intra interfreq interrat paramters
TRANSCRIPT
List RNC Oriented Intra-frequency Handover Measurement Algorithm Parameters---------------------------------------------------------------------------
1F event absolute EcNo threshold[dB] 1F event absolute RSCP threshold[dBm]
Intra-freq meas L3 filter coeff Intra-freq Measure Quantity
1A event to periodical rpt number 1A event to periodical rpt period[ms] 1C event to periodical rpt number 1C event to periodical rpt period[ms]
1J event to periodical rpt number 1J event to periodical rpt period[ms]
VP service 1A event relative THD[0.5dB] CS non VP service 1A event relative THD[0.5dB]
PS service 1A event relative threshold[0.5dB] VP service 1B event relative THD[0.5dB]
CS non VP service 1B event relative THD[0.5dB] PS service 1B event relative threshold[0.5dB]
1A hysteresis[0.5dB] 1B hysteresis[0.5dB] 1C hysteresis[0.5dB] 1D hysteresis[0.5dB] 1F hysteresis[0.5dB] 1J hysteresis[0.5dB] Weighted factor
1A event trigger delay time[ms] 1B event trigger delay time[ms] 1C event trigger delay time[ms] 1D event trigger delay time[ms] 1F event trigger delay time[ms] 1J event trigger delay time[ms]
Max evaluation period of SHO failure[s] Threshold number of SHO failure Relative threshold of SHO failure[dB]
Period of penalty timer for SHO failure after down rate[s] Min quality THD for SHO[dB] Max number of cell in active set
1F event blind handover trigger condition[dBm] Intrafrequency measurement report interval of blind HO[ms]
Intrafrequency measurement report amount of blind handover
-24 <NULL>
D3 CPICH_EC/NO
D16 D4000
D16 D4000
D64 D1000
6 VP = Video6 CS non VP = AMR voice6 PS = R99, HSPA
12 VP = Video12 CS non VP = AMR voice12 PS = R99, HSPA0088880
D320 D640 D640 D640 D640 D640
6032
30-243
-115 D250
D2
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O&M #4904647%%LST INTERFREQHOCOV:;%%RETCODE = 0 Execution succeeded.
List RNC Oriented Coverage based Inter-frequency Handover Measurement Algorithm Parameters------------------------------------------------------------------------------------------
Inter-frequency measure periodical rpt period[ms] 2B hysteresis[0.5dB]
2B event trigger delay time[ms] Inter-freq CS measure start Ec/No THD[dB] Inter-freq CS measure stop Ec/No THD[dB]
Inter-freq CS measure start RSCP THD[dBm] Inter-freq CS measure stop RSCP THD[dBm]
Inter-freq H measure start Ec/No THD[dB] Inter-freq R99 PS measure start Ec/No THD[dB]
Inter-freq H measure stop Ec/No THD[dB] Inter-freq R99 PS measure stop Ec/No THD[dB] Inter-freq H measure start RSCP THD[dBm]
Inter-freq R99 PS measure start RSCP THD[dBm] Inter-freq H measure stop RSCP THD[dBm]
Inter-freq R99 PS measure stop RSCP THD[dBm] Inter-freq H target frequency trigger Ec/No THD[dB]
Inter-freq R99 PS target frequency trigger Ec/No THD[dB] Inter-freq H target frequency trigger RSCP THD[dBm]
Inter-freq R99 PS target frequency trigger RSCP THD[dBm] Inter-freq H Used frequency trigger Ec/No THD[dB]
Inter-freq R99 PS Used frequency trigger Ec/No THD[dB] Inter-freq H Used frequency trigger RSCP THD[dBm]
Inter-freq R99 PS Used frequency trigger RSCP THD[dBm] 2B event retry max times HHO hysteresis[0.5dB]
2B event retry period[500ms] HHO period trigger delay time[ms]
Inter-frequency measure report mode Inter-frequency measure filter coeff
2D hysteresis[0.5dB] 2F hysteresis[0.5dB]
Weight for Used frequency 2D event trigger delay time[ms] 2F event trigger delay time[ms]
Inter-freq CS target frequency trigger Ec/No THD[dB] Inter-freq CS target frequency trigger RSCP THD[dBm] Inter-freq CS Used frequency trigger Ec/No THD[dB]
Inter-freq CS Used frequency trigger RSCP THD[dBm] Inter-freq measure timer length[s]
Inter-freq coverage handover delay trig time
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D500 <NULL> <NULL> F1 -> F3 F3 ->F1
-11 [-24, 0] -9 -9-8 [-24, 0] -6 -6
-100 [-115, -25] -90 -90-95 [-115, -25] -85 -85-15 [-24, 0] -9 -13-15 [-24, 0] -9 -13-12 [-24, 0] -6 -11-12 [-24, 0] -6 -11
-110 [-115, -25] -90 -105-110 [-115, -25] -90 -105-105 [-115, -25] -85 -100-105 [-115, -25] -85 -100
-12 [-24, 0] -12 -12-12 [-24, 0] -12 -12
-105 [-115, -25] -105 -105-105 -105 -105
-15-15
-110-110
<NULL>0
<NULL>0
Periodical reporting D3
000
D320 D1280
-8 >32 20 -14-85 >30 40 -75-11-9060
0
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O&M #5737787%%LST INTERRATHOCOV:;%%
RETCODE = 0 Execution succeeded.
List RNC Oriented Coverage based Inter-rat Handover Measurement Algorithm Parameters------------------------------------------------------------------------------------
Inter-RAT period report interval[ms] 3A Measure Quantity
Inter-RAT hysteresis[0.5dB] Time to trigger for non-verified GSM cell[ms]
Time to trigger for verified GSM cell[ms] 3A hysteresis[0.5dB]
3A event trigger delay time[ms] Inter-RAT filter coeff
Inter-RAT CS measure start Ec/No THD[dB] Inter-RAT CS measure stop Ec/No THD[dB]
Inter-RAT CS measure start RSCP THD[dBm] Inter-RAT CS measure stop RSCP THD[dBm]
Inter-RAT CS Used frequency trigger Ec/No THD[dB] Inter-RAT CS Used frequency trigger RSCP THD[dBm]
Inter-RAT R99 PS measure start Ec/No THD[dB] Inter-RAT R99 PS measure stop Ec/No THD[dB]
Inter-RAT R99 PS measure start RSCP THD[dBm] Inter-RAT R99 PS measure stop RSCP THD[dBm]
Inter-RAT R99 PS Used frequency trigger Ec/No THD[dB] Inter-RAT R99 PS Used frequency trigger RSCP THD[dBm]
Inter-RAT H measure start Ec/No THD[dB] Inter-RAT H measure stop Ec/No THD[dB]
Inter-RAT H measure start RSCP THD[dBm] Inter-RAT H measure stop RSCP THD[dBm]
Inter-RAT H Used frequency trigger Ec/No THD[dB] Inter-RAT H Used frequency trigger RSCP THD[dBm]
3A event retry max times 3A event retry period[500ms]
Inter-RAT report mode 2D2F filter coeff
Weight for Used frequency 2D hysteresis[0.5dB] 2F hysteresis[0.5dB]
2D event trigger delay time[ms] 2F event trigger delay time[ms]
BSIC verify switch Inter-RAT CS handover decision THD[dBm]
Inter-RAT R99 PS handover decision THD[dBm] Inter-RAT H handover decision THD[dBm]
Inter-RAT measure timer length[s] Inter-RAT PingPong timer[s]
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Inter-RAT PingPong Hyst[0.5dB] Inter-RAT HO physical channel failure THD
Inter-Rat HO physical channel failure penalty timer[s]
fdd_qmin
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RGAZH01
D500 <NULL>
000
<NULL> <NULL>
D3-11
CS
-8-100-95
<NULL> <NULL>
-17
R99
-14-115-110
<NULL> <NULL>
-17
HSPA
-14-115-110
<NULL> <NULL>
<NULL> <NULL>
Periodical reporting D3
000
D320 D1280
Verify mode13 -98dBm13 -98dBm13 -98dBm600
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03
30
-8 ??
Cell Reselection Counter Threshold 9 BE D2F/R Or F/R2P 4B Threshold[byte] D64
BE D2F/R 4B Time[ms] D5000 BE D2F/R 4B Pending Time[ms] D1000
BE F2P 4B Time[ms] D5000 BE F2P 4B Pending Time[ms] D1000 BE F/R2D 4A Threshold[byte] D1024
BE F/R2D 4A Time[ms] D0 BE HS-DSCH2F 4B Threshold[byte] D64
BE HS-DSCH2F 4B Time[ms] D5000 goes to low activity state BE HS-DSCH2F 4B Pending Time[ms] D1000
BE F2HS-DSCH 4A Threshold[byte] D1024 BE F2HS-DSCH 4A Time[ms] D0
RT D/HSPA2F 4B Threshold[byte] D64 RT D/HSPA2F 4B Time[ms] D5000
RT D/HSPA2F 4B Pending Time[ms] D16000 RT F2D/HSPA 4A Threshold[byte] D1024
RT F2D/HSPA 4A Time[ms] D240 E-DCH Throu Meas Period[10ms] 30
E-DCH2F 4B Threshold[kbit/s] 8 E-DCH2F 4B Period Amount 2
E-DCH2F 4B Pending Period Amount 4 BE F2E-DCH 4A Threshold[byte] D1024
BE F2E-DCH 4A Time[ms] D0 BE F2CPC_HS-DSCH 4A Threshold[byte] D1024
BE F2CPC_HS-DSCH 4A Time[ms] D0 RT F2CPC_HSPA 4A Threshold[byte] D1024
RT F2CPC_HSPA 4A Time[ms] D0 BE F2CPC_E-DCH 4A Threshold[byte] D1024 BE FACH2CPC_E-DCH 4A Time[ms] D0
BE E_FACH2D 4A Threshold[byte] D1024 BE E_FACH2D 4A Time[ms] D0
BE E_FACH2HS-DSCH 4A Threshold[byte] D1024 BE E_FACH2HS-DSCH 4A Time[ms] D0
RT E_FACH2D/HSPA 4A Threshold[byte] D1024 RT E_FACH2D/HSPA 4A Time[ms] D0 BE E_FACH2CPC 4A Threshold[byte] D1024
BE E_FACH2CPC 4A Time[ms] D0RT E_FACH2CPC_HSPA 4A Threshold[byte] D1024
RT E_FACH2CPC_HSPA 4A Time[ms] D0(Number of results 1)
--------------- Cell Reselection Timer[s] 180 BE FACH to PCH Transition Timer[s] 65535 cell PCH disable BE DCH to FACH Transition Timer[s] 5 BE HS-DSCH to FACH Transition Timer[s] 5 from low activity state in HS-DSCH to FACH Realtime DCH or HSPA To FACH Transition Timer[s] 180 BE E-DCH To FACH State Transition Timer[s] 5 BE CPC to FACH Transition Timer[s] 5 Realtime CPC to FACH Transition Timer[s] 180
goes to low activity state BE DCH to E_FACH Transition Timer[s] 5 BE HSPA to E_FACH Transition Timer[s] 5Realtime DCH or HSPA to E_FACH Transition Timer[s] 180 BE CPC to E_FACH Transition Timer[s] 5 Realtime CPC to E_FACH Transition Timer[s] 180
List PS User Inactive Detecting Timer-------------------------------------Conversational service T1 20Conversational service T2 20 Streaming service T1 20 Streaming service T2 20 Interactive service T1 20 Interactive service T2 20 Background service T1 20 When detecting that the Ps' Background User had no data to transfer for a long time which longer than this timer, the PDCP layer would request the RRC layer to release this Radio Access Bear Background service T2 20 IMS signal T1 20 IMS signal T2 20
cell PCH disable
from low activity state in HS-DSCH to FACH
When detecting that the Ps' Background User had no data to transfer for a long time which longer than this timer, the PDCP layer would request the RRC layer to release this Radio Access Bear
When detecting that the Ps' Background User had no data to transfer for a long time which longer than this timer, the PDCP layer would request the RRC layer to release this Radio Access Bear
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Parameter Min Max
Inter-RAT measurement quantity
CS
2D Ec/No CS threshold -24db 0db
2D RSCP CS threshold -115dBm 25dBm
2F Ec/No CS threshold -24db 0db
2F RSCP CS threshold -115dBm 25dBm
CS HO UMTS threshold For RSCP -115dBm 25dBm
CS HO UMTS threshold For Ec/No -24db 0db
CS HO UMTS threshold For GSM 0(-110dbm) 63(-48dbm)
PS R99
2D Ec/No R99 PS threshold -24db 0db
2D RSCP R99 PS threshold -115dBm 25dBm
2F Ec/No R99 PS threshold -24db 0db
2F RSCP R99 PS threshold -115dBm 25dBm
PS R99 UMTS HO threshold For RSCP -115dBm 25dBm
PS R99 UMTS HO threshold For Ec/No -24db 0db
PS R99 UMTS HO threshold For GSM 0(-110dbm) 63(-48dbm)
HSPA
2D Ec/No H threshold -24db 0db
2D RSCP H threshold -115dBm 25dBm
2F Ec/No H threshold -24db 0db
2F RSCP H threshold -115dBm 25dBm
H HO UMTS threshold For RSCP -115dBm 25dBm
H HO UMTS threshold For Ec/No -24db 0db
H HO UMTS threshold For GSM 0(-110dbm) 63(-48dbm)2D Hysteresis 0(0db) 29(14.5db)
2D Trigger time D0(0ms) D5000(5000ms)2F Hysteresis 0(0db) 29(14.5db)
CPICH_Ec/No,CPICH_RSCP,Au
to
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2F Trigger time D0(0ms) D5000(5000ms)HO Hysteresis 0(0db) 15(7.5db)
HO Trigger time D0(0ms) D5000(5000ms)
Ssearch RAT -32 20
Treselections 0 31
Qqualmin -24 0
Qrxlevmin -58 -13
Maxallowedultxpower -50 33
Idleqhyst1s 0 20
Idleqhyst2s 0 20
idleqoffset1sn -50 50
idleqoffset2sn -50 50
fdd_qoffset 0 15fdd_qmin 0 7qsearch_i 0 15qsearch_c 0 15qsearch_p 0 15
Cellreseleltion
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Typical settings Easy / Fast Hard / Slow
AUTO
-14db -14db -15db
-100db -95db -100db
-12db -12db -13db
-97db -92db -97db
-97db -92db -97db
-12db -12db -13db
16(-95dbm) 21(-90dbm) 16(-95dbm)
-15db -14db -15db
-110db -105db -110db
-13db -12db -13db
-107db -102db -107db
-107db -102db -107db
-13db -12db -13db
16(-95dbm) 21(-90dbm) 16(-95dbm)
-15db -14db -15db
-110db -105db -110db
-13db -12db -13db
-107db -102db -107db
-107db -102db -107db
-13db -12db -13db
16(-95dbm) 21(-90dbm) 16(-95dbm)4(2db) 2(1db) 6(3db)
D320(320ms) D320(320ms) D640(640ms)4(2db) 2(1db) 6(3db)
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D1280(1280ms) D640(640ms) D1280(1280ms)0(0db) 0(0db) 2(1db)
D0(0ms) D0(0ms) D10(10ms)
2(-14db) 3(-14db) 2(-14db)
1(s) 0(s) 2(s)
-18(db)
-58
24(db)
2
2
0(db)
0(db)
0:Always 8(0 dB) 9(+4dB)3(-8dB) 5(-10dB) 3(-8dB)
7 (Always Search)15 (never)
7 (Always Search)
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Value definition
The larger the value of this parameter, the less the ping-pong effect and the fewer the decision mistakes
The larger the value of this parameter, the less the ping-pong effect and the fewer the decision mistakes
The RNC sends the signaling to activate compressed mode and start inter-RAT measurement, if the UE reports the event 2D when the measured value is smaller than the value of this parameter.The RNC sends the signaling to activate compressed mode and start inter-RAT measurement, if the UE reports the event 2D when the measured value is smaller than the value of this parameter.The RNC sends the signaling to activate compressed mode and stop inter-RAT measurement, if the UE reports the event 2F when the measured value is larger than the value of this parameter.The RNC sends the signaling to activate compressed mode and stop inter-RAT measurement, if the UE reports the event 2F when the measured value is larger than the value of this parameter.When the quality of the currently used UTRAN frequency is below this threshold and the [Inter-RAT handover decision THD] is reachedWhen the quality of the currently used UTRAN frequency is below this threshold and the [Inter-RAT handover decision THD] is reachedPhysical value range: -110~-48 (The value 1 corresponds to the physical value -110, 2 to -109, ..., 63 to -48.)the value 0 means the physical value is smaller than -110 dBm.The RNC sends the signaling to activate compressed mode and start inter-RAT measurement, if the UE reports the event 2D when the measured value is smaller than the value of this parameter.The RNC sends the signaling to activate compressed mode and start inter-RAT measurement, if the UE reports the event 2D when the measured value is smaller than the value of this parameter.The RNC sends the signaling to activate compressed mode and stop inter-RAT measurement, if the UE reports the event 2F when the measured value is larger than the value of this parameter.The RNC sends the signaling to activate compressed mode and stop inter-RAT measurement, if the UE reports the event 2F when the measured value is larger than the value of this parameter.When the quality of the currently used UTRAN frequency is below this threshold and the [Inter-RAT handover decision THD] is reachedWhen the quality of the currently used UTRAN frequency is below this threshold and the [Inter-RAT handover decision THD] is reachedPhysical value range: -110~-48 (The value 1 corresponds to the physical value -110, 2 to -109, ..., 63 to -48.)the value 0 means the physical value is smaller than -110 dBm.The RNC sends the signaling to activate compressed mode and start inter-RAT measurement, if the UE reports the event 2D when the measured value is smaller than the value of this parameter.The RNC sends the signaling to activate compressed mode and start inter-RAT measurement, if the UE reports the event 2D when the measured value is smaller than the value of this parameter.The RNC sends the signaling to activate compressed mode and stop inter-RAT measurement, if the UE reports the event 2F when the measured value is larger than the value of this parameter.The RNC sends the signaling to activate compressed mode and stop inter-RAT measurement, if the UE reports the event 2F when the measured value is larger than the value of this parameter.When the quality of the currently used UTRAN frequency is below this threshold and the [Inter-RAT handover decision THD] is reachedWhen the quality of the currently used UTRAN frequency is below this threshold and the [Inter-RAT handover decision THD] is reachedPhysical value range: -110~-48 (The value 1 corresponds to the physical value -110, 2 to -109, ..., 63 to -48.)the value 0 means the physical value is smaller than -110 dBm.
alue range: D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000 Physical value range: 0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000( ms)
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This parameter decides whether to trigger inter-RAT handovers.
Trigger time for inter RAT cell reseletion
Value range: -58~-13 Physical value range: -115~-25; step: 2 (-58:-115; -57:-113; ...; -13:-25 ) Physical unit: dBm Content: The minimum required RX threshold corresponding to CPICH RSCP. The UE can camp on the cell only when the measured CPICH RSCP is greater than the value of this parameter. The setting of Qrxlevmin should be related to Qqualmin. The higher the parameter is, the more difficult it is for the UE to reside in the cell. The lower parameter is, the easier it is for the UE to reside in the cell, but it is possible that the UE cannot receive the system messages that are sent through the PCCPCH. For detailed information, refer to 3GPP TS 25.304. Recommended value: -58
Value range: -50~33 Physical unit: dBm Content: The maximum allowed uplink transmit power of a UE in the cell, which is related to the network planning. For detailed information, refer to 3GPP TS 25.304. Recommended value: 24
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
Offset of cell CPICH RSCP measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value of the parameter, the higher the probability of doing so. Recommended value (default value): 0
Offset of cell CPICH Ec/No measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for Ec/No measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so. Recommended value (default value): 0
0:Always if acceptable1:-28dB 2:-24dB 3:-20dB 4:-16dB…15:28dB0:-20dB, 1:-6dB, 2:-18, 3:-8dB, 4:-16dB, 5:-10dB, 6:-14dB, 7:-12dBsearch below 0 : -98dBm/ 1: -94 /2: -90/ …5:-78/ 6: -74 / 7: Always search below 0 : -98dBm/ 1: -94 /2: -90/ …5:-78/ 6: -74 / 7: Always
alue range: D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000 Physical value range: 0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000( ms)
alue range: D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000 Physical value range: 0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000( ms) A threshold for inter-RAT cell reselection. When the quality (CPICH Ec/No measured by UE) of the serving cell is lower than this threshold plus the [Qqualmin] of the cell, the inter-RAT cell reselection procedure will be startedThe minimum required quality threshold corresponding to CPICH Ec/No. The UE can camp on the cell only when the measured CPICH Ec/No is greater than the value of this parameter. The higher the parameter value is, the more difficult it is for the UE to reside in the cell. The lower parameter value is, the easier it is for the UE to reside in the cell, but it is possible that the UE cannot receive the system messages that are sent through the PCCPCH. For detailed information, refer to the 3GPP TS 25.304.
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Value range: -58~-13 Physical value range: -115~-25; step: 2 (-58:-115; -57:-113; ...; -13:-25 ) Physical unit: dBm Content: The minimum required RX threshold corresponding to CPICH RSCP. The UE can camp on the cell only when the measured CPICH RSCP is greater than the value of this parameter. The setting of Qrxlevmin should be related to Qqualmin. The higher the parameter is, the more difficult it is for the UE to reside in the cell. The lower parameter is, the easier it is for the UE to reside in the cell, but it is possible that the UE cannot receive the system messages that are sent through the PCCPCH. For detailed information, refer to 3GPP TS 25.304. Recommended value: -58
Value range: -50~33 Physical unit: dBm Content: The maximum allowed uplink transmit power of a UE in the cell, which is related to the network planning. For detailed information, refer to 3GPP TS 25.304. Recommended value: 24
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
Offset of cell CPICH RSCP measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value of the parameter, the higher the probability of doing so. Recommended value (default value): 0
Offset of cell CPICH Ec/No measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for Ec/No measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so. Recommended value (default value): 0
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04/19/2023 HUAWEI Confidential Page21of84
Value range: -58~-13 Physical value range: -115~-25; step: 2 (-58:-115; -57:-113; ...; -13:-25 ) Physical unit: dBm Content: The minimum required RX threshold corresponding to CPICH RSCP. The UE can camp on the cell only when the measured CPICH RSCP is greater than the value of this parameter. The setting of Qrxlevmin should be related to Qqualmin. The higher the parameter is, the more difficult it is for the UE to reside in the cell. The lower parameter is, the easier it is for the UE to reside in the cell, but it is possible that the UE cannot receive the system messages that are sent through the PCCPCH. For detailed information, refer to 3GPP TS 25.304. Recommended value: -58
Value range: -50~33 Physical unit: dBm Content: The maximum allowed uplink transmit power of a UE in the cell, which is related to the network planning. For detailed information, refer to 3GPP TS 25.304. Recommended value: 24
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
Offset of cell CPICH RSCP measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value of the parameter, the higher the probability of doing so. Recommended value (default value): 0
Offset of cell CPICH Ec/No measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for Ec/No measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so. Recommended value (default value): 0
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04/19/2023 HUAWEI Confidential Page22of84
Value range: -58~-13 Physical value range: -115~-25; step: 2 (-58:-115; -57:-113; ...; -13:-25 ) Physical unit: dBm Content: The minimum required RX threshold corresponding to CPICH RSCP. The UE can camp on the cell only when the measured CPICH RSCP is greater than the value of this parameter. The setting of Qrxlevmin should be related to Qqualmin. The higher the parameter is, the more difficult it is for the UE to reside in the cell. The lower parameter is, the easier it is for the UE to reside in the cell, but it is possible that the UE cannot receive the system messages that are sent through the PCCPCH. For detailed information, refer to 3GPP TS 25.304. Recommended value: -58
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
Offset of cell CPICH RSCP measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value of the parameter, the higher the probability of doing so. Recommended value (default value): 0
Offset of cell CPICH Ec/No measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for Ec/No measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so. Recommended value (default value): 0
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04/19/2023 HUAWEI Confidential Page23of84
Value range: -58~-13 Physical value range: -115~-25; step: 2 (-58:-115; -57:-113; ...; -13:-25 ) Physical unit: dBm Content: The minimum required RX threshold corresponding to CPICH RSCP. The UE can camp on the cell only when the measured CPICH RSCP is greater than the value of this parameter. The setting of Qrxlevmin should be related to Qqualmin. The higher the parameter is, the more difficult it is for the UE to reside in the cell. The lower parameter is, the easier it is for the UE to reside in the cell, but it is possible that the UE cannot receive the system messages that are sent through the PCCPCH. For detailed information, refer to 3GPP TS 25.304. Recommended value: -58
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
Offset of cell CPICH RSCP measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value of the parameter, the higher the probability of doing so. Recommended value (default value): 0
Offset of cell CPICH Ec/No measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for Ec/No measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so. Recommended value (default value): 0
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04/19/2023 HUAWEI Confidential Page24of84
Value range: -58~-13 Physical value range: -115~-25; step: 2 (-58:-115; -57:-113; ...; -13:-25 ) Physical unit: dBm Content: The minimum required RX threshold corresponding to CPICH RSCP. The UE can camp on the cell only when the measured CPICH RSCP is greater than the value of this parameter. The setting of Qrxlevmin should be related to Qqualmin. The higher the parameter is, the more difficult it is for the UE to reside in the cell. The lower parameter is, the easier it is for the UE to reside in the cell, but it is possible that the UE cannot receive the system messages that are sent through the PCCPCH. For detailed information, refer to 3GPP TS 25.304. Recommended value: -58
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
Offset of cell CPICH RSCP measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value of the parameter, the higher the probability of doing so. Recommended value (default value): 0
Offset of cell CPICH Ec/No measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for Ec/No measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so. Recommended value (default value): 0
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04/19/2023 HUAWEI Confidential Page25of84
Value range: -58~-13 Physical value range: -115~-25; step: 2 (-58:-115; -57:-113; ...; -13:-25 ) Physical unit: dBm Content: The minimum required RX threshold corresponding to CPICH RSCP. The UE can camp on the cell only when the measured CPICH RSCP is greater than the value of this parameter. The setting of Qrxlevmin should be related to Qqualmin. The higher the parameter is, the more difficult it is for the UE to reside in the cell. The lower parameter is, the easier it is for the UE to reside in the cell, but it is possible that the UE cannot receive the system messages that are sent through the PCCPCH. For detailed information, refer to 3GPP TS 25.304. Recommended value: -58
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
Offset of cell CPICH RSCP measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value of the parameter, the higher the probability of doing so. Recommended value (default value): 0
Offset of cell CPICH Ec/No measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for Ec/No measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so. Recommended value (default value): 0
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Value range: -58~-13 Physical value range: -115~-25; step: 2 (-58:-115; -57:-113; ...; -13:-25 ) Physical unit: dBm Content: The minimum required RX threshold corresponding to CPICH RSCP. The UE can camp on the cell only when the measured CPICH RSCP is greater than the value of this parameter. The setting of Qrxlevmin should be related to Qqualmin. The higher the parameter is, the more difficult it is for the UE to reside in the cell. The lower parameter is, the easier it is for the UE to reside in the cell, but it is possible that the UE cannot receive the system messages that are sent through the PCCPCH. For detailed information, refer to 3GPP TS 25.304. Recommended value: -58
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
Offset of cell CPICH RSCP measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value of the parameter, the higher the probability of doing so. Recommended value (default value): 0
Offset of cell CPICH Ec/No measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for Ec/No measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so. Recommended value (default value): 0
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Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
Offset of cell CPICH RSCP measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value of the parameter, the higher the probability of doing so. Recommended value (default value): 0
Offset of cell CPICH Ec/No measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for Ec/No measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so. Recommended value (default value): 0
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Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
Offset of cell CPICH RSCP measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for RSSI measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value of the parameter, the higher the probability of doing so. Recommended value (default value): 0
Offset of cell CPICH Ec/No measurement value in cell selection or reselection when the UE is in idle mode Value range: -50~50 Content: Physical unit: dB Offset of neighboring cell CPICH measurement value This parameter is used for Ec/No measurement. The offset is subtracted from the neighboring cell measurement value before cell reselection. In cell reselection algorithm, this parameter is used for moving the border of a cell. This parameter can be configured by the network planner according to reality. NOTE: In FDD mode, this parameter is valid only when SIB11 Indicator is set as TRUE. For details, refer to 3GPP TS 25.331. As for the impact on network performance: The larger the value of the parameter, the lower the probability of selecting neighboring cells. The smaller the value the parameter, the higher the probability of doing so. Recommended value (default value): 0
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Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
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Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
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Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
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Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
document.xls Security Level:
04/19/2023 HUAWEI Confidential Page33of84
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
document.xls Security Level:
04/19/2023 HUAWEI Confidential Page34of84
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
document.xls Security Level:
04/19/2023 HUAWEI Confidential Page35of84
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
document.xls Security Level:
04/19/2023 HUAWEI Confidential Page36of84
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
document.xls Security Level:
04/19/2023 HUAWEI Confidential Page37of84
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
document.xls Security Level:
04/19/2023 HUAWEI Confidential Page38of84
Value range: 0~20 Physical value range: 0~40; step: 2 Physical unit: dB Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH RSCP. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: 2
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
document.xls Security Level:
04/19/2023 HUAWEI Confidential Page39of84
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
document.xls Security Level:
04/19/2023 HUAWEI Confidential Page40of84
Value range: {{0~20},{255}} Physical value range: 0~40; step: 2 Physical unit: dB. Content: The hysteresis value of the serving FDD cells in idle mode in case the quality measurement for cell selection and reselection is set to CPICH Ec/No. It is related to the slow fading feature of the area where the cell is located. The greater the slow fading variance is, the greater this parameter. It is optional. If it is not configured, [Hysteresis 1] will be adopted as the value. This parameter is not configured when its value is 255. According to the R regulation, the current serving cell involves in cell selection after the measurement value is added with the hysteresis value. The measurement hysteresis aims to prevent the ping-pong effect of the cell reselection, which is caused by the slow fading when the UE is on the edge of the cell. The ping-pong effect may trigger frequent location updates (idle mode), URA updates (URA_PCH), or cell updates (CELL_FACH, CELL_PCH), and thus increase the load of network signaling and the consumption of UE batteries. Set a proper measurement hysteresis to reduce as much as possible effect of the slow fading as well as ensuring timely cell updates of the UE. According to the CPICH RSCP emulation report of inter-frequency hard handovers, the measurement hysteresis ranges 4 dBm to 5 dBm and is set to 4 dBm by default when the slow fading variance is 8 dB and the relative distance is 20 m. In the cells where the slow fading variance is low and the average moving speed of UEs is high, for example the suburbs and countryside, reduce the measurement hysteresis to guarantee timely location updates of UEs. The higher the measurement hysteresis is, the less likely it is for various types of cell reselections to occur, and the better the slow fading resistance capability is, but the slower the system reacts to the environment changes. For detailed information of this parameter, refer to 3GPP TS 25.304. Recommended value: the same as Qhyst1s for idle mode
List Cell Selection And Reselection Information----------------------------------------------- Hysteresis 2 for idle mode[2dB] Hysteresis 2 for connect mode[2dB] Non-HCS indicator Non-HCS max TCR[s] Non-HCS NCR Non-HCS TCR max hysteresis[s] Delta Min Rx level Cell Sel-reselection quality measure Hysteresis 1 for idle mode[2dB] Hysteresis 1 for connect mode[2dB] Reselection delay time[s] Min quality level[dB] Min Rx level[2dBm] Min Rx level Extend Support Max allowed UE UL TX power[dBm] Intra-freq cell reselection threshold for idle mode[2dB] Inter-freq cell reselection threshold for idle mode[2dB] Intra-freq cell reselection threshold for connect mode[2dB] Inter-freq cell reselection threshold for connect mode[2dB] Inter-RAT cell reselection threshold[2dB] Speed dependent scaling factor for reselection delay Inter-freqency scaling factor for reselection delay Inter-RAT scaling factor for reselection delay Hysteresis 1 for UE in CELL_PCH or URA_PCH state[dB] Hysteresis 1for UE in CELL_FACH state[dB] Hysteresis 2 for UE in CELL_PCH or URA_PCH state[dB] Hysteresis 2 for UE in CELL_FACH state[dB] Reselection delay time for UE in PCH state[s] Reselection delay time for UE in CELL_FACH state[0.2s]
11
NOT_CONFIGURED <NULL> <NULL> <NULL> <NULL> CPICH Ec/N0
221
-18S -Criteria-58
FALSE24
5 10 dB -84 8 dB -10 55 10 dB -84 8 dB -10 52 4 dB -14
255255255255255255255255255
Set Call Control UTRAN System Message Parameters of Cell(SET GCELLCCUTRANSYS)Parameter ID Parameter Name
IDTYPE Index Type
CELLID Cell Index
CELLNAME Cell Name
MSCVER MSC Version Indication
MEASURETYPE Measurement Report Type
GSMFREQCNUM Serving Band Reporting
QI Qsearch I
QCI Qsearch C Initial
FDDQOFF FDD Q Offset
FDDRSCPMIN FDD RSCP Min.
FDDRSCPMIN FDD RSCP Min.
FDDREP FDD REP QUANT
FDDFREQCNUM FDD Multirate Reporting
FDDQMIN FDD Qmin
FDDQMIN FDD Qmin
FDDQMINOFFSET FDD Qmin Offset
QP Qsearch P
SEARCH3G 3G Search PRIO
INVALBSICEN Invalid BSIC Reporting
INVALBSICEN Invalid BSIC Reporting
SCALEORDER SCALE_ORDER
QSEARCHC Qsearch C
CELL900OFF 900 Reporting Offset
CELL900OFF 900 Reporting Offset
CELL900THRED 900 Reporting Threshold
CELL1800OFF 1800 Reporting Offset
CELL1800THRED 1800 Reporting Threshold
FDDCELLOFF FDD Reporting Offset
FDDCELLOFF FDD Reporting Offset
FDDCELLTHRED FDD Reporting Threshold
TDDCELLRESELDIV TDD Cell Reselect Diversity
BESTTDDCELLNUM Best TDD Cell Number
BESTTDDCELLNUM Best TDD Cell Number
TDDCELLOFF TDD Reporting Offset
TDDCELLTHRED TDD Reporting Threshold
TDDSIOPTIMIZEDALLOWED TDD System Information Optimized Allowed
TDDMIPROHIBIT TDD MI System INFO Broadcasting Prohibit
TDDMIPROHIBIT TDD MI System INFO Broadcasting Prohibit
TDDMIOPTIMIZEDALLOWED TDD MI System Information Optimized
POS2QUATER 2Quater Message Transmission Channel
Set Call Control UTRAN System Message Parameters of Cell(SET GCELLCCUTRANSYS)Parameter Description
Meaning: Type of an indexGUI Value Range: BYNAME(By Name), BYID(By Index)Actual Value Range: BYNAME, BYIDUnit: NoneDefault Value: NoneRecommended Value: NoneMeaning: Index of a cell, uniquely identifying a cell in a BSCGUI Value Range: 0~2047Actual Value Range: 0~2047Unit: NoneDefault Value: NoneRecommended Value: NoneMeaning: Name of a cell, uniquely identifying a cell in a BSCGUI Value Range: NoneActual Value Range: 1~64 charactersUnit: NoneDefault Value: NoneRecommended Value: None
GUI Value Range: R98_or_below(R98 or below), R99_or_above(R99 or above)Actual Value Range: R98_or_below, R99_or_aboveUnit: NoneDefault Value: NoneRecommended Value: R98_or_belowMeaning: Type of the measurement report (MR) reported by the MS
Actual Value Range: EnhMeasReport, ComMeasReportUnit: NoneDefault Value: NoneRecommended Value: ComMeasReport
These neighboring cells must meet the following requirements:
2. The BSIC of a neighboring cell must be valid.
GUI Value Range: 0~3Actual Value Range: 0~3Unit: NoneDefault Value: NoneRecommended Value: 3
Meaning: Protocol version of the MSC that is connected to the BSC. The supported signaling varies with the protocol versions.
GUI Value Range: EnhMeasReport(Enhanced Measurement Report), ComMeasReport(Common Measurement Report)
Meaning: Number of neighboring cells that meet the following conditions: If "MBR" is indicated in a system message, the MS reports the number of neighboring cells at each frequency band. If the MS reports the number of neighboring cells at the same frequency band of the serving cell, it can report a maximum of the value of this parameter.
1. The receive levels of the neighboring cells must be higher than 900 Reporting Threshold or 1800 Reporting Threshold.
3. The signals of the neighboring cells must be the strongest among all the neighboring cells at the same frequency band.
1: -94 dBm 2: -90 dBm3: -86 dBm 4: -82 dBm5: -78 dBm 6: -74 dBm 7: (always), that is, the MS keeps searching for 3G cells 8: -78 dBm
GUI Value Range: 0~15
Unit: NoneDefault Value: NoneRecommended Value: 15
GUI Value Range: Use_Qsearch_I(Use Qsearch_I), Always(Always)Actual Value Range: Use_Qsearch_I, AlwaysUnit: None
Default Value: NoneRecommended Value: Use_Qsearch_IMeaning: This parameter specifies one of the thresholds of the signal level for 3G cell reselection.
3. Receive level of the FDD cell > "RSCP Threshold";If multiple FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level.
See 3GPP TSs 45.008 and 25.304.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.GUI Value Range: 0~15Actual Value Range: Negative infinity, -28~28, step: 4Unit: dBDefault Value: NoneRecommended Value: 8
Meaning: 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
9: -74 dBm 10: -70 dBm 11: -66 dBm 12: -62 dBm 13: -58 dBm 14: -54 dBm 15: Positive infinity(never), that is, the MS does not search for 3G cells
Actual Value Range: -98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, -58, -54, Positive infinity(never)
Meaning: This parameter specifies the threshold of the signal level for cell reselection in connection mode before "Qsearch C" is obtained.
A FDD cell becomes a candidate cell if all the following conditions are met for five consecutive seconds:
1.Receive level of the FDD cell > Average receive level of the current serving cell + FDD Q offset;The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive level of any neighboring 2G cell + FDD Q offset;2. Ec/No of the FDD cell > FDD Qmin - FDD Qmin Offset;
Meaning: Minimum level threshold of UTRAN cell reselection. During the cell reselection decision from a GSM cell to a FDD cell, this parameter is used to calculate the RSCP threshold of the target cell. A FDD cell becomes a candidate cell if all the following conditions are met for five consecutive seconds:
3. Receive level of the FDD cell > "RSCP Threshold";If multiple FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level.
See 3GPP TSs 45.008 and 25.304.The values of this parameter correspond to the following decibel values:0 = -114 dBm,1 = -112 dBm,2 = -110 dBm,...14 = -86 dBm,15 = -84 dBm.GUI Value Range: 0~15Actual Value Range: -114~-84, step: 2Unit: dBmDefault Value: NoneRecommended Value: 6
GUI Value Range: RSCP(RSCP), EcN0(Ec/N0)Actual Value Range: RSCP, EcN0Unit: NoneDefault Value: NoneRecommended Value: RSCPMeaning: Number of UTRAN FDD cells that should be included in measurement report
GUI Value Range: 0~3Actual Value Range: 0~3Unit: NoneDefault Value: NoneRecommended Value: 2Meaning: This parameter specifies one of the parameters for FDD cell reselection.
A FDD cell becomes a candidate cell if all the following conditions are met for five consecutive seconds:
3. Receive level of the FDD cell > "RSCP Threshold";If multiple FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level.
See 3GPP TSs 45.008 and 25.304.The values of this parameter correspond to the following decibel values:0: -20 dB,1: -6 dB,2: -18 dB,
1.Receive level of the FDD cell > Average receive level of the current serving cell + FDD Q offset;
The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive level of any neighboring 2G cell + FDD Q offset;2. Ec/No of the FDD cell > FDD Qmin - FDD Qmin Offset;
Meaning: This parameter specifies whether Ec/No or RSCP is used for the measurement report on a FDD cell. Ec/No stands for the signal-to-noise ratio. RSCP stands for the received signal code power.
1.Receive level of the FDD cell > Average receive level of the current serving cell + FDD Q offset;The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive level of any neighboring 2G cell + FDD Q offset;2. Ec/No of the FDD cell > FDD Qmin - FDD Qmin Offset;
3: -8 dB,4: -16 dB,5: -10 dB,6: -14 dB,7: -12 dB.GUI Value Range: 0~7Actual Value Range: -20, -6, -18, -8, -16, -10, -14, -12Unit: dBDefault Value: NoneRecommended Value: 0Meaning: Offset of the minimum threshold for Ec/No during a FDD cell reselection.
A FDD cell becomes a candidate cell if all the following conditions are met for five consecutive seconds:
3. Receive level of the FDD cell > "RSCP Threshold";If multiple FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level.
See 3GPP TSs 45.008 and 25.304.GUI Value Range: 0~7Actual Value Range: 0~7Unit: dBDefault Value: NoneRecommended Value: 0
GUI Value Range: 0~15
Unit: NoneDefault Value: NoneRecommended Value: 15Meaning: Whether to allow the MS to search for a 3G cell when the BSIC must be decoded
GUI Value Range: NO(No), YES(Yes)Actual Value Range: NO, YESUnit: NoneDefault Value: NoneRecommended Value: YES
1.Receive level of the FDD cell > Average receive level of the current serving cell + FDD Q offset;The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive level of any neighboring 2G cell + FDD Q offset;2. Ec/No of the FDD cell > FDD Qmin - FDD Qmin Offset;
Meaning: This parameter specifies one threshold of the signal level for cell reselection in packet transfer mode. In packet transfer 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 ... 6: -74 dBm 7: (always) 8: -78 dBm 9: -74 dBm ... 14: -54 dBm
Actual Value Range: -98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, -58, -54, Positive infinity(never)
Meaning: Whether a measurement report can contain the information about a cell with an invalid BSIC. The cell with an invalid BSIC is an unconfigured neighboring cell.
GUI Value Range: NO(No), YES(Yes)Actual Value Range: NO, YESUnit: NoneDefault Value: NoneRecommended Value: NO
If the SCALE_Order reported by the MS is 10 dBm, level values 0-63 map with -100 dBm to -37 dBm.
If the SCALE_Order reported by the MS is 0 dBm, level values 0-63 map with -110 dBm to -47 dBm.
GUI Value Range: ADD0dB(+0dB), ADD10dB(+10dB), Automatic(Automatic)Actual Value Range: ADD0dB, ADD10dB, AutomaticUnit: NoneDefault Value: NoneRecommended Value: ADD0dB
1: -94 dBm
...6: -74 dBm7: (always)8: -78 dBm9: -74 dBm...14: -54 dBm15: Positive infinity (never)GUI Value Range: 0~15
Unit: NoneDefault Value: NoneRecommended Value: 15
The values of this parameter correspond to the following decibel values:
0: 0 dB1: 6 dB...7: 42 dBGUI Value Range: 0~7Actual Value Range: 0~42, step: 6
Meaning: This parameter indicates that when the MS reports the EMR, it adds the value of this parameter to the received signal level, and then converts the result into the RXLEV value. For details, see GSM Rec. 05.08.
If the SCALE_Order reported by the MS is Automatic, the MS chooses the least SCALE while ensuring that the MS can report the most strong level.
Meaning: In connection mode, if the signal level 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. 0: -98 dBm
Actual Value Range: -98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, -58, -54, Positive infinity(never)
Meaning: Offset applied to the receive level of a GSM900 cell in the measurement report before prioritizing cells by frequency bands. Before cells are sequenced by priority, according to frequencies, the value of this parameter must be added to the receive level value in the measurement report of the cells at the 900 MHz frequency.
Unit: dBDefault Value: NoneRecommended Value: 0
0: 0 dB
1: 6 dB...6: 36 dB7: positive infinityGUI Value Range: 0~7Actual Value Range: 0~36, Positive infinity, step: 6Unit: dBDefault Value: NoneRecommended Value: 0
The values of this parameter correspond to the following decibel values:
0: 0 dB1: 6 dB...7: 42 dBGUI Value Range: 0~7Actual Value Range: 0~42, step: 6Unit: dBDefault Value: NoneRecommended Value: 0
The values of this parameter correspond to the following decibel values:
0: 0 dB1: 6 dB...6: 36 dB7: positive infinityGUI Value Range: 0~7Actual Value Range: 0~36, Positive infinity, step: 6Unit: dBDefault Value: NoneRecommended Value: 0Meaning: Offset of a FDD cell report.
Meaning: Threshold of the measurement report of the cells at the 900 MHz frequency. The measurement report is valid only when the receive level in the measurement report of the GSM900 cell exceeds this threshold. After being filtered, the measurement report is used for prioritizing the cells. The value 7 means infinite:
Meaning: Offset of the measurement report of the cells at the 1800 MHz frequency. Before cells are sequenced by priority, according to frequencies, the value of this parameter must be added to the receive level value in the measurement report of the cells at the 1800 MHz frequency.
Meaning: Threshold of the measurement report of the cells at the 1800 MHz frequency. When the receive level value in the measurement report of the cells at the 1800 MHz frequency exceeds the value of this parameter, the report takes effect. After being filtered, the measurement report is used for priority sequencing of cells.
The values of this parameter correspond to the following decibel values:0: 0 dB1: 6 dB...7: 42 dBGUI Value Range: 0~7Actual Value Range: 0~42, step: 6Unit: dBDefault Value: NoneRecommended Value: 0Meaning: Threshold of a FDD cell report.
The values of this parameter correspond to the following decibel values:0: 0 dB1: 6 dB...6: 36 dB7: positive infinityGUI Value Range: 0~7Actual Value Range: 0~36, Positive infinity, step: 6Unit: dBDefault Value: NoneRecommended Value: 0
The value of this parameter corresponds to the following decibel value:
0: negative infinity
1: -28 dB2: -24 dB...15: 28 dBGUI Value Range: 0~15Actual Value Range: Negative infinity, -28~28, step: 4Unit: dBDefault Value: NoneRecommended Value: 8Meaning: Number of UTRAN TDD cells that should be included in measurement report
GUI Value Range: 0~3
Actual Value Range: 0~3Unit: None
When the priority of a 3G cell is sequenced, the value of this parameter be added to the receive level of the 3G cell in the measurement report.
When the receive level value in the measurement report of a 3G cell exceeds the value of this parameter, the measurement report takes effect. After the valid measurement report is filtered, the 3G cell joins the cell priority sequence.
Meaning: A TDD cell can become a candidate cell only when the average receive level of the TDD cell is greater than the TDD Cell Reselect Diversity of the serving cell.
Default Value: NoneRecommended Value: 1
The values of this parameter correspond to the following decibel values:
0: 0 dB1: 6 dB...7: 42 dBGUI Value Range: 0~7Actual Value Range: 0~42, step: 6Unit: dBDefault Value: NoneRecommended Value: 0Meaning: Threshold for determining whether the MR about a TDD cell is valid.
The value of this parameter corresponds to the following decibel value:0: 0 dB1: 6 dB...6: 36 dB7: positive infinityGUI Value Range: 0~7Actual Value Range: 0~36, Positive infinity, step: 6Unit: dBDefault Value: NoneRecommended Value: 0
GUI Value Range: NO(No), YES(Yes)
Actual Value Range: NO, YESUnit: NoneDefault Value: NoneRecommended Value: NO
GUI Value Range: NO(No), YES(Yes)Actual Value Range: NO, YESUnit: NoneDefault Value: None
Meaning: When the priority of a TDD cell is ranked, the value of this parameter is added to the receive level of the TDD cell in the measurement report.
The measurement report is valid if the receive level of the TDD cell in the measurement report is greater than the value of this parameter. After the valid measurement report is filtered, the TDD cell joins in the cell prioritization.
Meaning: This parameter specifies whether to optimize the system information 2Quater and MI of the TDD neighboring cell. That is, to add an FDD neighboring cell information before the TDD neighboring cell information to solve the compatibility problem of some dual-mode MSs.
Meaning: This parameter specifies whether to send the system information MI which contains the 3G neighboring cell information in the TDD neighboring cell. The value YES(YES) indicates that the MI is sent, and the value NO(NO) indicates that the MI is not sent.
Recommended Value: NO
GUI Value Range: NO(No), YES(Yes)
Actual Value Range: NO, YESUnit: NoneDefault Value: NoneRecommended Value: NOMeaning: Whether to transmit the 2Quater message on the BCCH Norm channel or the BCCH Ext channel
GUI Value Range: BCCHNorm(BCCHNorm), BCCHExt(BCCHExt)Actual Value Range: BCCHNorm, BCCHExtUnit: NoneDefault Value: NoneRecommended Value: BCCHNorm
Meaning: This parameter specifies whether the TDD MI system information optimized function is enabled. When this parameter is set to NO and TDD System Information Optimized Allowed is set to YES, the MI system information issued in the TDD scenario does not carry neighboring cell scrambling codes. In other scenarios, the MI system information carries neighboring cell scrambling codes.
Add 3G External Cell(ADD GEXT3GCELL)Parameter ID Parameter Name
EXT3GCELLID Cell Index
EXT3GCELLNAME Cell Name
MCC MCC
MNC MNC
LAC Cell LAC
CI Cell CI
RNCID RNC ID
RNCID RNC ID
RNCINDEX Neighboring RNC Index
CELLLAYER Layer of the cell
DF DL UARFCN
SCRAMBLE
DIVERSITY Diversity
UTRANCELLTYPE Utran Cell Type
SYNCCASE Sync case
Scrambling Code or Cell Parameter Id
SYNCCASE Sync case
ECNOTHRES
MINECNOTHRES Min Ec/No threshold
FDDECQUALTHRSH
FDDRSCPQUALTHRSH
TDDRSCPQUALTHRSH
RSCPTHRES
MINRSCPTHRES Min RSCP threshold
Ec/No Threshold for Layer Of 3G Cell
PS FDD Ec/No Quality Threshold
PS FDD RSCP Quality Threshold
PS TDD RSCP Quality Threshold
RSCP Threshold for Layer of 3G Cell
MINRSCPTHRES Min RSCP threshold
LoadHoEnExt3G Load Handover Support
LoadAccThres
OPNAME Operator Name
RA Route Area
Load handover Load Accept Threshold
Add 3G External Cell(ADD GEXT3GCELL)Parameter Description
GUI Value Range: 5048~8047Actual Value Range: 5048~8047Unit: NoneDefault Value: NoneRecommended Value: NoneMeaning: Name of the cell
GUI Value Range: NoneActual Value Range: 1~64 charactersUnit: NoneDefault Value: NoneRecommended Value: None
GUI Value Range: NoneActual Value Range: 3 digitUnit: NoneDefault Value: NoneRecommended Value: None
GUI Value Range: NoneActual Value Range: 2~3 digitUnit: NoneDefault Value: NoneRecommended Value: None
Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.GUI Value Range: 1~65533, 65535Actual Value Range: 1~65533, 65535Unit: NoneDefault Value: NoneRecommended Value: None
Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.GUI Value Range: 0~65535Actual Value Range: 0~65535Unit: NoneDefault Value: NoneRecommended Value: None
GUI Value Range: 0~4095
Meaning: ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC. The cells in the BSC are numbered sequentially.
Meaning: Mobile country code. This parameter identifies the country where a mobile subscriber is located, for example, the Chinese MCC is 460.
Meaning: Mobile network code. This parameter identifies the public land mobile network (PLMN) to which a mobile subscriber belongs.
Meaning: Location area code (LAC). MSs can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate.
Meaning: Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identification.
Meaning: RNC ID of a 3G external cell. The value of this parameter must be consistent with the data configuration at the RNC.
Actual Value Range: 0~4095Unit: NoneDefault Value: NoneRecommended Value: None
GUI Value Range: 0~16, 255Actual Value Range: 0~16, 255Unit: NoneDefault Value: 255Recommended Value: 255
GUI Value Range: 1, 2, 3, 4Actual Value Range: 1, 2, 3, 4Unit: NoneDefault Value: 3Recommended Value: 3Meaning: Downlink frequency of the external 3G cell
GUI Value Range: 0~16383Actual Value Range: 0~16383Unit: NoneDefault Value: NoneRecommended Value: None
GUI Value Range: 0~511Actual Value Range: 0~511Unit: NoneDefault Value: NoneRecommended Value: 0Meaning: Whether to activate transmit diversity on the common channel of a 3G cell
GUI Value Range: NO(No), YES(Yes)Actual Value Range: NO, YESUnit: NoneDefault Value: NoneRecommended Value: None
GUI Value Range: FDD(FDD), TDD(TDD)Actual Value Range: FDD, TDDUnit: NoneDefault Value: NoneRecommended Value: None
Meaning: Internal index of a neighboring RNC. This parameter is set to 255 when the neighboring RNC that serves the 3G external neighbor is not configured. You can use the LST GNRNC command to check whether the neighboring RNC is configured.
Meaning: 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.
Meaning: Scrambling code of a 3G cell. The scrambling code is used to differentiate terminals or cells. It is used after spread spectrum. Therefore, it does not change the bandwidth of signals, but only distinguishes the signals from different sources. Through scrambling, multiple transceivers can use the same codes for spread spectrum. Scrambling is used to distinguish terminals on the uplink and to distinguish cells on the downlink.
Meaning: This parameter specifies the type of a 3G cell. A cell type can be Frequency Division Duplex (FDD) or Time Division Duplex (TDD).
Meaning: Synchronization status. This parameter is used to identify different 3G cells. This parameter should be same with the configuration of 3G cells.
GUI Value Range: SyncCase1(Sync case 1), SyncCase2(Sync case 2)Actual Value Range: SyncCase1, SyncCase2Unit: NoneDefault Value: NoneRecommended Value: None
GUI Value Range: 0~49Actual Value Range: 0~49Unit: dBDefault Value: 30Recommended Value: 30
GUI Value Range: 0~49Actual Value Range: 0~49Unit: dBDefault Value: 10Recommended Value: 10Meaning: Minimum Ec/No of the 3G FDD cell candidate
GUI Value Range: 0~49Actual Value Range: 0~49Unit: dBDefault Value: 10Recommended Value: 10Meaning: Minimum RSCP of the 3G FDD cell candidate
GUI Value Range: 0~63Actual Value Range: 0~63Unit: NoneDefault Value: 10Recommended Value: 10Meaning: Minimum RSCP quality threshold that the TDD 3G candidate cell must reach
GUI Value Range: 0~63Actual Value Range: 0~63Unit: NoneDefault Value: 10Recommended Value: 10
GUI Value Range: 0~63Actual Value Range: 0~63Unit: dBDefault Value: 30Recommended Value: 30
Meaning: 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 neighbor cell is set to the lowest layer (layer 5).
Meaning: Selects 3G candidate cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring cell will be removed from among the 3G candidate cells.
Meaning: This parameter determines the layers of 3G neighboring cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring cell is positioned at the bottom layer, that is, layer 4.
Meaning: Selects 3G candidate cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring cell will be removed from among the 3G candidate cells.
GUI Value Range: 0~63Actual Value Range: 0~63Unit: dBDefault Value: 10Recommended Value: 10
GUI Value Range: NO(No), YES(Yes)Actual Value Range: NO, YESUnit: NoneDefault Value: NORecommended Value: NO
GUI Value Range: 0~100Actual Value Range: 0~100Unit: per centDefault Value: 80Recommended Value: 80Meaning: Name of the operator. This parameter uniquely identifies an operator
GUI Value Range: NoneActual Value Range: 0~255 charactersUnit: NoneDefault Value: NoneRecommended Value: None
GUI Value Range: 0~255Actual Value Range: 0~255Unit: NoneDefault Value: 0Recommended Value: 0
Meaning: Indicates that if a 3G neighboring cell supports load handovers, the BSC adds the load information of the local cells in the signaling procedures related to this neighboring cell.
Meaning: 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 higher load. Otherwise, the cell rejects such users.
Meaning: The NS performs location management based on routing areas during GPRS packet services. Each routing area has a routing area identifier.
Set Calling Process State Protection Timers(SET STATETIMER)Note
The retransmit mechanism will be used if the signaling is sent by adopting RLC UM on Uu interface during channel handover.In this case, the setting of the corresponding waiting response timer for UE does not work.(For example, when the channel change from DCH to FACH or the channel change from FACH to DCH, the timer does not work.)The retransmit timer is 2 seconds. The RB reconfiguration message may retransmit three times when the timer expires.
Parameter
ID Name
RrcUeRspTmr RRC UE response timer
RrcIuRelCmdTmr RRC Iu release command timer
RrcRelRetranTmr RRC release retransmission timer
RrcPaingType1Tmr RRC paging type 1 response timer
RrcInitDtTmr RRC initial DT timer
RrcRlcAckCmpTmr
RbSetupRspTmr Wait RB setup response timer
UeCapEnqRspTmr UE capability enquiry response timer
RRC RLC completion acknowledgement timer
UeCapEnqRspTmr UE capability enquiry response timer
RbRecfgRspTmr Wait RB reconfiguration response timer
RbRelRspTmr Wait RB release response timer
RlSetupRspTmr RL setup response timer
RlRecfgReadyTmr RL reconfiguration timer
RlRelRspTmr RL release timer
RlRstrTmr RL restoration timer
DrlAal2EstIndTmr
DrlRecfgCmitTmr DRL reconfiguration commit timer
DRL AAL2 establishment indication timer
HoCellUpdateRspTmr HO cell update response timer
HoPagingRspTmr HO paging response timer
HoRelocReqTmr HO relocation request timer
HoAsuTmr HO active set update response timer
HoWtTrchRecfgRspTmr
HoPhychRecfgTmr HO PhyCh reconfiguration timer
RelocCmdTmr Relocation Command timer
RelocIuRelCmdTmr Relocation Iu release command timer
RelocDataFwdTmr Relocation data forwarding timer
HO wait timer for TrCH or RB reconfiguration response
RelocDataFwdTmr Relocation data forwarding timer
RelocAnotherTmr Relocation another request timer
RelocCommitTmr Relocation commit timer
RelocMobilConfTmr
RelocPhychRecfgTmr Relocation PhyCh reconfiguration timer
RelocUtranHoCmpTmr
RelocFailIuRelCmdTmr
SysHoPsResumeTmr PS resume timer after SYSHO
RrcSecrtModeCmpTmr RRC security mode completion timer
UeCntCheckRspTmr UE counter check response timer
Relocation mobile info confirmation timer
Relocation Inter-RAT HO completion timer
Relocation failed Iu release command timer
UeCntCheckRspTmr UE counter check response timer
CmchRsrcRspTmr CMCH RSRC response timer
IuCSRelNoRABTmr Iu CS Release protection timer
IuPSRelNoRABTmr Iu PS Release protection timer
RrcConnRejWaitTmr
Example
Set the timer used to wait for the response to RRC connection setup as 5000 ms.SET STATETIMER: RrcUeRspTmr=5000;
Wait Time In RRC Connection Reject Message
Set Calling Process State Protection Timers(SET STATETIMER)
The retransmit mechanism will be used if the signaling is sent by adopting RLC UM on Uu interface during channel handover.In this case, the setting of the corresponding waiting response timer for UE does not work.(For example, when the channel change from DCH to FACH or the channel change from FACH to DCH, the timer does not work.)The retransmit timer is 2 seconds. The RB reconfiguration message may retransmit three times when the timer expires.
Description
GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000Description:A timer used to wait for the Iu release command message in RRC procedure.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000Description:A timer used to retransmit the RRC CONNECTION RELEASE message to UE.GUI value range:1~5000Actual value range:1~5000Unit:msDefault value:-Recommended Value:350Description:A timer used to wait for the response to paging type 1 in RRC procedure.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000Description:A timer used to wait for initial direct transmission.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
GUI value range:1~3000Actual value range:1~3000Unit:msDefault value:-Recommended Value:1000Description:A timer to RNC wait for the RB setup response from UE in the RB procedure.GUI value range:300~10000Actual value range:300~10000Unit:msDefault value:-Recommended Value:5000Description:A timer used to wait UE capability enquiry response .GUI value range:1~10000Actual value range:1~10000
Description:A timer used to wait for RRC connection setup complete message from UE in RRC procedure.
Description:A timer used to wait for the acknowledgement of radio link control (RLC) completion in RRC procedure.
Unit:msDefault value:-Recommended Value:5000
Description:A timer used to wait for the RB reconfiguration response from UE in the RB procedure.GUI value range:300~10000Actual value range:300~10000Unit:msDefault value:-Recommended Value:5000Description:A timer to RNC wait for the RB release response from UE in the RB procedure.GUI value range:300~10000Actual value range:300~10000Unit:msDefault value:-Recommended Value:5000
GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
Description:A timer to RNC wait for radio link restoration indication in the radio link procedure.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000Description:A timer to DRNC wait for AAL2 setup indication.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000Description:A timer to DRNC wait for radio link reconfiguration commit.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
Description:A timer to RNC wait for the response to radio link setup request in the radio link procedure.
Description:A timer to RNC wait for the response to radio link reconfiguration prepare in the radio link procedure.
Description:A timer to RNC wait for the response to radio link deletion request in the radio link procedure.
GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000Description:A timer to RNC wait for paging response in forward handover procedure.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000Description:A timer to RNC wait for relocation request in forward handover procedure.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
Description:A timer to RNC wait for the response to active set update in soft handover procedure.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
Description:A timer to RNC wait for the relocation command message in relocation procedure.GUI value range:1~20000Actual value range:1~20000Unit:msDefault value:-Recommended Value:10000
Description:A timer to RNC wait for the Iu release command message in relocation procedure.GUI value range:1~60000Actual value range:1~60000Unit:msDefault value:-Recommended Value:45000Description:A timer used for data forwarding in relocation procedure.GUI value range:1~20000Actual value range:1~20000
Description:A timer to RNC wait for the response to the cell update confirm from UE in forward handover procedure.
Description:A timer to RNC wait for the response to the TrCH reconfiguration or RB reconfiguration response from UE in hard handover procedure.
Description:A timer to RNC wait for the response to physical channel reconfiguration in hard handover procedure.
Unit:msDefault value:-Recommended Value:20000Description:A timer to RNC wait for another relocation request in relocation procedure.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
Description:A timer to RNC wait for rnsap relocation commit message in relocation procedure.GUI value range:1~20000Actual value range:1~20000Unit:msDefault value:-Recommended Value:15000Description:A timer to RNC wait for mobile information confirmation in relocation procedure.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000Description:A timer to RNC wait for inter-RAT handover completion in relocation procedure.GUI value range:1~20000Actual value range:1~20000Unit:msDefault value:-Recommended Value:10000Description:A timer to RNC wait for Iu release command in the failed relocation procedure.GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:3000Description:A timer to RNC wait for PS RESUME after successful CS InterRAT handover.GUI value range:1~255Actual value range:1~255Unit:minDefault value:-Recommended Value:10
GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
Description:A timer to RNC wait for the response to counter check in security mode procedure.GUI value range:1~10000
Description:A timer to RNC wait for the response to physical channel reconfiguration in relocation procedure.
Description:A timer to RNC wait for the response to security mode command from UE in security mode procedure.
Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000
GUI value range:1~10000Actual value range:1~10000Unit:msDefault value:-Recommended Value:5000Description:A timer to Iu CS Release protection.GUI value range:1~65535Actual value range:1~65535Unit:sDefault value:-Recommended Value:300Description:A timer to Iu PS Release protection.GUI value range:1~65535Actual value range:1~65535Unit:sDefault value:-Recommended Value:300
GUI value range:0~15Actual value range:0~15Unit:sDefault value:-Recommended Value:4
Set the timer used to wait for the response to RRC connection setup as 5000 ms.
Description:A timer to SRNC wait for the response to common transport channel resources request in the Iur common transport channel procedure.
Description:Wait time in RRC connection reject message, the time period the UE has to wait before repeating the rejected procedure of RRC connection.
The retransmit mechanism will be used if the signaling is sent by adopting RLC UM on Uu interface during channel handover.In this case, the setting of the corresponding waiting response timer for UE does not work.(For example, when the channel change from DCH to FACH or the channel change from FACH to DCH, the timer does not work.)
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The retransmit mechanism will be used if the signaling is sent by adopting RLC UM on Uu interface during channel handover.In this case, the setting of the corresponding waiting response timer for UE does not work.(For example, when the channel change from DCH to FACH or the channel change from FACH to DCH, the timer does not work.)