How do I decrease the losses by increasing power level?

Here is the code I am using: https://github.com/maibewakoofhu/Unet

I am changing the power level using:

 phy[1].powerLevel = -20.dB;

At noise level 68dB, power level = -20dB all DatagramReq are sent successfully.

At noise level 70dB, power level = -20dB the DatagramReq fails.

Now, increasing the power level to as high as 125dB, still the DatagramReq fails.

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  • What channel model are you using? – Mandar Chitre Oct 9 at 15:20
  • Basic Acoustic Channel – shubham agrawal Oct 9 at 17:00
  • Then you should see a difference with change in power, unless you're at very high SNR or very low SNR regime. Perhaps you can update your question with more details of your simulation setup and how you concluded that there was no difference. – Mandar Chitre Oct 10 at 1:09
  • I have updated the question with channel details. – shubham agrawal Oct 10 at 8:37
  • Simulation details posted are not sufficient to reproduce your setup. Need to know other details like node placement, etc. Best to post your simulation setup script, if you can. – Mandar Chitre Oct 10 at 12:07

I created a simpler version of your simulation to test the SNR and packet-loss relationship:

import org.arl.fjage.RealTimePlatform
import org.arl.unet.sim.channels.BasicAcousticChannel

platform = RealTimePlatform

channel = [
  model:                BasicAcousticChannel,
  carrierFrequency:     25.kHz,
  bandwidth:            4096.Hz,
  spreading:            2,
  temperature:          25.C,
  salinity:             35.ppt,
  noiseLevel:           73.dB,
  waterDepth:           1120.m

simulate {
    node 'C', address: 31, location: [180.m, 0, -1000.m], web: 8101
    node 'A', address: 21, location: [0.m, 0.m, 0.m], web: 8102

The web: entries allows us to interact with each of the nodes to explore what is happening. I connect to each of the nodes (http://localhost:8101/shell.html and http://localhost:8102/shell.html) and subscribe phy to see all physical layer events.

Now, from node A, I try broadcasting frames to see (at various power levels) if node C receives them:

> plvl -20
> phy << new TxFrameReq()

On node C, you'll see receptions, if successful:

phy >> RxFrameStartNtf:INFORM[type:CONTROL rxTime:3380134843]
phy >> RxFrameNtf:INFORM[type:CONTROL from:21 rxTime:3380134843]

or bad frames if not:

phy >> RxFrameStartNtf:INFORM[type:CONTROL rxTime:3389688843]
phy >> BadFrameNtf:INFORM[type:CONTROL rxTime:3389688843]

Observations: - At plvl -20 dB, almost all frames fail. - At plvl -10 dB, almost all frames are successful. - At plvl -16 dB, I get a frame loss of about 19%.

The transition between all frames failing to all succeeding is expected to be quite sharp, as is typical in reality for stationary noise, as the FEC performance tends to be quite non-linear. So you'll expect big differences in frame loss rate around the transition region (in this example, at around -16 dB).

Do also note the plvl 125 dB isn't valid (range of plvl is given by phy.minPowerLevel to phy.maxPowerLevel, -96 dB to 0 dB by default). So setting that would have not worked:

> plvl 125
phy[1]: WARNING: Parameter powerLevel set to 0.0
phy[2]: WARNING: Parameter powerLevel set to 0.0
phy[3]: WARNING: Parameter powerLevel set to 0.0
phy: WARNING: Parameter signalPowerLevel set to 0.0
  • Thanks for the help. Also what property should I use instead of "plvl" in scripts? – shubham agrawal 2 days ago
  • phy[1].powerLevel for control channel, and phy[2].powerLevel for data channel – Mandar Chitre 2 days ago
  • Works. Thanks . – shubham agrawal 2 days ago

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