH:480~14880, step:480; SDCCH:470~14570,
ms
step:4702
0~63
dB
63
0~63
dB
63
TCH:480~14880, step:480; SDCCH:470~14570,
ms
step:4704
TCH:480~14880, step:480; SDCCH:470~14570,
ms
step:4702
0~255
s
10
0~255
s
10
0~255
s
30
0~255
s
10
Pre_2G_CellPreference forPre_2G_Cell,
2G cell, Pre_3G_CellPreference
Pre_3G_Cell, Pre_2G_CellThres
None for 3G
Pre_2G_CellThres
cell, Pre_2G_CellThresPreference 2G cell by thresh
0~63
NONo, YESYes
NONo, YESYes
NOClose, YESOpen
NONo, YESYes
NONo, YESYes
NONo, YESYes
0~63
NO, YES
NO, YES
NO, YES
NO, YES
NO, YES
NO, YES
dB
None
None
None
None
None
None
25
0~255
0~255
0~255
0~255
dB
dB
2
20
0~255
0~255
0~7
0~100
0~255
0~255
NONo, YESYes
0~7
0~100
NONo, YESYes
1~32
1~32
0~255
0~600
1~32
0~255
0~600
1~32
0~255
0~600
1~32
0~255
1~32
1~16
1~16
NONo, YESYes
0~255
0~255
0~255
0~255
0~7
0~100
0~255
0~255
NO, YES
0~7
0~100
NO, YES
0.5~16, step:0.5
0.5~16, step:0.5
0~255
0~600
0.5~16, step:0.5
0~255
0~600
0.5~16, step:0.5
0~255
0~600
0.5~16, step:0.5
0~255
0.5~16, step:0.5
0.5~8, step:0.5
0.5~8, step:0.5
NO, YES
0~255
0~255
dB
dB
None
per cent
dB
dB
None
NO
None
per cent
None
YES
s
s
dB
s
s
dB
s
s
dB
s
s
dB
s
s
s
None
NO
dB
dB
1
100
0
75
4
108
0~255
0~255
0~7
0~255
0~255
0~7
dB
dB
None
1
95
0
NO
YES
NO
NO
NO
NO
3
15
1
1
20
5
4
10
1
6
20
5
4
10
6
2
3
2
30
0~100
0~100
per cent
85
0~255
0~255
dB
14
0~255
0~255
dB
103
NONo, YESYes
NO, YES
None
NO
0~7
0~7
None
2
0~100
0~100
per cent
25
NONo, YESYes
NO, YES
None
NO
NONo, YESYes
NO, YES
None
YES
BSC_PreprocessingBSC preprocessing,
BSC_Preprocessing,
BTS_PreprocessingBTS
BTS_Preprocessing
None
BTS_Preprocessing
preprocessing
NOreportDo not report, Twice_psTwice
NOreport, Twice_ps,
every second,
Once_ps,
Once_psOnce
None
Once_2s,
Once_ps
Once_4s
every second, Once_2sOnce every two second, Once_4s
NONo, YESYes
NO, YES
None
NO
NONo, YESYes
NO, YES
None
NO
RECOMMENDED_VALUE
60
5
60
8
10
25
12
YES
55
55
50
50
40
OFF
OFF
10
4
6
80
3
NO
3
3
NO
Usubcell
70
5
5
20
80
63
SysOpt
NO
0
8
10
YES
SysOpt
35
63
20
25
35
5
30
YES
60
NO
NO
0
63
10
40
YES
3
10
35
NO
5
5
50
40
16
NO
50
50
1
35
NO
4
4
NO
NO
NO
4
6
YES
10
10
10
10
10
10
10
10
0
NO
YES
YES
NO
The recommended value is 20 when HUAWEI I Handover is used;The recommended value is 15 when HUAWEI II Handover is
YES
10
0
YES
In the hot-spot areas, densely populated urban areas, urban areas, suburbs, and rural areas, the recommended value is YES; in
YES
2
NO
Set this parameter to YES only in special scenarios such as highways.
In dual-band networking mode for densely populated urban areas, the level drops rapidly due to multiple barriers. The propagati
NO
YES
10
20
6
0
10
5
25
3
30
NO
3
15
2
30
40
10
7
90
60
42
41
40
50
49
48
47
46
45
44
43
4
4
YES
2
2
80
25
68
63
10
3
None
35
40
6
2
3
5
6
2
40
30
4
6
5
55
8
NO
50
255
55
4
4
30
15
10
63
4
4
2
255
5
2
2
63
63
4
2
10
10
30
10
Pre_2G_CellThres
25
NO
YES
NO
NO
NO
NO
2
20
1
100
0
75
4
108
NO
3
15
YES
1
1
20
5
4
10
1
6
20
5
4
10
6
2
3
NO
2
30
1
95
0
85
14
103
NO
2
25
NO
YES
BTS_Preprocessing
Once_ps
NO
NO
PARAMETER_RELATIONSHIP
None
None
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES. Th
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES. Th
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLHOEN" is set to YES.
None
None
None
None
None
None
None
None
This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON. The following condition m
This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON. The following condition m
This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON.
This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON.
When parameter ""Quick handover enable"" is configured to "YES",then parameter ""Handover Direction Forecast Enable"" can
"Handover Direction Forecast Statistic Times" >= "Handover Direction Forecast Last Times"
"Handover Direction Forecast Statistic Times" >= "Handover Direction Forecast Last Times"
This parameter is valid only when "IUOTP" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "UTOOTRAFHOALLOW" is set to YES. The following condition must be met: "ENSOVERLDT
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "UTOOTRAFHOALLOW" is set to YES. The following condition must be met: "ENSOVERLDT
This parameter is valid only when "UTOOTRAFHOALLOW" is set to YES. The following condition must be met: "ENSOVERLDT
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "HOCTRLSWITCH" in "SET GCELLH
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IMMASSTAALLOW" is set to YES.
The following condition must be met: "IUOHOSTATIME" >= "IUOHODURATIME".
The following condition must be met: "IUOHOSTATIME" >= "IUOHODURATIME".
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "OPTILAYER" is set to SysOpt.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "OPTILAYER" is set to SysOpt.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
None
None
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "ENIUO" is set to OFF.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "ENIUO" is set to OFF.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. The following condition must be met: "TAL
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
None
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.
None
None
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "FRINGEHOEN" is set to YES. The follow
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "FRINGEHOEN" is set to YES. The follow
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must b
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must b
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must b
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must b
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must b
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must b
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must b
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must b
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES.
None
None
None
None
This parameter is valid when "FRINGEHOEN" is set to YES or "LOADHOEN" is set to YES.
None
None
None
None
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
None
None
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
None
None
This parameter is valid when "FRINGEHOEN" is set to YES or "RXQCKFALLHOEN" is set to YES.
None
This parameter, together with "BANTIME", limits the handover frequency in the cell.
None
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES. The value of this parameter must be
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
None
None
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be me
This parameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be me
None
None
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
None
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
When the cell is a 2G external cell, this parameter is valid only when the "" OutBscLoadHoEn"" parameter regarding the "SET G
None
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES.
None
None
None
None
None
None
None
None
This parameter is valid only when "QTRUPWRSHARE" is not set to NONE. The following condition must be met: "QTRUDNPW
This parameter is valid only when "QTRUPWRSHARE" is not set to NONE. The following condition must be met: "QTRUDNPW
None
None
None
None
The following condition must be met: "UPRXLEVSTATICTIME" >= "UPRXLEVLASTTIME".
None
The following condition must be met: "UPRXLEVSTATICTIME" >= "UPRXLEVLASTTIME".
This parameter is valid only when "BQHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES.
None
This parameter is valid only when "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES.
This parameter is valid only when "TAHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "BQHOEN" in "SET GCELLHOBASIC" is set to YES and "NODLMRHOEN" in "SET GCELLHO
None
None
None
This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2.
None
None
This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2.
None
None
None
None
None
None
None
This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2.
None
None
None
None
This parameter is valid only when the ""INTERRATOUTBSCHOEN"" parameter regarding the "SET GCELLHOBASIC" comman
This parameter is valid only when "HOOPTSEL" is set to Pre_2G_CellThres.
None
None
None
None
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLOW" is set to
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "FRINGEHOEN" is set to YES. The follow
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "FRINGEHOEN" is set to YES. The follow
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "FULLT
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "FULLT
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "HALFT
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "HALFT
This parameter is valid only when "INTERFHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The follow
This parameter is valid only when "INTERFHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The follow
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOALLOW" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_PreprocessingN.
If the value of this parameter is BSC_Preprocessing, the pre-processing is performed on the BSC. In this case, the following par
This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_PreprocessingN.
This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_Preprocessing. This parameter must be set to NO w
This parameter is valid only when "SIGCHANHOEN" in "SET GCELLHOBASIC" is set to YES.
CAUTION
The setting of this parameter affects the triggering of a handover for poor quality in an AMR full rate call. The smaller the value o
For AMR calls, this parameter, together with "Interfere HO Qual Thresh n for Non-AMR FR", is used in interference handover de
The setting of this parameter affects the triggering of BQBad Quality handover of AMR FR calls. If it is set to a smaller value, the
None
None
None
None
None
The setting of this parameter affects the triggering of a handover for poor quality in an AMR half rate call. The smaller the value
The setting of this parameter affects the triggering of BQ handover of AMR HR calls. If it is set to a smaller value, the uplink BQ
None
None
The value of this parameter must be greater than five times the maximum value of the following parameter: "Filter Length for SD
Before enabling this function, ensure that the parameter "Directed Retry" of the cell is set to YES. To obtain MRs on the SDCCH
If the parameter "IBCA Allowed" is set to YES, the BSC waits for MRs on the SDCCH for the duration specified by the paramete
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
If the value of this parameter is YES, the intra-BSC handovers including intra-cell handovers in which the cell is the source or de
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
You can increase this value when the handovers are slow or the handover success ratio is low due to bad clock or transmission
None
None
None
None
None
None
None
The physical information is sent over the FACCH. Every four TDMA frames are sent once over the FACCH, which takes 18 ms.
None
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sma
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sma
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sma
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sma
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sma
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a too
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sma
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sma
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a too
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sma
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a too
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is set to a sma
None
None
None
None
None
None
Set this parameter properly to ensure that hierarchical handover and load-based handover can function properly. During hierarc
None
None
None
None
Each layer has 16 priorities, numbered 1-16 respectively. If the number of the priority is small, the priority is high. This paramete
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
Because the measurement reports may not always be correctly decoded when the quality of a serving cell is poor, handovers m
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
If "MR.Preprocessing" is set to BTS_Preprocessing and this parameter is set to NO, the uplink-downlink balance associated traf
This parameter can be set to BTS_Preprocessing only when the BTS supports the configured power control algorithm.
When this parameter is set to Noreport, the BTSs do not submit measurement reports to the BSC, which disables handovers an
None
None
RADIO_PERFORMACE_IMPACT
If this parameter is set to a smaller value, the handovers due to bad downlink quality may increase, thus decreasing the handove
None
If this parameter is set to a smaller value, the handovers due to bad uplink quality may increase, thus decreasing the handover s
None
None
If this parameter is set to a greater value, the traffic volume during busy time may be decreased.If this parameter is set to a sma
If this parameter is set to a greater value, the traffic volume during busy time may be decreased.If this parameter is set to a sma
None
If this parameter is set to a smaller value, the handovers due to bad downlink quality may increase, thus decreasing the handove
If this parameter is set to a smaller value, the handovers due to bad uplink quality may increase, thus decreasing the handover s
The smaller the value of this parameter is, the more MSs select a neighboring cell in directed retry.
The smaller the value of this parameter is, the more MSs select a neighboring cell in directed retry.
The setting of this parameter affects the access delay of parts of MSs.
If this parameter is set to YES, the voice quality is enhanced and the handover times is reduced, but the call access delay is pro
If this switch is set to ON, the call access delay may be prolonged, but the performance of the algorithms in which the SDCCH M
The greater the value of this parameter is, the longer the call access duration is, the MRs are filtered more completely. Generall
If this parameter is set to a greater value, the BCCH may idle while non-BCCHs are congested, thus affecting the traffic volume
None
None
None
If this parameter is set to YES, the probability of MS handover to the cell in the direction opposite to the moving direction during
If this parameter is set to a great value, there are strict restrictions on the judgement of the MS moving direction.
If this parameter is set to a great value, there are strict restrictions on the judgement of the MS moving direction.
None
None
If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller valu
If this parameter is set to a smaller value, congestion may occur in the underlaid subcell in a short time; if this parameter is set t
If this parameter is set to a greater value, congestion may occur in the underlaid subcell in a short time; if this parameter is set to
If this parameter is set to a greater value, traffic load on the underlaid subcell is increased, and thus congestion may occur in the
If this parameter is set to a greater value, the congestion relieving speed in the underlaid subcell is decreased. If this parameter
If this parameter is set to a greater value, congestion in the underlaid subcell may not be relieved in time. If this parameter is set
None
None
None
None
None
None
None
If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller valu
If this parameter is set to a greater value, assignment success rate may be decreased; if this parameter is set to a smaller value
None
None
None
None
None
None
None
None
None
None
None
If this parameter is set to a greater value, call drop rate may be increased and congestion may occur in the overlaid subcell; if th
If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller valu
None
None
If this parameter is set to a greater value, congestion may occur in the underlaid subcell.If this parameter is set to a smaller valu
None
None
If this parameter is set to a greater value, congestion in the underlaid subcell is difficult to be relieved; if this parameter is set to a
If this parameter is set to a greater value, congestion may occur in the overlaid subcell in a short time; if this parameter is set to
None
None
None
None
If this parameter is set to a smaller value, unnecessary handovers may be performed.If this parameter is set to a greater value,
If this parameter is set to a smaller value, unnecessary handovers may be performed.If this parameter is set to a greater value,
None
None
None
None
None
None
None
None
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and ca
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a smaller value,
None
None
None
None
None
None
None
None
None
None
None
None
None
None
If this parameter is set to a smaller value, call drops may occur due to delayed handover; if this parameter is set to a greater val
None
This parameter limits the number of candidate cells. If this parameter is set to a greater value, some desired cells may be exclud
This parameter limits the number of candidate cells. If this parameter is set to a greater value, some desired cells may be exclud
None
None
None
None
None
None
None
None
None
If this parameter is set to a smaller value, call drops may occur due to delayed handover; if this parameter is set to a greater val
None
If this parameter is set to a smaller value, handovers may be performed frequently; if this parameter is set to a greater value, ha
None
None
If this parameter is set to a greater value, congestion may occur in the neighboring cells in a short time; if this parameter is set to
None
If this parameter is set to a smaller value, call drops may occur or voice quality may be decreased due to delayed handover; if th
None
None
If this parameter is set to a greater value, unnecessary handovers between micro cells are performed, thus affecting the voice q
None
If this parameter is set to a greater value, congestion may occur in macro cells. If this parameter is set to a smaller value, unnec
If this parameter is set to a greater value, the handover to micro cells becomes difficult, and congestion may occur in macro cell
If this parameter is set to a greater value, the handover to micro cells becomes difficult, and congestion may occur in macro cell
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
If this parameter is set to a smaller value, handovers may be performed frequently; if this parameter is set to a greater value, ha
If this parameter is set to a smaller value, handovers are performed frequently; if this parameter is set to a greater value, handov
None
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter
If this parameter is set to a too small value, the corresponding cell may reject some handover requests; thus the traffic congesti
None
If this parameter is set to a greater value, call drops may occur because the handover may not be performed timely.If this param
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop w
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop w
None
None
None
None
None
None
If this parameter is set to a greater value, downlink power insufficiency may not be solved in time, thus leading to call drops.If thi
If this parameter is set to a greater value, unnecessary handovers may be performed, thus the voice quality is decreased.If this
None
None
None
None
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur.If this parameter i
None
If this parameter is set to a greater value, unnecessary handovers may be performed, thus affecting the voice quality.If this para
If this parameter is set to a greater value, handover may not be performed when the downlink voice quality is bad, thus leading t
None
None
The handover decision is allowed only when the uplink receive quality is greater than or equal to the value of this parameter. The
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter
If this parameter is set to a greater value, handover may not be performed when the uplink voice quality is bad, thus leading to c
None
None
If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If this paramete
If this parameter is set to a greater value, call drops may occur.If this parameter is set to a smaller value, handover may be perfo
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the serving cell, thus leading to call drop w
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the serving cell, thus leading to call drop w
None
None
This parameter should be set to a small value because the signaling channel seizure duration is shorter than the traffic channel
If this parameter is set to a greater value, the target cell for the previous handover will not be selected for the next handover, but
If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If this paramete
None
None
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop w
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop w
None
None
If this parameter is set to a greater value, cell congestion may be difficult to be relieved, thus affecting the traffic volume during b
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop w
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop w
If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If this paramete
None
None
The switching from an intra-cell handover procedure to an assignment procedure shortens the duration of the intra-cell handove
None
None
None
None
If this switch is turned on, AMR FR calls can be switched into AMR HR calls to relieve the network congestion, but the voice qua
If this parameter is set to a greater value, the handover margin is increased in a short period and many MSs are handed over fro
If this parameter is set to a greater value, only MSs in the center of the cell can meet the handover condition. Thus, the network
If this parameter is set to a greater value, the handover margin is increased in a short period and many MSs are handed over fro
If this parameter is set to a greater value, MSs at the edge of the cell can also meet the handover condition, thus affecting the vo
If this parameter is set to a greater value, MSs with poor quality can also meet the handover condition, thus affecting the voice q
If this parameter is set to a greater value, the calls cannot be handed over to TCHH in a short period when the traffic volume is i
If this parameter is set to a greater value, only MSs in the center of the cell use the TCHH, thus leading to timeslot waste and th
If this parameter is set to a greater value, MSs at the edge of the cell and with poor quality also cannot be handed over to the TC
None
If this parameter is set to a greater value, handover cannot be triggered even when the quality is poor, thus affecting the voice q
If this parameter is set to a smaller value, calls are handed over to TCHH unnecessarily, thus causing MOS loss of the custome
None
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and ca
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a smaller value,
If this parameter is set to a greater value, the voice quality may be decreased.If this parameter is set to a smaller value, the cong
If this parameter is set to a smaller value, the duration of an AMR TCHF-TCHH handover is short after the handover is triggered
If this parameter is set to a greater value, the handover cannot be performed in time and network congestion may occur.If this p
If this parameter is set to a greater value, network congestion may occur because the handover may not be performed timely.If t
If this parameter is set to a smaller value, the handover zone is enlarged in a short time, and thus many MSs are handed over fr
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a smaller value,
If this parameter is set to a greater value, only an MS close to the overlaid subcell can be assigned TCHHs. Thus, timeslots are
None
If this parameter is set to a greater value, the TCHH-to-TCHF handover cannot be performed in time, thus the voice quality is de
If this parameter is set to a greater value, only MSs in the center area of the overlaid subcell can be assigned TCHHs. Thus, tim
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a greater value,
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and ca
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a smaller value,
If this parameter is set to YES, FR calls can be switched into HR calls to relieve the network congestion, but the voice quality is
If this parameter is set to a greater value, the handover margin is increased in a short period and many MSs are handed over fro
If this parameter is set to a greater value, only MSs in the center of the cell can meet the handover condition. Thus, the network
If this parameter is set to a greater value, the handover margin is increased in a short period and many MSs are handed over fro
If this parameter is set to a greater value, MSs at the edge of the cell can also meet the handover condition, thus affecting the vo
If this parameter is set to a greater value, MSs with poor quality can also meet the handover condition, thus affecting the voice q
If this parameter is set to a greater value, the calls cannot be handed over to TCHH in a short period when the traffic volume is i
If this parameter is set to a greater value, only MSs in the center of the cell use the TCHH, thus leading to timeslot waste and th
If this parameter is set to a greater value, MSs at the edge of the cell and with poor quality also cannot be handed over to the TC
None
If this parameter is set to a greater value, handover cannot be triggered even when the quality is poor, thus affecting the voice q
If this parameter is set to a smaller value, calls are handed over to TCHH unnecessarily, thus causing MOS loss of the custome
None
None
If this parameter is set to BTS_Preprocessing, signaling on the Abis interface and BSC load are decreased, thus enhancing the
None
None
None
ATTRIBUTE
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
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Radio
Radio
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Radio
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Radio
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Radio
Radio
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Radio
Radio
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Radio
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Radio
Radio
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Radio
Radio
Radio
Radio
Radio
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Radio
Radio
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Radio
Radio
Radio
Radio
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Radio
Radio
Radio
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Radio
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Radio
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Radio
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Radio
Equipment
Radio
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Radio
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Radio
Radio
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Radio
FEATURE_NAME
IMPACT PARAMETER_ID
Active Power Control
Active Power Control
Active Power Control
Active Power Control
Active Power Control
Active Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
COMBINERLOSS
DOUBLEANTENNAGAIN
EXPDLRXLEV
EXPULRXLEV
PATHLOSS
PWRBCDALLOWD
AMRBTSPWRNUM
AMRDLLEVFTLEN
AMRDLPREDLEND
AMRDLQHTHRED
AMRDLQLTHRED
AMRDLQUAFTLEN
AMRDLQUALBADTRIG
AMRDLQUALBADUPLEV
AMR Power Control
Cell
AMRDLSSHTHRED
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
AMR Power Control
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
AMRDLSSLTHRED
AMRMAXADJPCVAL
AMRMAXSTEP0
AMRMAXSTEP1
AMRMAXSTEP2
AMRMAXVALADJRX
AMRMRCOMPREG
AMRPCADJPERIOD
AMRQUALSTEP
AMRULLEVFTLEN
AMRULPREDLEND
AMRULQHTHRED
AMRULQLOWTHRED
AMRULQUAFTLEN
AMRULQUALBADTRIG
AMRULQUALBADUPLEV
AMR Power Control
Cell
AMRULSSHTHRED
AMR Power Control
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Cell
Cell
Cell
Cell
AMRULSSLTHRED
BTSPWRNUM
DLLEVFILTLEN
DLPREDLEND
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
DLQUAFILTLEN
DLQUALBADTRIG
DLQUALBADUPLEV
MAXADJPCVAL
MAXSTEP0
MAXSTEP1
MAXSTEP2
MAXVALADJRX
MRCOMPREG
QUALSTEP
ULLEVFILTLEN
ULPREDLEND
ULQUAFILTLEN
ULQUALBADTRIG
ULQUALBADUPLEV
AMRSADLUPGRADE
DLQHIGHTHRED
DLQLOWTHRED
Enhanced Power Control Algorithm
Cell
DLSSHIGHTHRED
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
Enhanced Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
DLSSLOWTHRED
PCADJPERIOD
PWRCTRLSW
ULQHIGHTHRED
ULQLOWTHRED
ULSSHIGHTHRED
ULSSLOWTHRED
AMRCALLPCALLOWED
DLADJPRD
DLAFSREXQUALHIGHTHRED
DLAFSREXQUALLOWTHRED
DLAHSREXQUALHIGHTHRED
DLAHSREXQUALLOWTHRED
DLFILTADJFACTOR
DLFSREXQUALHIGHTHRED
DLFSREXQUALLOWTHRED
DLHSREXQUALHIGHTHRED
DLHSREXQUALLOWTHRED
DLMAXDOWNSTEP
DLMAXUPSTEP
DLREXLEVADJFCTR
DLREXLEVEXPFLTLEN
DLREXLEVHIGHTHRED
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
HUAWEI III Power Control Algorithm
Network Support SAIC
Network Support SAIC
Network Support SAIC
Power Control
Power Control
Power Control
Power Control
Power Control
Power Control
Power Control
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
DLREXLEVLOWTHRED
DLREXLEVSLDWINDOW
DLREXQUALADJFCTR
DLREXQUALEXPFLTLEN
DLREXQUALSLDWINDOW
DLRXLEVPROTECTFACTOR
DLRXQUALPROTECTFACTOR
FINESTEPPCALLOWED
MRMISSNUM
NONAMRCALLPCALLOWED
PWRCTRLOPTIMIZEDEN
SDMRCUTNUM
TCHMRCUTNUM
ULADJPRD
ULAFSREXQUALHIGHTHRED
ULAFSREXQUALLOWTHRED
ULAHSREXQUALHIGHTHRED
ULAHSREXQUALLOWTHRED
ULFILTADJFACTOR
ULFSREXQUALHIGHTHRED
ULFSREXQUALLOWTHRED
ULHSREXQUALHIGHTHRED
ULHSREXQUALLOWTHRED
ULMAXDOWNSTEP
ULMAXUPSTEP
ULREXLEVADJFCTR
ULREXLEVEXPFLTLEN
ULREXLEVHIGHTHRED
ULREXLEVLOWTHRED
ULREXLEVSLDWINDOW
ULREXQUALADJFCTR
ULREXQUALEXPFLTLEN
ULREXQUALSLDWINDOW
ULRXLEVPROTECTFACTOR
ULRXQUALPROTECTFACTOR
SAICTHREDAPDTVALUE
SAICTHREDAPDTVALUE
SAICALLOWED
ALPHA
GAMMA
NAVGI
PB
PCMEASCHAN
TAVGT
TAVGW
PARAMETER_NAME
MML_COMMAND
Combiner Loss
Double Antenna Gain
Expected DL RX_LEV
Expected UL RX_LEV
Path Loss of Different Frequency Band
Power Forecast Allowed
AMR BTS PC Class
AMR Filter Length for DL RX_LEV
AMR DL MR. Number Predicted
AMR DL Qual. Upper Threshold
AMR DL Qual. Lower Threshold
AMR Filter Length for DL Qual.
AMR DL Qual Bad Trig Threshold
AMR DL Qual Bad UpLEVDiff
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
AMR DL RX_LEV Upper Threshold
SET GCELLPWR2
AMR DL RX_LEV Lower Threshold
AMR MAX Up Adj. PC Value by Qual.
AMR MAX Down Adj. Value Qual. Zone 0
AMR MAX Down Adj. Value Qual. Zone 1
AMR MAX Down Adj. Value Qual. Zone 2
AMR MAX Up Adj. PC Value by RX_LEV
AMR MR. Compensation Allowed
AMR PC Interval
AMR MAX Down Adj. PC Value by Qual.
AMR Filter Length for UL RX_LEV
AMR UL MR. Number Predicted
AMR UL Qual. Upper Threshold
AMR UL Qual. Lower Threshold
AMR Filter Length for UL Qual
AMR UL Qual. Bad Trig Threshold
AMR UL Qual. Bad UpLEVDiff
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
AMR UL RX_LEV Upper Threshold
SET GCELLPWR2
AMR UL RX_LEV Lower Threshold
BTS PC Class
Filter Length for DL RX_LEV
DL MR. Number Predicted
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
Filter Length for DL Qual.
DL Qual. Bad Trig Threshold
DL Qual. Bad UpLEVDiff
MAX Up Adj. PC Value by Qual.
MAX Down Adj.Value Qual.Zone 0
MAX Down Adj.Value Qual.Zone 1
MAX Down Adj.Value Qual.Zone 2
MAX Up Adj. PC Value by RX_LEV
MR. Compensation Allowed
MAX Down Adj. PC Value by Qual.
Filter Length for UL RX_LEV
UL MR. Number Predicted
Filter Length for UL Qual.
UL Qual. Bad Trig Threshold
UL Qual. Bad UpLEVDiff
AMR SACCH Downlink Power Upgrade
DL Qual. Upper Threshold
DL Qual. Lower Threshold
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWR2
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWRBASIC
DL RX_LEV Upper Threshold
SET GCELLPWRBASIC
DL RX_LEV Lower Threshold
PC Interval
Power Control Switch
UL Qual. Upper Threshold
UL Qual. Lower Threshold
UL RX_LEV Upper Threshold
UL RX_LEV Lower Threshold
Allow III Power Control For AMR
PwrCtrlDLAdjPeriod
DLAFSRexQualHighThred
DLAFSRexQualLowThred
DLAHSRexQualHighThred
DLAHSRexQualLowThred
III DL Filter Adjust Factor
DLFSRexQualHighThred
DLFSRexQualLowThred
DLHSRexQualHighThred
DLHSRexQualLowThred
DLMAXDownStep
DLMAXUpStep
DLRexLevAdjustFactor
DLRexLevExponentFilterLen
DLRexLevHighThred
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWRBASIC
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
DLRexLevLowthred
DLRexLevSlideWindow
DLRexQualAdjustFactor
DLRexQualExponentFilterLen
DLRexQualSlideWindow
III DL RexLev Protect Factor
III DL RexQual Protect Factor
0.2dB Power Control Enable
MRMissNumber
Allow III Power Control For Non-AMR
III Power Control Optimized Enable
SdMrCutNum
TchMrCutNum
PwrCtrlULAdjPeriod
ULAFSRexQualHighThred
ULAFSRexQualLowThred
ULAHSRexQualHighThred
ULAHSRexQualLowThred
III UL Filter Adjust Factor
ULFSRexQualHighThred
ULFSRexQualLowThred
ULHSRexQualHighThred
ULHSRexQualLowThred
ULMAXDownStep
ULMAXUpStep
ULRexLevAdjustFactor
ULRexLevExponentFilterLen
ULRexLevHighThred
ULRexLevLowThred
ULRexLevSlideWindow
ULRexQualAdjustFactor
ULRexQualExponentFilterLen
ULRexQualSlideWindow
III UL RexLev Protect Factor
III UL RexQual Protect Factor
Power Control Threshold Adjust for SAIC
Power Control threshold Adjust for SAIC
Saic Allowed
ALPHA
GAMMA
N_AVG_I
Pb
PC_MEAS_CHAN
T_AVG_T
T_AVG_W
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR3
SET GCELLPWR2
SET GCELLPWR3
SET GCELLPWRBASIC
SET GCELLPSPWPARA
SET GCELLPSPWPARA
SET GCELLPSPWPARA
SET GCELLPSPWPARA
SET GCELLPSPWPARA
SET GCELLPSPWPARA
SET GCELLPSPWPARA
DESCRIPTION
Combined loss used to estimate the downlink power during assignment
Dual-antenna gain used to estimate the downlink power during assignment
Received signal strength at an MS expected in power forecast, which helps to compute the initial transmit power of the BTS
Received signal strength at the BTS expected in power forecast, which helps to compute the initial transmit power of an MS
Transmission loss difference between radio frequencies on different bands
Whether to allow active power control. If this parameter is set to YES, the system performs power forecast in the process of initi
Maximum degree by which the BSC can control the power of the AMR BTS dynamically
Number of measurement reports sampled for averaging downlink AMR signal strength. A single measurement report may not re
Number of downlink AMR measurement reports that the BSC predicts. The BSC takes a while to confirm the power control effec
Quality level threshold for decreasing downlink AMR signal power. If the BTS transmits AMR signals at a quality level less than "
Quality level threshold for increasing downlink AMR signal power. If the BTS transmits AMR signals at a quality level greater tha
Number of measurement reports sampled for averaging downlink AMR signal quality. A single measurement report may not refl
During downlink power control, if the downlink receive quality level is equal to or greater than this threshold, "AMR DL RX_LEV U
Upper
for downlink
AMR
signal
strength.
During threshold
downlink power
control,
if the
downlink
receive quality level is equal to or greater than "AMR DL Qual Bad Trig Threshold
If the downlink received AMR signal level is greater than this threshold, a power decrease is computed. Then, the
power is decreased by the least of the power decrease, maximum power adjustment step allowed by the quality
zone to which the received signal quality belongs, and "AMR MAX Down Adj. PC Value by Qual.".
Power decrease = downlink received signal level - "AMR DL RX_LEV Upper Threshold" + "AMR DL RX_LEV
Threshold"/2
Lower threshold
for downlink AMR signal strength.
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.".
Maximum step by which the power can be increased according to received signal quality
Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 0. Huawei power
Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 1. Huawei power
Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 2. Huawei power
Maximum step by which the power can be increased according to received signal level
Whether to enable the compensation of AMR measurement reports in Huawei power control algorithm generation IIIf this param
Minimum interval between two consecutive AMR power control commands
Maximum step by which the power can be decreased according to received signal quality
Number of measurement reports sampled for averaging uplink AMR signal strength. A single measurement report may not refle
Number of uplink AMR measurement reports that the BSC predicts. The BSC takes a while to confirm the power control effect o
Quality level threshold for decreasing the power of an uplink AMR call. If the MS transmits AMR signals at a quality level less tha
Quality level threshold for increasing the power of an uplink AMR call. If the MS transmits AMR signals at a quality level greater
Number of measurement reports sampled for averaging uplink AMR signal quality. A single measurement report may not reflect
During uplink power control, if the uplink receive quality level is equal to or greater than this threshold, "AMR UL RX_LEV Upper
Upper
for uplink
AMR
signal
strength
During threshold
uplink power
control,
if the
uplink
receive quality level is equal to or greater than "AMR UL Qual. Bad Trig Threshold", "AM
If the uplink received AMR signal level is greater than this threshold, a power decrease is computed. Then, the
power is decreased by the least of the power decrease, maximum power adjustment step allowed by the quality
zone to which the received signal quality belongs, and "AMR MAX Down Adj. PC Value by Qual.".
Power decrease = uplink received signal level - "AMR UL RX_LEV Upper Threshold" + "AMR UL RX_LEV Lower
Threshold"/2
Lower threshold for uplink AMR signal strength.
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.".
Maximum degree by which the BSC can control the power of the BTS dynamically
Number of measurement reports sampled for averaging downlink signal strength. A single measurement report may not reflect
Number of downlink measurement reports that the BSC predicts. The BSC takes a while to confirm the power control effect of a
Number of measurement reports sampled for averaging downlink signal quality. A single measurement report may not reflect th
During downlink power control, if the downlink receive quality level is equal to or greater than "DL Qual, bad Trig Threshold", "DL
During downlink power control, if the downlink receive quality level is equal to or greater than "DL Qual, bad Trig Threshold", "DL
Step of upward power adjustment according to the quality of the received signals
Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the power is d
Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the power is d
Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the power is d
Step of upward power adjustment according to the quality of the received signals
Whether power control algorithm II allows measurement report compensation. When making a power control decision, the BSC
Step of downward power adjustment according to the quality of the received signals
When the network receives measurement reports, in consideration of the accuracy of a single measurement report, the measur
After the BSC delivers the power control command, it should wait for a certain period before affirm the effect of the power contro
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered
In the case of power control, when the uplink receive quality is not smaller than "UL Qual. Bad Trig Threshold", the actual "UL R
In the case of power control, when the uplink receive quality is not smaller than "UL Qual. Bad Trig Threshold", the actual "UL R
Number of levels by which the BTS increases the power of an SACCH frame. This parameter is used for SACCH power control.
Quality level threshold for decreasing downlink signal power. If the BTS transmits signals at a quality level less than this thresho
Upper
for downlink
signal strength
Qualitythreshold
level threshold
for increasing
downlink signal power. If the BTS transmits signals at a quality level greater than this thres
If the downlink received signal level is greater than this threshold, a power decrease is computed. Then, the power
is decreased by the least of the power decrease, maximum power adjustment step allowed by the quality zone to
which the received signal quality belongs, and "MAX Down Adj. PC Value by Qual.".
Power decrease = downlink received signal level - "DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower
Threshold"/2
Lower threshold for downlink signal strength
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.".
Minimum interval between two consecutive power control commands
Whether to enable power control algorithm II or power control algorithm III
The MS transmit power is decreased only when the quality level of the MS transmit signal is smaller than the value of the param
The MS transmit power is increased only when the quality level of the MS transmit signal is greater than the value of the parame
When the uplink receive level reaches the threshold, Huawei II power control is performed.
When the uplink receive level is below the threshold, Huawei II power control is performed.
Whether to enable the III power control algorithm for AMR calls. If enabled, power control is performed on AMR calls.
Minimum interval between two consecutive downlink power control commands
If the downlink receive quality level of an AMR full rate call is greater than this parameter, the call needs to undergo Huawei pow
If the downlink receive quality level of an AMR full rate call is smaller than this parameter, the call needs to undergo Huawei pow
If the downlink receive quality level of an AMR half rate call is greater than this parameter, the call needs to undergo Huawei pow
If the downlink receive quality level of an AMR half rate call is smaller than this parameter, the call needs to undergo Huawei pow
Filter adjustment factor for downlink power control. Setting this parameter high helps to smooth the filtered values and to reduce
Upper quality threshold for Huawei power control generation III on a full rate call. If the downlink receive quality level of a full rate
Lower quality threshold for Huawei power control generation III on a full rate call. If the downlink receive quality level of a full rate
Upper quality threshold for Huawei power control generation III on a half rate call. If the downlink receive quality level of a half ra
Lower quality threshold for Huawei power control generation III on a half rate call. If the downlink receive quality level of a half ra
Maximum step by which to decrease downlink power according to signal strength
Maximum step by which to increase downlink power according to signal strength
Percentage of signal strength in the factors by which to determine the downlink power control step
Length of the exponential filter for downlink signal strength. A single measurement report may not reflect the actual network situ
Upper receive level threshold for downlink power control. If the downlink receive level is greater than this threshold, the power o
Lower receive level threshold for downlink power control. If the downlink receive level is smaller than this threshold, the power o
Length of the slide window filter for downlink signal strength. A single measurement report may not reflect the actual network sit
Percentage of quality level in the factors by which to determine the downlink power control step
Length of the exponential filter for downlink signal quality. A single measurement report may not reflect the actual network situat
Length of the slide window filter for downlink signal quality. A single measurement report may not reflect the actual network situa
A power control step cannot exceed the step computed according to "III DL RexLev Protect Factor" and "III DL RexQual Protect
A power control step cannot exceed the step computed according to "III DL RexLev Protect Factor" and "III DL RexQual Protect
Whether to enable 0.2 dB downlink power control. This power control function improves the power control precision.
When the number of the lost measurement reports exceeds this parameter during a power control period, the power control stop
Whether to enable the III power control algorithm for Non-AMR calls. If enabled, power control is performed on Non-AMR calls.
Whether to enable the optimized power control algorithm III
Maximum number of discarded MRs allowed on the SDCCH in a power control period
Maximum number of discarded MRs allowed on the TCH in a power control period
Minimum interval between two consecutive uplink power control commands
Current call is an AMR full-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power control is
Current call is an AMR full-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power control is p
Current call is an AMR half-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power control i
Current call is an AMR half-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power control is
Filter adjustment factor for uplink power control. If this parameter is set to a large value, the filtered values become smooth, thus
Current call is a full-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power control is perfor
Current call is a full-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power control is perform
Current call is a half-rate call, and when the uplink receive quality is greater than the threshold, Huawei III power control is perfo
Current call is a half-rate call, and when the uplink receive quality is lower than the threshold, Huawei III power control is perform
Maximum permissible adjustment step when the BSC decreases the uplink transmit power
Maximum permissible adjustment step when the BSC increases the uplink transmit power
Step adjustment ratio of the receive level in the uplink power control
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered
When the uplink receive level reaches the threshold, Huawei III power control is performed.
When the uplink receive level is lower than the threshold, Huawei III power control is performed.
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered
Step adjustment ratio of the receive quality in the uplink power control
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered
Signal strength factor for the protective limitation on calculating the uplink power control adjustment step. The calculated step va
Signal strength factor for the protective limitation on calculating the uplink power control adjustment step. The calculated step va
Adjustment step of the downlink signal quality threshold in power control algorithm III for MSs that support SAIC. The network si
Adjustment step of the downlink signal quality threshold in power control algorithm III for MSs that support SAIC. The network si
Whether an MS supports the SAIC function
It is used to perform open loop power control. Alpha parameter is used by the MS to calculate the output power PCH of the uplin
Expected signal receiving strength on the BTS side when GPRS dynamic power control is implemented
Filter consistent of the collision signal strength of power control. When sampling must be performed NAVGI times before the MS
BTS power attenuation on the measured PBCCH
Channel used for the measured receiving power. It is used to set the measured receiving power level of the channel and control
Filter period of the signal strength in the packet transmission mode of the MS. In the packet transmission mode, the signal level
Filter period of the signal strength in the packet idle mode of the MS. In the packet idle mode, the signal level filter parameter of
GUI_VALUE_RANGE
0~100
0~255
0~63
0~63
0~255
NONo, YESYes
1~16
1~20
0~3
0~7
0~7
1~20
0~7
0~63
0~63
0~63
0~32
0~30
0~30
0~30
0~32
NONo, YESYes
1~15
0~4
1~20
0~3
0~7
0~7
1~20
0~7
0~63
0~63
0~63
1~16
1~20
0~3
1~20
0~7
0~63
0~32
0~30
0~30
0~30
0~32
NONo, YESYes
0~4
1~20
0~3
1~20
0~7
0~63
0~15
0~7
0~7
0~63
0~63
1~15
PWR2Power control II, PWR3Power controlIII
0~7
0~7
0~63
0~63
OFFNot Allowed, ONAllowed
0~255
1~30
1~30
1~30
1~30
1~10
1~30
1~30
1~30
1~30
1~30
1~30
0~10
0~19
0~63
0~63
1~20
0~10
0~19
1~20
0~100
0~100
NONo, YESYes
1~255
OFFNot Allowed, ONAllowed
NONo, YESYes
0~5
0~10
0~255
1~30
1~30
1~30
1~30
1~10
1~30
1~30
1~30
1~30
1~30
1~30
0~10
0~19
0~63
0~63
1~20
0~10
0~19
1~20
0~100
0~100
0~2
0~4
NONo, YESYes
00.0, 10.1, 20.2, 30.3, 40.4, 50.5, 60.6, 70.7, 80.8, 90.9, 101.0
0~31
0~15
DB00dB, DB2-2dB, DB4-4dB, DB6-6dB, DB8-8dB, DB10-10dB, DB12-12dB, DB14-14dB, DB16-16dB, DB18-18dB, DB20-20dB
BCCHBCCH, PDCHPDCH
0~25
0~25
ACTUAL_VALUE_RANGE
0~10, step:0.1
0~25.5, step:0.1
0~63
0~63
0~25.5, step:0.01
NO, YES
2~32, step:2
TCH:480~9600, step:480; SDCCH:470~9400, step:470
0~3
0~7
0~7
TCH:480~9600, step:480; SDCCH:470~9400, step:470
0~7
0~63
0~63
0~63
0~32
0~30
0~30
0~30
0~32
NO, YES
480~7200, step:480
0~4
TCH:480~9600, step:480; SDCCH:470~9400, step:470
0~3
0~7
0~7
TCH:480~9600, step:480; SDCCH:470~9400, step:470
0~7
0~63
0~63
0~63
2~32, step:2
TCH:480~9600, step:480; SDCCH:470~9400, step:470
0~3
TCH:480~9600, step:480; SDCCH:470~9400, step:470
0~7
0~63
0~32
0~30
0~30
0~30
0~32
NO, YES
0~4
TCH:480~9600, step:480; SDCCH:470~9400, step:470
0~3
TCH:480~9600, step:480; SDCCH:470~9400, step:470
0~7
0~63
0~15
0~7
0~7
0~63
0~63
TCH:480~7200, step:480; SDCCH:470~7050, step:470
PWR2, PWR3
0~7
0~7
0~63
0~63
OFF, ON
TCH:480~122400, step:480; SDCCH:470~119850, step:470
1~30
1~30
1~30
1~30
1~10
1~30
1~30
1~30
1~30
1~30
1~30
0~10
TCH:0~9120, step:480; SDCCH:0~8930, step:470
0~63
0~63
TCH:480~9600, step:480; SDCCH:470~9400, step:470
0~10
TCH:0~9120, step:480; SDCCH:0~8930, step:470
TCH:480~9600, step:480; SDCCH:470~9400, step:470
0~100
0~100
NO, YES
1~255
OFF, ON
NO, YES
0~5
0~10
TCH:480~122400, step:480; SDCCH:470~119850, step:470
1~30
1~30
1~30
1~30
1~10
1~30
1~30
1~30
1~30
1~30
1~30
0~10
TCH:0~9120, step:480; SDCCH:0~8930, step:470
0~63
0~63
TCH:0~9120, step:480; SDCCH:0~8930, step:470
0~10
TCH:0~9120, step:480; SDCCH:0~8930, step:470
TCH:0~9120, step:480; SDCCH:0~8930, step:470
0~100
0~100
0~2
0~4
NO, YES
0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10
0~31
0~15
DB0, DB2, DB4, DB6, DB8, DB10, DB12, DB14, DB16, DB18, DB20, DB22, DB24, DB26, DB28, DB30
BCCH, PDCH
0~25
0~25
UNIT DEFAULT_VALUE
RECOMMENDED_VALUE
dB
dB
dB
dB
dB
None NO
dB
ms
None
None
None
ms
None
dB
45
30
30
30
79
45
30
30
30
79
16
5
0
0
3
5
2
8
16
5
0
0
3
5
2
8
dB
33
33
dB
dB
dB
dB
dB
dB
None YES
ms
dB
ms
None
None
None
ms
None
dB
25
8
2
0
0
8
25
8
2
0
0
8
3
4
5
0
0
3
5
3
6
3
4
5
0
0
3
5
3
6
dB
30
30
dB
dB
ms
None
18
16
5
0
18
16
5
0
NO
YES
ms
None
dB
dB
dB
dB
dB
dB
None YES
dB
ms
None
ms
None
dB
None
None
None
5
2
10
8
2
0
0
8
5
2
10
8
2
0
0
8
2
5
0
5
3
5
0
0
2
2
5
0
5
3
5
0
0
2
dB
45
45
dB
ms
None PWR3
None
None
dB
dB
None ON
ms
dB
dB
dB
dB
None
dB
dB
dB
dB
dB
dB
None
ms
dB
28
3
28
3
YES
PWR3
0
3
30
18
0
3
30
18
ON
3
14
14
16
16
3
16
16
18
18
4
8
3
3
20
3
14
14
16
16
3
16
16
18
18
4
8
3
3
20
dB
ms
None
ms
ms
None
None
None NO
None
None ON
None NO
None
None
ms
dB
dB
dB
dB
None
dB
dB
dB
dB
dB
dB
None
ms
dB
dB
ms
None
ms
ms
None
None
None
None
None NO
None
None
None
dB
DB2
None PDCH
None
None
20
1
6
3
1
5
55
20
1
6
3
1
5
55
NO
5
5
ON
NO
1
3
3
14
14
16
16
3
16
16
18
18
6
8
3
3
18
18
1
6
3
1
6
75
1
3
1
3
3
14
14
16
16
3
16
16
18
18
6
8
3
3
18
18
1
6
3
1
6
75
1
3
NO
6
12
2
6
12
2
DB2
PDCH
10
10
10
10
PARAMETER_RELATIONSHIP
This parameter is valid only when "PWRBCDALLOWD" is set to YES.
This parameter is valid only when "PWRBCDALLOWD" is set to YES.
This parameter is valid only when "PWRBCDALLOWD" is set to YES.
This parameter is valid only when "PWRBCDALLOWD" is set to YES.
This parameter is valid only when "PWRBCDALLOWD" is set to YES.
None
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and "UPPCEN" in "SET GCELL
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and "UPPCEN" in "SET GCELL
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and "UPPCEN" in "SET GCELL
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
None
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
None
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must b
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
This parameter is valid only when "SAICALLOWED" in "SET GCELLPWRBASIC" is set to YES.
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
This parameter is valid only when "PWRBCDALLOWD" is set to YES.
None
None
None
None
None
None
None
CAUTION
None
If you do not use a dual-antenna to receive signals, set this parameter to 0.
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
RADIO_PERFORMACE_IMPACT
None
As the double antenna gain increases, the downlink power increases; as the double antenna gain decreases, the downlink powe
If this parameter is set to a greater value, the effectiveness of power control is reduced, and thus the network interference can n
If this parameter is set to a greater value, the effectiveness of power control is reduced, and thus the network interference can n
None
None
If this parameter is set to a smaller value, the dynamic power adjustment range for the BTS is decreased. This may cause powe
None
None
If this parameter is set to a smaller value, downlink power control may not be performed when the voice quality is good, thus cau
If this parameter is set to a greater value, uplink power control may not be performed when the voice quality is bad, thus affectin
None
None
None
If this parameter is set to a greater value, downlink power control may not be performed when the downlink level is high, thus ca
If this parameter is set to a greater value, uplink power control may be performed when the downlink level is high, thus causing t
If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater
If this parameter is set to a smaller value, fast power control cannot be realized. If this parameter is set to a greater value, the po
If this parameter is set to a smaller value, fast power control cannot be realized. If this parameter is set to a greater value, the po
If this parameter is set to a smaller value, fast power control cannot be realized. If this parameter is set to a greater value, the po
If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater
None
If this parameter is set to a greater value, power control may not be performed in time. If this parameter is set to a smaller value
If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater val
None
None
If this parameter is set to a smaller value, downlink power control may not be performed when the voice quality is good, thus cau
If this parameter is set to a greater value, uplink power control may not be performed when the voice quality is bad, thus affectin
None
None
None
If this parameter is set to a greater value, power control may not be performed when the uplink level is high, thus causing the po
If this parameter is set to a greater value, uplink power control may be performed when the uplink level is high, thus causing the
If this parameter is set to a smaller value, the range of BTS dynamic power adjustment is decreased, and thus network interfere
None
None
None
None
None
If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater
If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater val
If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater val
If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater val
If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater
None
If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater val
None
None
None
None
None
None
If this parameter is set to a smaller value, downlink power control may not be performed when the voice quality is good, thus cau
If this parameter is set to a greater value, uplink power control may not be performed when the voice quality is bad, thus affectin
If this parameter is set to a greater value, decrease power control may not be performed when the downlink level is high, thus ca
If this parameter is set to a greater value, increase power control may be performed when the downlink level is high, thus causin
None
None
If this parameter is set to a smaller value, downward power control is not performed when the signal quality is good, thus causin
If this parameter is set to a greater value, upward power control may not be performed when the voice quality is bad, thus affect
If this parameter is set to a greater value, downward power control may not be performed when the voice quality is good, thus ca
If this parameter is set to a greater value, upward power control may be performed when the voice quality is good, thus causing
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
If this parameter is set to a greater value, decrease power control may not be performed when the downlink level is high, thus ca
If this parameter is set to a greater value, increase power control may be performed when the downlink level is high, thus causin
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
If this parameter is set to a greater value, downward power control may not be performed when the voice quality is good, thus ca
If this parameter is set to a greater value, upward power control may be performed when the voice quality is good, thus causing
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
ATTRIBUTE
Equipment
Equipment
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Equipment
Radio
Equipment
Radio
Radio
Radio
Radio
Radio
Radio
Radio
IMPACT PARAMETER_ID
PARAMETER_NAME
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Better Cell HO Valid Time
Better Cell HO Watch Time
BQ HO Valid Time
BQ HO Margin
BQ HO Watch Time
Chain Neighbour Cell Type
Directed Retry Handover Level Range
Edge HO AdjCell Valid Time
Edge HO AdjCell Watch Time
HCS HO Valid Time
HCS HO Watch Time
Quick Handover Last Time
Quick Handover Static Time
IBCA Dyn Measure Neighbour Cell Flag
IBCA Neighbor Cell Flag
IBCA RxLev Offset
Adjacent Cell Inter-layer HO Hysteresis
Inter-cell HO Hysteresis
Chain Neighbor Cell
Layer HO Valid Time
Layer HO Watch Time
Min Access Level Offset
PBGT Valid Time
PBGT HO Threshold
PBGT Watch Time
Current HO CTRL Algorithm in Source Cell
TA HO Valid Time
TA HO Watch Time
UL BQ HO Last Time
UL BQ HO Static Time
Neighbor 2G Cell Index
Neighbor 2G Cell Name
Neighbour Cell CI
Neighbour Cell LAC
Neighbour Cell MCC
Neighbour Cell MNC
Source Cell CI
Source Cell LAC
Source Cell MCC
Source Cell MNC
BETTERCELLLASTTIME
BETTERCELLSTATTIME
BQLASTTIME
BQMARGIN
BQSTATTIME
CHAINNCELLTYPE
DRHOLEVRANGE
EDGEADJLASTTIME
EDGEADJSTATTIME
HCSLASTTIME
HCSSTATTIME
HOLASTTIME
HOSTATICTIME
IBCADYNCMEASURENCELLALLOWED
IBCANCELLFLAG
IBCARXLEVOFFSET
INTELEVHOHYST
INTERCELLHYST
ISCHAINNCELL
LEVLAST
LEVSTAT
MINOFFSET
PBGTLAST
PBGTMARGIN
PBGTSTAT
SRCHOCTRLSWITCH
TALASTTIME
TASTATTIME
ULBQLASTTIME
ULBQSTATTIME
NBR2GNCELLID
NBR2GNCELLNAME
NBRCI
NBRLAC
NBRMCC
NBRMNC
SRCCI
SRCLAC
SRCMCC
SRCMNC
MML_COMMAND
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
ADD G2GNCELL
DESCRIPTION
According to the P/N rule, if the conditions for the handover to a better cell due to interference are met for P seconds within N se
According to the P/N rule, if the conditions for the handover to a better cell due to interference are met for P seconds within N se
According to the P/N rule, if the conditions for emergency BQ handover are met in P of N measurement reports, the handover is
If "downlink level of the neighbor cell after filtering" - "downlink level of the serving cell after power control compensation" > "Inte
According to the P/N rule, if the conditions for emergency BQ handover are met in P of N measurement reports, the handover is
This parameter indicates the geographical location relation between the neighboring cell and the serving cell. In the BSC6900, if
Maximum signal level difference between the neighbor cell and the serving cell for triggering directed retry
According to the P/N rule, if a neighbor cell meets the conditions for selecting the neighbor cell for edge handover in P of N mea
According to the P/N rule, if a neighbor cell meets the conditions for selecting the neighbor cell for edge handover in P of N mea
According to the P/N rule, if the conditions for the handover to a different micro cell due to fast movement are met in P of N mea
According to the P/N rule, if the conditions for the handover to a different micro cell due to fast movement are met in P of N mea
According to the P/N rule, if the conditions for fast handover are met in P of N measurement reports, the handover is triggered.T
According to the P/N rule, if the conditions for fast handover are met in P of N measurement reports, the handover is triggered.T
Whether to measure the IBCA neighbor cells of the serving cell dynamically. If the dynamic measurement is enabled, when a ca
Indicates whether this neighboring cell is the IBCA neighboring cell of the serving cell. That is, when a cell is configured as the n
Estimates the receive level of the unmeasured IBCA neighboring cells. When a consecutive "IBCA Non Measurement Ncell Sta
Hysteresis value during the handovers between cells on different layers or of different priorities. This value is used to suppress i
Reduces ping-pong handovers between cells on a same layer. This parameter is invalid when cells are on different layers.
Whether the cell is a chain neighboring cell
The triggering of inter-layer handovers must meet the P/N criteria, that is, when the condition for inter-layer handovers is met for
The triggering of inter-layer handovers must meet the P/N criteria, that is, when the condition for inter-layer handovers is met for
Minimum receive level offset.An MS can be handed over to a neighboring cell only when the downlink level of the neighboring ce
The triggering of PBGT handovers must meet the P/N criteria, that is, when the condition for PBGT handovers is met for a cons
PBGT handovers to a neighboring cell are allowed only when the downlink level difference between the neighboring cell and the
The triggering of PBGT handovers must meet the P/N criteria, that is, when the condition for PBGT handovers is met for a cons
Whether the currently used handover algorithm in the source cell is HO Algorithm I or HO Algorithm II
The P/N criterion must be met for triggering a TA handover. That is, the TA handover can be triggered only if P measurement re
The P/N criterion must be met for triggering a TA handover. That is, the TA handover can be triggered only if P measurement re
The P/N criterion must be met for triggering a UL BQ handover. That is, the UL BQ handover can be triggered only if P measure
The P/N criterion must be met for triggering a UL BQ handover. That is, the UL BQ handover can be triggered only if P measure
Uniform number of a cell index within a BSC6900, which uniquely identifies a cell.
Name of a cell
Cell ID of a neighboring cell
Local Area Code LAC of a neighboring cell
Mobile Country Code MCC of a neighboring cell
Mobile Network Code MNC of a neighboring cell
Source cell ID
Local area code LAC of the source cell
Mobile country code MCC of the source cell
Mobile network code MNC of the source cell
FEATURE_NAME
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI II Handover
Chain Cell Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
Fast Move Handover
Fast Move Handover
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
IBCA Interference Based Channel Allocation
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
Chain Cell Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I Handover
HUAWEI I Handover
HUAWEI I Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
HUAWEI II Handover
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
Configuration Management
GUI_VALUE_RANGE
1~32
1~32
1~16
0~127
1~16
QUICK_HO_NCELL_TYPE_AQUICK_HO_NCELL_TYPE_A, QUICK_HO_NCELL_TYPE_BQUICK_HO_NCELL_TYPE_B
0~128
1~32
1~32
1~16
1~16
1~32
1~32
NONo, YESYes
NONo, YESYes
0~63
0~127
0~63
NONo, YESYes
1~32
1~32
0~63
1~32
0~127
1~32
HOALGORITHM1Handover algorithm I, HOALGORITHM2Handover algorithm II
1~16
1~16
1~8
1~8
0~5047
None
0~65535
1~65533,65535
None
None
0~65535
1~65533,65535
None
None
ACTUAL_VALUE_RANGE
UNIT DEFAULT_VALUE
0.5~16, step:0.5
0.5~16, step:0.5
0.5~8, step:0.5
0~127
0.5~8, step:0.5
QUICK_HO_NCELL_TYPE_A, QUICK_HO_NCELL_TYPE_B
0~128
0.5~16, step:0.5
0.5~16, step:0.5
0.5~8, step:0.5
0.5~8, step:0.5
0.5~16, step:0.5
0.5~16, step:0.5
NO, YES
NO, YES
0~63
0~127
0~63
NO, YES
0.5~16, step:0.5
0.5~16, step:0.5
0~63
0.5~16, step:0.5
0~127
0.5~16, step:0.5
HOALGORITHM1, HOALGORITHM2
0.5~8, step:0.5
0.5~0.8, step:0.5
0.5~4, step:0.5
0.5~4, step:0.5
0~5047
1~64 characters
0~65535
1~65533, 65535
1~3 characters
1~3 characters
0~65535
1~65533, 65535
1~3 characters
1~3 characters
s
4
s
6
s
1
dB
69
s
1
None QUICK_HO_NCELL_TYPE_A
dB
72
s
4
s
6
s
2
s
3
s
3
s
4
None NO
None NO
dB
4
dB
67
dB
4
None NO
s
4
s
6
dB
0
s
4
dB
68
s
6
None HOALGORITHM1
s
1
s
1
s
1
s
1
None None
None None
None None
None None
None None
None None
None None
None None
None None
None None
RECOMMENDED_VALUE
4
6
1
69
1
QUICK_HO_NCELL_TYPE_A
72
4
6
2
3
3
4
Set this parameter to YES for the neighboring cell with co-channel interference and the neighboring cell that may cause interfere
NO
4
67
In densely populated urban areas, the recommended value is 4; in the suburbs, the recommended value is 8.
NO
4
6
0
4
In densely populated urban areas, the recommended value is 68; in the suburbs, the recommended value is 72.
6
HOALGORITHM1
1
1
1
1
None
None
None
None
None
None
None
None
None
None
PARAMETER_RELATIONSHIP
This parameter is valid only when "BETTERCELLHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The
This parameter is valid only when "BETTERCELLHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The
This parameter is valid only when "BQHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following c
None
This parameter is valid only when "BQHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following c
None
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "FRINGEHOEN" is set to YES. The follow
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "FRINGEHOEN" is set to YES. The follow
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "HCSST
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "HCSST
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met
None
None
None
Inter-layer HO threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis".Inter-layer HO threshold of
None
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "LEVHOEN" is set to YES. The following
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "LEVHOEN" is set to YES. The following
This parameter is based on "HOCDCMINDWPWR" and "HOCDCMINUPPWR". Different offset can be set for different neighbor
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "PBGTHOEN" is set to YES. The followin
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "PBGTHOEN" is set to YES. The followin
The value of this parameter must be the same as that of "HOCTRLSWITCH" in "SET GCELLHOBASIC".
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "TAHOEN" is set to YES. The following c
This parameter is valid only when "TAHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following c
This parameter is valid only when "BETTERCELLHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The
This parameter is valid only when "BETTERCELLHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The
None
None
None
None
None
None
None
None
None
None
CAUTION
None
None
None
When the M900/M1800 BSC is upgraded to BSC6000, this parameter needs to be set to 69. If this parameter is not set to 69 in
None
None
None
None
None
None
None
None
None
None
The parameter IBCA Allowed of the serving cell and the neighbor cell should be set to Yes before the configuration of this param
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
RADIO_PERFORMACE_IMPACT
If this parameter is set to a greater value, the handover cannot be performed in time, thus the voice quality is decreased and cal
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a smaller value,
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and ca
None
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a smaller value,
The setting of this parameter depends on the actual physical location of the chain neighboring cell. Otherwise, fast PBGT hando
None
None
None
If this parameter is set to a greater value, the MS takes a longer time to meet the conditions for triggering the handover and the
If this parameter is set to a greater value, congestion may occur in the macro cell.If this parameter is set to a smaller value, the
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur.If this parameter i
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a smaller value,
None
None
None
None
None
None
If this parameter is set to a greater value, congestion may occur in the macro subcell;If this parameter is set to a smaller value, u
If this parameter is set to a greater value, unnecessary handovers may be performed, thus the voice quality is decreased and pi
None
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur.If this parameter i
None
If this parameter is set to a greater value, unnecessary handovers may be performed; if this parameter is set to a smaller value,
None
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur.If this parameter i
None
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur.If this parameter i
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a smaller value,
None
None
None
None
None
None
None
None
None
None
ATTRIBUTE
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
IMPACT PARAMETER_ID PARAMETER_NAME
MML_COMMAND
DESCRIPTION FEATURE_NAME
Cell
Cell
Cell
Cell
Cell
Cell
COMSC
Co-MSC
ADD GEXT2GCELL Whether the BSC
HUAWEI
that controls
I HandoverHUAWEI
the external cellIIand
Han
ISEDGESUPPORTEDGE Support in External
ADD
Neighbour
GEXT2GCELL
Cell
A service support
EGPRS
attribute of a cell, that is, whether a
ISGPRSSUPPORTGPRS Support in External
ADD
Neighbour
GEXT2GCELL
Cell
A service support
GPRS
attribute of a cell, that is, whether a
ISNC2SUPPORT NC2 Support in ExternalADD
Neighbour
GEXT2GCELL
Cell
A service support
Network-Controlled
attribute of a cell, that
Cell is,
Reselection
whether a
LAYER
Layer of the cell
ADD GEXT2GCELL A network basically
HUAWEI
consists
I HandoverHUAWEI
of four layers, namely,
II Han
U
LoadHoEnExt2G Load Handover SupportADD GEXT2GCELL Indicates that if aHUAWEI
2G neighboring
I HandoverHUAWEI
cell supports IIload
Hanh
Cell
Cell
Cell
Cell
Cell
Cell
Cell
The M criteria
supports
setting
minimum
values for the
downlink
receive level of
neighboring
cells.
The M criteria
is met only
when ,
Estimated
downlink level
of neighboring
cells >= "Min
DL level on
candidate Cell"
+ "Min Access
Level Offset"
Estimated
uplink level of
neighboring
cells >= "Min
UL level on
candidate Cell"
+ "Min Access
Min DL level on candidate
ADD
CellGEXT2GCELL Level Offset"
HUAWEI I HandoverHUAWEI II Han
Cell Priority
ADD GEXT2GCELL This parameter controls
HUAWEIthe
I HandoverHUAWEI
handovers among IIcells
Han
RAC
ADD GEXT2GCELL The NS performsConfiguration
location management
Management
based on ro
Penalty Time on Tast Moving
ADD GEXT2GCELL
HO
Period in which level
HUAWEI
penalty
I HandoverHUAWEI
is performed on the
II Han
nei
Penalty on Fast Moving ADD
HO GEXT2GCELL Level value of the
HUAWEI
penalty Ithat
HandoverHUAWEI
is performed on IIthe
Han
ne
BCC
ADD GEXT2GCELL Base station color
Configuration
code BCC ofManagement
a cell, provided by th
BCCH FD
ADD GEXT2GCELL BCCH frequencyConfiguration
of the cell Management
MSRXMIN
PRIOR
RA
SDPUNTIME
SDPUNVAL
BCC
BCCH
GUI_VALUE_RANGE
ACTUAL_VALUE_RANGE
NONo, YESYes
NO, YES
NONot support, YESSupport
NO, YES
NONot support, YESSupport
NO, YES
NONot support, YESSupport
NO, YES
1, 2, 3, 4
1, 2, 3, 4
NONo, YESYes
NO, YES
UNIT DEFAULT_VALUE
RECOMMENDED_VALUE
None NO
None YES
None YES
None NO
None
None NO
NO
YES
YES
NO
3
3
NO
0~63
0~63
dB
10
10
Prior-1, Prior-2, Prior-3, Prior-4,
Prior-1, Prior-5,
Prior-2, Prior-6,
Prior-3, Prior-7,
Prior-4,
None
Prior-8,
Prior-5,
Prior-1
Prior-9,
Prior-6, Prior-10,
Prior-7, Prior-1
Prior-8,
Prior-11,
Prior-9,
Prior-12,
Prior-10,
Prior-13,
Prior-11,
Prior-14,
Prior-12,
Prior-15,
Pri
0~255
0~255
None
0
0
0~255
0~255
s
40
40
0~63
0~63
dB
30
30
0~7
0~7
None None
None
0~1023
0~1023
None None
None
PARAMETER_RELATIONSHIP
CAUTION RADIO_PERFORMACE_IMPACT
ATTRIBUTE
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
None
None
None
Radio
There are four network layers, thatNone
is, layer 1 to
None
layer 4. A lower layer No. indicatesRadio
a higher priority. The cell priority is determine
None
None
None
Radio
None
None
This parameter limits the number of candidate
Radio
cells. If this parameter is set to a gr
This parameter, together with "LAYER",
None determines
None the priority of the cell.
Radio
None
None
None
Radio
None
None
If this parameter is set to a greater value,
Radiothe handover to micro cells becomes dif
None
None
If this parameter is set to a greater value,
Radiothe handover to micro cells becomes dif
None
None
None
Radio
None
None
None
Radio
IMPACT PARAMETER_ID
PARAMETER_NAME
MML_COMMAND
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Ec/No Offset
FDD 3G Better Cell HO Valid Time
TDD 3G Better Cell HO Valid Time
FDD 3G Better Cell HO Watch Time
TDD 3G Better Cell HO Watch Time
RSCP Offset
Neighbor Cell Index
Neighbor Cell Name
Source Cell Index
Source Cell Name
ADD G3GNCELL
ADD G3GNCELL
ADD G3GNCELL
ADD G3GNCELL
ADD G3GNCELL
ADD G3GNCELL
ADD G3GNCELL
ADD G3GNCELL
ADD G3GNCELL
ADD G3GNCELL
ECNOOFF
HODURT3G
HODURT3GTDD
HOSTAT3G
HOSTAT3GTDD
RSCPOFF
NBR3GNCELLID
NBR3GNCELLNAME
SRC3GNCELLID
SRC3GNCELLNAME
DESCRIPTION
As a performance counter for 3G cells, Ec/No indicates the ratio of the energy per received chip to the spectral noise power den
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 hand
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 hand
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 hand
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 hand
This parameter adjusts "Min RSCP threshold" to enable the selection of 3G candidate cells based on cell priorities
Uniform number of a neighboring cell index within a BSC, which uniquely identifies a cell.The value range of the index of a 3G e
Name of a neighboring cell
A source cell index must be unique in one BSC. It is used to uniquely identify a source cell. The value of this parameter ranges f
Name of a source cell
FEATURE_NAME
GUI_VALUE_RANGE
GSM/WCDMA Interoperability
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
Configuration Management
Configuration Management
Configuration Management
Configuration Management
0~49
1~32
1~32
1~32
1~32
0~63
5048~8047
None
0~2047
None
ACTUAL_VALUE_RANGE
UNIT DEFAULT_VALUE
0~49
0.5~16, step:0.5
0.5~16, step:0.5
0.5~16, step:0.5
0.5~16, step:0.5
0~63
5048~8047
1~64 characters
0~2047
1~64 characters
dB
s
s
s
s
dB
None None
None None
None None
None None
RECOMMENDED_VALUE
3
8
8
10
10
3
3
8
8
10
10
3
None
None
None
None
PARAMETER_RELATIONSHIP
A 3G neighboring cell can be added into the candidate cell queue when the following conditions are met: "INTERRATOUTBSCH
This parameter is valid only when "BET3GHOEN" is set to YES. The following condition must be met: "HOSTAT3G" >= "HODUR
This parameter is valid only when "BET3GHOEN" is set to YES. The following condition must be met: "HOSTAT3GTDD" >= "HO
This parameter is valid only when "INTERRATOUTBSCHOEN" is set to YES and "BET3GHOEN" is set to YES. The following co
This parameter is valid only when "INTERRATOUTBSCHOEN" is set to YES and "BET3GHOEN" is set to YES. The following co
A 3G cell can be added into the candidate cell queue when the following conditions are met: "INTERRATOUTBSCHOEN" is set
None
None
None
None
CAUTION
None
None
None
None
None
None
None
None
None
None
RADIO_PERFORMACE_IMPACT
If this parameter is set to a greater value, the corresponding neighboring 3G cell may be difficult to become the candidate neigh
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and ca
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and ca
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a smaller value,
If this parameter is set to a greater value, unnecessary handovers may be performed.If this parameter is set to a smaller value,
If this parameter is set to a greater value, some desired cells may be excluded from the candidate cells, thus leading to call drop
None
None
None
None
ATTRIBUTE
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Equipment
IMPACT PARAMETER_ID
PARAMETER_NAME
MML_COMMAND
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Layer of the cell
Ec/No Threshold for Layer Of 3G Cell
PS FDD Ec/No Quality Threshold
PS FDD RSCP Quality Threshold
Load Handover Support
Min Ec/No threshold
Min RSCP threshold
Route Area
RSCP Threshold for Layer of 3G Cell
PS TDD RSCP Quality Threshold
RNC ID
Sync case
Utran Cell Type
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
ADD GEXT3GCELL
CELLLAYER
ECNOTHRES
FDDECQUALTHRSH
FDDRSCPQUALTHRSH
LoadHoEnExt3G
MINECNOTHRES
MINRSCPTHRES
RA
RSCPTHRES
TDDRSCPQUALTHRSH
RNCID
SYNCCASE
UTRANCELLTYPE
DESCRIPTION
Layer of the cell. If the layer of the cell is lower, it is more likely that a handover to the cell will be triggered.
Threshold for determining the layer of the 3G neighbor cell. If the Ec/No of the 3G neighbor cell is less than this threshold, the n
Minimum Ec/No of the 3G FDD cell candidate
Minimum RSCP of the 3G FDD cell candidate
Indicates that if a 3G neighboring cell supports load handovers, the BSC adds the load information of the local cells in the signal
Selects 3G candidate cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring cell w
Selects 3G candidate cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring cell w
The NS performs location management based on routing areas during GPRS packet services. Each routing area has a routing a
This parameter determines the layers of 3G neighboring cells. If the measured value of a 3G neighboring cell is lower than this t
Minimum RSCP quality threshold that the TDD 3G candidate cell must reach
RNC ID of a 3G external cell. The value of this parameter must be consistent with the data configuration at the RNC.
Synchronization status. This parameter is used to identify different 3G cells. This parameter should be same with the configurati
This parameter specifies the type of a 3G cell. A cell type can be Frequency Division Duplex FDD or Time Division Duplex TDD
FEATURE_NAME
HUAWEI I HandoverHUAWEI II Handover
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability
HUAWEI I HandoverHUAWEI II Handover
GSM/WCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
Configuration Management
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GSM/TD-SCDMA Interoperability
Configuration Management
GSM/TD-SCDMA Interoperability
GSM/WCDMA InteroperabilityGSM/TD-SCDMA Interoperability
GUI_VALUE_RANGE
ACTUAL_VALUE_RANGE
UNIT DEFAULT_VALUE
1, 2, 3, 4
0~49
0~49
0~63
NONo, YESYes
0~49
0~63
0~255
0~63
0~63
0~4095
SyncCase1Sync case 1, SyncCase2Sync case 2
FDDFDD, TDDTDD
1, 2, 3, 4
0~49
0~49
0~63
NO, YES
0~49
0~63
0~255
0~63
0~63
0~4095
SyncCase1, SyncCase2
FDD, TDD
None
dB
dB
None
None NO
dB
dB
None
dB
None
None None
None None
None None
3
30
10
10
10
10
0
30
10
RECOMMENDED_VALUE
3
30
10
10
NO
10
10
0
30
10
None
None
None
PARAMETER_RELATIONSHIP
None
None
None
None
None
None
A 3G cell can be added into the candidate cell queue when the following conditions are met: "INTERRATOUTBSCHOEN" is set
None
None
None
None
This parameter is valid only when "UTRANCELLTYPE" is set to TDD.
None
CAUTION
None
None
None
None
None
None
None
None
None
None
None
None
None
RADIO_PERFORMACE_IMPACT
None
None
None
None
None
This parameter is used to limit the number of candidate cells for handovers.If this parameter is set to a greater value, some des
If this parameter is set to a greater value, some desired cells may be excluded from the candidate cells, thus leading to call drop
None
None
None
None
None
None
ATTRIBUTE
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Equipment
Radio
Radio
IMPACT PARAMETER_ID
PARAMETER_NAME
TRX
TRX
TRX
TRX
TRX
TRX
TRX
ADMSTAT
ANTPASSNO
ANTPASSNO
AREDISTHD
ARELBASE
ARELWTHD
BBDIF
Administrative State
Antenna Pass No
Sub-Location Group Antenna Pass No.
Abnormal Release Threshold
Abnormal Release Statistic Base
Abnormal Warn Threshold
Up Down Balance Basic Difference
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
BFRANGE
BWTHD
CENDTHD
CPS
CSTARTTHD
FCETHD
FCSTHD
FREQ
FREQREUSEMODE
HOPTYPE
INHOPWROVERLOADTHRESHOLD
ISMAINBCCH
IUO
MAXPDCHNUM
MAXTSOCP
NOTRASP
OPTL
OUTHOPWROVERLOADTHRESHOLD
PAOPTILEVEL
PL16QAM
PL32QAM
PL8PSK
Up Down Balance Floating Range
Up Down Balance Alarm Threshold
Congestion End Threshold
Allow Dynamic Shutdown TRX
Congestion Start Threshold
Flow Control End Threshold
Flow Control Start Threshold
Frequency
Frequency Reuse Mode
Hop Type
Power Overload Threshold In Ho. In
Is Main BCCH TRX
Concentric Attribute
Maximum Number of PDCH
Maximum Number of Occupied Abis Timeslots
Statistical Period of No-traffic
TRX Priority
Power Overload Threshold In Ho. Out
Priority of Shut Down TRX
16QAM Transmitter Power Reduce Level
32QAM Transmitter Power Reduce Level
TRX 8PSK Level
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
POWL
POWT
PWRSPNR
RCVMD
RXUCHAINNO
RXUIDTYPE
RXUNAME
RXUPOS
SDFLAG
SNDMD
Power Level
Power Type
Power Finetune
Receive Mode
RXU Chain No
RXU Index Type
RXU Name
RXU Chain Position
Shut Down Enabled
Send Mode
TRX
TCHAJFLAG
TCH Rate Adjust Allow
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRX
TRXID
TRXNO
TRXPN
TRXPN
TRXTP
TSPWRRESERVE
WLAETIME
WLAFLAG
WLARP
WLASTIME
WLNKALMFLAG
TRX ID
TRX No.
TRX Board Pass No.
Sub-Location Group TRX Board Pass No.
TRX Board Type
Timeslot Power Reserve
End Time of WLA Detection
Wireless Link Alarm Critical Permit
WLA Prompting Recover Period
Begin Time of WLA Detection
Wireless Link Alarm Flag
MML_COMMAND
SET GTRXADMSTATMandatory
ADD TRXBIND2PHYBRDMandatory
ADD BTSBINDLOCGRPOptional
SET GTRXRLALMOptional
SET GTRXRLALMOptional
SET GTRXRLALMOptional
SET GTRXRLALMOptional
SET GTRXRLALMOptional
SET GTRXRLALMOptional
SET GTRXFCOptional
SET GTRXDEVOptional
SET GTRXFCOptional
SET GTRXFCOptional
SET GTRXFCOptional
ADD GTRXMandatory
SET GTRXDEVOptional
SET GTRXHOPOptional
SET GTRXDEVOptional
ADD GTRXOptional
SET GTRXIUOMandatory
SET GTRXBASEOptional
SET GTRXBASEOptional
SET GTRXRLALMOptional
SET GTRXDEVOptional
SET GTRXDEVOptional
SET GTRXDEVOptional
SET GTRXDEVOptional
SET GTRXDEVOptional
SET GTRXDEVOptional
SET GTRXDEVOptional
SET GTRXDEVOptional
SET GTRXDEVOptional
SET GTRXDEVOptional
ADD TRXBIND2PHYBRDMandatory
ADD TRXBIND2PHYBRDMandatory
ADD TRXBIND2PHYBRDMandatory
ADD TRXBIND2PHYBRDMandatory
SET GTRXDEVOptional
SET GTRXDEVOptional
SET GTRXDEVOptional
SET FHOMandatory
SET GTRXCHANHOPMandatory
SET GTRXHOPMandatory
SET GTRXBASEMandatory
SET GTRXCHANMandatory
SET GTRXFCMandatory
SET GTRXIUOMandatory
SET GTRXADMSTATMandatory
SET GTRXCHANADMSTATMandatory
ADD GTRXMandatory
ADD TRXBIND2PHYBRDMandatory
SET GTRXRLALMMandatory
SET GTRXDEVMandatory
ADD GTRXBIND2HDLCPATHMandatory
STR BTSTSTMandatory
STR TRXBURSTTSTMandatory
ADD GTRXOptional
ADD TRXBIND2PHYBRDMandatory
ADD BTSBINDLOCGRPMandatory
ADD TRXBIND2PHYBRDMandatory
SET GTRXDEVOptional
SET GTRXRLALMOptional
SET GTRXRLALMOptional
SET GTRXRLALMOptional
SET GTRXRLALMOptional
SET GTRXRLALMMandatory
DESCRIPTION
Administrative state of the TRX
Number of the antenna feeder channel mapped to the RXU
Antenna pass No. of the RXU of a sub-location group. The parameter is configured only when the MRRU or GRRU is used in th
Threshold for reporting the recovery alarm for the abnormal release alarm. If the percentage of the abnormal channel releases i
Release statistics base for subchannels. This parameter indicates the number of times that a subchannel is activated. In a times
Threshold for reporting the abnormal release alarm. In a timeslot, the release statistics base, B, multiplied by the number of cha
Allowed
fluctuation
of between
the difference
uplinklevels.
and downlink
levels relative
the"Up
reference
difference.
If the Range" to cou
Reference
difference
uplinkbetween
and downlink
This parameter
worksto
with
Down Balance
Floating
difference between uplink and downlink levels is outside the fluctuation range, the uplink and downlink are
considered imbalanced.
For example, assume that the Up Down Balance Basic Difference is set to 8 and that the Up Down Balance
Threshold for reporting the uplink-downlink imbalance alarm. If the percentage of the uplink-downlink imbalance measurement r
Threshold for stopping LAPD link congestion control. This parameter cannot be set too small. If this parameter is set too small, t
This parameter specifies whether to allow the BSC6900 to enable or disable the power amplifier of a TRX based on the traffic vo
Threshold for starting LAPD link congestion control. This parameter cannot be set too high. If this parameter is set too high, the
Threshold for stopping RSL flow control. If the occupancy of the LAPD queue is less than this threshold, the BSC6900 stops flow
Threshold for starting RSL flow control. If the occupancy of the LAPD queue is greater than this threshold, the BSC6900 starts f
Frequency of the TRX
Frequency multiplexing mode in the TRX. To enable a loose frequency multiplexing mode such as 4x3 multiplexing, set this par
Frequency hopping mode of the TRX. Frequency hopping assists in interference averaging and frequency diversity.If this param
Power overload threshold for triggering incoming handover to the TRX under the prerequisite that the power amplifier of the TRX
Whether to enable the TRX to carry the main BCCH in the cell
Concentric cell attributes of TRX. If the cell where a TRX is located is configured as a concentric cell, set this parameter to OVE
Maximum number of PDCHs that can be assigned in the TRX
Maximum number of 16 kbit/s Abis timeslots that the PDCHs can use in the TRX
Maximum number of measurement periods in which there is no traffic. If the number of measurement periods in which there is n
This parameter specifies the TRX priority in channel assignment. The smaller this parameter is, the higher the TRX priority is. F
Power overload threshold for triggering outgoing handover from the TRX under the prerequisite that the power amplifier of the T
Priority level at which the BSC shuts down the power amplifier of the TRX when the intelligent shutdown function is enabled. If th
Power attenuation level of all the other timeslots of the BCCH except for timeslot 7 in 16QAM. The attenuation level ranges from
Power attenuation level of all the other timeslots of the BCCH except for timeslot 7 in 32QAM. The attenuation level ranges from
This
parameter
specifies
powerThere
level are
of the
greater this
parameter
the smaller
theis attenuated by 0.2
Power
attenuation
level ofthe
thetransmit
EDGE TRX.
50TRX.
powerThe
attenuation
levels.
At eachis,level,
the power
transmit power is. When this parameter is set to "0", the transmit power level of the TRX is the greatest. Each time
this parameter increases by one level, the transmit power reduces by 2 dB.
For different types of BTSs, the value range of this parameter is different.
BTS3X: 0-10
BTS3001C: 0-13
BTS3002C: 0-10
Double-transceiver BTSs BTS3012,BTS3012AE,BTS3006C: 0-10
This parameter specifies the maximum transmit power supported by the power amplifier of the TRX. The macro BTS and the m
Finetune of the TRX power. During the static finetune of the TRX power, the BSC adjusts the TRX power at a step of 0.2 dB. In
RF receive mode of the TRX.The BTS3012, BTS3012AE, BTS3012II, BTS3006C, and BTS3002E do not support Main Diversity
Number of the RXU chain to which the RXU belongs
Index type of the RXU
Name of the RXU
Position number of the RXU on the RXU chain
This parameter specifies whether the BSC6900 automatically shuts down the power amplifier of the TRX to save power when th
RF send mode of the TRX.The BTS3006C and BTS3002E do not support Wide Band Combining, Power Booster Technology, D
Whether to allow the cell to dynamically change a channel from full rate to half rate or from half rate to full rate. If this parameter
Index of a TRX, uniquely identifying a TRX in a BSC6900.
Number of a TRX in a BTS. The number of a TRX is unique in a BTS.
Number of the channel bound to the TRX on the TRX board. TRX Pass No. of the DTRU/DRRU/BTS3900B of the BTS in separ
TRX board pass number in the sub-location group to which the TRX of the main location group is bound
Type of the TRX board bound to the TRX
Maximum degree by which the output power of the multi-density TRX board can exceed the maximum output power within a sho
Time when the BTS stops checking for a radio link alarm. If this time is up, the BTS stops checking for or reporting a radio link a
Whether to enable the BTS to report a major radio link alarm. If this parameter is set to YES, the BTS reports a major radio link
Period for clearing a radio link warning. If a radio link warning is cleared within this period, the BTS reports the recovery alarm fo
Time when the BTS starts to check for a radio link alarm. If this time is up, the BTS starts to check for and report a radio link ala
Whether to enable the BSC to deliver radio link alarm parameters to the BTS. If this parameter is set to YES, the BSC delivers t
FEATURE_NAME
O&M of BTS
O&M of BTS
Multi-site Cell
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Radio Dedicated Channel Management
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
Processing of Measurement ReportPre-processing of Measurement Report
GSM Flow Control
TRX Power Amplifier Intelligent Shutdown
GSM Flow Control
GSM Flow Control
GSM Flow Control
Frequency Band
Configuration Management
Frequency Hopping RF hopping, baseband hopping
Enhanced Channel Assignment Algorithm
Configuration Management
Concentric Cell
PDCH Dynamic Adjustment
Flex Abis
Radio Dedicated Channel Management
Enhanced Channel Assignment Algorithm
Enhanced Channel Assignment Algorithm
TRX Power Amplifier Intelligent Shutdown
EGPRS
EGPRS
EGPRS
Configuration Management
Configuration Management
Configuration Management
Configuration Management
O&M of BTS
O&M of BTS
O&M of BTS
O&M of BTS
Active Backup Power Control
Configuration Management
Dynamic Adjustment Between FR and HR
Configuration Management
Configuration Management
O&M of BTS
Multi-site Cell
O&M of BTS
Enhanced Channel Assignment Algorithm
O&M of BTS
O&M of BTS
O&M of BTS
O&M of BTS
O&M of BTS
GUI_VALUE_RANGE
LockLock, UnlockUnlock, ShutdownShutdown
AA, BB
AA, BB
0~80
5~126
5~100
0~254
10~254
20~100
20~90
NONo, YESYes
30~100
0~100
0~100
0~1023
LOOSELoose, TIGHTTight
NO_FHNo Frequency Hopping, BaseBand_FHBaseband Frequency Hopping, RF_FHRF Frequency Hopping
0~50
NONo, YESYes
OVERLAIDOverlaid Subcell, UNDERLAIDUnderlaid Subcell, NONENone
0~8
0~32
1~255
L0Level0, L1Level1, L2Level2, L3Level3, L4Level4, L5Level5, L6Level6, L7Level7
0~50
L0Level0, L1Level1, L2Level2, L3Level3, L4Level4, L5Level5, L6Level6, L7Level7
0~50
0~50
0~50
0~13
80W80W, 63W63W, 60W60W, 55W55W, 50W50W, 45W45W, 40W40W, 31W31W, 30W30W, 27W27W, 26W26W, 25W25W
DB00.0dB, DB2-0.2dB, DB4-0.4dB, DB6-0.6dB, DB8-0.8dB, DB10-1.0dB, DB12-1.2dB, DB14-1.4dB, DB16-1.6dB, DB18-1.8dB
INDEPENDENTIndependent Receiver, DIVIDINGDividing Receiver, FOURDIVERSITYFour Diversity Receiver, MAINDIVERSIT
0~249
RXUNAMEBy RXU Name, RXUPOSBy RXU Position No, SRNSNBy Subrack No
None
1~6
DISABLEDisable, ENABLEEnable
NOCOMBNo Combination, PBTPBT, WBANDCOMBWideband Combination, DIVERSITYTransmit Diversity, DDIVERSITYDyna
NONo, YESYes
0~3071
0~71
0~7
0~7
TRXTRX, TRUTRU/DTRU, QTRUQTRU, DRRUDRRU, DRFUDRFU, MRRUMRRU, MRFUMRFU, GRFUGRFU, GRRUGRRU,
0~50
0~24
NONo, YESYes
1~255
0~24
NONo, YESYes
ACTUAL_VALUE_RANGE
Lock, Unlock, Shutdown
A, B
A, B
0~80
5~126
5~100
0~254
10~254
20~100
20~90
NO, YES
30~100
0~100
0~100
0~1023
LOOSE, TIGHT
NO_FH, BaseBand_FH, RF_FH
0~50
NO, YES
OVERLAID, UNDERLAID, NONE
0~8
0~32
5~1275, step:5
L0, L1, L2, L3, L4, L5, L6, L7
0~50
L0, L1, L2, L3, L4, L5, L6, L7
0~10, step:0.2
0~10, step:0.2
0~10, step:0.2
0~13
80W, 63W, 60W, 55W, 50W, 45W, 40W, 31W, 30W, 27W, 26W, 25W, 24W, 21W, 20W, 19W, 18W, 17W, 16W, 15W, 14W, 1
DB0, DB2, DB4, DB6, DB8, DB10, DB12, DB14, DB16, DB18, Default
INDEPENDENT, DIVIDING, FOURDIVERSITY, MAINDIVERSITY, NONE
0~249
RXUNAME, RXUPOS, SRNSN
1~64 characters
1~6
DISABLE, ENABLE
NOCOMB, PBT, WBANDCOMB, DIVERSITY, DDIVERSITY, DPBT, DTIC, NONE
NO, YES
0~3071
0~71
0~7
0~7
TRX, TRU, QTRU, DRRU, DRFU, MRRU, MRFU, GRFU, GRRU, BTS3900B, BTS3900E
0~50
0~24
NO, YES
5~1275, step:5
0~24
NO, YES
UNIT
DEFAULT_VALUE
None
Unlock
None
None
None
None
per cent
None
per cent
None
None
per cent
per cent
None
per cent
per cent
per cent
None
None
None
W
None
None
None
None
min
None
W
None
dB
dB
dB
None
None
None
None
None
None
None
None
None
None
50
100
100
8
30
80
80
NO
90
55
85
None
LOOSE
NO_FH
8
NO
NONE
8
32
48
L0
15
L0
0
0
0
0
DEFAULT
Default
NONE
None
None
None
None
ENABLE
NONE
None
NO
None
None
None
None
None
W
h
None
min
h
None
None
None
None
None
None
20
22
NO
12
8
NO
RECOMMENDED_VALUE
Unlock
None
None
50
100
100
8
30
80
80
NO
90
75
85
None
LOOSE
NO_FH
8
NO
NONE
8
32
48
L0
15
L0
0
0
0
0
None
Default
NONE
None
None
None
None
ENABLE
NONE
NO
None
None
None
None
None
If the board is configured with two to four TRXs, the recommended value of this parameter is 20. If the board is configured with f
22
NO
12
8
NO
PARAMETER_RELATIONSHIP
None
None
None
This parameter is valid only when "WLNKALMFLAG" is set to YES.
This parameter is valid only when "WLNKALMFLAG" is set to YES.
This parameter is valid only when "WLNKALMFLAG" is set to YES.
This parameter is valid only when "WLNKALMFLAG" is set to YES.
This parameter is valid only when "WLNKALMFLAG" is set to YES.
This parameter is valid only when "WLNKALMFLAG" is set to YES.
None
This parameter is valid only when "BSCDynSwitchTrxPAAllow" in "SET BSCDSTPA" and "DYNOpenTrxPower" in "SET GCELL
None
None
None
None
None
This parameter depends on "FHMODE" in "SET GCELLHOPTP". This parameter can be set to BaseBand_FH only when "FHMO
None
None
This parameter is valid only when "IUOTP" in "MOD GCELL" is set to Concentric_cell.
None
None
This parameter is valid only when "WLNKALMFLAG" is set to YES.
This parameter is valid only when "TRXPRIALLOW" is set to YES.
None
This parameter is valid only when "BSCDynSwitchTrxPAAllow" in "SET BSCDSTPA","DYNOpenTrxPower" in "SET GCELLBAS
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
This parameter is valid only when "WLNKALMFLAG" is set to YES.
This parameter is valid only when "WLNKALMFLAG" is set to YES.
This parameter is valid only when "WLNKALMFLAG" is set to YES.
This parameter is valid only when "WLNKALMFLAG" is set to YES.
None
CAUTION
None
The parameter cannot be modified.
None
None
None
None
None
None
None
None
This parameter cannot be set to YES for the TRX that carries the main BCCH.
None
None
None
The value range of this parameter depends on the frequency range of the cell band.
None
After this parameter is modified, the services in the cell are handed over forcedly. The cell is reset after all the handover succee
This parameter must be equal to or less than "OUTHOPWROVERLOADTHRESHOLD" to protect the other timeslots/cells from
Each cell can be configured with only one TRX that carries the main BCCH.
None
None
None
None
None
None
None
This parameter is valid for the EDGE TRX only.
This parameter is valid for the EDGE TRX only.
This parameter is valid only for EDGE TRXs and is invalid for ordinary TRXs.
None
None
None
None
The parameter cannot be modified.
The parameter cannot be modified.
The parameter cannot be modified.
The parameter cannot be modified.
None
None
None
The parameter cannot be modified.
None
The parameter cannot be modified.
The parameter cannot be modified.
The parameter cannot be modified.
None
None
None
None
None
None
RADIO_PERFORMACE_IMPACT
None
None
None
None
None
None
None
None
None
If this parameter is set too small, the congestion control duration is too long, and thus the transmission capability of signaling link
None
If the value of this parameter is too high, the congestion control is delayed, which leads to deteriorated performance on the signa
None
None
None
The setting of this parameter must be consistent with the actual frequency reuse pattern of the TRX. Otherwise, the speech qua
If this parameter is set to "NO_FH", the anti-interference capability of the TRX is decreased.
If the value of this parameter is set too high, the power load of other timeslots or cells is burdened.
None
None
None
None
None
None
If the value of this parameter is set too small, frequent handovers are likely to occur.
None
None
None
None
None
None
If the value of this parameter is set inappropriately high or small, the BTS cabinet top output power is inconsistent with the TRX
None
None
None
None
None
The TRX is shut down automatically, and the capacity of the cell is decreased.
None
None
None
None
None
Not involved
None
None
None
None
None
None
None
ATTRIBUTE
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Radio
Radio
Equipment
Radio
Radio
Radio
Equipment
Equipment
Radio
Equipment
Equipment
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Radio
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
IMPACT
PARAMETER_ID
PARAMETER_NAME
MML_COMMAND
DESCRIPTION
FEATURE_NAME
GUI_VALUE_RANGE
ACTUAL_VALUE_RANGE
UNIT
DEFAULT_VALUE
RECOMMENDED_VALUE
PARAMETER_RELATIONSHIP
CAUTION RADIO_PERFORMACE_IMPACT
ATTRIBUTE
IMPACT
PARAMETER_ID
PARAMETER_NAME
MML_COMMAND
DESCRIPTION
FEATURE_NAME
GUI_VALUE_RANGE
ACTUAL_VALUE_RANGE
UNIT
DEFAULT_VALUE
RECOMMENDED_VALUE
PARAMETER_RELATIONSHIP
CAUTION RADIO_PERFORMACE_IMPACT
ATTRIBUTE
FEATURE_NAME
IMPACT
Class11 DTM
Dual Carriers in Downlink
EGPRS
Uplink EGPRS2-ADownlink EGPRS2-A
HMC DTM
Network Assisted Cell Change NACC
Network-Controlled Cell Reselection NC2
Network Assisted Cell Change NACC
Cell
Cell
Cell
Cell
Cell
Cell
Network-Controlled Cell Reselection NC2
Packet SI Status
GPRS
PS Handover
PS Handover
Latency Reduction
DTM
DTM
GPRS
GPRS
Dynamically Adjusting the Uplink MCS Coding
EGPRS
EGPRS
Downlink EGPRS2-A
Downlink EGPRS2-A
EGPRS
EGPRS
EGPRS
Uplink EGPRS2-A
Uplink EGPRS2-A
EGPRS
Gb Interface Function
GPRS
Configuration Management
Gb Interface Function
Compact BTS Automatic Configuration and Planning
GPRS
GPRS
GPRS
PDCH Dynamic Adjustment
MSRD
PDCH Dynamic Adjustment
PDCH Dynamic Adjustment
PDCH Dynamic Adjustment
11-Bit EGPRS Access
Coding Scheme
Coding Scheme
Coding Scheme
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Coding Scheme
Coding Scheme
Coding Scheme
Coding Scheme
Coding Scheme
CS-3/CS-4
CS-3/CS-4
CS-3/CS-4
CS-3/CS-4
CS-3/CS-4
CS-3/CS-4
CS-3/CS-4
CS-3/CS-4
Downlink EGPRS2-A
Downlink EGPRS2-A
Downlink EGPRS2-A
Downlink EGPRS2-A
EGPRS
Extended Uplink TBF
Extended Uplink TBF
Extended Uplink TBF
Extended Uplink TBF
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
GPRS
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
GPRS
Cell
GPRS
PDCH Dynamic Adjustment
PDCH Dynamic Adjustment
PDCH Dynamic Adjustment
PDCH Dynamic Adjustment
PDCH Dynamic Adjustment
PDCH Dynamic Adjustment
PDCH Dynamic Adjustment
PDCH Dynamic Adjustment
PDCH Dynamic Adjustment
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
PARAMETER_ID
PARAMETER_NAME
MML_COMMAND
CLASS11DTM
DLDCSPT
EDGE
EGPRS2A
HMCDTM
NACCSPT
Support Class11 DTM
Support Downlink Dual-Carrier
EDGE
EGPRS2-A
Support HMC DTM
Support NACC
SET GCELLGPRS
SET GCELLGPRS
SET GCELLGPRS
SET GCELLGPRS
SET GCELLGPRS
SET GCELLGPRS
NBRSPT64
Support 64 Neighbour Cells
SET GCELLGPRS
NC2SPT
Support NC2
SET GCELLGPRS
PKTSI
PACKET SI
SET GCELLGPRS
RA
Routing Area
SET GCELLGPRS
SPTINTERRATINBSCPSHO
Support In Inter-RAT Inter-cell PS Handover
SET GCELLGPRS
SPTINTERRATOUTBSCPSHO Support Out Inter-RAT Inter-Cell PS Handover
SET GCELLGPRS
SPTREDUCELATENCY
Support Reduced Latency Capability
SET GCELLGPRS
SUPPORTDTM
Support DTM
SET GCELLGPRS
SUPPORTENDTM
Support Enhanced DTM
SET GCELLGPRS
GPRS
GPRS
SET GCELLGPRS
PCUNO
PCU No.
SET GCELLGPRS
ADJUSTULMCSTYPE
Support EGPRS Uplink MCS Dynamic Adjust
SET GCELLEGPRSPARA
BEPPERIOD
Bep Period
SET GCELLEGPRSPARA
DNDEFAULTMCS
Downlink Default MCS Type
SET GCELLEGPRSPARA
DNE2ADEFAULTMCS
Downlink EGPRS2-A Default MCS Type
SET GCELLEGPRSPARA
DNE2AFIXMCS
Downlink EGPRS2-A Fixed MCS Type
SET GCELLEGPRSPARA
DNFIXMCS
Downlink Fixed MCS Type
SET GCELLEGPRSPARA
LQCMODE
Link Quality Control Mode
SET GCELLEGPRSPARA
UPDEFAULTMCS
Uplink Default MCS Type
SET GCELLEGPRSPARA
UPE2ADEFAULTMCS
Uplink EGPRS2-A Default MCS Type
SET GCELLEGPRSPARA
UPE2AFIXMCS
Uplink EGPRS2-A Fixed MCS Type
SET GCELLEGPRSPARA
UPFIXMCS
Uplink Fixed MCS Type
SET GCELLEGPRSPARA
BVCI
PTPBVC Identifier
ADD GCELLQUICKSETUP
GPRS
Support GPRS
ADD GCELLQUICKSETUP
NCC
NCC
ADD GCELLQUICKSETUP
NSEI
NSE Identifier
ADD GCELLQUICKSETUP
RA
Route Area
ADD GCELLQUICKSETUP
C31HYST
GPRS Cell Reselect Hysteresis Applied to C31 Criterion
SET GCELLRESELECTPARA
C32QUAL
Exceptional Rule for GPRS Reselect Offset
SET GCELLRESELECTPARA
GPRSCELLRESELECTHYESTERESIS
GPRS Cell Reselect Hysteresis
SET GCELLRESELECTPARA
PDCHUPLEV
PDCH Uplink Multiplex Threshold
SET GCELLPSCHM
MSRDPDCHLEV
MSRD PDCH Multiplex Threshold
SET GCELLPSCHM
PDCHDWNLEV
PDCH Downlink Multiplex Threshold
SET GCELLPSCHM
PDCHREFORMING
PDCH Reforming
SET GCELLPSCHM
MAXPDCHRATE
Maximum Rate Threshold of PDCHs in a Cell
SET GCELLPSCHM
EGPRS11BITCHANREQ
Support 11BIT EGPRS Access
SET GCELLPSBASE
DNDEFAULTCS
Downlink Default CS Type
SET GCELLPSCS
DNFIXCS
Downlink Fixed CS Type
SET GCELLPSCS
DNTHDCSDEGRADE1
Downlink TBF Threshold from CS2 to CS1
SET GCELLPSCS
DNTHDCSUPGRADE1
UPDEFAULTCS
UPFIXCS
UPTHDCSDEGRADE1
UPTHDCSUPGRADE1
DNTHDCSDEGRADE2
DNTHDCSDEGRADE3
DNTHDCSUPGRADE2
DNTHDCSUPGRADE3
UPTHDCSDEGRADE2
UPTHDCSDEGRADE3
UPTHDCSUPGRADE2
UPTHDCSUPGRADE3
DIVERT16QAMDELAY
DIVERT32QAMDELAY
POWERREDUCE16QAM
POWERREDUCE32QAM
DIVERT8PSKDELAY
DLTBFESTDELAY
UPEXTTBFINACTDELAY
UPTBFRELDELAY
EXTUTBFNODATA
GMSKDELAY
GPRSPENALTYTIME
GPRSTEMPOFFSET
RSLCTOFFER
DNTBFRELDELAY
BSCVMAX
CTRLACKTYPE
PANDEC
PANINC
PANMAX
PRIACCTHR
RACOLOR
SGSNR
DlGprsTbfExpandOp
RANDACCESSRETRY
RARESELECTHYST
TRESEL
CELLBARACCESS2
EXCACC
GPRSHCSTHR
MSTXPWRMAX
MULTIBANDREP
Downlink TBF Threshold from CS1 to CS2
SET GCELLPSCS
Uplink Default CS Type
SET GCELLPSCS
Uplink Fixed CS Type
SET GCELLPSCS
Uplink TBF Threshold from CS2 to CS1
SET GCELLPSCS
Uplink TBF Threshold from CS1 to CS2
SET GCELLPSCS
Downlink TBF Threshold from CS3 to CS2
SET GCELLPSCS
Downlink TBF Threshold from CS4 to CS3
SET GCELLPSCS
Downlink TBF Threshold from CS2 to CS3
SET GCELLPSCS
Downlink TBF Threshold from CS3 to CS4
SET GCELLPSCS
Uplink TBF Threshold from CS3 to CS2
SET GCELLPSCS
Uplink TBF Threshold from CS4 to CS3
SET GCELLPSCS
Uplink TBF Threshold from CS2 to CS3
SET GCELLPSCS
Uplink TBF Threshold from CS3 to CS4
SET GCELLPSCS
Diversity Transmitter 16QAM Delay
SET GCELLBASICPARA
Diversity Transmitter 32QAM Delay
SET GCELLBASICPARA
16QAM Transmitter Power Reduce Level
SET GCELLBASICPARA
32QAM Transmitter Power Reduce Level
SET GCELLBASICPARA
Diversity Transmitter 8PSK Delay
SET GCELLBASICPARA
Downlink TBF Establishment Delay
SET GCELLPRIVATEOPTPARA
Inactive Period of Extended Uplink TBF
SET GCELLPRIVATEOPTPARA
Release Delay of Non-extended Uplink TBF
SET GCELLPRIVATEOPTPARA
Not Send Dummy Message with Extended Uplink TBF
SET GCELLPSBASE
Diversity Transmitter GMSK Delay
SET GCELLBASICPARA
GPRS Penalty Time
SET GCELLNCRESELECTPARA
GPRS Temporary Offset
SET GCELLNCRESELECTPARA
GPRS Reselection Offset
SET GCELLNCRESELECTPARA
Release Delay of Downlink TBF
SET GCELLPRIVATEOPTPARA
BS_CV_MAX
SET GCELLPSBASE
Control Acknowledge Type
SET GCELLPSBASE
PAN_DEC
SET GCELLPSBASE
PAN_INC
SET GCELLPSBASE
PAN_MAX
SET GCELLPSBASE
Packet Access Priority
SET GCELLPSBASE
Routing Area Color Code
SET GCELLPSBASE
Protocol Version Supported by SGSN
SET GCELLPSBASE
Downlink GPRS TBF Window Expansion Optimization
SET GCELLPSOTHERPARA
Allow MS to Access to Another Cell
SET GCELLRESELECTPARA
Accessorial Hysteresis of Cell Selection
SET GCELLRESELECTPARA
Cell Reselection Forbidden Time
SET GCELLRESELECTPARA
Cell Access Bar Switch
SET GCELLSERVPARA
Exclusive Access
SET GCELLSERVPARA
Threshold of HCS Signal Strength
SET GCELLSERVPARA
Maximum TX Power for Access PCH
SET GCELLSERVPARA
Multi-Band Report
SET GCELLSERVPARA
PRIORCLASS
Cell HCS Prior Class
SET GCELLSERVPARA
RXLEVACCMIN
Minimum Receiving level for Access
SET GCELLSERVPARA
ABISTSFREETM
Timer of Releasing Abis Timeslot
SET GCELLPSCHM
ALLOCSINGLEPDCHFORSIGNALLING
Allocate One PDCH for Signaling Data
SET GCELLPSCHM
DefaultDynPdchPreTranNum
Number of Dynamic Channel Pre-Converted
SET GCELLPSCHM
DWNDYNCHNTRANLEV
Downlink Multiplex Threshold of Dynamic Channel SET
Conversion
GCELLPSCHM
DYNCHFREETM
Timer of Releasing Idle Dynamic Channel
SET GCELLPSCHM
DYNCHNPREEMPTLEV
Level of Preempting Dynamic Channel
SET GCELLPSCHM
DYNCHTRANRESLEV
Reservation Threshold of Dynamic Channel Conversion
SET GCELLPSCHM
ReservedDynPdchPreTranNum Number of Reserved Dynamic Channel
SET GCELLPSCHM
UPDYNCHNTRANLEV
Uplink Multiplex Threshold of Dynamic Channel Conversion
SET GCELLPSCHM
DESCRIPTION
Whether the cell supports the MS with the DTM multi-timeslot capability of class 11
Whether the cell supports DLDC
Whether the current cell supports EDGE
Whether the current cell supports EGPRS2-A
Whether the cell supports the MS with the DTM multi-timeslot capability
Whether to support the network assisted cell change NACC. The NACC is used in the network control modes NC0, NC1 or NC2
Whether the PCU of the cell supports the 64 neighboring cells. This parameter determines the capability of reporting the numbe
Whether to support the network control 2 NC2. The NC2 enables the network side to control the cell reselection for the MS whe
Whether the cell supports the PACKET SI STATUS flow. In the PACKET SI STATUS flow, the MS sends the Packet PSI/SI Sta
Identifies the routing area of the current cell
Whether to support In Inter-RAT Inter-cell PS Handover. The MS in the UMTS cell can be handed over to the BSC local cell thro
Whether support Out Inter-RAT Inter-Cell PS Handover. The MS in the BSC local cell can be handed over to the UMTS cell thro
Cell supports reduced latency capability. This parameter is used to reduce the latency during the transmission, thus improving th
Whether to support dual transfer mode DTM. The DTM allows an MS to use the circuit switching service and the packet switchin
Whether to support the enhanced DTM function. Comparing to the DTM, the enhanced DTM improves the CS setup and releas
Whether the current cell supports GPRS
Number of the PCU to which the current cell belongs
Mode of dynamically adjusting the EGPRS uplink encoding scheme. Value 0 indicates dynamic adjustment of EGPRS uplink co
Average period for sending the measurement report over the EGPRS channel
Default coding scheme of the downlink EDGE link. If the downlink adopts the dynamic adjustment coding scheme, this paramet
Default coding scheme used on the downlink EGPRS2-A link. If the downlink uses the dynamic coding scheme, this parameter
Fixed coding scheme that is used on the downlink EGPRS2-A link. If the downlink uses the fixed coding scheme, this paramete
Coding scheme of the downlink EDGE link. If the downlink uses the fixed coding scheme, this parameter is set to a value rangin
It is applicable to the radio transmission environment to improve the link quality. Link adaptation LA indicates adjusting the codin
Default coding scheme of the uplink EDGE link. If the uplink adopts the dynamic adjustment coding scheme, this parameter can
Default coding scheme used on the uplink EGPRS2-A link. If the uplink uses the dynamic coding scheme, this parameter specif
Fixed coding scheme that is used on the uplink EGPRS2-A link. If the uplink uses the fixed coding scheme, this parameter can
Coding scheme of the uplink EDGE link. If the uplink uses the fixed coding scheme, this parameter is set to a value ranging from
The BSSGP virtual connection identifier. It is used to identify multiple BVCs that multiplexes the NS-VC.
Whether the currently cell supports the GPRS
Network color code. It is used to uniquely identify different public land mobile network PLMN of the adjacent country.
The identifier of a network service entity NSE.An NSE manages a group of NSVCs.
Route area of the current cell
Whether the reselection hysteresis parameter is applied to the C31 criterion
Whether GPRS cell reselection offset is used for C32 calculation during cell reselection. If this parameter is set to 1, then only th
Hysteresis value of the cell in the same routing area. When the MS in the ready state reselects a cell, if the original cell and the
PDCH uplink multiplex threshold, indicating the maximum TBFs on the uplink PDCH parameter value/10.
PDCH Downlink multiplex threshold in the Mobile Station Receiver Diversity MSRD mode. When this parameter is set to "80", th
PDCH downlink multiplex threshold, Indicating the maximum TBFs on the downlink PDCH parameter value/10.
Whether to preempt the channels carrying the CS service when the channels for the PS service are insufficient "Level of Preem
Maximum value of the PDCH ratio in a cell. The number of available TCHs and PDCHs in a cell is set to a fixed value. The PDC
Whether to support the 11-bit EGPRS access request
Coding scheme of the default GPRS downlink. Dynamic adjustment coding: the coding scheme used during initial access transm
Adjustment mode of the downlink GPRS link coding scheme. If the fixed coding scheme is used, this parameter is set to a value
Retransmission threshold when the coding mode of the downlink TBF is changed from CS2 to CS1. When the downlink TBF ret
Retransmission threshold when the coding mode of the downlink TBF is changed from CS1 to CS2. When the TBF retransmiss
Default coding scheme of the uplink GPRS link. If the uplink adopts the dynamic adjustment coding scheme, this parameter can
Adjustment mode of the uplink GPRS link coding scheme. If the fixed coding scheme is used, this parameter is a value ranging
Retransmission threshold when the coding mode of the uplink TBF is changed from CS2 to CS1. When the retransmission rate
Retransmission threshold when the coding mode of the uplink TBF is changed from CS1 to CS2. When the retransmission rate
Retransmission threshold when the coding mode of the TBF is changed from CS3 to CS2. When the TBF retransmission rate is
Retransmission threshold when the coding mode of the downlink TBF is changed from CS4 to CS3. When the downlink TBF Re
Retransmission threshold when the coding mode of the TBF is changed from CS2 to CS3. When the downlink TBF retransmiss
Retransmission threshold when the coding mode of the downlink TBF is changed from CS3 to CS4. When the downlink TBF ret
Retransmission threshold when the coding mode of the uplink TBF is changed from CS3 to CS2. When the retransmission rate
Retransmission threshold when the coding mode of the uplink TBF is changed from CS4 to CS3. When the retransmission rate
Retransmission threshold when the coding mode of the uplink TBF is changed from CS2 to CS3. When the retransmission rate
Retransmission threshold when the coding mode of the uplink TBF is changed from CS3 to CS4. When the retransmission rate
Delay of transmit diversity when 16QAM is used. Generally, the parameter is applicable to general fading environments. The tra
Delay of transmit diversity when 32QAM is used. Generally, the parameter is applicable to general fading environments. The tra
Power attenuation level of timeslot 7 of the BCCH in 16QAM. The attenuation level ranges from 0 to 50, with the step of 0.2 dB.
Power attenuation level of timeslot 7 of the BCCH in 32QAM. The attenuation level ranges from 0 to 50, with the step of 0.2 dB.
Delay of transmit diversity when 8PSK is used. Generally, the parameter is applicable to general fading environments. The trans
Time interval between sending of the Packet Uplink Ack/Nack message and setup of the DL TBF. After receiving the Packet Up
Inactive period of extended uplink TBF. After the network side receives the last uplink RLC data block CountValue=0 of the MS
Delay of releasing the non-extended uplink TBF. After receiving the last uplink RLC data block CountValue=0, the network side
Whether to send the Dummy message during the deactivated period of the extended uplink TBF
Delay of transmit diversity when GMSK is used. Generally, the parameter is applicable to general fading environments. In this ca
Timer used when the MS calculates the C2 used to evaluate the channel quality during cell reselection. The time information is t
This parameter is used to prevent repeated cell reselection of a fast moving MS. The MS does not select this cell when the dura
Used for calculating C2. The MS with a large value can be assigned with high access priority.
Delay of releasing the downlink TBF. After the last downlink RLC data block is transmitted on the network side and all the transm
This parameter is used to set the parameter BS_CV_MAX for MS countdown. This parameter is used for the MS to calculate the
Format of the control acknowledge message of the MS. Four access bursts are used to obtain timing advance without sending p
This parameter sets the PAN_DEC value used by the counter N3102 of the MS. When the timer T3182 of the MS expires, the N
This parameter sets the PAN_INC value used by the counter N3102 of the MS. When receiving the packet uplink acknowledged
RAN_MAX value, the maximum value of the N3102. 4: the value of PAN_MAX is 4; 32: the value of PAN_MAX is 32. Value N in
Access priority of the MS that is allowed to access the cell. The MS sends the packet channel request containing the 2-bit radio
Routing area color code of the GPRS cell
Protocol version supported by the SGSN
Expanded size of the GPRS RLC window. This parameter is used to expand the size of the GRPS RLC window. The expanded
Whether to allow the MS to access another cell
Hysteresis of cell selection in different routing area. When a standby or ready MS starts cell reselection, if the original cell and th
Forbidden time of cell reselection
Whether the cell can be added to the reselected candidate cell list. If this parameter is set to "NoPermit", the cell cannot be rese
Whether it is a SoLSA exclusive access cell. If it is a SoLSA exclusive access cell, only the MS subscribing the Localised Servic
Threshold of hierarchical cell structure HCS signal strength. The MS calculates the C31 according to the signal strength and its
Maximum TX power for the MS to access the PCH
Multi-band point report value, including "report six cells with the strongest signal at each frequency point", "report one cell with th
Priority of the hierarchical cell structure HCS.
0: indicates the lowest priority;
7: indicates the highest priority.
Minimum receiving power level for the MS in the cell to access the system
Interval between detection of the Abis timeslot being in idle state and releasing of the Abis timeslot. When channels are idle, the
When this parameter is set to ON, the GMM/SM signaling service is assigned only one PDCH; otherwise, the GMM/SM signalin
This parameter specifies the default pre-converted PDCHs in the dynamic transferable channel pool.When this parameter is gre
Downlink multiplex threshold of dynamic channel conversion. When the subscriber number on the channel reaches the value th
Time to wait for releasing the dynamic channel after the TBF on the dynamic channel is released. When all the TBFs on the cha
Mode of preempting the dynamic channel for the CS domain and PS domain. Only the channel configured in the TCH/F mode c
Number of full-rate TCHs reserved for the CS domain. This parameter is valid only when "Level of Preempting Dynamic Channe
This parameter specifies the number of the reserved PDCHs that are not used for channel converstion in the dynamic transfera
Uplink multiplex threshold of dynamic channel conversion. When the subscriber number on the channel reaches the value thres
GUI_VALUE_RANGE
UNSUPPORTNot Support, SUPPORTSupport
UNSUPPORTNot Support, SUPPORTSupport
NONo, YESYes
NONo, YESYes
UNSUPPORTNot Support, SUPPORTSupport
NONo, YESYes
NONo, YESYes
NONo, YESYes
NONo, YESYes
0~255
UNSUPPORTNot Support, SUPPORTSupport
UNSUPPORTNot Support, SUPPORTSupport
UNSUPPORTNot Support, SUPPORTSupport
UNSUPPORTNot Support, SUPPORTSupport
UNSUPPORTNot Support, SUPPORTSupport
NONot support, SupportAsInnPcuSupport as built-in PCU, SupportAsExtPcuSupport as external Pcu
0~31
0Not support dynamic adjustment, 1According to downlink quality measurements reported by MS, 2According to uplink quality m
0~10
MCS1MCS1, MCS2MCS2, MCS3MCS3, MCS4MCS4, MCS5MCS5, MCS6MCS6, MCS7MCS7, MCS8MCS8, MCS9MCS9
MCS1MCS1, MCS2MCS2, MCS3MCS3, MCS4MCS4, MCS7MCS7, MCS8MCS8, DAS5DAS5, DAS6DAS6, DAS7DAS7, DAS8
MCS1MCS1, MCS2MCS2, MCS3MCS3, MCS4MCS4, MCS7MCS7, MCS8MCS8, DAS5DAS5, DAS6DAS6, DAS7DAS7, DAS8
MCS1MCS1, MCS2MCS2, MCS3MCS3, MCS4MCS4, MCS5MCS5, MCS6MCS6, MCS7MCS7, MCS8MCS8, MCS9MCS9, UN
IRIR, LALA
MCS1MCS1, MCS2MCS2, MCS3MCS3, MCS4MCS4, MCS5MCS5, MCS6MCS6, MCS7MCS7, MCS8MCS8, MCS9MCS9
MCS1MCS1, MCS2MCS2, MCS3MCS3, MCS4MCS4, MCS5MCS5, MCS6MCS6, UAS7UAS7, UAS8UAS8, UAS9UAS9, UAS1
MCS1MCS1, MCS2MCS2, MCS3MCS3, MCS4MCS4, MCS5MCS5, MCS6MCS6, UAS7UAS7, UAS8UAS8, UAS9UAS9, UAS1
MCS1MCS1, MCS2MCS2, MCS3MCS3, MCS4MCS4, MCS5MCS5, MCS6MCS6, MCS7MCS7, MCS8MCS8, MCS9MCS9, UN
2~65534
NONot Support, SupportAsInnPcuSupport As Inner Pcu, SupportAsExtPcuSupport As Outer Pcu
0~7
0~65534
0~255
C31NOTUSENot Use c31 standard, C31STANDARDUse c31 standard
0~1
0dB0dB, 2dB2dB, 4dB4dB, 6dB6dB, 8dB8dB, 10dB10dB, 12dB12dB, 14dB14dB
10~70
10~80
10~160
NONO, YESYES
0~100
NONO, YESYES
CS1CS1, CS2CS2, CS3CS3, CS4CS4
CS1CS1, CS2CS2, CS3CS3, CS4CS4, UNFIXEDUNFIXED
0~64
0~64
CS1CS1, CS2CS2, CS3CS3, CS4CS4
CS1CS1, CS2CS2, CS3CS3, CS4CS4, UNFIXEDUNFIXED
0~64
0~64
0~64
0~64
0~64
0~64
0~64
0~64
0~64
0~64
4~32
4~32
0~50
0~50
4~32
0~300
0~5000
0~300
SENDSEND, NOTSENDNOTSEND
4~32
10sec10secsec100sec, 110sec110sec, 120sec120sec, 130sec130sec, 140sec140sec, 150sec150sec, 160sec160sec, 170sec1
0db0db, 10db10db, 20db20db, 30db30db, 40db40db, 50db50db, 60db60db, infinityinfinity, nouseno use
MINUS_52db-52db, MINUS_48db-48db, MINUS_44db-44db, MINUS_40db-40db, MINUS_36db-36db, MINUS_32db-32db, MIN
0~5000
0~15
4BURST4Burst, RLC/MACRLC/MAC
Pan_00, Pan_11, Pan_22, Pan_33, Pan_44, Pan_55, Pan_66, Pan_77, 255not use
Pan_00, Pan_11, Pan_22, Pan_33, Pan_44, Pan_55, Pan_66, Pan_77, 255not use
Pan_44, Pan_88, Pan_1212, Pan_1616, Pan_2020, Pan_2424, Pan_2828, Pan_3232, 255not use
0No packet access, 3Packet access of level 1, 4Packet access of levels 1-2, 5Packet access of levels 1-3, 6Packet access of le
0~7
0 Release 98 or older, 1Release 99 onwards
0~127
NONo, YESYes
0dB0dB, 2dB2dB, 4dB4dB, 6dB6dB, 8dB8dB, 10dB10dB, 12dB12dB, 14dB14dB, nouseno use
5sec5sec, 10sec10sec, 15sec15sec, 20sec20sec, 30sec30sec, 60sec60sec, 120sec120sec, 300sec300sec, nouseno use
PermitPermit Cell Access, NoPermitProhibit Cell Access
NoExclusiveNoExclusive, ExclusiveExclusive
DB110-110dB-100dB, DB98-98dB, DB96-96dB, DB94-94dB, DB92-92dB, DB90-90dB, DB88-88dB, DB86-86dB, DB84-84dB, D
0~31
REPORT6Report six, REPORT1Report one, REPORT2Report two, REPORT3Report three
00, 11, 22, 33, 44, 55, 66, 77, nouseno use
0~63
10~3600
OFFOFF, ONON
0~32
10~80
10~3600
LEVEL0Preempt all dynamic TCHFs, LEVEL1No preempt of CCHs, LEVEL2No preempt of service TCHF
0~8
0~8
10~70
ACTUAL_VALUE_RANGE
UNIT DEFAULT_VALUE
RECOMMENDED_VALUE
UNSUPPORT, SUPPORT
UNSUPPORT, SUPPORT
NO, YES
NO, YES
UNSUPPORT, SUPPORT
NO, YES
None UNSUPPORT
None UNSUPPORT
None NO
None NO
None UNSUPPORT
None NO
None
None
None
None
None
None
NO, YES
None NO
None
NO, YES
None NO
None
NO, YES
None NO
None
0~255
None
0 None
UNSUPPORT, SUPPORT
None UNSUPPORT
None
UNSUPPORT, SUPPORT
None UNSUPPORT
None
UNSUPPORT, SUPPORT
None UNSUPPORT
None
UNSUPPORT, SUPPORT
None UNSUPPORT
None
UNSUPPORT, SUPPORT
None UNSUPPORT
None
NO, SupportAsInnPcu, SupportAsExtPcu
None None
None
0~31
None None
None
0, 1, 2
None
2
2
0~10
None
5
5
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7,
None MCS8,
MCS6 MCS9
MCS6
MCS1, MCS2, MCS3, MCS4, MCS7, MCS8, DAS5,
None , DAS6
DAS6, DAS7, DAS8,DAS6
DAS9, DAS10, DAS11, DAS12
MCS1, MCS2, MCS3, MCS4, MCS7, MCS8, DAS5,
None , UNFIXED
DAS6, DAS7, DAS8,UNFIXED
DAS9, DAS10, DAS11, DAS12, UNFIXED
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7,
None MCS8,
UNFIXED
MCS9, UNFIXED
UNFIXED
IR, LA
None IR
IR
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7,
None MCS8,
MCS2 MCS9
MCS2
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, UAS7,
None UAS8,
MCS6UAS9, UAS10,MCS6
UAS11
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, UAS7,
None UAS8,
UNFIXED
UAS9, UAS10,UNFIXED
UAS11, UNFIXED
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7,
None MCS8,
UNFIXED
MCS9, UNFIXED
UNFIXED
2~65534
None None
None
NO, SupportAsInnPcu, SupportAsExtPcu
None NO
NO
0~7
None None
None
0~65534
None None
None
0~255
None None
None
C31NOTUSE, C31STANDARD
None C31STANDARD
C31STANDARD
0~1
None
0
0
0dB, 2dB, 4dB, 6dB, 8dB, 10dB, 12dB, 14dB dB
2dB
2dB
10~70
None
70
70
10~80
None
40
40
10~160
None
80
80
NO, YES
None NO
NO
0~100
per cent
30
30
NO, YES
None YES
YES
CS1, CS2, CS3, CS4
None CS2
CS2
CS1, CS2, CS3, CS4, UNFIXED
None UNFIXED
UNFIXED
0~64
per cent
10
10
0~64
per cent
5
5
CS1, CS2, CS3, CS4
None CS1
CS1
CS1, CS2, CS3, CS4, UNFIXED
None UNFIXED
UNFIXED
0~64
per cent
10
10
0~64
per cent
5
5
0~64
per cent
5
5
0~64
per cent
5
5
0~64
per cent
2
2
0~64
per cent
2
2
0~64
per cent
5
5
0~64
per cent
5
5
0~64
per cent
2
2
0~64
per cent
2
2
0.5~4, step: 1/8
bit
4
4
0.5~4, step: 1/8
bit
4
4
0~10, step: 0.2
dB
0
0
0~10, step: 0.2
dB
0
0
0.5~4, step: 1/8
bit
4
4
0~300
ms
90
90
0~5000
ms
2000
2000
0~300
ms
120
120
SEND, NOTSEND
None SEND
SEND
0.5~4, step: 1/8
bit
20
20
10sec, 20sec, 30sec, 40sec, 50sec, 60sec, 70sec,
s
80sec,
10sec90sec, 100sec,10sec
110sec, 120sec, 130sec, 140sec, 150sec, 160sec, 17
0db, 10db, 20db, 30db, 40db, 50db, 60db, infinity,
dB no 10db
use
10db
MINUS_52db, MINUS_48db, MINUS_44db, MINUS_40db,
dB
MINUS_2db
MINUS_36db, MINUS_2db
MINUS_32db, MINUS_28db, MINUS_24db, MINUS_2
0~5000
ms
2400
2400
0~15
None
10
10
4BURST, RLC/MAC
None 4BURST
4BURST
Pan_0, Pan_1, Pan_2, Pan_3, Pan_4, Pan_5, None
Pan_6,Pan_1
Pan_7, 255
Pan_1
Pan_0, Pan_1, Pan_2, Pan_3, Pan_4, Pan_5, None
Pan_6,Pan_2
Pan_7, 255
Pan_2
Pan_4, Pan_8, Pan_12, Pan_16, Pan_20, Pan_24,
NonePan_28,
Pan_20Pan_32, 255 Pan_20
0, 3, 4, 5, 6
None
6
6
0~7
None
1
1
Release 98 or older, Release 99 onwards
None Release 99 onwardsRelease 99 onwards
0~127
None
0
0
NO, YES
None YES
YES
0dB, 2dB, 4dB, 6dB, 8dB, 10dB, 12dB, 14dB, no
dBuse 2dB
2dB
5sec, 10sec, 15sec, 20sec, 30sec, 60sec, 120sec,
s
300sec,
10sec no use
10sec
Permit, NoPermit
None Permit
Permit
NoExclusive, Exclusive
None NoExclusive
NoExclusive
DB110, DB108, DB106, DB104, DB102, DB100,
dBDB98,
DB110
DB96, DB94, DB92,
DB110
DB90, DB88, DB86, DB84, DB82, DB80, DB78, DB
0~31
None
2
2
REPORT6, REPORT1, REPORT2, REPORT3None REPORT6
REPORT6
0, 1, 2, 3, 4, 5, 6, 7, no use
None
2
2
0~63
10~3600
OFF, ON
0~32
10~80
10~3600
LEVEL0, LEVEL1, LEVEL2
0~8
0~8
10~70
None
s
None OFF
None
None
s
None LEVEL0
None
None
None
2
15
2
15
OFF
0
20
20
0
20
20
LEVEL0
2
0
20
2
0
20
PARAMETER_RELATIONSHIP
This parameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
This parameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT.
None
This parameter is valid only when "GPRS" is set to SupportAsExtPcu.
None
None
None
This parameter is valid only when "EGPRS2A" is set to YES.
This parameter is valid only when "EGPRS2A" is set to YES.
None
None
None
This parameter is valid only when "EGPRS2A" is set to YES.
This parameter is valid only when "EGPRS2A" is set to YES.
None
None
None
None
None
None
None
None
None
None
The value of this parameter must be smaller than or equal to "PDCH Downlink Multiplex Threshold".
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
If "UPEXTTBFINACTDELAY" in the "SET GCELLPRIVATEOPTPARA" command is set to 0, "EXTUTBFNODATA" must be 0. If
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
CAUTION RADIO_PERFORMACE_IMPACT
ATTRIBUTE
None
None
None
None
None
None
None
None
None
None
None
None
Radio
Radio
Radio
Radio
Equipment
Radio
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Equipment
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Equipment
Radio
Radio
Equipment
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
This parameter
None
applies to only the double-transceiver
Equipment
BTS and the corresponding distributed BTS.
This parameter
None
applies to only the double-transceiver
Equipment
BTS and the corresponding distributed BTS.
None
None
Equipment
None
None
Equipment
None
None
Equipment
None
If this parameter is set improperly to Radio
a small value, the downlink assignment procedure may fail. Therefore, it is reco
None
None
Radio
None
None
Radio
None
None
Radio
The value ofNone
this parameter is valid only for the BTSs
Equipment
of the double-transceiver series and the distributed BTSs.
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
The throughput of the GPRS serviceRadio
is affected.
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
Radio
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
IMPACT PARAMETER_ID
PARAMETER_NAME
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
IMMASSAINTERFTIMER
TQHO
IMMASSMAXDELAYTIME
IMMASSMAXSENDNUM
N3101
N3103
N3105
N200ESTAB
IMM ASS A IF Creation Timer
SET GCELLTMR
Into-BSC HO REQ Queue Timer
SET GCELLTMR
Max Delay of IMM ASS Retransmit SET GCELLCCTMR
Max Transmit Times of IMM ASS SET GCELLCCTMR
Maximum Value of N3101
SET GCELLSTANDARDOPTPARA
Maximum Value of N3103
SET GCELLSTANDARDOPTPARA
Maximum Value of N3105
SET GCELLSTANDARDOPTPARA
N200 of Establish
SET GCELLCCTMR
MML_COMMAND
Cell
N200FFULL
N200 of FACCH/Full Rate
SET GCELLCCTMR
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Cell
N200FHALF
N200REL
N200SACCH
N200SDCCH
TIQUEUINGTIMER
T200FACCHF
T200FACCHH
T200SACCHS
T200SACCT0
T200SACCH3
T200SDCCH
T200SDCCH3
INTRABSCCODECHOCMDTIMER
ESTABINDTIMER
INTRABSCHOTIMER
INTRACELLHOTIMER
ASSTIMER
WAITFORRELIND
WAITFORRELINDAMRHR
DELAYSENDRFCHREL
T3115
INBSCHOTIMER
IMMREJWAITINDTIMER
T3168
T3192
N200 of FACCH/Half Rate
N200 of Release
N200 of SACCH
N200 of SDCCH
T11
T200 FACCH/F
T200 FACCH/H
T200 SACCH SDCCH
T200 SACCH TCH SAPI0
T200 SACCH TCH SAPI3
T200 SDCCH
T200 SDCCH SAPI3
T25
T3101
T3103A
T3103C
T3107
T3109
T3109 for AMR HR
T3111
T3115
T3121
T3122
T3168
T3192
SET GCELLCCTMR
SET GCELLCCTMR
SET GCELLCCTMR
SET GCELLCCTMR
SET GCELLTMR
SET GCELLCCTMR
SET GCELLCCTMR
SET GCELLCCTMR
SET GCELLCCTMR
SET GCELLCCTMR
SET GCELLCCTMR
SET GCELLCCTMR
SET GCELLTMR
SET GCELLTMR
SET GCELLTMR
SET GCELLTMR
SET GCELLTMR
SET GCELLTMR
SET GCELLTMR
SET GCELLTMR
SET GCELLGSMR
SET GCELLTMR
SET GCELLTMR
SET GCELLPSBASE
SET GCELLPSBASE
Cell
Cell
Cell
T3212
OUTBSCHOCMDTIMER
OUTBSCHOCLEARTIMER
T3212
T7
T8
SET GCELLIDLEBASIC
SET GCELLTMR
SET GCELLTMR
Cell
Cell
Cell
Cell
Cell
Cell
ULDATAFWDTMR
WAITRESVCHANREFRESHTIMER
MSIPFAILINDDELAY
IMMASSRESENDEN
N200PARASWITCH
WAITFORRELINDAMRFR
Timer for UL Data Forward
SET GCELLTMR
Timer of Reserved TCH for EMC SET GCELLTMR
TREESTABLISH
SET GCELLTMR
Use IMM ASS Retransmit ParameterSET GCELLCCTMR
Use LAPDm N200
SET GCELLCCTMR
Wait for REL Indication AMR FR
SET GCELLTMR
DESCRIPTION
Timer for the BSC6900 waiting for a CC message after sending a CR message. If the timer expires, the seized SDCCH is relea
Length of the timer that is started to wait for a channel requested by an incoming BSC handover request message.When the MS
Maximum time delay in resending an immediate assignment message. Within the period specified by this parameter, an immed
Maximum number of retransmissions of an immediate assignment message. When the value of this parameter is reached, the i
Maximum value of the N3101 counter. In the dynamic uplink allocation mode, the network side enables multiple MSs to share th
Maximum value of the N3101 counter. When the uplink transmission ends, if the network side receives the last RLC data block,
Maximum value of the N3105 counter. After the downlink TBF is set up successfully, the N3105 is started on the network side. A
Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I f
errors in an I frame, the BTS should resend the I frame. This parameter indicates the maximum number of
retransmissions
of the I frame
on Ithe
FACCH
a full-rate
channel.
Error
control is performed
on the
frame
sent over
the LAPDm
layer between the BTS and MS. If the MS detects
errors in an I frame, the BTS should resend the I frame. This parameter indicates the maximum number of
retransmissions of the I frame on the FACCH a half-rate channel.
Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I f
Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I f
Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I f
This parameter indicates the queue timer for assignment.When the BSC6900 receives an assignment request and no channel i
This parameter specifies the expiry value of timer T200 used for the FACCH/TCHF over the Um interface. For the function of tim
This parameter specifies the expiry value of timer T200 used for the FACCH/TCHH over the Um interface. For the function of tim
This parameter specifies the expiry value of timer T200 used for the SACCH on the SDCCH.For the function of timer T200 and
This parameter specifies the expiry value of timer T200 used for the SACCH over the Um interface when the TCH supports SAP
This parameter specifies the expiry value of timer T200 used for the SACCH over the Um interface when the TCH supports SAP
This parameter specifies the timeout value of timer T200 used for the SDCCH over the Um interface.T200 prevents the data link
This parameter specifies the expiry value of timer T200 when the SDCCH supports SAPI3 services.For the function of timer T20
The timer is used to set the time when the BSC6900 waits for an Internal Handover Command message after a Internal Handov
Timer for the BSC waiting for an Establish Indication message after sending an Immediate Assignment message. If T3101 expir
Timer started after the BSC6900 delivers a handover command in an intra-BSC inter-cell handover. If the BSC6900 receives a h
Timer started after the BSC6900 delivers a handover command in an intra-BSC intra-cell handover. If the BSC6900 receives a h
After the BSC6900 delivers an assignment command, the T3107 timer starts. If the BSC6900 receives an assignment complete
This timer is used to set the time of waiting for a ReleaseIndication message after a ChannelRelease message is sent. If the tim
When the BSC sends a ChannelRelease message and the current call uses the AMRHR encoding mode, the timer T3109 AMR
Timer for delaying a connection release. This parameter is used for delaying the channel deactivation after the active signaling l
Timer for retransmitting the VGCS UPLINK GRANT message
Timer for the BSC6900 waiting for a handover complete message after sending a handover request acknowledgment message
Timer carried by the Wait Indication information element when the BSC6900 sends an immediate assignment reject message to
T3168 is used to set the maximum duration for the MS to wait for the uplink assignment message. After the MS originates the u
Duration of releasing the TBF after the MS receives the last data block. When the MS receives the RLC data block containing th
This parameter specifies the length of the timer for periodic location update.
The timer is used to set the time when the BSC6900 waits for an HO REQ ACK message after a Handover Request message is
The timer is used to set the time when the BSC6900 waits for a handover success message after a handover command is sent
Duration for uplink data transmission on the original channel if the TC resources are changed before and after the handover
The TCHs reserved for the emergency call are assigned to the user during the service assignment. If the TCHs are not assigne
Call reestablishment timer
Whether the BSC6900 sends immediate assignment retransmission parameters to the BTS
Whether the BSC6900 sends the LAPDm N200 parameter to the BTS. If this parameter is set to YES, the BSC sends the LAPD
When the BSC6900 sends a ChannelRelease message and the current call uses the AMRFR encoding mode, the timer T3109
FEATURE_NAME
GUI_VALUE_RANGE
ACTUAL_VALUE_RANGE
UNIT
A Interface Protocol Process
HUAWEI I HandoverHUAWEI II Handover
Assignment and Immediate Assignment
Assignment and Immediate Assignment
GPRS
GPRS
GPRS
Radio Link Management
1000~30000
1~30
0~254
1~5
8~30
2~5
3~10
5~254
1000~30000
1~30
0~254
1~5
8~30
2~5
3~10
5~254
ms
s
ms
None
None
None
None
None
Radio Link Management
34~254
34~254
None
Radio Link Management
Radio Link Management
Radio Link Management
Radio Link Management
Enhanced Channel Assignment Algorithm
Radio Link Management
Radio Link Management
Radio Link Management
Radio Link Management
Radio Link Management
Radio Link Management
Radio Link Management
HUAWEI I Handover
Assignment and Immediate Assignment
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
Assignment and Immediate Assignment
Radio Dedicated Channel Management
AMR HR
Radio Dedicated Channel Management
Public Voice Broadcast Service
HUAWEI I HandoverHUAWEI II Handover
Assignment and Immediate Assignment
GPRS
GPRS
29~254
29~254
None
5~254
5~254
None
5~254
5~254
None
23~254
23~254
None
1~30
1~30
s
1~255
5~1275, step: 5
ms
1~255
5~1275, step: 5
ms
1~255
10~2550, step: 10
ms
1~255
10~2550, step: 10
ms
1~255
10~2550, step: 10
ms
1~255
5~1275, step: 5
ms
1~255
5~1275, step: 5
ms
500~60000
500~60000
ms
500~60000
500~60000
ms
500~60000
500~60000
ms
500~60000
500~60000
ms
500~60000
500~60000
ms
4000~33000
4000~33000
ms
3000~34000
3000~34000
ms
500~60000
500~60000
ms
1~255
1~255
s
500~60000
500~60000
ms
0~255
0~255
s
500ms500ms0ms1000ms,
500ms,
1500ms1500ms,
1000ms, 1500ms,
2000ms2000ms,
2000ms,
ms
2500ms,
2500ms2500ms,
3000ms, 33
0ms0ms0ms1000ms, 1500ms1500ms
0ms, 80ms, 120ms, 160ms, 200ms,
ms
500ms, 1000ms, 15
Location Updating
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
0~255
500~60000
500~60000
0~1530, step: 6
500~60000
500~60000
min
ms
ms
O&M of BSC
Emergency Call Service TS12
Call Reestablishment
Assignment and Immediate Assignment
Radio Link Management
AMR FR
0~240
1~30
5000~40000
NONo, YESYes
OFFOff, ONOn
3000~34000
0~240
1~30
5000~40000
NO, YES
OFF, ON
3000~34000
ms
s
ms
None
None
ms
DEFAULT_VALUE
5000
8
4
2
20
3
10
5
34
29
5
5
23
8
50
50
60
150
200
60
60
None
3000
10000
10000
10000
27000
26000
1000
10
10000
10
500ms
500ms
20
10000
10000
180
15
15000
NO
OFF
34000
RECOMMENDED_VALUE
5000
8
4
2
20
3
10
5
34
29
5
5
23
8
50
50
60
150
200
60
60
None
3000
10000
10000
10000
27000
26000
1000
10
10000
10
500ms
500ms
20
10000
10000
In Abis over TDM transmission, the recommended value is 180; in Abis over IP transmission, the recommended value is 200.
15
15000
NO
OFF
34000
PARAMETER_RELATIONSHIP
None
None
None
None
None
None
None
N200ESTAB must be set when "N200PARASWITCH" is set to YES.
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
CAUTION
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
It is recommended that you select a greater value, such as 16, 20, or 25, in the area with heavy traffic,
None
but a smaller value, such as 2 or 3, in the area with light traffic.
To properly specify the value of this parameter, it is necessary to perform overall and long-term measurement on
the entities involved regarding their processing capability and traffic, such as the processing capability of the MSC
and BSC, and the load on the A interface, Abis interface, Um interface, HLR, and VLR.
The location update period in the MSC must be greater than that in the BSC.
In the GSM system, it is possible that a powered-on MS is identified as implicit off-line if the MS sends no location
update request within a long period.
When the MS reselects another cell in the same LAC, the MS is restarted through T3212 timeout if the T3212 of
the new cell differs from that of the original cell.
If this parameter is set to a greater value, too many channel resources are occupied and the congestion occurs.If this parameter
If this parameter is set to a greater value, too many channel resources are occupied and the congestion occurs.If this parameter
None
If the timer is set to a greater value, the time of reserving channel resources for an emergency call is long. In this case, the chan
None
None
None
None
RADIO_PERFORMACE_IMPACT
If this timer is set to a greater value, channel resources may be wasted, thus causing congestion.
None
If this parameter is set to a greater value, the call-completion rate of MS increases but the BSC6900 load may also increase.If th
If this parameter is set to a greater value, the call-completion rate of MS increases but the BSC6900 load may also increase.If th
None
None
None
None
None
None
None
None
None
None
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fa
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fa
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fa
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fa
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fa
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fa
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fa
None
If this timer is set to a greater value, channel resources may be wasted, thus causing congestion.If this timer is set to a smaller v
If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. If this timer is set to a smaller
If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. If this timer is set to a smaller
If this parameter is set to a higher value, channel resources may be wasted and congestion occurs; if this parameter is set to a l
If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion.
If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion.
If this timer is set to a greater value, channel resources may be wasted, thus causing congestion.
None
If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion. If this parameter is set to
If this parameter is set to a smaller value, the channel load may increase and the access success rate may decrease.
None
None
If this parameter is set to a smaller value, the paging success rate increases but the load on the SDCCH also increases, thus ca
None
None
None
None
If this timer is set to a greater value, the radio resources are occupied for a too long time, thus affecting the channel resource us
If this parameter is set to YES, the call completion rate of the MS increases but the BSC6900 load also increases.
Only the BTS3X in G3BTS32.30000.04.1130 or later and the double-transceiver BTSs support the LAPDm N200 parameter.If th
If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion.
ATTRIBUTE
Equipment
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Equipment
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Equipment
Radio
Radio
Radio
Radio
Radio
GUI
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
VALUE
-63
-62
-61
-60
-59
-58
-57
-56
-55
-54
-53
-52
-51
-50
-49
-48
-47
-46
-45
-44
-43
-42
-41
-40
-39
-38
-37
-36
-35
-34
-33
-32
-31
-30
-29
-28
-27
-26
-25
-24
-23
-22
-21
-20
-19
-18
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
-17
-16
-15
-14
-13
-12
-11
-10
-9
-8
-7
-6
-5
-4
-3
-2
-1
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
MAXPDCHRATE
PDCH2SDEN
RXMIN
To adjust the PDCH conversion threshold in the cell.
Dynamic PDCH Conversion to SDCCH
SDCCH Dynamic Allocation Allowed
Idle TCH Threshold N1
Cell SDCCH Channel Maximum
TCH Minimum Recovery Time
Num of TSs Convertible to SDCCHs per TRX
CS RACH Min. Access Level
PS RACH Min. Access Level
Minimum Access RXLEV
ACTL2REEST
HOPOWERBOOST
Activate L2 Re-establishment
Power Boost before HO Enabled or Not
SDDYN
IDLESDTHRES
CELLMAXSD
MINRESTIMETCH
SDCCHDYNADJTSNUM
RACHACCLEV
PSRACHACCLEV
GCELLBASICPARA
GCELLBASICPARA
GCELLCHMGBASIC
GCELLCHMGBASIC
GCELLCHMGBASIC
GCELLCHMGBASIC
GCELLCCACCESS
GCELLCCACCESS
GCELLBASICPARA
GCELLSOFT
GCELLOTHBASIC
ACCESSIBILITY
L3188C
L3188D
A330
A331
A300A
A300C
A300D
A300E
A300F
A300H
A300I
A300K
L3189I
K3001
K3000
A3030A
A3030B
A3030C
A3030D
A3030E
A3030F
A3030G
A3030H
CR330A
CR330B
CA3030J
CA301J
CA304
K3021
K3011A
K3020
K3010A
K3011B
K3010B
CR331A
CR331B
CA313
CA310
K3015
K3016
K3005
K3006
CR373
CR330C
CR331C
CR332C
MOBILITY RETAINABILITY
CH313
CM33
CH333
K3013A
CH310
K3013B
CH330
K3023
CH311
CM330
CH331
RH3331
CH323
K3012B
CH320
CM33C
CH303
M3100A
CH300
M3100B
CH301
M3100C
CH321
M3101A
CH343
M3101B
CH340
M3101C
CH341
M3101D
H3002
M3101E
H3001
M3102
H3005A
M312
H3005B
M313
CH3036A M314
CH3036B M315
H3029A
M316
H302B
M3200A
H302G
M3200B
H3027Ca M3200C
H3028Ca M3201A
H3025A
M3201B
H3025B
M3201C
H302E
M3201D
H302H
M3201E
H302I
M3202
H3229A
M322
H322D
M323
H322G
M324
H312A
M325
H312B
M3030A
H312G
M3030B
H310A
M3030C
H310B
M3030D
H310C
M3030E
H310D
M3030F
H310E
M3030G
H310F
M3030H
H310G
M3030I
H310H
M3030J
H310I
M3030K
CR333C
CR334C
CR335C
A312Aa
A312Ca
A312Da
A312Ea
A312S
A3129I
A3129J
A3129E
A3129G
A3129H
A312A
A3129C
A3129N
A312F
CA315
K3014
K3034
AR3551C
AR3552C
K3004
S3656
S3655
CM30
K3003
M3000A
M3000B
M3000C
M3001A
M3001B
M3001C
M3001D
M3001E
M3002
M302
M303
M304
M305
M306
CA303J
M3020A
M3020B
M3020C
M3020D
A3129S
H310J
H310L
H3229B
CH3531
H35071
H35081
S4400A
S4401A
S4402A
S4403A
S4404A
S4405A
S4406A
S4407A
S4408A
S4409A
S4410A
S4411A
S4412A
S4413A
S4414A
S4415A
S4416A
S4417A
S4418A
S4419A
S4420A
S4421A
S4422A
S4423A
S4424A
S4425A
S4426A
S4427A
S4428A
S4429A
S4430A
S4432A
S4434A
S4436A
S4438A
S4440A
S4445A
S4450A
S4455A
S4463A
M3128A
AS4347D
S4200A
S4200B
S4200C
S4200D
S4200E
S4207A
S4207B
S4207C
S4207D
S4207E
CS410A
CS411A
CS412A
CS413A
CS414A
CS415A
CS416A
CS417A
CS410B
CS411B
CS412B
CS413B
CS414B
CS415B
CS416B
CS417B
CS410C
CS410D
S4208B
CS411C
CS411D
S4208C
CS412C
CS412D
S4208D
CS413C
CS413D
S4208E
S4208A
CS414C
CS414D
CS415C
CS415D
CS416C
CS416D
CS417C
CS417D
AS4348D
M326
CM3600
CM3601
CM3602
A03701
A03702
P_ACCESSIBILITY
A9502
A9504
A9506
A9508
A9510
A9512
R9204
R9205
AR9311
R9344
A9003
A9004
A9016
A9103
A9104
A9115
A9203
A9204
A9216
A9303
A9304
A9315
A9001
A9201
A9101
A9301
R9206
R9207
AR9303
R9343
A9501
A9503
A9505
A9507
A9509
A9511
P_PERFORMANCE
A9002
A9006
A9007
A9008
A9009
A9010
A9017
A9018
A9102
A9106
A9107
A9108
A9109
A9113
A9116
A9117
A9202
A9206
A9207
A9208
A9209
A9210
A9214
A9217
A9218
A9302
A9306
A9307
A9308
A9309
A9316
A9317
L9006
L9007
L9008
L9009
L9106
L9107
L9108
L9109
L9211
L9212
L9213
L9214
L9215
L9216
A9039
A9040
A9132
A9137
A9138
A9237
A9238
A9335
A9336
AA9114
AA9213
L9217
L9218
L9219
L9311
L9312
L9313
L9314
L9315
L9316
L9317
L9318
L9319
L9202
L9203
L9204
L9205
L9206
L9207
L9208
L9209
L9210
L9302
L9303
L9304
L9305
L9306
L9307
L9308
L9309
L9310
L9002
L9003
L9004
L9005
L9102
L9103
L9104
L9105
L9001
L9101
L9201
L9301