Network Performance Evaluation. #GSM
Before putting network optimization into practice, you should have an overall understanding of the network performance. The traffic statistics data, DT (drive test) data, and CQT (call quality test) data are necessary for network performance acquisition.
5.3.1 DT
DT is used to evaluate the connectivity, coverage, call drop, and voice quality for the main roads and transportation backbones in urban areas. The indexes for the roads include connected ratio, call drop rate, coverage rate, voice quality, and so on. The indexes for transportation backbones include call drop rate per kilometer, coverage rate, voice quality, connected rate, and so on.
l Connected ratio
Connected ratio = total connected times/attempted calls *100%
l Call drop rate
Call drop rate = call drop times/total connected times *100%
l Coverage rate
Coverage rate = (≥ -94dBm test road kilometers)/total test road kilometers*100%
l Voice quality
According to bit error rate, voice quality can be divided into 8 classes, from 0 to 7. Each class matches its bit error rate range.
The calculation of voice quality depends on actual conditions. Generally, the following method is in common use:
Voice quality = [Rxqual (class 0)% + Rxqual (class 1)% + Rxqual (class 2)%*1 + Rxqual (class 3)%* + Rxqual (class 4)%*0.8 + Rxqual (class 5)%* + Rxqual (class 6)%*0.5 + Rxqual (class 7)%*0.2
l Call drop ratio per kilometer
Call drop ratio per kilometer = (≥ -94dBm test road kilometers)/total call drop times
5.3.2 CQT
CQT is applied to the important spots in urban areas. It enables you to experience the network quality from the perspective of users. This section introduces the indexes used to evaluating the CQT.
l Coverage rate
Coverage rate = (≥ -94dBm test points)/total calling test points)*100%
l Connected ratio
Connected ratio = total connected times/attempted calls *100%
l Call drop rate
Call drop rate = call drop times/total connected times *100%
l Voice discontinuity/background noise rate
Voice discontinuity/background noise rate = (total voice discontinuity occurrence times + total background occurrence times)/total connected times*100%
l One-way audio/echo/cross-talking rate = (total one-way audio times + total echo occurrence times + total cross-talking occurrence times)/total connected times*100%
CQT enables you to use the MOS (mean opinion score) to evaluate the voice quality from the perspective of people's objective feeling. The MOS can be divided into five classes, from 1 to 5. For the evaluation standard, see Table 5-2 of Chapter 5 GSM Radio Network Planning of GSM Radio Network Planning and Optimization.
5.3.3 Network Operation Indexes
Though DT and CQT can detail network problems, they are restricted from test routes and time. Therefore, DT and CQT cannot test the overall network. To give an overall evaluation towards the network, you should collect as more network operation indexes as possible.
The indexes evaluating network operation quality are listed below:
l Service access capacity indexes
Service access capacity indexes include toll network connected ratio, short message connected ratio, (GPRS) PDP activation ratio, and IP telephone connected ratio.
l Service hold capacity indexes
Service hold capacity indexes include call drop rate, worst cell ratio, traffic call drop ratio, handover success rate, and short message gateway transit success rate.
With the expansion of network scale, the network structure becomes ever more complicated. In this case, networks with high performance but low cost are encouraged.
The indexes on network utilization can be used to evaluate whether the cost to run a network is low. These indexes include toll circuit utilization rate, traffic channel availability, busiest and idlest cell ratio, and so on.
Hereunder introduces the methods to calculate the indexes used to evaluate network operation at the radio side.
l Radio connected ratio
Radio connected ratio = (1 – SDCCH congestion rate)*(1 – TCH congestion rate (all busy))*100%
l Call drop rate
Call drop rate = TCH call drop/successful TCH seizures (all busy)
l Worst cell ratio
A cell with TCH congestion rate higher than 5% at busy hours or a cell with TCH call drop rate higher than 3% is defined as a worst cell. The number of the worst cells varies with network scales.
l Traffic call drop ratio
Traffic call drop ratio = total TCH traffic volume *60%/total TCH call drop times (all busy)
l Handover success rate
Handover success rate = successful handovers/attempted handovers*100%
l Traffic channel availability
Traffic channel availability = the available traffic channels at busy hour/configured traffic channels*100%
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