Network Parameters & KPIs
Sl No
PARAMETER/KPI
Radio Network Capacity 1 2 3 4 5 6 7 8
Total BSC Total Sites -Commercial on Air sites Outdoor sites Indoor Sites IBS Total Cells -Active Cells -(BBH) Total TRX's -Active TRX (BBH) Equipped Radio Network Capacity (Erlangs)
SUBSCRIBERS DATA 9 10 11 12
Registered Post-paid Sub Registered Pre-paid Sub Total Subscribers in HLR MoU
Switch
13
VLR
14
In-Roamers
MSC
15
Calls
MSC
16
MoU
17
Processor Load (Peak Hour)
18
PSR
19
BHCA (designed Capacity)
20
BHCA (Peak Hour) Roamers (at NBH)
21 22
In-Roamers (National) In-Roamers (International)
23 24 25 26
In-Roamers (Total) Out-Roamers (National) Out-Roamers (International) Out-Roamers (Total)
Switching Network Usage 27 Network Busy Hour - Start Time
28 29
NBH Traffic (Erl) -Switch Switch BHCA
30
Prepaid BHCA
Radio Network Usage
31
BBH Traffic Full Rate (Erlangs)
32
BBH Traffic Half Rate (Erlangs)
33
BBH AMR Traffic Full Rate (Erlangs)
34
BBH AMR Traffic Half Rate (Erlangs)
35
Total BBH Traffic Erlangs
36
NBH Traffic Full Rate (Erlangs)
37
NBH Traffic Half Rate (Erlangs)
38
NBH Traffic AMR Full Rate (Erlangs)
39
NBH Traffic AMR Half Rate (Erlangs)
40
Total NBH Traffic Erlangs
VOICE KPIs Network Availability
41
Core Network Availability
42
Radio Network Availability (coustomer perceived)
43 44
MSC Utilisation Radio Network Utilization (during BBH)
45
Cells having utilization >90%
46
Cells having utilization <20%
Network Capacity Utilization
Network Accessibility Core Network Accessibility
47
SCR
48
PSR
Radio Network Accessibility (NBH)
49
RASR
50
SDCCH Blocking
51
SDCCH Drop
52
TCH Blocking (User Perceived)
53
TCH ASR
Network Wide Retainability (NBH)
54
TCH Drop
55
HOSR
Cell Wise Accessibility(BBH)
56
RASR
57
SDCCH Blocking
58
SDCCH Drop
59
TCH Blocking
60
TCH ASR
Cell Wise Retainability(BBH)
61
TCH Drop
62
HOSR
Voice Quality
63
% of cells having SQI samples between 22-30 samples
64
% of cells having Good Rx Quality Samples (0-5) samples
Radio Network KPIs (NBH)
65
Erlang Minutes Per Drop
Radio Network KPIs (24 hrs)
66
Erlang Minutes Per Drop
DATA KPIs (To be reported PLMN wise)
67
Data Network Availability(GGSN,SGSN)
Data Network Accessibility
68
Attach Success Rate
69
PDP context activation success rate
70
Peak Attached Subscribers Data Network Accessibility
71
% of cells with Hard UL PDTCH Blocking
72
% of cells with Soft DL PDTCH Blocking
Data Retainability
73
%age of TBF dropped
74
%age of Cells having TBF drop
Data Quality GPRS Data Quality 75
Round Trip Time (captured once a week)
76
Average UL throughput per TBF
77
Average DL throughput per TBF
EDGE Data Quality 78
Round Trip Time (captured once a week)
79
Average UL throughput per TBF
80
Average DL throughput per TBF
Other Data KPIs 81
Total volume of data downloaded in 24 Hrs(in MB)- cell level from OSS
82
Total volume of data downloaded in 24 Hrs(in MB)- SGSN
82
Gn Link Utilisation (%)
83
Gn Link Equipped Capacity in Mbps SGSN
84
SGSN Attached Capacity available (for circles having SGSN)
85
SGSN Capacity in Use(%)
86
Total Attached subscribers/day on SGSN
87
Peak attached subscribers
88
Total Concurrent PDP sessions on SGSN(PDP Peak hour)
89
Throughput of SGSN(PDP Peak hour)
90
SGSN PDP Successful Activations per day
91
SGSN Total PDP Activation Attempts per day GGSN
92
GGSN PDP Successful Activations per day
93
GGSN Total PDP Activation Attempts per day CUSTOMER SATISFACTION KPIs Customer Satisfaction Index
94
No. of Complaints per 1000 Subscribers
95
% of Complaints resolved within Service Level Agreements(SLA)
96
CAR
97 98 99 100 101 102 103 104
IN KPIs IN Capacity Utilization IN Prepaid Equipped BHCA IN Used BHCA Peak BHCA utilisation of SDP Peak Processor Load of SCP SDP Load Regulation (%) Number of Service Classes in IN IVR Accessibility IVR Call Success Rate IVR Blocking
NETWORK OUTAGE
105 Total Cell Outage (Minutes)
106
Planned Cell Outage (Minutes)
107 108
Unplanned Cell Outage (Minutes) Total Cell Available Time (Minutes)
109 Network Availability (Excluding Planned)
110 111
Core NE Availability VAS Availability
KEY PLANNING PARAMETERS - NBH 112 113 114 115
VLR Attached/HLR Reg mE/Sub RF BBH/Switch NBH Radio NW Util
116
Switch BHCA Utilization
117 118 119
BHCA/Sub Erlang / Site Erlang / Trx
120 121 122 123
No.of Locked Sites No. of Locked Cells No.of Locked TRX's Equipped Radio Network Capacity (Locked)
Locked Sites Details
124
Total Equipped Radio Network Capacity (Active + Locked)
SMS Usage 125 126 127 128 129 130 131
SMSC Capacity (Msg/Sec) No. Of MO SMS No. OF MT SMS (Switch) No. of Mob to Appl SMS No. of Application to Mobile SMS SMS Delivered during Busy Hour Bulk SMS
Sites Carrying <100 Erlang/Day Total Traffic (24 Hrs Traffic) 132
No of Sites carrying <100 Erlang/Day Total Traffic(Excluding IBS)
133
134
135 136 137
Total No Of New Town Sites launched No of of new town sites carrying < 100 Erlang/Per Traffic (i.e 24 Hrs Trafficradio) TRAI Parameter Total no. of BTSs in the licensed service area
140 141 142
Sum of downtime of BTSs in a month in hours Accumulated i.e. total outage time of all BTSs in BTSs downtime (not available for service) No. of BTSs (%age) having accumulated downtime of >24 hours in a month Worst affected BTSs due to downtime (%age) Call Set-up Success Rate (within licensee's Total No Cells with TCH Drop > 3% own network) % of cells with drop >3%
143
%age of connection with good voice quality
138 139
Description
Count of BSc/RBSC Nodes Total no of sites No of outdoor sites -Manual-Count of BTS which are not in a shelter. Count of sites( BTSSolution in shelter)-Manual Of Indoor IBS (In-Buliding sites)-Site that serves as a InBuilding Solution Site). Count of Cells-Active Cells- All thoes cells that have been defined in OSS & are Active.
Source
On commissioning of new BSC in network Operations/planning team to inform Quality team in circle Total= 3+4+5 Manual Manual Manual OSS
No of TRX's (Active) - TRX's of all the active cells.
OSS
Designed Radio Capacity-Voice TCH,has to be looked up in Erlang B Table to arrive at the equiped capacity in Erlangs.
Excel Formula
No Of Registered Post Paid subscribers No of Registered Pre-Paid Subscribers Total No Of HLR Subscribers
OSS
Minutes of Usage :- Total MoU = Orig Mou+Term MoU+Internal MOU
CDR
Vistor Location Register:-Network Peak hour Average no of VLR Registered sub of a network,(HPLMN+ VPLMN),ie subcribers includes in-roamers also.Registered sub - sub who are in the state of idle,busy,detached,& implicit detached.- To be measured at the end of NBH.
No Of in-Roamers during busy Hour ( i.e at the same time when VLR incl-Inroamers is being measured.)
OSS
These are all Answered Calls. Minutes of Usage :- Total MoU = Orig Mou+Term MoU+Internal MOU
Average for 30 Min and peak value of 24Hrs.(peak of 48 values) Paging Success Rate-24Hrs
OSS
Busy Hour Call Attempt (Designed Call Attempt Capacity ) Actual Busy Hour Call Attempt
OSS
No Of In-roamers -National No Of In-roamers-International
Switch Switch
Total No of In-roamers No of out-roamers - National No of Out-roamers - Inter-National Total No Of Out-Roamers
21+22 Switch Switch 24+25
Start Time when max when traffic has been carried by network
A-interface Traffic Switch - Busy Hour Call attempt
OSS
Prepaid Busy Hour Call attempt
Bouncing Busy Hour Full Rate Traffic Bouncing Busy Hour Half Rate Traffic
Bouncing Busy Hour Adaptive Multirate Full Rate Traffic
OSS
Bouncing Busy Hour Adaptive multirate Half Rate Traffic
Total Bouncing Busy Hour Traffic Network Busy Hour Full Rate Traffic Network Busy Hour Half Rate Traffic Network Busy Hour Adaptive Multirate Traffic Network Busy Hour Traffic Adaptive Multirate Half Rate traffic
Total Network Busy Hour Traffic
Core network would include -MSC,GMSC,MGW,BSC form core NW
OSS
Radio Network Availability would Include- BTS MSc Utillization is the switch utillization at circle level Radio Network Utillization condering carried traffic BBH Traffic at circle level
Formula Formula
Count of cells having utillization > 90% at bouncing busy hour (BBH).
OSS
Count of cells having utillization < 20% at bouncing busy hour (BBH).
OSS
Successful Call Rate at circle level i.e average of all the switches
OSS
Paging Successl Rate at circle level i.e average of all the switches
OSS
Random Access Success Rate- to be calculated in the network Busy Hour
Standalone dedicated channel Blocking- To be calculated in the network busy hour
Standalone dedicated channel Drop- To be calculated in the network busy hour
OSS
Traffic channel Blocking - To be cacluted in the network busy hour
Traffic channel assignment Success Rate
OSS Traffic channel Drop
Hand Over Success Rate
Random Access Success Rate- to be calculated in the bouncing busy hour
Standalone dedicated channel Blocking- To be calculated in the bouncing busy hour
OSS Standalone dedicated channel Drop- To be calculated in the Bouncing busy hour
Traffic channel Blocking - To be cacluted in the Bouncing busy hour
Trffic Channel Assignment Success Rate - To be calculated in The bouncing Busy Hour
OSS Traffic chanel Drop
OSS
Handover Success Rate
SQI- Speech Quality Index
OSS
% Of cells having good receive quallity samples (0-5) - To be measured at bouncing busy hour
Erlang Minute per Drop to be calculated in Network busy hour
OSS
Erlang Minute per Drop to be calculated for 24hrs
OSS
Availability of data network - it would include availability of GGSN,SGSN nodes
GGSN/SGSN
Delhi OSS for all circle except Ker,AP,ORS,TNC,WB which would be from AP OSS
Delhi OSS for all circle except Ker,AP,ORS,TNC,WB which would be from AP OSS
Delhi OSS for all circle except Ker,AP,ORS,TNC,WB which would be from AP OSS
Delhi OSS for all circle except Ker,AP,ORS,TNC,WB which would be from AP OSS
Delhi OSS for all circle except Ker,AP,ORS,TNC,WB which would be from AP OSS
TBF-Temporary Block Flow Drop measured during network busy hour (i.e NBH)
OSS
TBF-Temporary Block Flow Drop measured during bouncing busy Hour (I.e BBH)
OSS
Manually Entered
Uplink throughput per Temperorary block flow-GPRS
OSS
Downlink throughput per Temperoray block flow-GPRS
Manually Entered
Uplink throughput per temperoray block flow - EDGE
OSS
OSS
Downlink throughput per Temperoray block flow-EDGE
Total Data downloaded in (Mb) during 24Hrs
Delhi OSS for all circle except Ker,AP,ORS,TNC,WB which would be from AP OSS
Total Data downloaded in (Mb) during 24Hrs
Link Utillization
Designed Gn Link Capacity
Serving GPRS Support Node (SGSN) Attached Capacity available (for circles having SGSN) Capacity in use -Serving GPRS support node (SGSN) Total No of attached Subscribers -Serving GPRS Support node (SGSN) No of Peak attached Subscribers
Delhi OSS for all circle except Ker,AP,ORS,TNC,WB which would be from AP OSS
Maunaly
Maunaly
No of concurrent Packet data Protocol sessions
Throughput of Serving GPRS Support Node (SGSN) Serving GPRS Support Node (SGSN) Packet data protocaol (PDP) Successful Activation per day Total no of Packet data protocol activation attempts. Gateway GPRS suport node (GGSN) PDP Succesful activation per day Gateway GPRS suport node (GGSN) PDP activation attempts per day
Total No of complaints per 1000 Subscribers (i.e (100* Vlr sub (Incl-In-roamers)/Total No Of complaints
% of complaints resolved within SLA= (No of complaints resolved within SLA)/(Total No of complaints)*100
Manually Entered
(Customer Assessment on Resolution
Manual Static data Text dump file from IN Formula Text dump file from IN Text dump file from IN Manual
Total Cell Outage/downtime in minutes
OSS
Planned Cell downtime minutes
Unplanned Cell downtime in minutes Avaiable cell minutes
OSS
Percentage Network availability- excluding planned. Percentage Core network availability includes MSC,MSS,GMSC,BSC,RBSC Percentage VAS network availability
VlR including inroamers to HLR Regestered (Pre+Ppost Paid) Subscribers (Switch NBH/VLR Attached Subscribers Ratio of Radio Traffic to Switch traffic Radio network Utillization in percentage
Formula
Switch Busy hour call attempt utillization to be measured at busy hour Busy hour call attempt to VLR ratio
Carried Radio traffic to Total No of Site Ratio Carried Radio traffic to Total No of TRX Ratio Count of Locked sites Count of Locked Cells Count of Locked TRX
Designed radio Capacity of Locked TRX's
Manualy
Designed Capacity radio
Formula
Total Short messaging service center (SMSC) Capacity measured in messages per sec Total No of mobile originated SMS per day Total No of mobile terminated SMS Per day
SMSC Total No of mobile originated Application terminated SMS Total No of Aplication originated mobile terminated SMS Total No of SMS delivered during busy hour Total No of Bulk SMS
affic) Total no of sites carrying radio traffic <100 Erlang (Excl-IBS)
OSS
New town sites are thoes sites which have been launched where there is no coverage with a span of a year (to keep 3mnths as stablization period).eg for the month Sept'09 the period for new town sites would be from June'08-May'09 Out of the new town sites no of sites carrying total traffic <100 Erlang
Count of cells with TCH drop >3% to be measured at BBH (Count of cells with drop >3%)/Total No of cells *100
FORMULAE for Ericsson Counters
OSS Table NAME In database
NA NA NA NA NA Count of Field name C_TAVAC where C_TAVAC > 0
Manualy Manualy Manualy Manualy Manualy
(C_TAVAC+(C_CAVAACC/8)+1)/8
Cell_Main_Peak
(C_TAVAC+(C_CAVAACC/8)+1)ALLPDCHACC/ALLPDCHSCAN
Cell_Main_Peak
TOTSUB
SYSTEM_HLR_DATA
ATTSUB
VLR_DATA
Cell_Main_Peak
Manualy from Switch MIS
Manualy from Switch MIS
Manualy from Switch MIS
PROCLOAD
MSC_DATA
(NPAG1RESUCC+NPAG2RESUC C)/NPAG1LOTOT
MSC_DATA Manualy Manualy from Switch MIS
Manualy from Switch MIS Manualy from Switch MIS
Manualy from Switch MIS Manualy from Switch MIS Manualy from Switch MIS Manualy from Switch MIS
Mention time by :-Select Max traffic(TFTRALACC/TFNSCAN + THTRALACC/THNSCAN) GROUP BY TIME. TRAFFIC
ROUTE_DATA- is the name of the table & TRAFFIC is the counter. Manualy from Switch MIS
Manualy from IN sms
TFTRALACC/TFNSCAN
CELL_MAIN_PEAK & CELL_HRis the name of the table
THTRALACC/THNSCAN
CELL_HR- table name
TFV3TRALACC/TFV3NSCAN
CLTCHFV3 (csddb database)
THV3TRALACC/THV3NSCAN
CLTCHHV3 (csddb database)
(TFTRALACC/TFNSCAN) + (THTRALACC/THNSCAN)
CLTCHFV3 (csddb database)+CLTCHHV3 (csddb database) CELL_MAIN & CELL_HR
CELL_HR Respective formula as mentioned above but only the time is during NBH TFTRALACC/TFNSCAN + THTRALACC/THNSCAN Table CELL_MAIN
100 * ( 24 * 60 * Total No of Nodes – Summation of Downtime of Nodes in min) / ( 24 * 60 * Total No of Nodes in
100 * (24 * 60 * Total No of BTS – Summation of Downtime of BTS in min) / (24 * 60 * Total No of
(Switch BH Traffic(Erls) / Switch Capacity (Erls))*100 Total Traffic carried during BBH (Cell Busy Hour)/Equipped Radio capacity in Erlan
(NBANS + NABEFA1 + NABEFA2 + NCAWNOA + NTOBEFA + NBOUT + NBBUSY) / NCALLS Using MP scheduling in MSC
(NPAG1RESUCC+NPAG2RESUC C)/NPAG1LOTOT
MSC_Data
100 *((CNROCNT)/(CNROCNT + RAACCFA+ PDRAC))
CELL_MAIN & CELL_GPRS is the Table Name
100 * ( CCONGS/CCALLS)
CELL_MAIN- Table name
100 * (CNDROP CNRELCONG)/CMESTAB
CELL_MAIN- Table Name.
100 * (CNRELCONG + TNRELCONG) / TASSALL
CELL_MAIN- Table Name.
CELL_MAIN- Table Name
100 * (TCASSALL)/ (TASSALL)
CELL_MAIN-Table Name
100 * TNDROP/TCASSALL
100 * ((HOVERSUC )/ HOVERCNT))
CELL_HO_Table Name
100 * (1 - RAACCFA/(CNROCNT + CELL_MAIN_PEAK & RAACCFA + PDRAC)) CELL_GPRS - Table Name
CELL_MAIN_PEAK - Table Name 100 * ( CCONGS/CCALLS)
100 * (CNDROP CNRELCONG)/CMESTAB 100 * (CNRELCONG + TNRELCONG) / TASSALL
CELL_MAIN_PEAK - Table Name
CELL_MAIN_PEAK - Table Name
100 * [TCASSALL(SUMIABSUCC+SUMIAWSUCC)+( CELL_MAIN_PEAK& CELL_HO SUMOABSUCC+SUMOAWSUCC)] Table Name / (TASSALL)-
CELL_MAIN_PEAK & CELL_HO Table Name
100 * TNDROP/((TCASSALL + (SUMIHOSUCC-SUMIABSUCCSUMIAWSUCC)-(SUMOHOSUCCSUMOABSUCC-SUMOAWSUCC))
100 * (SUMOHOSUCC + SUMEOHOSUCC)/(SUMOHOATT + SUMEOHOATT)
CELL_HO - Table Name
100 * (TSQUIGOOD/SQI_TOT)
CELL_MAIN- Table Name
(QUAL00UL + QUAL10UL + QUAL20UL + QUAL30UL + QUAL40UL + QUAL50UL) / (QUAL00UL + QUAL10UL + QUAL20UL + QUAL30UL + QUAL40UL + QUAL50UL + QUAL60UL + QUAL70UL)
CELL_RXQUAL- Table Name
(PERLEN * TTRALACC)/(TNDROP CELL_MAIN- Table Name * TFNSCAN)
(PERLEN * TTRALACC)/(TNDROP CELL_MAIN- Table Name * TFNSCAN)
100 * ( 24 * 60 * Total No of Nodes – Summation of Downtime of Nodes) / (24 * 60 * Total No of Nodes) where: Downtime = total unplanned Node outage in mins
Manually
100 * [1((gprsMmSgsnUnsuccAttReq Manually (From SGSN gprsMmSgsnUnsuccAttReqCC7/8/1 team_Pune) 4) / gprsMmSgsnAttReq)]
100 * gprsSmSgsnSuccActivations / Manually (From SGSN (gprsSmSgsnSuccActivations team_Pune) +gprsSmSgsnUnsuccActivations)
Peak_Attach_GB_users
rsg_ps_paus_papu_RAW
100 * PCHALLFAIL / PCHALLATT
CELL_GPRS-Table Name
100 * (4*(MUTIL44+ MUTIL45)+3*(MUTIL33+MUTIL34+ MUTIL35)+2*(MUTIL24+MUTIL23+ MUTIL22+ MUTIL25)+(MUTIL12+MUTIL13+M UTIL14+ MUTIL15)) / (5 * ( CELL_GPRS_EXT-Table Name MUTIL15 + MUTIL25 + MUTIL35 + MUTIL45 + MUTIL45) + 4 * ( MUTIL14 + MUTIL24 + MUTIL34 + MUTIL44 ) + 3 * ( MUTIL13 + MUTIL23 + MUTIL33 ) + 2 * ( MUTIL12 + MUTIL22 )
100*LDISRR/(DLBGGPFC+DLBGE GPFC) CELL_GPRS-Table Name
100*LDISRR/(DLBGGPFC+DLBGE GPFC) CELL_GPRS-Table Name
As per RTT process document
Manually
ULBGGTHR / ULBGGDATA
CELL_GPRS-Table Name
DLBGGTHR / DLBGGDATA
CELL_GPRS-Table Name
As per RTT process document
Manually
ULBGEGTHR / ULBGEGDATA
CELL_GPRS-Table Name
DLBGEGTHR / DLBGEGDATA
CELL_GPRS-Table Name
(DLSTRVOL+DLINTBGVOL)/(8*102 Cell_GPRS 4*PERLEN/60) max per bearer_id (8*(dlci_1_bytes_rec + dlci_2_bytes_rec + dlci_3_bytes_rec + dlci_4_bytes_rec + dlci_5_bytes_rec)/(period_duration* 60)) 100 * -------------------------------------------- % sum per frbc over all unlocked p_nbsc_frame_relay child nsvc (c_nsvc.committed_info_rate*16); frbc object_instance = bearer_id in p_nbsc_frame_relay Counters from table(s): p_nbsc_frame_relay Manually (From SGSN team_Pune)
Manually (From SGSN team_Pune) Manually (From SGSN team_Pune) Manually (From SGSN team_Pune) Manually (From SGSN team_Pune)
Manually (From SGSN team_Pune) Manually (From SGSN team_Pune) Manually (From SGSN team_Pune) Manually (From SGSN team_Pune) Manually (From SGSN team_Pune) Manually (From SGSN team_Pune)
( Total No.complaints for Network coverage and Connectivity related / Manually (From SDQ team) Total no. of VLR attached Sub ) * 1000 Total SLAs Met / (Total Service Request's(SR) Logged and valid Manually (From SDQ team) Open SR's or Invaild complaints ) %
SMS sent to customer after resolution of complaint-(SMS YES)/(SMS YES + SMS NO)
Manually (From SDQ team)
BDWNACC/6-Counter name
CELL_MAIN-In table Name
Manualy To be entered Unplanned downtime = Total Cell downtime(minutes)- Planned Downtime(in minutes) ( Total No of cells *24*60) (Total Cell available Minutes-Total Unplanned outage minutes)/(Total cell available minutes)*100
Manualy
Formula Manualy Manualy
Vlr subscribers/HLR Subscribers A-Interafce Traffic/Vlr Subscribers BBH Traffic/A-interface Traffic BBH Radio Traffic/Equiped Radio Capacity
Using formula Using formula Using formula
Switch BHCA BHCA/VLR (Including In-Roamers) Air-interface Traffic(NBH)/Site Air-Interface Tarffic(NBH)/TRX
Using formula Using formula Using formula Using formula
Using formula
Manually Manually Manually Using formula Designed Radio capacity of active TRX + Locked TRX
Using Formula
Manually From SMSC Report Manually From SMSC Report Manually from SMSC Report Manually From SMSC Report Manually From SMSC Report Manually From SMSC Report Manually From SMSC Report
Manually
Manually Manually
FORMULAE for Nokia Counters
NA NA NA NA NA count of field name (trf_102=Avg(decode,trx_type,0,ave_tch_busy_half))) Sum of field name (trf_102=Avg(decode,trx_type,0,ave_tch_busy_half)))
Table
Manualy Manualy Manualy Manualy Manualy P_nbsc_bsc_res_avail P_nbsc_bsc_res_avail
Using counter avg_busy_half & Erlang B Table.
P_nbsc_bsc_res_avail
sum(HLR_AVERAGENBROFSUBSCRIBERS)
RNS_P_VLRME_DEST4_hour
Average total (M80B2C5) Totalaverage
rns_ps_vlrnmsc_msc_hour
RSAVERAGE
NBH,field name in oss is
rns_ps_plmnv_plmnname1_hour
(Traffic Category.Succ_calls_tc with object Origination Outgoing) + (Traffic Category.Succ_calls_tc with object Terminating Incoming) + MSC_PS_CELLMSC_MSC_R (2x Traffic Category.Succ_calls_tc with object Internal)
(Cell.Ave_out_con x Traffic Category.Succ_calls_tc:Orig rns_ps_cellmsc_msc_hour outgoing)/60 + (Cell.Ave_inc_con x Traffic Category.Succ_calls_tc: Term incoming)/60 + (Cell.Ave_int_con x Traffic Category.Succ_calls_tc:Internal x 2)/60 since distributed proccessor is present for nokia so considere (max of (p.peak_degree) from table p_msc_computer_load p_msc_computer_load , for siemens processor load B to be reported.Load B is 100% of processor load.
p_msc_vlr or rns_pv_vlr1msc_msc_raw sum(succ_page)/sum(attempt_page)
(p.calls_in_signal + p.calls_in_ring + p.calls_in_speech from the table p_msc_cc_calls)
p_msc_cc_calls
RSAVERAGE where PLMNNAME_ID in (" & NATinroamer & ") 23-21
rns_ps_plmnv_plmnname1_hour
RSAVERAGE 26-25 sum(avgsubs) Sum(AVE_SUBSC_IN_VLR)
rns_ps_plmnv_plmnname1_hour HLR_AVERAGENBROFSUBSCRIBERS HLR_AVERAGENBROFSUBSCRIBERS
sum((CGRCGROUP_ERLANGS_IN_X_100)/100 + (CGRCGROUP_ERLANGS_OUT_X_100)/100),su rns_ps_cgr_cgrdir1_hour m(CGRCGROUP_NOF_CIRCUITS) TRP_NO_OF_BIDS_TOTAL
RNS_P_MSCTRAF_MSC_BH
NA
NA
FR Traffic = trf_1 - (trf_102+trf_117+trf_118)
p_nbsc_res_avail
trf_102=Avg(decode,trx_type,0,ave_tch_busy_half))
p_nbsc_res_avail
trf_117 = sum(nvl(AMR_FR_MODE_1_UL_RXQUAL_0,0)+ + nvl(AMR_FR_MODE_1_UL_RXQUAL_7,0) + nvl(AMR_FR_MODE_2_UL_RXQUAL_0,0)+ + nvl(AMR_FR_MODE_2_UL_RXQUAL_7,0) P_NBSC_RX_QUAL + nvl(AMR_FR_MODE_3_UL_RXQUAL_0,0)+ + nvl(AMR_FR_MODE_3_UL_RXQUAL_7,0) + nvl(AMR_FR_MODE_4_UL_RXQUAL_0,0)+ + nvl(AMR_FR_MODE_4_UL_RXQUAL_7,0)) * 0.48/3600 trf_118 = Sum(nvl(AMR_HR_MODE_1_UL_RXQUAL_0,0)+ + nvl(AMR_HR_MODE_1_UL_RXQUAL_7,0) + nvl(AMR_HR_MODE_2_UL_RXQUAL_0,0)+ + nvl(AMR_HR_MODE_2_UL_RXQUAL_7,0) + nvl(AMR_HR_MODE_3_UL_RXQUAL_0,0)+ + nvl(AMR_HR_MODE_3_UL_RXQUAL_7,0) + nvl(AMR_HR_MODE_4_UL_RXQUAL_0,0)+ + nvl(AMR_HR_MODE_4_UL_RXQUAL_6,0))*0.48/3600 trf_1 = sum(ave_busy_tch) -------------------------------------
P_NBSC_RX_QUAL
p_nbsc_res_avail sum(res_av_denom14) OR Take SUM of all BBH traffic
Same formulas to be used as mentined above but only the same need to be mentioned during BBH.
ation of Downtime of Nodes in min) / ( 24 * 60 * Total No of Nodes in Core network) where: Downtime = total outage of Core NW Nodes in
TS – Summation of Downtime of BTS in min) / (24 * 60 * Total No of BTS) where: Downtime = total unplanned BTS outage in mins
(Switch BH Traffic(Erls) / Switch Capacity (Erls))*100 rried during BBH (Cell Busy Hour)/Equipped Radio capacity in Erlangs
100 X (Total normal calls + subscriber failures) / Total Daily Call Attempts Total Normal calls:0000 -03FF; Subscriber Failures: 0C00 – FFFF ,817(Config), B32 (IN) :Internal Fail-040007FF:External Fail-0800-0BFF
p_msc_vlr
sum(succ_page)/sum(attempt_page) sum(a.ghost_ccch_res - a.rej_seiz_att_due_dist; illegal establ. cause + a.bcsu_overload_lower_limit + a.bcsu_overload_upper_limit + a.bcsu_overload_deleted_rach) 100-100 x -----------------------------------------------------------a= p_nbsc_res_access ---------- % b= p_nbsc_packet_control_unti sum(a.ch_req_msg_rec+b.packet_ch_req) All counters are from the Counters from table(s): a= p_nbsc_res_access b= p_nbsc_packet_control_unti
100 x (sum(SDCCH_busy_att tch_seiz_due_sdcch_con) - Successful FACCH Call setups) / sum(SDCCH_seiz_att)
p_nbsc_traffic
Counters from table(s): p_nbsc_traffic
{sum (sdcch_radio_fail + sdcch_rf_old_ho + sdcch_user_act + sdcch_bcsu_reset + sdcch_netw_act + sdcch_bts_fail + sdcch_lapd_fail )} 100 x -------------- p_nbsc_traffic -----------------------------------------------------------------------------------------{sum (sdcch_assign + sdcch_ho_seiz) - sum(sdcch_abis_fail_call +
sum(a.tch_call_req - a.tch_norm_seiz) - sum(b.msc_o_sdcch_tch + b.bsc_o_sdcch_tch + b.cell_sdcch_tch); DR(Directed Retry) calls + sum(a.tch_succ_seiz_for_dir_acc) ;ref.2 a=P_NBSC_TRAFFIC - sum(a.tch_rej_due_req_ch_a_if_crc ; Aif type b= P_NBSC_HO mismatch or congestion -(b.bsc_i_unsucc_a_int_circ_type ; Aif circuit pool handover failures + b.msc_controlled_in_ho
sum(a.ms_tch_succ_seiz_assign_cmplt)(Successf ul MS assign All calls)+ sum(b.msc_i_sdcch_tch+ a= P_NBSC_TRAFFIC b.bsc_i_sdcch_tch) (i.e. successful DR) b= P_NBSC_HO 100 x --------------------------------------------------------------------------------------------------------sum(a.tch_norm_seiz)(i.e tch seiz to normal calls)+sum(b.msc_I_sdcch_tch_at+ Drops after TCH assignment considering reestablishments 100 x ----------------------------------------------------------------------------------------- % = TCH assignments for new calls sum(spare057044 - tch_re_est_release) p_nbsc_service 100 x ----------------------------------- ------------------------------------ % sum(tch_new_call_assign) Counters from table(s): p_nbsc_service sum(a.msc_o_succ_ho + a.bsc_o_succ_ho + a.cell_succ_ho) ------------------------------------------------------------------------------------------- % sum(b.msc_o_ho_cmd + b.bsc_o_ho_cmd_assgn + b.bts_ho_assgn) Counters from table(s): a = p_nbsc_ho
a = p_nbsc_ho b = p_nbsc_traffic
sum(a.ghost_ccch_res - a.rej_seiz_att_due_dist; illegal establ. cause + a.bcsu_overload_lower_limit + a.bcsu_overload_upper_limit + a.bcsu_overload_deleted_rach) a= p_nbsc_res_access 100-100 x -----------------------------------------------------------b= p_nbsc_packet_control_unti ---------- % sum(a.ch_req_msg_rec+b.packet_ch_req)
100 x (sum(SDCCH_busy_att tch_seiz_due_sdcch_con) - Successful FACCH Call setups) / sum(SDCCH_seiz_att)
p_nbsc_traffic
Counters table(s): p_nbsc_traffic {sum from (sdcch_radio_fail + sdcch_rf_old_ho + sdcch_user_act + sdcch_bcsu_reset + sdcch_netw_act + sdcch_bts_fail + sdcch_lapd_fail ) } 100 x-------------------------------------------------------------------- p_nbsc_traffic --------------------------------------------------------{sum (sdcch_assign + sdcch_ho_seiz) sum(a.tch_call_req - a.tch_norm_seiz) - sum(b.msc_o_sdcch_tch + b.bsc_o_sdcch_tch + a= P_NBSC_TRAFFIC b.cell_sdcch_tch); DR calls b= P_NBSC_HO + sum(a.tch_succ_seiz_for_dir_acc) ;ref.2 - sum(a.tch_rej_due_req_ch_a_if_crc ; Aif type
sum(a.ms_tch_succ_seiz_assign_cmplt)(Successf a= P_NBSC_TRAFFIC ul MS assign All calls)+ sum(b.msc_i_sdcch_tch+ b= P_NBSC_HO b.bsc_i_sdcch_tch) (i.e. successful DR) Drops after TCH assignment considering reestablishments --------------------------------------------------------------------------------------------- % = TCH assignments for new calls+ ((sum(HOin)sum(HOout)) sum(spare057044 - tch_re_est_release) p_nbsc_service --------------------------------------- ------------------------------------ % (sum(tch_new_call_assign)+((sum(HOin)sum(HOout)) Counters from table(s): p_nbsc_service
sum(a.msc_o_succ_ho + a.bsc_o_succ_ho + a.cell_succ_ho) ------------------------------------------------------------------------------------------- % sum(b.msc_o_ho_cmd + b.bsc_o_ho_cmd_assgn + b.bts_ho_assgn) Counters from table(s): a = p_nbsc_ho b = p_nbsc_traffic
a = p_nbsc_ho b = p_nbsc_traffic
p_nbsc_rx_qual
sum(freq_ul_qual0 + ... + freq_ul_qual5) UL Quality = 100 * ----------------------------------------------------------- % sum(freq_ul_qual0 + ... + freq_ul_qual7) sum(freq_dl_qual0 + ... + freq_dl_qual5) DL Quality = 100 * ----------------------------------------------------------- % sum(freq_dl_qual0 + ... + freq_dl_qual7) Counters from table(s): p_nbsc_rx_qual
trf_1 * 60 --------------------------------------------- (Comment: Only for NBH) (spare57044 - tch_re_est_release)
trf_1 * 60 --------------------------------------------- (Comment: Total for 24 hrs) (spare57044 - tch_re_est_release)
100 * (24 * 60 * Total No of Nodes – Summation of Downtime of Nodes) / ( 24 * 60 * Total No of Nodes in Core network) where Downtime = total outage of Data NW Nodes in mins
100*(((SUCC_GPRS_ATTACH)+(FAIL_GPRS_ATTACH _SIM_NOT_PROV+FAIL_GPRS_ATTACH_ILLEGAL_M S+FAIL_GPRS_ATTACH_ILLEGAL_ME)+(FAIL_GPRS _ATTACH_NO_CELL_IN_LA+FAIL_GPRS_ATTACH_S ER_NA_PLMN+FAIL_GPRS_SER_NONSER_NA+GPR S_ATTACH_FAIL_PLMN_LA+GPRS_ATTACH_FAIL_L A_NA))) / ((((SUCC_GPRS_ATTACH)+(FAIL_GPRS_ATTACH_SI p_sgsn_mobility_management M_NOT_PROV+FAIL_GPRS_ATTACH_ILLEGAL_MS+ FAIL_GPRS_ATTACH_ILLEGAL_ME)+(FAIL_GPRS_A TTACH_NO_CELL_IN_LA+FAIL_GPRS_ATTACH_SER _NA_PLMN+FAIL_GPRS_SER_NONSER_NA+GPRS_ ATTACH_FAIL_PLMN_LA+GPRS_ATTACH_FAIL_LA_ NA)+(FAIL_GPRS_ATTACH_DUE_SGSN_ERR+FAIL_ GPRS_ATTACH_HLR_VLR_ERR)))) Table name: p_sgsn_mobility_management
100 -
( 100* (fail_mo_pdp_act_inv_pdp_actmsg + fail_mo_pdp_act_insuf_res+ fail_mo_pdp_act_unk_addr_type+ fail_mo_pdp_act_rej_unspec+ fail_mo_pdp_act_nsapi_used+ fail_mo_pdp_act_act_re_ggsn + fail_mo_pdp_context_act)) / ((succ_mo_pdp_context_act+ fail_mo_pdp_act_inv_pdp_actmsg+ fail_mo_pdp_act_insuf_res+ p_sgsn_mobility_management fail_mo_pdp_act_unk_addr_type+ fail_mo_pdp_act_rej_unspec+ fail_mo_pdp_act_nsapi_used+ fail_mo_pdp_act_act_re_ggsn+ fail_mo_pdp_context_act+ fail_mo_pdp_act_serv_opt_ns+ fail_mo_pdp_act_req_se_op_ns+ fail_mo_pdp_act_mis_unk_apn+ fail_mo_pdp_act_wrong_password)) Peak_Attach_GB_users rsg_ps_paus_papu_RAW
sum(NO_RADIO_RES_AVA_UL_TBF) 100 *-------------------------------------------------------------------------------------------------------sum(req_1_TSL_UL + req_2_TSL_UL + req_3_TSL_UL + req_4_TSL_UL p_nbsc_packet_control_unit + req_5_TSL_UL + req_6_TSL_UL + req_7_TSL_UL + req_8_TSL_UL) Counters from table(s): p_nbsc_packet_control_unit
alloc_1_TSL_DL+2*alloc_2_TSL_DL+3*alloc_3_TSL_DL p_nbsc_packet_control_unit +4*alloc_4_TSL_DL 1 - ----------------------------------------------------------------------------------------------------------------req_1_TSL_DL+2*req_2_TSL_DL+3*req_3_TSL_DL +4*req_4_TSL_DL
TBF establishments - Normal TBF releases releases due to flush - releases due to suspend 100 * -----------------------------------------------------------------------------------TBF establishments releases due to flush - releases due to suspend p_nbsc_packet_control_unit
p_nbsc_packet_control_unit
TBF establishments - Normal TBF releases releases due to flush - releases due to suspend 100 * -----------------------------------------------------------------------------------TBF establishments releases due to flush - releases due to suspend
As per RTT process document
((ALLOC_1_TSL_UL+2*ALLOC_2_TSL_UL+3*ALLOC_ 3_TSL_UL+4*ALLOC_4_TSL_UL)/(ALLOC_1_TSL_UL+ ALLOC_2_TSL_UL+ALLOC_3_TSL_UL+ALLOC_4_TSL _UL)) *((((RLC_DATA_BLOCKS_UL_CS1+RLC_MAC_CNTRL _BLOCKS_UL+BAD_FRAME_IND_UL_CS1)*20+(RLC_ DATA_BLOCKS_UL_CS2+BAD_FRAME_IND_UL_CS2) *30)/1000)*8)/ ((RLC_DATA_BLOCKS_UL_CS1+RLC_DATA_BLO CKS_UL_CS2+BAD_FRAME_IND_UL_CS1+BAD_FRA ME_IND_UL_CS2+RLC_MAC_CNTRL_BLOCKS_UL+I GNOR_RLC_DATA_BL_UL_DUE_BSN)/50) ((ALLOC_1_TSL_DL+2*ALLOC_2_TSL_DL+3*ALLOC_ 3_TSL_DL+4*ALLOC_4_TSL_DL)/ (ALLOC_1_TSL_DL+ALLOC_2_TSL_DL+ALLOC_3_TS L_DL+ALLOC_4_TSL_DL)) *((((RLC_DATA_BLOCKS_DL_CS1+RLC_MAC_CNTRL _BLOCKS_DL) *20+(RLC_DATA_BLOCKS_DL_ CS2)*30)/1000)*8)/ ((RLC_DATA_BLOCKS_DL_CS1+RLC_DATA_BLOCK S_DL_CS2+RETRA_RLC_ DATA_BLOCKS_DL_CS1+RETRA_RLC_DATA_BLOC KS_DL_CS2+RLC_MAC_CNTRL_BLOCKS_DL)/50)
a=p_nbsc_packet_control_unit & b=p_nbsc_coding_scheme
a=p_nbsc_packet_control_unit & b=p_nbsc_coding_scheme
As per RTT process document
a=p_nbsc_packet_control_unit & b=p_nbsc_coding_scheme
(A)Average No of UL TS/TBF * (B)UL Throughput(Kbps) /TS
a=p_nbsc_packet_control_unit & b=p_nbsc_coding_scheme
(A)Average No of DL TS/TBF * (B)DL Throughput(Kbps) /TS
gtp_data_in_bytes_sent_in_ul + gtp_data_in_bytes_sent_in_dl
ps_hdbsgs_papu_data_RAW
max per bearer_id (8*(dlci_1_bytes_rec + dlci_2_bytes_rec + dlci_3_bytes_rec + dlci_4_bytes_rec + dlci_5_bytes_rec)/(period_duration*60)) 100 * --------------------------------------------- % sum per frbc over all unlocked child nsvc (c_nsvc.committed_info_rate*16);
p_nbsc_frame_relay
frbc object_instance = bearer_id in p_nbsc_frame_relay Counters from table(s): p_nbsc_frame_relay
Equipped capacity of Gn links in Mbps
Total Concurrent PDP sessions on SGSN(PDP Peak hour) Peak GTP Bytes during 60 secs
( Total No.complaints for Network coverage and Connectivity related / Total no. of VLR attached Sub ) * 1000
Total SLAs Met / (Total Service Request's(SR) Logged and valid - Open SR's or Invaild complaints ) %
(SMS YES)/(SMS YES + SMS NO)
24*3600*(cancel_time-alarm_time)/60
fx_alarm,c_bts bt,objects bts, objects bcf, objects bsc where ALARM_NUMBER = 7767
FORMULAE for Huwei As per ORS
FORMULAE for ZTE V2 Table
Counters
Manualy Manualy Manualy Manualy Manualy R361
Count of field name "BTS"
S3656
C11607
K3015
C11607
VLR Subcscribers of Total
The subscriber number registered with the local VLR
VLR Subscriber of Roaming
Visitor subscriber number from other PLMNs
[A-IF ANSWER TIMES(I/C)]+[A-IF ANSWER TIMES(O/G)]
[A-IF ANSWER TIMES(I/C)]+[A-IF ANSWER TIMES(O/G)]
Times of Call Attempt
[Total Value of Ans time duration(I/C)+Total Value of Ans time duration(O/G)]/ 60
SUM of all BSCs (Incoming Answer Traffic(ERL) & Outgoing Answer Traffic(ERL)) * 60
Peak Seisure Ratio
CPU Occupying Ratio(%)
PSR = (Paging Response/Paging Requests) x 100% The total nos of raking requests is set to three - 2 TMSI based and 1 IMSI based
Times of Paging Response (sum of all LACs) / Times of Normal Paging (sum of all LACs)
(BHCA/Sub)*VLR Sub.
MANUAL
BHCA= (Originating call attempts times * 60 %+ Terminal calls*40%)
Times of Call Attempt
Sum of all MSCs "BHCA (Peak Hour)"
AR3551B - AR3551C
(C11616/3600-C116131/3600)
AR3552B - AR3552C
C116131/3600
AR3551C
Not Available
AR3552C
Not Available
K3014: CELL_KPI_TCH_TRAF_ERL_TRAF
SUM OF BBH FR + BBH HR
SUM OF NBH FR TRAFFIC SUM OF NBH HR TRAFFIC
Respective formula as mentioned above but only the time is during NBH SUM OF NBH FR + NBH HR
= total outage of Core NW Nodes in mins
Done Manually
planned BTS outage in mins
Done Manually
Manual Formula Manual Formula Manual Formula Manual Formula
Successful Paging Time
Times of Paging Response (sum of all LACs) / Times of Normal Paging (sum of all LACs)
RASR = (CA 301J + A 301 H)/ CA 300 J + A 300 H) x 100%
(C11626/C11625)*100
(K3001)/[K3000]*100
(C11604/CC11603)*100
(CM30)/(K3003)*{100}
C11605*100/(C11644)
(K3021+K3011A+K3011B)/[K3020+K3010A +K3010B)*{100}
(C11610)*100/(C11609)
(CA313/CA310)*100%
(C11657)*100/(C11657+C1165 8)
(CM33)/(K3013A+CH323+CH343 - CH313 CH333)
(C11615)*100/(C11657)
(CH313+CH333)/(CH311+CH331)
(C11669)*100/(C11668)
(C11626/C11625)*100
(C11604/CC11603)*100
Same as NBH
C11605*100/(C11644)
(C11610)*100/(C11609)
(C11657)*100/(C11657+C1165 8)
(C11615)*100/((C11657+(C116 18-C11669))
Same as NBH
Same as NBH
(C11669)*100/(C11668)
(NCS 412A + NCS412B + NCS 412C + NCS 412 D + NCS 412 E + NCS 412 F + NCS 414A + NCS414B + NCS 414C + NCS 414 D + NCS 414 E + NCS 414 F)/ (NCS 412A + NCS412B + NCS 412C + NCS 412 D + NCS 412 E + NCS 412 F NSC 412 G + NCS 412 H+
1. BSC 6000 2. MR Measurement 3. Receive Quality Measurement Distribution per TRX 4. NCS412A,NCS412B ,NCS412C,NCS412
(NCS 413A + NCS413B + NCS 413C + NCS 413 D + NCS 413 E + NCS 413 F + NCS 415A + NCS415B + NCS 415C + NCS 415 D + NCS 415 E + NCS 415 F)/ (NCS 413A + NCS413B + NCS 413C + NCS 413 D + NCS 413 E + NCS 413 F NSC 413 G + NCS 413 H+ NCS 415A + NCS415B + NCS 415C + NCS 415 D + NCS 415 E + NCS 415 F + NCS 415 G + NCS 415H) x 100%
1. BSC 6000 2. MR Measurement 3. Receive Quality Measurement Distribution per TRX 4. NCS413A,NCS413B ,NCS413C,NCS413 D, NCS413E, NCS413F, NCS413G, NCS413H, NCS415A, NCS415B, NCS415C, NCS415D, NCS415E, NCS415F, NCS415G, NCS415H
K3014: CELL_KPI_TCH_TRAF_ERL_TRAF / [CM337:Call Drops after Answer] *60
Uplink: (C116114+C116115+C116116 +C116117+C116118) * 100 / (C116114 +C116115+C116116+C116117 +C116118+ C116119 +C116120+C116121), Downlink: (C116122+C116123+C116124 +C116125+C116126+C116127 )* 100 / (C116122 +C116123+C116124+C116125 +C116126 +C116127 +C116128+C116129)
((C11616/3600)*60)/(C11615)
((C11616/3600)*60)/(C11615) Same as NBH
100 * (24 * 60 * Total No of Nodes – Summation of Downtime of Nodes) / ( 24 * 60 * Total No of Nodes in Core network) where Downtime = total outage of Data NW Nodes in mins
SGSN Mobility Management Measure Successful Attach/(Attempted attachFailure(Illegal MS,service not allowed, Network Failure, Invalid MS ID))*100
SGSN session Measure(GPRS RAW Col 17)/SGSN session Measure(GPRS RAW Col 28) Peak_Attach_GB_users
rsg_ps_paus_papu_ RAW SGSN user measure(GPRS RAW Col 52)
Same as that mentioned for BBH
UP LINK TBF Drop Rate: (A9006: UP_GPRS_TBF_ABNORM_REL_N310 1_OVERFLOW + A9007: UP_GPRS_TBF_ABNORM_REL_N310 3_OVERFLOW + A9206: UP_EGPRS_TBF_ABNORM_REL_N31 01_OVERFLOW + A9207: UP_EGPRS_TBF_ABNORM_REL_N31 03_OVERFLOW ) / (A9002: UP_GPRS_TBF_ESTABLISH_SUCC + A9202: UP_EGPRS_TBF_ESTB_SUCC ) *100 Down LINK TBF Drop Rate: (A9106: DOWN_GPRS_TBF_ABNORM_REL_ N3105_OVERFLOW + A9306: DOWN_EGPRS_TBF_ABNORM_REL_ N3105_OVERFLOW ) / (A9102: DOWN_GPRS_TBF_ESTB_SUCC + A9302: DOWN_EGPRS_TBF_ESTB_SUCC ) *100
Refer RTT procedure - Ping command given at actual site from data card to the router next to GGSN
UPLINK 1. BSC 6000 2. Packet Switch Call Measurement 3. Uplink GPRS TBF Establish and release capability measurement / Uplink EDGE TBF Establish and release capability measurement 4. A9006, A9007, A9002/ A9206, A9207,A9202 DOWNLINK 1. BSC 6000 2. Packet Switch Call Measurement 3. Downlink GPRS TBF Establish and release capability measurement / Downlink EDGE TBF Establish and release capability measurement 4. A9106, A9102/ A9306, A9302
C70096*100/C70043
Ping command to the nearest router on GGSN
1. BSC 6000 2. Packet Switch Call Measurement (L9002*23+L9003*34+L9004*40+L900 3. Uplink GPRS RLC data transfer 5*54)*8*1000/1024/A9014 capability measurement 4. L9002, L9003, L9004, L9005 NA 1. BSC 6000 2. Packet Switch Call Measurement (L9102*23+L9103*34+L9104*40+L910 3. Downlink GPRS RLC data transfer 5*54)*8*1000/1024/A9113 capability measurement 4. L9102, L9103, L9104, L9105
Refer RTT procedure - Ping command given at actual site from data card to the router next to GGSN 1. BSC 6000 2. Packet Switch Call Measurement 3. Uplink EDGE RLC (L9202*22+L9203*28+L9204*37+L920 data transfer 5*44+L9206*56+L9207*74+L9208*56+ capability L9209*68+L9210*74)*8*1000/1024/A92 measurement 4. L9202, L9203, 14 L9204, L9205 , L9206 , L9207, L9208, L9209, L9210
Ping command to the nearest router on GGSN
NA
1. BSC 6000 2. Packet Switch Call Measurement 3. Downlink EDGE (L9302*22+L9303*28+L9304*37+L930 RLC data transfer 5*44+L9306*56+L9307*74+L9308*56+ capability L9309*68+L9310*74)*8*1000/1024/A93 measurement 4. L9302, L9303, 13 L9304, L9305 , L9306 , L9307, L9308, L9309, L9310
SGSN Frame measure(Sent data)+SGSN Frame measure(Received Data)
L9506+L9403
max per bearer_id (8*(dlci_1_bytes_rec + dlci_2_bytes_rec + dlci_3_bytes_rec + dlci_4_bytes_rec + dlci_5_bytes_rec)/(period_duration*60)) 100 * --------------------------------------------- % sum per frbc over all unlocked child nsvc (c_nsvc.committed_info_rate*16);
NA
GG
p_nbsc_frame_relay
frbc object_instance = bearer_id in p_nbsc_frame_relay Counters from table(s): p_nbsc_frame_relay Capacity of Gn Link
Attached Capacity of SGSN SGSN Capacity/Peak Attached SGSN User Measure(Max number in ready state) SGSN user measure(GPRS RAW Col 52)Max Attach subscribers
SGSN Session Measure(Max PDP activated)(GPRS RAW 51) NBH SGSN GTP measure(Most Bytes uplink+most bytes downlink)
GGSN session measure(Successful PDP activations)(GPRS RAW col GGSN session measure(total PDP attempts)(GPRS RAW Col 28)
( Total No.complaints for Network coverage and Connectivity related / Total no. of VLR attached Sub ) * 1000 Total SLAs Met / (Total Service Request's(SR) Logged and valid - Open SR's or Invaild complaints ) %
(SMS YES)/(SMS YES + SMS NO)
R373/60
( Total No.complaints for Network coverage and Connectivity related / Total no. of VLR attached Sub ) * 1000 Total SLAs Met / (Total Service Request's(SR) Logged and valid - Open SR's or Invaild complaints ) %
(SMS YES)/(SMS YES + SMS NO)
Filter :-Alarm code 8196- (field name CODE).(Sum of celar time- occur time) to be considered in min.
Manual Manual Manual
Data From Cellebrum Data From Cellebrum Data From Cellebrum Data Data Data Data
From Cellebrum From Cellebrum From Cellebrum From Cellebrum
FORMULAE for ZTE V2
FORMULAE for ZTE V3 Table
Manualy Manualy Manualy Manualy Manualy pbasicm pbasicm pbasicm
Counters
Table
Manualy Manualy Manualy Manualy Manualy MINOS_PM.A_BSC_CSBA Count of field name SICMEAS_HUR "BTS" C900060125+C90006 MINOS_PM.A_BSC_CSBA 0134+C900060155 SICMEAS_HUR C900060125+C90006 MINOS_PM.A_BSC_CSBA SICMEAS_HUR 0134+C900060155
Table Structure Not Available
Number of subscribers in Vlr
Table Structure Not Available
Table Structure Not Available
Number of other PLMN visitors in VLR
Table Structure Not Available
Table Structure Not Available
Times of attempted call
Table Structure Not Available
Table Structure Not Available
SUM of all BSCs (Incoming call answer traffic(Erl) & Outgoing call answer traffic(Erl)) * 60
Table Structure Not Available
Table Structure Not Available
Peak ratio of the CPU usage (%)
Table Structure Not Available
Table Structure Not Available
Times of successful paging request per LA (sum of all LACs) / Times of attempted paging request per LA (sum of all LACs)
Table Structure Not Available
MANUAL
MANUAL
MANUAL
Table Structure Not Available
Times of attempted call
Table Structure Not Available
Number of other PLMN visitors in VLR Table Structure Not Available
Table Structure Not Available
USER:OMC, TABLE:PBASICM
C900060129/3600
MINOS_PM.A_BSC_CSBA SICMEAS_HUR
USER:OMC, TABLE:PBASICM
C90006000127/3600
MINOS_PM.A_BSC_CSBA SICMEAS_HUR
Not Available
Not Available
Not Available
Not Available
Not Available
Not Available
SUM OF BBH FR + BBH HR SUM OF NBH FR TRAFFIC SUM OF NBH HR TRAFFIC
SUM OF NBH FR + NBH HR
Table Structure Not Available
USER:OMC, TABLE:PBASICM
Times of successful paging request per LA (sum of all LACs) / Times of attempted paging request per LA (sum of all LACs)
(C90006000004/C900 MINOS_PM.A_BSC_CSBA 06000003)*100 SICMEAS_HUR
USER:OMC, TABLE:PBASICM
(C900060005/C90006 MINOS_PM.A_BSC_CSBA SICMEAS_HUR 0003)*100
USER:OMC, TABLE:PBASICM
(C900060053/C90006 MINOS_PM.A_BSC_CSBA SICMEAS_HUR 0003)*100
USER:OMC, TABLE:PBASICM
((C900060020+C9000 MINOS_PM.A_BSC_CSBA 60043)/(C900060019 SICMEAS_HUR +C900060042))*100
USER:OMC, TABLE:PBASICM
((C900060199+C9000 60028)/(C900060199 MINOS_PM.A_BSC_CSBA +C900060028+C9000 SICMEAS_HUR 60200+C900060029)) *100
USER:OMC, TABLE:PBASICM
((C900060054+C9000 60055)/(C900060199 +C900060028+C9000 MINOS_PM.A_BSC_CSBA SICMEAS_HUR 60098+C900060102C900060094C900060096))*100
USER:OMC, TABLE:PBASICM
((C90006000120+C90 0060094+C90006009 MINOS_PM.A_BSC_CSBA 6)/(C90006000119+C SICMEAS_HUR 900060093+C900060 095))*100
USER:OMC, TABLE:PBASICM
(C90006000004/C900 MINOS_PM.A_BSC_CSBA 06000003)*100 SICMEAS_HUR
USER:OMC, TABLE:PBASICM
(C900060005/C90006 MINOS_PM.A_BSC_CSBA SICMEAS_HUR 0003)*100
USER:OMC, TABLE:PBASICM
(C900060053/C90006 MINOS_PM.A_BSC_CSBA SICMEAS_HUR 0003)*100
USER:OMC, TABLE:PBASICM
USER:OMC, TABLE:PBASICM
USER:OMC, TABLE:PBASICM
((C900060020+C9000 MINOS_PM.A_BSC_CSBA 60043)/(C900060019 SICMEAS_HUR +C900060042))*100 ((C900060199+C9000 60028)/(C900060199 MINOS_PM.A_BSC_CSBA SICMEAS_HUR +C900060028+C9000 60200+C900060029))
((C900060054+C9000 60055)/(C900060199 +C900060028+C9000 MINOS_PM.A_BSC_CSBA SICMEAS_HUR 60098+C900060102C900060094C900060096))*100
USER:OMC, TABLE:PBASICM
((C90006000120+C90 0060094+C90006009 MINOS_PM.A_BSC_CSBA 6)/(C90006000119+C SICMEAS_HUR 900060093+C900060 095))*100
USER:OMC, TABLE:PBASICM
Uplink:((C900060071 +C900060072+C9000 60073)/(C900060066+ C900060067+C90006 0068+C900060069+C 900060070+C900060 071+C900060072+C9 00060073))*100 , MINOS_PM.A_BSC_CSBA Downlink: SICMEAS_HUR ((C900060079+C9000 60080+C900060081)/( C900060074+C90006 0075+C900060076+C 900060077+C900060 078+C900060079+C9 00060080+C9000600 81))*100
USER:OMC, TABLE:PBASICM
((C900060127+C9000 60129/3600)*60)/(C90 MINOS_PM.A_BSC_CSBA 0060054+C90006005 SICMEAS_HUR 5)
USER:OMC, TABLE:PBASICM
Manually
Table Structure Not Available
((C900060127+C9000 60129/3600)*60)/(C90 MINOS_PM.A_BSC_CSBA 0060054+C90006005 SICMEAS_HUR 5)
Table Structure Not Available
Table Structure Not Available
USER:OMC, TABLE:PGPRSBASICM
NA
NA
Manullay
Ping command to the nearest router on GGSN
Table Structure Not Available
V3 iBSCC900040058*8/C9000 MINOS_PM.A_BSC_CELL_ 40059 PSBASICMEAS_HUR
NA
V3 I BSCMINOS_PM.A_BSC_CELL_ C900040060*8/C9000 PSBASICMEAS_HUR 40061
Manullay
Ping command to the nearest router on GGSN
Table Structure Not Available
C900040066*8/C9000 MINOS_PM.A_BSC_CELL_ 40067 PSBASICMEAS_HUR
NA
NA
C900040068*8/C9000 MINOS_PM.A_BSC_CELL_ 40069 PSBASICMEAS_HUR
Table Structure Not Available
GGSN flow measure ( Max speed GTPU received+sent)/*1024*Equipped capacity
Table Structure Not Available
Table Structure Not Available Table Structure Not Available Table Structure Not Available Table Structure Not Available
Table Structure Not Available
Table Structure Not Available Table Structure Not Available Table Structure Not Available
Table Structure Not Available Table Structure Not Available
Falarminfo
Netype=BTS & Alarm code= 18899968(sum of restore timehappen time) to be considered in min. CAFFM.CAF_Historyalarm
Manual Manual Manual
Manual Manual Manual
Data From Cellebrum Data From Cellebrum Data From Cellebrum
Data From Cellebrum Data From Cellebrum Data From Cellebrum Data From Cellebrum Data From Cellebrum Data From Cellebrum
Data Data Data Data
Data Data Data Data
From Cellebrum From Cellebrum From Cellebrum From Cellebrum
From Cellebrum From Cellebrum From Cellebrum From Cellebrum
Manual Manual Manual
Data Data Data Data
From Cellebrum From Cellebrum From Cellebrum From Cellebrum
FORMULAE for MOTOROLA Counters
Table
Manualy Manualy Manualy Manualy Manualy
Not Available
BUSY_TCH_MEAN
omcadmin.cell_statistics
NA
Not Available
Not Available
Not Available
Not Available
SUM OF BBH FR + BBH HR
SUM OF NBH FR TRAFFIC SUM OF NBH HR TRAFFIC
NA
NA
(ALLOC_SDCCH_FAIL)/(ALLOC_S DCCH+ALLOC_SDCCH_FAIL)*100
omcadmin.cell_statistics
RF_LOSSES_SD/ok_acc_proc*100
omcadmin.cell_statistics
((ALLOC_TCH_FAIL)/(ALLOC_TCH +ALLOC_TCH_FAIL))*100
omcadmin.cell_statistics
MA_COMPLET_TO_MSC/MA_CMD _TO_MS*100
omcadmin.cell_statistics
((RF_LOSS_TCH_ROLL+INTRA_C ELL_HO_LOS+O_INTRA_BS_HO_ CLR+O_INTRA_BS_HO_LOS+O_IN TER_BS_HO_CLR+O_INTER_BS_ HO_LOS)/(TOTAL_CALLS+I_INTE R_BS_HO_SUC+ I_INTRA_BS_HO_SUC)) *100
omcadmin.cell_statistics
((((O_INTER_BS_HO_SUC)+(INTR A_CELL_HO_SUC)+(O_INTRA_BS _HO_SUC))/((O_INTER_BS_HO_A TM)+(INTRA_CELL_HO_ATM)+(O_ INTRA_BS_HO_ATM)))*100)
omcadmin.cell_statistics
NA
NA
(ALLOC_SDCCH_FAIL)/(ALLOC_S DCCH+ALLOC_SDCCH_FAIL)*100
omcadmin.cell_statistics
RF_LOSSES_SD/ok_acc_proc*100
omcadmin.cell_statistics
((ALLOC_TCH_FAIL)/(ALLOC_TCH +ALLOC_TCH_FAIL))*100
omcadmin.cell_statistics
MA_COMPLET_TO_MSC/MA_CMD _TO_MS*100
omcadmin.cell_statistics
((RF_LOSS_TCH_ROLL+INTRA_C ELL_HO_LOS+O_INTRA_BS_HO_ CLR+O_INTRA_BS_HO_LOS+O_IN TER_BS_HO_CLR+O_INTER_BS_ HO_LOS)/(TOTAL_CALLS+I_INTE R_BS_HO_SUC+ I_INTRA_BS_HO_SUC)) *100
omcadmin.cell_statistics
((((O_INTER_BS_HO_SUC)+(INTR A_CELL_HO_SUC)+(O_INTRA_BS _HO_SUC))/((O_INTER_BS_HO_A TM)+(INTRA_CELL_HO_ATM)+(O_ INTRA_BS_HO_ATM)))*100)
omcadmin.cell_statistics
NA
NA
(BUSY_TCH_MEAN)*60/(RF_LOSS _TCH_ROLL +INTRA_CELL_HO_LOS+O_INTRA _BS_HO_CLR+O_INTRA_BS_HO_ LOS+O_INTER_BS_HO_CLR+O_IN TER_BS_HO_LOS)
omcadmin.cell_statistics
(BUSY_TCH_MEAN)*60/(RF_LOSS _TCH_ROLL +INTRA_CELL_HO_LOS+O_INTRA _BS_HO_CLR+O_INTRA_BS_HO_ LOS+O_INTER_BS_HO_CLR+O_IN TER_BS_HO_LOS)
omcadmin.cell_statistics
NA
NA
NA
NA
ent)/*1024*Equipped capacity
NA
NA
Two files one for files cell & site. Sum of downtime minutes field
Text dump file.
Manual Manual Manual
Manual Manual Manual
Data From Cellebrum Data From Cellebrum Data From Cellebrum
Data From Cellebrum Data From Cellebrum Data From Cellebrum
Data Data Data Data
Data Data Data Data
From Cellebrum From Cellebrum From Cellebrum From Cellebrum
From Cellebrum From Cellebrum From Cellebrum From Cellebrum