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Member
Reputation: 21
Probability Density Function (PDF) counter to discrete value
Hi colleagues,
I am working with counters like
pmRadioRecInterferencePwr
which is expresed in terms of
The measured Noise and Interference Power on PUSCH, according to 36.214
PDF ranges:
[0]: N+I <= -121
[1]: -121 < N+I <= -120
[2]: -120 < N+I <= -119
[3]: -119 < N+I <= -118
[4]: -118 < N+I <= -117
[5]: -117 < N+I <= -116
[6]: -116 < N+I <= -115
[7]: -115 < N+I <= -114
[8]: -114< N+I <= -113
[9]: -113 < N+I <= -112
[10]: -112 < N+I <= -108
[11]: -108 < N+I <= -104
[12]: -104 < N+I <= -100
[13]: -100 < N+I <= -96
[14]: -96 < N+I <= -92
[15]: -92 < N+I |
But, what I am trying is to convert that Probability Density Function (PDF) into a single value.
Anybody knows?
Thanks
Last edited by dannthemann; 2019-04-13 at 03:02 AM
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2019-04-12 08:08 PM
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Re: Probability Density Function (PDF) counter to discrete value
Originally Posted by
dannthemann
Hi colleagues,
I am working with counters like
pmRadioRecInterferencePwr
which is expresed in terms of
The measured Noise and Interference Power on PUSCH, according to 36.214
PDF ranges:
[0]: N+I <= -121
[1]: -121 < N+I <= -120
[2]: -120 < N+I <= -119
[3]: -119 < N+I <= -118
[4]: -118 < N+I <= -117
[5]: -117 < N+I <= -116
[6]: -116 < N+I <= -115
[7]: -115 < N+I <= -114
[8]: -114< N+I <= -113
[9]: -113 < N+I <= -112
[10]: -112 < N+I <= -108
[11]: -108 < N+I <= -104
[12]: -104 < N+I <= -100
[13]: -100 < N+I <= -96
[14]: -96 < N+I <= -92
[15]: -92 < N+I |
But, what I am trying is to convert that Probability Density Function (PDF) into a single value.
Anybody knows?
Thanks
Hi,
Use weighted average calculation .
B
R
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Post Thanks - 1 Thanks
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Member
Reputation: 21
Re: Probability Density Function (PDF) counter to discrete value
OK, thanks. I did the weighting and it worked.
BRs
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Member
Reputation: 26
Re: Probability Density Function (PDF) counter to discrete value
In my experience, it is not enough to take the Probability Density Function (PDF) counter to discrete values. The best way to interpret these counters is to create three-dimensional or surface graphs at different time scales. Below, I show two graphs of a counter very similar to the one you are talking about, but of 3G:
vectors daily.jpg vectors hourly.jpg
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Post Thanks - 1 Thanks
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Re: Probability Density Function (PDF) counter to discrete value
Hello,
for each range you have number of events being measured. You will have 16 values representing ranges 0 to 15. You need to multiply that number with average value of the range (e.g. -120.5, -119.5 etc), add all and divide by total number of events (sum of all 16 values). Nevertheless, it is rough estimate as it is average, not exact values would be used (e.g. -120.5 is average and it might be -120 or -121 in the real life) and [0] and [16] are not -121 or -92. They might be much higher or lower from the thresholds given in 36.214. As felixj.alvarez mentioned, you can plot distribution and decide what is acceptable to you regarding the performance. You can say that all that is above e.g. -105 is OK for you, you read counter for 15 minutes and you can assume that is 90% is above -105 that you are 90% of time e.g. 0.9*15 minutes OK and f0r 90 seconds you have outage.
dekili
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Post Thanks - 1 Thanks
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