blade88
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Hello,
I am simulating a Single Carrier system, using linear and non linear equalizers, to cope with ISI.
The channel model I am using is '3gppTUx' in Matlab's stdchan function:
https://www.mathworks.com/help/comm/ref/stdchan.html
The parameters I use are:
corresponding to the LTE EPA channel model.
The resulting channel object is the following:
I think that channel type 'Rayleigh' means that the envelope of the time varying taps follows the Rayleigh distribution (Please correct me if I am wrong here).
Now, my questions are the following:
1) In order to plot the theoretical BER/SER expressions of the system in this channel model, can I use Matlab's berfading function?
https://www.mathworks.com/help/comm/ref/berfading.html?refresh=true
2) What is the general approach in BER/SER theoretical expressions in frequency selective channels?
Any insight will be useful.
Thank you in advance.
I am simulating a Single Carrier system, using linear and non linear equalizers, to cope with ISI.
The channel model I am using is '3gppTUx' in Matlab's stdchan function:
https://www.mathworks.com/help/comm/ref/stdchan.html
The parameters I use are:
Code:
% Sampling frequency in LTE with Bandwidth 1.25MHz
% Sample time=1/Sampling Frequency, in sec
ts = 5.21e-7;
% Maximum Doppler shift in Hz
fd = 5;
channel.ResetBeforeFiltering = 1;
channel.NormalizePathGains=1;
channel.StoreHistory=1;corresponding to the LTE EPA channel model.
The resulting channel object is the following:
Code:
>> channel =
ChannelType: 'Rayleigh'
InputSamplePeriod: 5.2100e-07
DopplerSpectrum: [1x1 doppler.jakes]
MaxDopplerShift: 5
PathDelays: [1x20 double]
AvgPathGaindB: [1x20 double]
NormalizePathGains: 1
StoreHistory: 1
StorePathGains: 0
PathGains: [1x20 double]
ChannelFilterDelay: 4
ResetBeforeFiltering: 1
NumSamplesProcessed: 0I think that channel type 'Rayleigh' means that the envelope of the time varying taps follows the Rayleigh distribution (Please correct me if I am wrong here).
Now, my questions are the following:
1) In order to plot the theoretical BER/SER expressions of the system in this channel model, can I use Matlab's berfading function?
https://www.mathworks.com/help/comm/ref/berfading.html?refresh=true
2) What is the general approach in BER/SER theoretical expressions in frequency selective channels?
Any insight will be useful.
Thank you in advance.
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