huawei ho parameter
TRANSCRIPT
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No HO Process HO Process Sub
1 MR Preprocessing MR Preprocessing
2 MR Preprocessing MR Preprocessing
3 MR Preprocessing MR Preprocessing
4 MR Preprocessing MR Preprocessing
5 MR Preprocessing MR Preprocessing
6 MR Preprocessing MR Preprocessing7 MR Preprocessing MR Preprocessing
8 MR Preprocessing MR Preprocessing
9 MR Preprocessing MR Preprocessing
10 MR Preprocessing MR Preprocessing
11 MR Preprocessing MR Preprocessing
12 Handover Judgment Penalty Processing
13 Handover Judgment Penalty Processing
14 Handover Judgment Penalty Processing
15 Handover Judgment Penalty Processing
16 Handover Judgment Penalty Processing
17 Handover Judgment Penalty Processing
18 Handover Judgment Penalty Processing
19 Handover Judgment Penalty Processing
20 Handover Judgment Penalty Processing
21 Handover Judgment Penalty Processing
22 Handover Judgment Penalty Processing
23 Handover Judgment Penalty Processing
24 Handover Judgment Penalty Processing
25 Handover Judgment Penalty Processing
26 Handover Judgment Penalty Processing
27 Handover Judgment Penalty Processing28 Handover Judgment Penalty Processing
29 Handover Judgment Penalty Processing
30 Handover Judgment Ranking Processing
31 Handover Judgment Ranking Processing
32 Handover Judgment Ranking Processing
33 Handover Judgment Ranking Processing
34 Handover Judgment Ranking Processing
35 Handover Judgment Ranking Processing
36 Handover Judgment Ranking Processing
37 Handover Judgment Ranking Processing
38 Handover Judgment Ranking Processing
39 Handover Judgment Ranking Processing
40 Handover Judgment Ranking Processing
41 Handover Judgment Ranking Processing
42 Handover Judgment Ranking Processing
43 Handover Judgment Ranking Processing
44 Handover Judgment Emergency HO
45 Handover Judgment Emergency HO
46 Handover Judgment Emergency HO
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47 Handover Judgment Emergency HO
48 Handover Judgment Emergency HO
49 Handover Judgment Emergency HO
50 Handover Judgment Emergency HO
51 Handover Judgment Emergency HO
52 Handover Judgment Emergency HO
53 Handover Judgment Emergency HO54 Handover Judgment Emergency HO
55 Handover Judgment Emergency HO
56 Handover Judgment Emergency HO
57 Handover Judgment Emergency HO
58 Handover Judgment Emergency HO
59 Handover Judgment Emergency HO
60 Handover Judgment Emergency HO
61 Handover Judgment Emergency HO
62 Handover Judgment Emergency HO
63 Handover Judgment Emergency HO
64 Handover Judgment Emergency HO
65 Handover Judgment Emergency HO
66 Handover Judgment Emergency HO
67 Handover Judgment Emergency HO
68 Handover Judgment Emergency HO
69 Handover Judgment Emergency HO
70 Handover Judgment Emergency HO
71 Handover Judgment Emergency HO
72 Handover Judgment Enhanced Dual Band HO
73 Handover Judgment Enhanced Dual Band HO
74 Handover Judgment Enhanced Dual Band HO75 Handover Judgment Enhanced Dual Band HO
76 Handover Judgment Enhanced Dual Band HO
77 Handover Judgment Enhanced Dual Band HO
78 Handover Judgment Enhanced Dual Band HO
79 Handover Judgment Enhanced Dual Band HO
80 Handover Judgment Enhanced Dual Band HO
81 Handover Judgment Enhanced Dual Band HO
82 Handover Judgment Enhanced Dual Band HO
83 Handover Judgment Enhanced Dual Band HO
84 Handover Judgment Enhanced Dual Band HO
85 Handover Judgment Enhanced Dual Band HO
86 Handover Judgment Enhanced Dual Band HO
87 Handover Judgment Enhanced Dual Band HO
88 Handover Judgment Enhanced Dual Band HO
89 Handover Judgment Enhanced Dual Band HO
90 Handover Judgment Enhanced Dual Band HO
91 Handover Judgment Enhanced Dual Band HO
92 Handover Judgment Load HO
93 Handover Judgment Load HO
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94 Handover Judgment Load HO
95 Handover Judgment Load HO
96 Handover Judgment Load HO
97 Handover Judgment Load HO
98 Handover Judgment Load HO
99 Handover Judgment Normal HO
100 Handover Judgment Normal HO101 Handover Judgment Normal HO
102 Handover Judgment Normal HO
103 Handover Judgment Normal HO
104 Handover Judgment Normal HO
105 Handover Judgment Normal HO
106 Handover Judgment Normal HO
107 Handover Judgment Normal HO
108 Handover Judgment Normal HO
109 Handover Judgment Normal HO
110 Handover Judgment Normal HO
111 Handover Judgment Normal HO
112 Handover Judgment Normal HO
113 Handover Judgment Normal HO
114 Handover Judgment Normal HO
115 Handover Judgment Normal HO
116 Handover Judgment Normal HO
117 Handover Judgment Normal HO
118 Handover Judgment Normal HO
119 Handover Judgment Normal HO
120 Handover Judgment Normal HO
121 Handover Judgment Normal HO122 Handover Judgment Normal HO
123 Handover Judgment Normal HO
124 Handover Judgment Normal HO
125 Handover Judgment Normal HO
126 Handover Judgment Normal HO
127 Handover Judgment Normal HO
128 Handover Judgment Normal HO
129 Handover Judgment Normal HO
130 Handover Judgment Normal HO
131 Handover Judgment Normal HO
132 Handover Judgment Normal HO133 Handover Judgment Normal HO
134 Handover Judgment Normal HO
135 Handover Judgment Normal HO
136 Handover Judgment Normal HO
137 Handover Judgment Normal HO
138 Handover Judgment Normal HO
139 Handover Judgment Normal HO
140 Handover Judgment Normal HO
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141 Handover Judgment Normal HO
142 Handover Judgment Normal HO
143 Handover Judgment Normal HO
144 Handover Judgment Normal HO
145 Handover Judgment Normal HO
146 Handover Judgment Normal HO
147 Handover Judgment Normal HO148 Handover Judgment Normal HO
149 Handover Judgment Normal HO
150 Handover Judgment Normal HO
151 Handover Judgment Normal HO
152 Handover Judgment Normal HO
153 Handover Judgment Normal HO
154 Handover Judgment Normal HO
155 Handover Judgment Normal HO
156 Handover Judgment Normal HO
157 Handover Judgment Normal HO
158 Handover Judgment Normal HO
161 Handover Judgment Normal HO
162 Handover Judgment Normal HO
163 Handover Judgment Normal HO
164 Handover Judgment Normal HO
165 Handover Judgment Normal HO
166 Handover Judgment Normal HO
167 Handover Judgment Normal HO
168 Handover Judgment Normal HO
169 Handover Implementation Handover Implementation
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HO Process Type MO Parameter ID
Interpolation GCELLHOCTRL BTSMESRPTPREPROC
Interpolation GCELLHOCTRL PRIMMESPPT
Interpolation GCELLHOCTRL BSMSPWRLEV
Interpolation GCELLHOCTRL MRPREPROCFREQ
Interpolation GCELLHOFITPEN MRMISSCOUNT
Filtering GCELLHOFITPEN DATASTRFLTLENFiltering GCELLHOFITPEN DATAQUAFLTLEN
Filtering GCELLHOFITPEN SIGSTRFLTLEN
Filtering GCELLHOFITPEN SIGQUAFLTLEN
Filtering GCELLHOFITPEN NCELLFLTLEN
Filtering GCELLHOFITPEN TAFLTLEN
Penalty for Handover Failure GCELLHOFITPEN FAILSIGSTRPUNISH
Penalty for Handover Failure GCELLHOFITPEN RSCPENALTYTIMER
Penalty for Handover Failure GCELLHOFITPEN UMPENALTYTIMER
Penalty for Handover Failure GCELLHOFITPEN PENALTYTIMER
Penalty for Emergency Handover GCELLHOFITPEN SSBQPUNISH
Penalty for Emergency Handover GCELLHOFITPEN TIMEBQPUNISH
Penalty for Emergency Handover GCELLHOFITPEN SSTAPUNISH
Penalty for Emergency Handover GCELLHOFITPEN TIMETAPUNISH
Penalty for MS Fast-moving Handover GCELLHOAD SPEEDPUNISH
Penalty for MS Fast-moving Handover GCELLHOAD SPEEDPUNISHT
Penalty for Concentric Cell GCELLHOIUO TIMEUTOOFAILPUN
Penalty for Concentric Cell GCELLHOIUO TIMEOTOUFAILPUN
Penalty for Concentric Cell GCELLHOIUO UTOOFAILMAXTIME
Penalty for Enhanced Concentric Cell GCELLHOIUO UTOOHOPENTIME
Penalty for Intra-cell HO GCELLHOAD MAXCNTNUM
Penalty for Intra-cell HO GCELLHOAD BANTIMEPenalty for Intra-cell HO GCELLHOAD CONTINTV
Penalty for AMR FRHR Handover Failure GCELLHOFITPEN TIMEAMRFHPUNISH
M Rule GCELLHOBASIC HOCDCMINUPPWR
M Rule GCELLHOBASIC HOCDCMINDWPWR
M Rule G2GNCELL MINOFFSET
16 bits ranking (The 4th bit) G2GNCELL INTERCELLHYST
16 Bit Ranking (The 5th~10th Bits) GCELLBASICPARA PRIOR
16 Bit Ranking (The 5th~10th Bits) GCELLBASICPARA LAYER
16 Bit Ranking (The 11th Bit) GCELLHOBASIC LoadHoEn
16 Bit Ranking (The 11th Bit) GCELLHOAD SYSFLOWLEV
16 Bit Ranking (The 11th Bit) GCELLHOAD TRIGTHRES
16 Bit Ranking (The 11th Bit) GCELLHOAD LoadAccThres
16 Bit Ranking (The 12th~13th Bits) GCELLHOBASIC COBSCMSCADJEN
16 Bit Ranking (The 14th Bit) GCELLHOBASIC HOTHRES
16 Bit Ranking (The 14th Bit) GCELLHOBASIC LEVHOHYST
16 Bit Ranking (The 14th Bit) G2GNCELL INTELEVHOHYST
No DL MR HO GCELLHOEMG NODLMRHOEN
No DL MR HO GCELLHOEMG NODLMRHOQUALLIMIT
No DL MR HO GCELLHOEMG NODLMRHOALLOWLIMIT
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TA HO GCELLHOBASIC TAHOEN
TA HO GCELLHOEMG TALIMIT
Interference HO GCELLHOBASIC INTERFHOEN
Interference HO GCELLAMRQUL RXQUAL1
Interference HO GCELLAMRQUL RXQUAL2
Interference HO GCELLAMRQUL RXQUAL3
Interference HO GCELLAMRQUL RXQUAL4Interference HO GCELLAMRQUL RXQUAL5
Interference HO GCELLAMRQUL RXQUAL6
Interference HO GCELLAMRQUL RXQUAL7
Interference HO GCELLAMRQUL RXQUAL8
Interference HO GCELLAMRQUL RXQUAL9
Interference HO GCELLAMRQUL RXQUAL10
Interference HO GCELLAMRQUL RXQUAL11
Interference HO GCELLAMRQUL RXQUAL12
Interference HO GCELLAMRQUL RXLEVOFF
BQ HO GCELLHOBASIC BQHOEN
BQ HO GCELLHOEMG DLQUALIMIT
BQ HO GCELLHOEMG ULQUALIMIT
BQ HO GCELLAMRQUL DLQUALIMITAMRFR
BQ HO GCELLAMRQUL ULQUALIMITAMRFR
BQ HO GCELLAMRQUL DLQUALIMITAMRHR
BQ HO GCELLAMRQUL ULQUALIMITAMRHR
BQ HO G2GNCELL INTERCELLHYST
BQ HO G2GNCELL BQMARGIN
Channel Assignment GCELLHOBASIC CONHOEN
Channel Assignment GCELLHOEDBPARA OUTASSOPTEN
Channel Assignment GCELLHOEDBPARA INNASSOPTENO=>U GCELLHOEDBPARA OUTLOWLOADTHRED
O=>U GCELLHOEDBPARA ATCBTHRED
O=>U GCELLHOEDBPARA ATCBHYST
O=>U GCELLHOEDBPARA INNLOADHOEN
O=>U GCELLHOEDBPARA INNLOADHOPERI
O=>U GCELLHOEDBPARA INNLOADHOSTEP
O=>U GCELLHOEDBPARA OUTINNREXLEVTHRED
O=>U GCELLHOEDBPARA INNCELLEDGEHOEN
U=>O GCELLHOEDBPARA OUTGENOVERLDTHRED
U=>O GCELLHOEDBPARA OUTSERIOVERLDTHRED
U=>O GCELLHOEDBPARA OUTLOADHOENABLE
U=>O GCELLHOEDBPARA OUTLOADHOPERIOD
U=>O GCELLHOEDBPARA OUTLOADHOSTEP
U=>O GCELLHOEDBPARA OUTLOADHOMODPERI
U=>O GCELLHOEDBPARA INTOINNREXLEVTHRED
U=>O / O=>U GCELLHOEDBPARA EDBSTATTIME
U=>O / O=>U GCELLHOEDBPARA EDBLASTTIME
Load HO GCELLHOBASIC LoadHoEn
Load HO GCELLHOAD SYSFLOWLEV
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Load HO GCELLHOAD TRIGTHRES
Load HO GCELLHOAD LoadAccThres
Load HO GCELLHOAD LOADOFFSET
Load HO GCELLHOAD LOADHOPERIOD
Load HO GCELLHOAD LOADHOSTEP
Edge HO GCELLHOBASIC FRINGEHOEN
Edge HO GCELLHOBASIC ULEDGETHRESEdge HO GCELLHOBASIC DLEDGETHRES
Edge HO GCELLHOBASIC EDGESTAT1
Edge HO GCELLHOBASIC EDGELAST1
Edge HO G2GNCELL INTERCELLHYST
Edge HO G2GNCELL EDGEADJSTATTIME
Edge HO G2GNCELL EDGEADJLASTTIME
MS Fast-Moving Handover GCELLHOBASIC QCKMVHOEN
MS Fast-Moving Handover GCELLHOAD QCKSTATCNT
MS Fast-Moving Handover GCELLHOAD QCKTRUECNT
MS Fast-Moving Handover GCELLHOAD QCKTIMETH
Layer HO GCELLHOBASIC LEVHOEN
Layer HO G2GNCELL INTELEVHOHYST
Layer HO G2GNCELL LEVSTAT
Layer HO G2GNCELL LEVLAST
Layer HO GCELLHOBASIC HOTHRES
Layer HO GCELLHOBASIC LEVHOHYST
PBGT HO GCELLHOBASIC PBGTHOEN
PBGT HO G2GNCELL INTERCELLHYST
PBGT HO G2GNCELL PBGTMARGIN
PBGT HO G2GNCELL PBGTSTAT
PBGT HO G2GNCELL PBGTLASTConcentric Cell HO GCELLHOBASIC CONHOEN
Concentric Cell HO GCELLHOIUO ULTOOLHOALLOW
Concentric Cell HO GCELLHOIUO OLTOULHOALLOW
Concentric Cell HO GCELLHOIUO RECLEVUOHOALLOW
Concentric Cell HO GCELLHOIUO RECQUALUOHOALLOW
Concentric Cell HO GCELLHOIUO TAFORUOHOALLOW
Concentric Cell HO GCELLHOIUO RECLEVTHRES
Concentric Cell HO GCELLHOIUO RECLEVHYST
Concentric Cell HO GCELLHOIUO RECQUALTH
Concentric Cell HO GCELLHOIUO TATHRES
Concentric Cell HO GCELLHOIUO TAHYST
Concentric Cell HO GCELLHOIUO IUOHOSTATIME
Concentric Cell HO GCELLHOIUO IUOHODURATIME
Concentric Cell HO GCELLHOIUO OPTILAYER
Concentric Cell HO GCELLHOIUO OPTILEVTHRES
Concentric Cell HO GCELLHOIUO OPTITATHRES
Concentric Cell HO GCELLHOIUO IMMASSTAALLOW
Enhance Concentric Cell HO GCELLHOBASIC ATCBHOEN
Enhance Concentric Cell HO GCELLHOEDBPARA ATCBTHRED
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Enhance Concentric Cell HO GCELLHOEDBPARA ATCBHYST
Enhance Concentric Cell HO GCELLHOIUO ULTOOLHOALLOW
Enhance Concentric Cell HO GCELLHOIUO OLTOULHOALLOW
Enhance Concentric Cell HO GCELLHOIUO RECLEVUOHOALLOW
Enhance Concentric Cell HO GCELLHOIUO RECQUALUOHOALLOW
Enhance Concentric Cell HO GCELLHOIUO TAFORUOHOALLOW
Enhance Concentric Cell HO GCELLHOIUO RECQUALTHEnhance Concentric Cell HO GCELLHOIUO TATHRES
Enhance Concentric Cell HO GCELLHOIUO TAHYST
Enhance Concentric Cell HO GCELLHOIUO IUOHOSTATIME
Enhance Concentric Cell HO GCELLHOIUO IUOHODURATIME
Enhance Concentric Cell HO GCELLHOIUO OTOURECEIVETH
Enhance Concentric Cell HO GCELLHOIUO UTOORECTH
Enhance Concentric Cell HO GCELLHOIUO UTOOTRAFHOALLOW
Enhance Concentric Cell HO GCELLHOIUO UTRAFHOPERIOD
Enhance Concentric Cell HO GCELLHOIUO UTRAFHOSTEP
Enhance Concentric Cell HO GCELLHOIUO HOALGOPERMLAY
Enhance Concentric Cell HO GCELLHOIUO ACCESSOPTILAY
AMR HO GCELLHOBASIC INTRACELLHOEN
AMR HO GCELLHOBASIC INTRACELLFHHOEN
AMR HO GCELLHOBASIC INHOF2HTH
AMR HO GCELLHOBASIC INHOH2FTH
AMR HO GCELLCHMGAD AMRTCHHPRIORALLOW
AMR HO GCELLCHMGAD AMRTCHHPRIORLOAD
AMR HO GCELLHOBASIC INFHHOSTAT
AMR HO GCELLHOBASIC INFHHOLAST
Handover Implementation GCELLPWRBASIC PWRBCDALLOWD
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Parameter Name NE
MR.Preprocessing BSC6900
Transfer Original MR BSC6900
Transfer BTS/MS Power Class BSC6900
Sent Freq.of preprocessed MR BSC6900
Allowed MR Number Lost BSC6900
Filter Length for TCH Level BSC6900Filter Length for TCH Qual BSC6900
Filter Length for SDCCH Level BSC6900
Filter Length for SDCCH Qual BSC6900
Filter Length for Ncell RX_LEV BSC6900
Filter Length for TA BSC6900
Penalty Level after HO Fail BSC6900
RscPenaltyTimer BSC6900
UmPenaltyTimer BSC6900
CfgPenaltyTimer BSC6900
Penalty Level after BQ HO BSC6900
Penalty Time after BQ HO BSC6900
Penalty Level after TA HO BSC6900
Penalty Time after TA HO BSC6900
Penalty on MS Fast Moving HO BSC6900
Penalty Time on Fast Moving HO BSC6900
Penalty Time after UtoO HO Fail BSC6900
Penalty Time after OtoU HO Fail BSC6900
MaxRetry Time after UtoO Fail BSC6900
Penalty Time of UtoO HO BSC6900
MAX Consecutive HO Times BSC6900
Forbidden time after MAX Times BSC6900Interval for Consecutive HO Jud. BSC6900
Penalty Time after AMR TCHF-H HO Fail BSC6900
Min UL Level on Candidate Cell BSC6900
Min DL Level on Candidate Cell BSC6900
Min Access Level Offset BSC6900
Inter-cell HO Hysteresis BSC6900
Cell Priority BSC6900
Layer of The Cell BSC6900
Load Handover Support BSC6900
System Flux Threshold for Load HO BSC6900
Load HO Threshold BSC6900
Load handover Load Accept Threshold BSC6900
Co-BSC/MSC Adj BSC6900
Inter-layer HO Threshold BSC6900
Inter-layer HO Hysteresis BSC6900
Adjacent Cell Inter-layer HO Hysteresis BSC6900
No Dl Mr.HO Allowed BSC6900
No Dl Mr.Ul Qual HO Limit BSC6900
Cons.No Dl Mr.HO Allowed Limit BSC6900
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TA HO Allowed BSC6900
TA Threshold BSC6900
Interference HO Allowed BSC6900
Interfere HO Qual. Thresh 1 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh 2 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh 3 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh 4 for Non-AMR FR BSC6900Interfere HO Qual. Thresh 5 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh 6 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh 7 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh 8 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh 9 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh 10 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh 11 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh 12 for Non-AMR FR BSC6900
Interfere HO Qual. Thresh Offset for AMR FR BSC6900
BQ HO Allowed BSC6900
DL Qual. Threshold BSC6900
UL Qual. Threshold BSC6900
DL Qual. Limit for AMR FR BSC6900
UL Qual. Limit for AMR FR BSC6900
DL Qual. Limit for AMR HR BSC6900
UL Qual. Limit for AMR HR BSC6900
Inter-cell HO Hysteresis BSC6900
BQ HO Margin BSC6900
Concentric Circles HO Allowed BSC6900
UL Subcell Assignment Optimization BSC6900
OL Subcell Assignment Optimization BSC6900UL Subcell Lower Load Threshold BSC6900
Distance Between Boundaries of Subcells BSC6900
Distance Hysteresis Between Boundaries BSC6900
Load HO of OL Subcell to UL Subcell BSC6900
OL Subcell Load Diversity HO Period BSC6900
Step Length of OL Subcell Load HO BSC6900
Outgoing OL Subcell HO Level TH BSC6900
Inner Cell EDGE HO Enable BSC6900
UL Subcell General Overload Threshold BSC6900
UL Subcell Serious Overload Threshold BSC6900
Load HO Allowed BSC6900
UL Subcell Load Hierarchical HO Periods BSC6900
Step Length of UL Subcell Load HO BSC6900
MOD Step LEN of UL Load HO Period BSC6900
Incoming OL Subcell HO Level TH BSC6900
Total Number of Measurements BSC6900
Number of Satisfactory Measurements BSC6900
Load Handover Support BSC6900
System Flux Threshold for Load HO BSC6900
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Load HO Threshold BSC6900
Load handover Load Accept Threshold BSC6900
Load HO Bandwidth BSC6900
Load HO Step Period BSC6900
Load HO Step Level BSC6900
Edge HO Allowed BSC6900
Edge HO UL RX_LEV Threshold BSC6900Edge HO DL RX_LEV Threshold BSC6900
Handover Algorithm I Edge HO Watch Time BSC6900
Handover Algorithm I Edge HO Valid Time BSC6900
Inter-cell HO Hysteresis BSC6900
Edge HO AdjCell Watch Time BSC6900
Edge HO AdjCell Valid Time BSC6900
MS Fast Moving HO Allowed BSC6900
MS Fast-moving Watch Cells BSC6900
MS Fast-moving Valid Cells BSC6900
MS Fast-moving Time Threshold BSC6900
Level HO Allowed BSC6900
Adjacent Cell Inter-layer HO Hysteresis BSC6900
Layer HO Watch Time BSC6900
Layer HO Valid Time BSC6900
Inter-layer HO Threshold BSC6900
Inter-layer HO Hysteresis BSC6900
PBGT HO Allowed BSC6900
Inter-cell HO Hysteresis BSC6900
PBGT HO Threshold BSC6900
PBGT Watch Time BSC6900
PBGT Valid Time BSC6900Concentric Circles HO Allowed BSC6900
UL to OL HO Allowed BSC6900
OL to UL HO Allowed BSC6900
RX_LEV for UO HO Allowed BSC6900
RX_QUAL for UO HO Allowed BSC6900
TA for UO HO Allowed BSC6900
RX_LEV Threshold BSC6900
RX_LEV Hysteresis BSC6900
RX_QUAL Threshold BSC6900
TA Threshold BSC6900
TA Hysteresis BSC6900
UO HO Watch Time BSC6900
UO HO Valid Time BSC6900
Assign Optimum Layer BSC6900
Assign-optimum-level Threshold BSC6900
TA Threshold of Assignment Pref BSC6900
TA Pref. of Imme-Assign Allowed BSC6900
Concentric Circles ATCB HO Allowed BSC6900
Distance Between Boundaries of Subcells BSC6900
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Distance Hysteresis Between Boundaries BSC6900
UL to OL HO Allowed BSC6900
OL to UL HO Allowed BSC6900
RX_LEV for UO HO Allowed BSC6900
RX_QUAL for UO HO Allowed BSC6900
TA for UO HO Allowed BSC6900
RX_QUAL Threshold BSC6900TA Threshold BSC6900
TA Hysteresis BSC6900
UO HO Watch Time BSC6900
UO HO Valid Time BSC6900
OtoU HO Received Level Threshold BSC6900
UtoO HO Received Level Threshold BSC6900
UtoO Traffic HO Allowed BSC6900
Underlay HO Step Period BSC6900
Underlay HO Step Level BSC6900
Pref. Subcell in HO of Intra-BSC BSC6900
Incoming-to-BSC HO Optimum Layer BSC6900
Intracell HO Allowed BSC6900
Intracell F-H HO Allowed BSC6900
F2H HO Threshold BSC6900
H2F HO Threshold BSC6900
AMR TCH/H Prior Allowed BSC6900
AMR TCH/H Prior Cell Load Threshold BSC6900
Intracell F-H HO Stat Time BSC6900
Intracell F-H HO Last Time BSC6900
Power Forecast Allowed BSC6900
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MML Command
SET GCELLHOCTRL(Optional)
SET GCELLHOCTRL(Optional)
SET GCELLHOCTRL(Optional)
SET GCELLHOCTRL(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOAD(Optional)SET GCELLHOAD(Optional)
SET GCELLHOFITPEN(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
SET GCELLBASICPARA(Optional)
SET GCELLBASICPARA(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
SET GCELLHOEMG(Optional)
SET GCELLHOEMG(Optional)
SET GCELLHOEMG(Optional)
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SET GCELLHOBASIC(Optional)
SET GCELLHOEMG(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOEMG(Optional)
SET GCELLHOEMG(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
SET GCELLAMRQUL(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOEDBPARA(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOAD(Optional)
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SET GCELLHOAD(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOAD(Optional)
SET GCELLHOBASIC(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)
ADD G2GNCELL(Optional)MOD G2GNCELL(Optional)SET GCELLHOBASIC(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOEDBPARA(Optional)
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SET GCELLHOEDBPARA(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOIUO(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLCHMGAD(Optional)
SET GCELLCHMGAD(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLHOBASIC(Optional)
SET GCELLPWRBASIC(Optional)
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Meaning
Whether to enable the BTS to preprocess measurement reports. This parameter determines where to conduct pow
Whether the BTSs send the original measurement reports to the BSC after pre-processing them. When this parame
Whether to enable the BTS to transfer BTS/MS power class to the BSC
Frequency at which the BTSs submit pre-processed measurement reports to the BSC
If the number of measurement reports lost consecutively is no larger than this value, linear interpolation is performe
Number of measurement reports sampled for averaging the signal strength on a speech/data channel. Averaging thNumber of measurement reports sampled for averaging the signal quality on a speech/data channel. Averaging the
Number of measurement reports used for averaging the signal strength of signaling channels. This parameter helps
Number of measurement reports used for averaging the signal quality of signaling channels. This parameter helps a
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured v
When the network receives measurement reports, the measurement values in several straight measurement report
Penalty signal level imposed on a target cell to which the handover fails due to congestion or poor radio quality. This
Timer for punishing the neighboring cells when handover failures occur due to resource-related causes, such as res
Timer of penalty on a neighboring cell when a handover fails due to faults of air interface connection.
Timer of penalty on a neighboring cell when a handover fails due to faults of data configuration.
After a handover due to bad quality is successful, the penalty on the original serving cell is performed within the "Pe
After a handover due to bad quality is successful, the penalty on the original serving cell is performed within the "Pe
After the time advancing handover is successful, the penalty on the original serving cell is performed within the "Pen
After the time advancing handover is successful, the penalty on the original serving cell is performed within the "Pen
Level value of the penalty that is performed on the neighboring cells of the cell where a fast-moving MS is located. T
Period in which penalty is performed on the neighboring cells of the cell where a fast-moving MS is located. The nei
After an UL subcell to OL subcell handover of an MS fails, the MS does not perform UL subcell to OL subcell hando
After an OL subcell to UL subcell handover of an MS fails, the MS does not perform OL subell-UL subcell handover
When a UL subcell-OL subcell handover decision is performed to a call, the BSC determines whether the number o
After an MS performs a OL subcell to UL subcell handover successfully, the MS cannot be handed over to the OL s
Number of consecutive intra-cell handovers allowed in a cell. When the interval between two intra-cell handovers is l
Duration in which intra-cell handover is forbidden after the number of consecutive intra-cell handovers reaches theThe twice intra-cell handover events during this interval are considered consecutive handover events.
Within the preset time, no AMR FR-to-HR handover is allowed if the previous FR-to-HR handover fails due to chann
Limit on the minimum uplink receive level for a neighboring cell. You are advised to use the default value 0 for this p
If the downlink received signal level of a neighbor cell is greater than "Min DL Level on Candidate Cell" plus "Min Ac
Minimum receive level offset.An MS can be handed over to a neighboring cell only when the downlink level of the ne
Hysteresis value during the handovers between cells, This value is used to suppress ping-pong handovers between
This parameter controls handover between cells at the same layer. Generally, the cells at the same layer are set wit
Layer where a cell is located. The network designed by Huawei has four layers: Umbrella (layer 4), Macro (layer 3),
This parameter specifies whether a traffic load-sharing handover is enabled. The load handover helps to reduce cell
System flux thresholds correspond to the system flux obtained based on message packets, CPU load, and FID que
The load handover is triggered when the traffic load in a cell is greater than the value of this parameter.
If the load of a cell is lower than the value of this parameter, the cell can admit the users handed over from other cel
Whether to adjust the candidate cell queue to give priority to intra-BSC/MSC handover
Handover threshold during the handovers between cells on different layers or of different priorities. This value is use
Hysteresis value during the handovers between cells on different layers or of different priorities. This value is used t
Hysteresis value during the handovers between cells on different layers or of different priorities. This value is used t
Whether to enable the no-downlink measurement report handover algorithm
When a certain number of no-downlink measurement reports are received consecutively and the uplink receive qual
Decisions of no-downlink measurement report handovers can be made only when the number of consecutive no-do
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Whether to enable the time advance (TA) handover. The TA handover determines whether the timing advance (TA)
An emergency handover is triggered when TA is greater than or equal to the value of this parameter.
Whether to allow the interference handover algorithm. Interference handovers are triggered when the receive level i
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate FullThreshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
Threshold for the interference handover of Non-AMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full
For AMR FR voice services, a fixed amount of offset is added to the corresponding grade of the received signal qua
Whether to enable the bad quality (BQ) handover algorithm. Whether to trigger BQ handover depends on the uplink
Downlink quality threshold for emergency handover. This parameter is represented as the product of 10 and a qualit
An emergency handover due to bad quality is triggered when the uplink receive quality is not smaller than "UL Qual.
Downlink quality limit for emergency handover in an AMR full rate call. The value of this parameter corresponds to t
The value of this parameter corresponds to multiplying quality level 0 to 7 by 10. An emergency handover can be tri
Downlink quality limit for emergency handover in an AMR half rate call. The value of this parameter corresponds to t
The value of this parameter corresponds to multiplying quality level 0 to 7 by 10. An emergency handover can be tri
Hysteresis value during the handovers between cells, This value is used to suppress ping-pong handovers between
If ("downlink level of the neighbor cell after filtering" - "downlink level of the serving cell (after power control compen
Whether to enable the concentric cell handover algorithm. The concentric cell handover helps to achieve wide cover
Whether to assign channel requests initiated in the underlay subcell to the overlay or underlay subcells according to
Whether to assign channel requests in the overlay subcell to the underlay subcell according to "UL Subcell Lower LWhen the load of the underlay subcell is lower than this parameter, some of the calls in the overlay subcell will be s
Distance between the boundary of the overlaid subcell and the boundary of the underlaid subcell. This parameter sp
Hysteresis in the distance between the boundary of the overlaid subcell and the boundary of the underlaid subcell. T
Whether to allow underlay-to-overlay load handovers
Overlay-to-underlay load handovers are performed by levels. This parameter indicates the duration of each level.
Level step during overlay-to-underlay hierarchical load handovers
Lower threshold of the overlay level during overlay-to-underlay handovers. When the receive level of an MS is highe
Whether to allow underlay-to-overlay edge handovers
When the load of the underlay subcell is higher than this parameter, some of the calls in the underlay subcell will be
When the load of the underlay subcell is higher than this parameter, the underlay-to-overlay load handover period s
Whether to allow overlay-to-underlay load handovers.
When the load of the underlay subcell exceeds "UL Subcell General Overload Threshold", all the calls that are using
Level step during underlay-to-overlay hierarchical load handovers
If the underlay load is higher than "UL Subcell Serious Overload Threshold", the underlay-to-overlay handover perio
Lower threshold of the overlay level during underlay-to-overlay handovers. When the receive level of an MS is highe
According to the P/N rule, if the conditions for the handover between the subcells of an enhanced dual-frequency ne
According to the P/N rule, if the conditions for the handover between the subcells of an enhanced dual-frequency ne
This parameter specifies whether a traffic load-sharing handover is enabled. The load handover helps to reduce cell
System flux thresholds correspond to the system flux obtained based on message packets, CPU load, and FID que
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The load handover is triggered when the traffic load in a cell is greater than the value of this parameter.
If the load of a cell is lower than the value of this parameter, the cell can admit the users handed over from other cel
In the handover algorithm of the first generation, load handovers can be performed only when the receive level of th
When the load of a cell reaches or exceeds "Load HO Threshold", all the calls that are using this cell as the serving
In hierarchical load handovers, starting from "Edge HO DL RX_LEV Threshold", a "Load HO Step Level" is added to
Whether to enable the edge handover algorithm. When an MS makes a call at the edge of a cell, the call may drop i
If the UL receive level remains lower than the "Edge HO UL RX_LEV Threshold" for a period, the edge handover isThreshold for downlink edge handover. If the downlink receive level remains less than this threshold for a period of t
According to the P/N rule, if the conditions for edge handover are met for P seconds within N seconds, the handove
According to the P/N rule, if the conditions for edge handover are met for P seconds within N seconds, the handove
Hysteresis value during the handovers between cells, This value is used to suppress ping-pong handovers between
According to the P/N rule, if a neighbor cell meets the conditions for selecting the neighbor cell for edge handover in
According to the P/N rule, if a neighbor cell meets the conditions for selecting the neighbor cell for edge handover in
Whether to enable the fast moving micro-cell handover algorithm. The fast moving micro-cell handover algorithm en
This parameter is used in the P/N criteria decision: If an MS quickly passes through N out of P micro-cells lately, the
This parameter is used in the P/N criteria decision: If an MS quickly passes through N out of P micro-cells lately, the
A time threshold determined based on the radius of a cell and the moving speed of an MS. If the MS crosses the cel
Whether to allow inter-layer and inter-level handovers. The inter-layer and inter-level handover algorithm is achieved
Hysteresis value during the handovers between cells on different layers or of different priorities. This value is used t
The triggering of inter-layer handovers must meet the P/N criteria, that is, when the condition for inter-layer handove
The triggering of inter-layer handovers must meet the P/N criteria, that is, when the condition for inter-layer handove
Handover threshold during the handovers between cells on different layers or of different priorities. This value is use
Hysteresis value during the handovers between cells on different layers or of different priorities. This value is used t
Whether to use the PBGT handover algorithm. PBGT handovers are based on path loss. The PBGT handover algor
Hysteresis value during the handovers between cells, This value is used to suppress ping-pong handovers between
PBGT handovers to a neighboring cell are allowed only when the downlink level difference between the neighboring
The triggering of PBGT handovers must meet the P/N criteria, that is, when the condition for PBGT handovers is m
The triggering of PBGT handovers must meet the P/N criteria, that is, when the condition for PBGT handovers is mWhether to enable the concentric cell handover algorithm. The concentric cell handover helps to achieve wide cover
Whether a UL subcell to OL subcell handover is allowed
Whether to allow overlay-to-underlay handovers
Whether to use the downlink receive level as a condition in IUO handover decision
Whether to use the downlink receive quality as a condition in IUO handover decision
Whether the TA is used as a decisive condition for the concentric cell handover
One of the parameters that decide the underlay and overlay areas. The underlay and overlay areas are determined
One of the parameters that decide the underlay and overlay areas. The underlay and overlay areas are determined
One of the parameters that decide the underlay and overlay areas. If "Enhanced Concentric Allowed" is set to OFF, t
One of the parameters that determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric
One of the parameters that determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric
The triggering of concentric circle handovers must meet the P/N criteria, that is, when P out of N measurement repo
The triggering of concentric circle handovers must meet the P/N criteria, that is, when P out of N measurement repo
Channel assignment policies used when TCHs are assigned in an IUO cell: SysOpt: The system selects the prefere
Preferentially assigns channels on the overlay when the uplink receive level on the SDCCH is no smaller than "Assi
Preferentially assigns channels on the overlay when the uplink receive level on the SDCCH is no smaller than "Assi
Whether to assign channels according to the access_delay value in channel request messages during immediate c
Whether to enable the ATCB handover algorithm for the concentric cell. According to the neighbor cell signal, the A
Distance between the boundary of the overlaid subcell and the boundary of the underlaid subcell. This parameter sp
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Hysteresis in the distance between the boundary of the overlaid subcell and the boundary of the underlaid subcell. T
Whether a UL subcell to OL subcell handover is allowed
Whether to allow overlay-to-underlay handovers
Whether to use the downlink receive level as a condition in IUO handover decision
Whether to use the downlink receive quality as a condition in IUO handover decision
Whether the TA is used as a decisive condition for the concentric cell handover
One of the parameters that decide the underlay and overlay areas. If "Enhanced Concentric Allowed" is set to OFF, tOne of the parameters that determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric
One of the parameters that determine the coverage of the OL subcell and UL subcell.When "Enhanced Concentric
The triggering of concentric circle handovers must meet the P/N criteria, that is, when P out of N measurement repo
The triggering of concentric circle handovers must meet the P/N criteria, that is, when P out of N measurement repo
One of the parameters that decide the underlay and overlay areas in an enhanced IUO cell. The underlay and overl
One of the parameters that determine the coverage of the OL subcell and of the UL subcell. "UtoO HO Received Le
When this parameter is set to YES, the existing call is performed in the OL subcell, and "OL to UL HO Allowed" is se
Hierarchical handover period of the load handover from the UL subcell to the OL subcell. If the channel seizure ratio
Hierarchical level step of the load handover from the UL subcell to the OL subcell
Whether to assign a channel in the overlaid or underlaid subcell in the case of the intra-BSC incoming handover to t
Subcell preferred during the incoming inter-BSC handover to the concentric cell. In the case of incoming inter-BSC
This parameter specifies whether the intra-cell handover is enabled. Note: A forced intra-cell handover is not subjec
Whether to allow AMR handovers. This parameter has no impact on dynamic non-AMR F-H handovers.
For an AMR call, if the currently occupied channel is a full rate channel and the value of the Radio Quality Indication
For an AMR call, if the currently occupied channel is a half rate channel and the value of the Radio Quality Indicatio
Whether channels are assigned and TCHF-to-TCHH handover decisions are made on the basis of the AMR TCH/H
Load threshold for assigning half rate channels preferentially. If the current TCH seizure ratio of the cell is greater th
The triggering of intra-cell F-H handovers must meet the P/N criteria, that is, when the condition for intra-cell F-H ha
The triggering of intra-cell F-H handovers must meet the P/N criteria, that is, when the condition for intra-cell F-H ha
Whether to allow active power control. If this parameter is set to YES, the system performs power forecast in the pr
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Feature Name
Pre-processing of Measurement Report
Pre-processing of Measurement Report
Pre-processing of Measurement Report
Pre-processing of Measurement Report
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II HandoverHUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II HandoverHUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II HandoverDynamic Power Sharing
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
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HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II HandoverHUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
AMR FRHUAWEI II HandoverHUAWEI I Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
AMR FRHUAWEI II HandoverHUAWEI I Handover
AMR FRHUAWEI II HandoverHUAWEI I Handover
AMR HRHUAWEI II HandoverHUAWEI I Handover
AMR HRHUAWEI II HandoverHUAWEI I Handover
HUAWEI I HandoverHUAWEI II HandoverDynamic Power Sharing
HUAWEI I HandoverHUAWEI II HandoverDynamic Power Sharing
HUAWEI I HandoverHUAWEI II Handover
Enhanced Dual-Band Network
Enhanced Dual-Band NetworkEnhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
Enhanced Dual-Band Network
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
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HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II HandoverHUAWEI I HandoverHUAWEI II Handover
HUAWEI I Handover
HUAWEI I Handover
HUAWEI I HandoverHUAWEI II HandoverDynamic Power Sharing
HUAWEI II Handover
HUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I HandoverHUAWEI II Handover
HUAWEI I Handover
HUAWEI I HandoverHUAWEI II HandoverDynamic Power Sharing
HUAWEI I Handover
HUAWEI I Handover
HUAWEI I HandoverHUAWEI I HandoverHUAWEI II Handover
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Enhanced Dual-Band Network
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Enhanced Dual-Band Network
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric CellConcentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
Concentric Cell
HUAWEI I HandoverHUAWEI II Handover
AMR FR/HR Dynamic Adjustment
AMR FR/HR Dynamic Adjustment
AMR FR/HR Dynamic Adjustment
AMR HR
AMR HR
AMR FR/HR Dynamic Adjustment
AMR FR/HR Dynamic Adjustment
Active Power Control
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GUI Value Range
BSC_Preprocessing(BSC preprocessing), BTS_Preprocessing(BTS preprocessing)
NO(No), YES(Yes)
NO(No), YES(Yes)
NOreport(Do not report), Twice_ps(Twice every second), Once_ps(Once every second), Once_2s(Once every two
0~31
1~311~31
1~31
1~31
1~31
1~31
0~63
0~255
0~255
0~255
0~63
0~255
0~63
0~255
0~63
0~255
10~255
0~255
0~8
0~255
1~20
1~2001~200
0~255
0~63
0~63
0~63
0~127
PRIOR-1(Priority-1), PRIOR-2(Priority-2), PRIOR-3(Priority-3), PRIOR-4(Priority-4), PRIOR-5(Priority-5), PRIOR-6(
1, 2, 3, 4
NO(No), YES(Yes)
0, 8~11
0~100
0~100
NO(No), YES(Yes)
0~63
0~63
0~127
NO(No), YES(Yes)
0~70
0~64
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NO(No), YES(Yes)
0~255
NO(No), YES(Yes)
0~70
0~70
0~70
0~700~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
NO(No), YES(Yes)
0~70
0~70
0~70
0~70
0~70
0~70
0~127
0~127
NO(No), YES(Yes)
NO(No), YES(Yes)
NO(No), YES(Yes)0~100
0~63
0~63
NO(No), YES(Yes)
1~255
0~63
0~63
NO(No), YES(Yes)
0~100
0~100
NO(No), YES(Yes)
1~255
0~63
1~255
0~63
1~255
1~255
NO(No), YES(Yes)
0, 8~11
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0~100
0~100
0~63
1~255
1~63
NO(No), YES(Yes)
0~630~63
1~32
1~32
0~127
1~32
1~32
NO(No), YES(Yes)
1~10
1~10
0~255
NO(No), YES(Yes)
0~127
1~32
1~32
0~63
0~63
NO(No), YES(Yes)
0~127
0~127
1~32
1~32NO(No), YES(Yes)
NO(No), YES(Yes)
NO(No), YES(Yes)
NO(No), YES(Yes)
NO(No), YES(Yes)
NO(No), YES(Yes)
0~63
0~63
0~70
0~255
0~255
1~32
1~32
SysOpt(System optimization), OSubcell(Overlaid subcell), USubcell(Underlaid subcell), NoPrefer(No preference)
0~63
0~255
NO(No), YES(Yes)
NO(Close), YES(Open)
0~63
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0~63
NO(No), YES(Yes)
NO(No), YES(Yes)
NO(No), YES(Yes)
NO(No), YES(Yes)
NO(No), YES(Yes)
0~700~255
0~255
1~32
1~32
0~63
0~63
NO(No), YES(Yes)
1~255
1~63
SysOpt(System optimization), OSubcell(Overlaid subcell), USubcell(Underlaid subcell), NoPrefer(No preference)
OSubcell(Overlaid subcell), USubcell(Underlaid subcell), NoPrefer(No preference)
NO(No), YES(Yes)
NO(No), YES(Yes)
0~39
0~39
OFF(Off), ON(On)
0~99
1~32
1~32
NO(No), YES(Yes)
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Enumeration Number/Bit
BSC_Preprocessing~0, BTS_Preprocessing~1
NO~0, YES~1
NO~0, YES~1
NOreport~0, Twice_ps~1, Once_ps~2, Once_2s~4, Once_4s~8
Not involved
Not involvedNot involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involvedNot involved
Not involved
Not involved
Not involved
Not involved
Not involved
PRIOR-1~1, PRIOR-2~2, PRIOR-3~3, PRIOR-4~4, PRIOR-5~5, PRIOR-6~6, PRIOR-7~7, PRIOR-8~8, PRIOR-9~9
1~1, 2~2, 3~3, 4~4
NO~0, YES~1
Not involved
Not involved
Not involved
NO~0, YES~1
Not involved
Not involved
Not involved
NO~0, YES~1
Not involved
Not involved
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NO~0, YES~1
Not involved
NO~0, YES~1
Not involved
Not involved
Not involved
Not involvedNot involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
NO~0, YES~1
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
NO~0, YES~1
NO~0, YES~1
NO~0, YES~1Not involved
Not involved
Not involved
NO~0, YES~1
Not involved
Not involved
Not involved
NO~0, YES~1
Not involved
Not involved
NO~0, YES~1
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
NO~0, YES~1
Not involved
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Not involved
Not involved
Not involved
Not involved
Not involved
NO~0, YES~1
Not involvedNot involved
Not involved
Not involved
Not involved
Not involved
Not involved
NO~0, YES~1
Not involved
Not involved
Not involved
NO~0, YES~1
Not involved
Not involved
Not involved
Not involved
Not involved
NO~0, YES~1
Not involved
Not involved
Not involved
Not involvedNO~0, YES~1
NO~0, YES~1
NO~0, YES~1
NO~0, YES~1
NO~0, YES~1
NO~0, YES~1
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
SysOpt~1, OSubcell~2, USubcell~3, NoPrefer~4
Not involved
Not involved
NO~0, YES~1
NO~0, YES~1
Not involved
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Not involved
NO~0, YES~1
NO~0, YES~1
NO~0, YES~1
NO~0, YES~1
NO~0, YES~1
Not involvedNot involved
Not involved
Not involved
Not involved
Not involved
Not involved
NO~0, YES~1
Not involved
Not involved
SysOpt~1, OSubcell~2, USubcell~3, NoPrefer~4
OSubcell~1, USubcell~2, NoPrefer~3
NO~0, YES~1
NO~0, YES~1
Not involved
Not involved
OFF~0, ON~1
Not involved
Not involved
Not involved
NO~0, YES~1
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Unit
None
None
None
None
None
msms
ms
ms
ms
ms
dB
s
s
s
dB
s
dB
s
dB
s
s
s
None
s
None
ss
s
dB
dB
dB
dB
None
None
None
None
None
%
None
dB
dB
dB
None
None
None
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None
bit
None
None
None
None
NoneNone
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
dB
dB
None
None
None%
dB
dB
None
s
dB
dB
None
%
%
None
s
dB
s
dB
s
s
None
None
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None
%
dB
s
dB
None
dBdB
0.5s
0.5s
dB
0.5s
0.5s
None
None
None
s
None
dB
0.5s
0.5s
dB
dB
None
dB
dB
0.5s
0.5sNone
None
None
None
None
None
dB
dB
None
bit
bit
0.5s
0.5s
None
dB
bit
None
None
dB
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dB
None
None
None
None
None
Nonebit
bit
0.5s
0.5s
dB
dB
None
s
dB
None
None
None
None
None
None
None
%
0.5s
0.5s
None
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Actual Value Range
BSC_Preprocessing, BTS_Preprocessing
NO, YES
NO, YES
NOreport, Twice_ps, Once_ps, Once_2s, Once_4s
0~31
TCH:480~14880, step:480; SDCCH:470~14570, step:470TCH:480~14880, step:480; SDCCH:470~14570, step:470
TCH:480~14880, step:480; SDCCH:470~14570, step:470
TCH:480~14880, step:480; SDCCH:470~14570, step:470
TCH:480~14880, step:480; SDCCH:470~14570, step:470
TCH:480~14880, step:480; SDCCH:470~14570, step:470
0~63
0~255
0~255
0~255
0~63
0~255
0~63
0~255
0~63
0~255
10~255
0~255
0~8
0~255
1~20
1~2001~200
0~255
0~63
0~63
0~63
-64~63
PRIOR-1, PRIOR-2, PRIOR-3, PRIOR-4, PRIOR-5, PRIOR-6, PRIOR-7, PRIOR-8, PRIOR-9, PRIOR-10, PRIOR-11
1, 2, 3, 4
NO, YES
0, 8~11
0~100
0~100
NO, YES
0~63
0~63
-64~63
NO, YES
0~70
0~64
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NO, YES
0~255
NO, YES
0~70
0~70
0~70
0~700~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
0~70
NO, YES
0~70
0~70
0~70
0~70
0~70
0~70
-64~63
-64~63
NO, YES
NO, YES
NO, YES0~100
0~63
0~63
NO, YES
1~255
0~63
0~63
NO, YES
0~100
0~100
NO, YES
1~255
0~63
1~255
0~63
1~255
1~255
NO, YES
0, 8~11
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0~100
0~100
0~63
1~255
1~63
NO, YES
0~630~63
0.5~16
0.5~16
-64~63
0.5~16
0.5~16
NO, YES
1~10
1~10
0~255
NO, YES
-64~63
0.5~16
0.5~16
0~63
0~63
NO, YES
-64~63
-64~63
0.5~16
0.5~16NO, YES
NO, YES
NO, YES
NO, YES
NO, YES
NO, YES
0~63
0~63
0~70
0~255
0~255
0.5~16
0.5~16
SysOpt, OSubcell, USubcell, NoPrefer
0~63
0~255
NO, YES
NO, YES
0~63
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0~63
NO, YES
NO, YES
NO, YES
NO, YES
NO, YES
0~700~255
0~255
0.5~16
0.5~16
0~63
0~63
NO, YES
1~255
1~63
SysOpt, OSubcell, USubcell, NoPrefer
OSubcell, USubcell, NoPrefer
NO, YES
NO, YES
0~39
0~39
OFF, ON
0~99
0.5~16
0.5~16
NO, YES
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Default Value
BSC_Preprocessing
NO
YES
Once_ps
4
44
2
2
4
4
30
5
10
255
63
10
63
30
30
40
40
10
3
10
3
206
10
0
10
0
68
PRIOR-1
3
NO
10
90
80
NO
25
2
67
NO
50
8
-
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YES
255
YES
60
50
49
4847
46
45
44
43
42
41
40
5
YES
55
55
60
60
55
55
68
69
NO
YES
NO50
10
2
NO
10
5
25
YES
80
90
YES
5
5
1
30
5
4
NO
10
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90
80
25
10
5
YES
1020
6
4
68
6
4
NO
3
2
15
YES
67
6
4
25
2
YES
68
68
6
4NO
YES
YES
YES
NO
NO
30
5
60
63
0
10
8
SysOpt
35
63
NO
NO
10
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2
YES
YES
YES
NO
NO
6063
0
10
8
20
35
NO
5
5
SysOpt
Usubcell
NO
YES
25
12
ON
55
10
8
NO
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Recommended Value
None
NO
YES
Once_ps
4
44
2
2
4
4
30
5
10
255
63
10
63
30
30
40
40
10
3
10
3
206
10
0
10
0
In densely populated urban areas, the recommended value is 68; in the suburbs, the recommended value is 72.
None
3
NO
10
90
80
NO
25
2
67
NO
50
8
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YES
255
YES
60
50
49
4847
46
45
44
43
42
41
40
5
YES
55
55
60
60
55
55
In densely populated urban areas, the recommended value is 68; in the suburbs, the recommended value is 72.
69
NO
YES
NO50
10
2
NO
10
5
25
YES
80
90
YES
5
5
1
30
5
4
NO
10
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90
80
If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1, the recommended value of
If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1, the recommended value of
If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1, the recommended value of
YES
10The recommended value is 20 when HUAWEI I Handover is used;The recommended value is 15 when HUAWEI II
6
4
In densely populated urban areas, the recommended value is 68; in the suburbs, the recommended value is 72.
6
4
Set this parameter to YES only in special scenarios such as highways.
3
2
15
YES
67
6
4
25
2
YES
In densely populated urban areas, the recommended value is 68; in the suburbs, the recommended value is 72.
In densely populated urban areas, the recommended value is 68; in the suburbs, the recommended value is 72.
6
4NO
YES
YES
YES
NO
NO
30
5
60
63
0
10
8
SysOpt
35
63
NO
NO
10
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2
YES
YES
YES
NO
NO
6063
0
10
8
20
35
NO
5
5
SysOpt
Usubcell
In the hot-spot areas, densely populated urban areas, urban areas, suburbs, and rural areas, the recommended val
YES
25
12
ON
55
10
8
NO
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Parameter Relationship
If the value of this parameter is BSC_Preprocessing, the pre-processing is performed on the BSC. In this case, the f
This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_Preprocessing. This parameter must be
This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_PreprocessingN.
This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_Preprocessing.
None
NoneNone
None
None
None
None
None
None
None
None
None
None
None
None
None
None
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
None
NoneThis parameter, together with "BANTIME", limits the handover frequency in the cell.
None
None
None
This parameter is based on "HOCDCMINDWPWR" and "HOCDCMINUPPWR". Different offset can be set for differ
When "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1(Handover algorithm I),
None
None
None
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
For a 2G external cell, this parameter is valid only when "OutBscLoadHoEn" in "SET GCELLHOAD " is set to YES.F
None
None
None
Inter-layer HO threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis".Inter-layer HO t
None
This parameter is valid only when "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES.
This parameter is valid only when "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES.
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None
This parameter is valid only when "TAHOEN" in "SET GCELLHOBASIC" is set to YES.
None
None
None
None
NoneNone
None
None
None
None
None
None
None
None
None
This parameter is valid only when "BQHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "BQHOEN" in "SET GCELLHOBASIC" is set to YES and "NODLMRHOEN" in "S
None
None
None
None
When "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1(Handover algorithm I),
None
None
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met
This parameter is valid only when "ATCBHoSwitch" is set to OPEN, "IUOTP" is set to EDB_cell, or "TIGHTBCCHS
This parameter is valid only when "ATCBHoSwitch" is set to OPEN, "IUOTP" is set to EDB_cell, or "TIGHTBCCHS
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "INNLOADHOEN" is set to YES.
This parameter is valid only when "INNLOADHOEN" is set to YES.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "OUTLOADHOENABLE" is set to YES.
This parameter is valid only when "OUTLOADHOENABLE" is set to YES and "IUOTP" in "ADD GCELL" is set to ED
This parameter is valid only when "OUTLOADHOENABLE" is set to YES.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met
None
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
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This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
For a 2G external cell, this parameter is valid only when "OutBscLoadHoEn" in "SET GCELLHOAD " is set to YES.F
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.If "Current HO Control Alg
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.If "Current HO Control Alg
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES. The value of this parame
None
This parameter is valid when "FRINGEHOEN" is set to YES or "RXQCKFALLHOEN" is set to YES.This parameter is valid when "FRINGEHOEN" is set to YES or "LOADHOEN" is set to YES.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "FRINGEHOEN" is set to YE
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "FRINGEHOEN" is set to YE
When "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1(Handover algorithm I),
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "FRINGEHOEN" is set to YE
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "FRINGEHOEN" is set to YE
None
This parameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition
This parameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition
This parameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
Inter-layer HO threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis".Inter-layer HO t
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "LEVHOEN" is set to YES. T
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "LEVHOEN" is set to YES. T
None
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
When "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1(Handover algorithm I),
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "PBGTHOEN" is set to YES.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "PBGTHOEN" is set to YES.None
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "ENIUO" is set to OFF.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "ENIUO" is set to OFF.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. The following condition must
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
The following condition must be met: "IUOHOSTATIME" >= "IUOHODURATIME".
The following condition must be met: "IUOHOSTATIME" >= "IUOHODURATIME".
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "OPTILAYER" is set to Sy
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "OPTILAYER" is set to Sy
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" is set to Concentric_cell.
This parameter is valid only when "ATCBHoSwitch" is set to OPEN, "IUOTP" is set to EDB_cell, or "TIGHTBCCHS
-
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This parameter is valid only when "ATCBHoSwitch" is set to OPEN, "IUOTP" is set to EDB_cell, or "TIGHTBCCHS
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. The following condition must
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
The following condition must be met: "IUOHOSTATIME" >= "IUOHODURATIME".
The following condition must be met: "IUOHOSTATIME" >= "IUOHODURATIME".
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is se
None
None
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is se
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is se
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Caution
This parameter can be set to BTS_Preprocessing only when the BTS supports the configured power control algorith
None
If "MR.Preprocessing" is set to BTS_Preprocessing and this parameter is set to NO, the uplink-downlink balance as
1. When "Sent Freq.of preprocessed MR" is set to NOreport(Do not report), the BTS does not send MRs to the BSC
Because the measurement reports may not always be correctly decoded when the quality of a serving cell is poor, h
NoneNone
None
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Each layer has 16 priorities, numbered 1-16 respectively. If the number of the priority is small, the priority is high. Th
None
None
None
None
None
None
Set this parameter properly to ensure that hierarchical handover and load-based handover can function properly. Du
None
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None
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None
None
None
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter isThis parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
This parameter is used in handover decision. An uplink interference handover is easily triggered if this parameter is
For AMR calls, this parameter, together with "Interfere HO Qual Thresh n for Non-AMR FR", is used in interference
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None
None
The setting of this parameter affects the triggering of a handover for poor quality in an AMR full rate call. The smalle
The setting of this parameter affects the triggering of BQ(Bad Quality) handover of AMR FR calls. If it is set to a sm
The setting of this parameter affects the triggering of a handover for poor quality in an AMR half rate call. The small
The setting of this parameter affects the triggering of BQ handover of AMR HR calls. If it is set to a smaller value, th
None
When the M900/M1800 BSC is upgraded to BSC6000, this parameter needs to be set to 69. If this parameter is not
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None
None
If the value of "Current HO Control Algorithm" in "SET GCELLHOBASIC" is changed, the value of this parameter is
If the value of "Current HO Control Algorithm" in "SET GCELLHOBASIC" is changed, the value of this parameter is
If the value of "Current HO Control Algorithm" in "SET GCELLHOBASIC" is changed, the value of this parameter is
None
NoneNone
None
None
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None
None
None
None
None
None
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None
Set this parameter properly to ensure that hierarchical handover and load-based handover can function properly. Du
None
None
None
None
None
NoneNone
None
None
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None
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None
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Impact on Radio Network Performance
If this parameter is set to BTS_Preprocessing, signaling on the Abis interface and BSC load are decreased, thus en
None
None
When "Sent Freq.of preprocessed MR" is set to NOreport(Do not report), the BTS does not send MRs to the BSC a
None
NoneNone
None
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None
If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If thi
If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If thi
If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If thi
If this parameter is set to a greater value, the target cell for the previous handover will not be selected for the next h
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading t
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading t
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading t
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading t
If this parameter is set to a greater value, the handover to micro cells becomes difficult, and congestion may occur i
If this parameter is set to a greater value, the handover to micro cells becomes difficult, and congestion may occur i
If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a
If this parameter is set to a greater value, call drop rate may be increased and congestion may occur in the overlaid
None
If this parameter is set to a greater value, congestion may occur in the underlaid subcell.If this parameter is set to a
If this parameter is set to a smaller value, call drops may occur or voice quality may be decreased due to delayed ha
NoneIf this parameter is set to a smaller value, handovers may be performed frequently; if this parameter is set to a great
If this parameter is set to a greater value, cell congestion may be difficult to be relieved, thus affecting the traffic volu
You are advised to use the default value 0 for this parameter.
This parameter limits the number of candidate cells. If this parameter is set to a greater value, some desired cells m
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If this parameter is set to a too small value, the corresponding cell may reject some handover requests; thus the tra
None
None
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None
The handover decision is allowed only when the uplink receive quality is greater than or equal to the value of this par
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None
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If