OFDM MULTIPATH CODE FOR OUTDOOR LTE GENERAL
clc;
clear all;
close all;
% Initializing parameters
Nfft=input('Size of fft N = ');
Nused=input('Number of OFDM symbols to be used m = ');
M=input('Size of constellation M = ');
Type=input('Type of Mapping (1 for PSK) and (2 for QAM) = ');
Phase_Offset=input('phase offset = ');
Ncp=input('cyclic prefix samples Ncp = ');
bw = 15*10^6;%%bandwidth
T = 1/bw;%time period
% Transmitter
if Type == 1
Tx = modem.pskmod('M',M,'PhaseOffset',Phase_Offset,'SymbolOrder','gray');
Rx = modem.pskdemod('M',M,'PhaseOffset',Phase_Offset,'SymbolOrder','gray');
else
Tx = modem.qammod('M',M,'PhaseOffset',Phase_Offset,'SymbolOrder','gray');
Rx = modem.qamdemod('M',M,'PhaseOffset',Phase_Offset,'SymbolOrder','gray');
end
% Finding the multipath channel response
out_delay = [0 10 90 135 230 275 310 420 630 635 745 815 830 1430 1790 20];
N_tap = ceil(max(out_delay)*(10^(-9))/T);
c_out = zeros(1,N_tap+1);
c_tap = ceil(out_delay./50)+1;
outPwr_dB = [-2.6 -8.5 -14.8 -17.5 -19.2 -18.8 -14.9 -14.9 -22.1 -10.3 -22.2 -19.2 -16 -22.9 -20.3 -27.4];
outPwr = 10.^(outPwr_dB/10);
c_r = abs(((outPwr/2).*randn(1,length(outPwr)))+((outPwr/2).*randn(1,length(outPwr)))*1i);
for k=1:length(c_tap)
c_out(c_tap(k))=c_r(k);
end
% c_in_s=sum(c_in);
% data generation
Tx_data=randi([0 M-1],Nused,Nfft/2);
% Mapping
mod_data=modulate(Tx,Tx_data);
% Serial to Parallel
s2p=mod_data.';
% insertion of pilots (upsmapling)
upsampled=upsample(s2p,2);
% Amplitude modulation (IDFT using fast version IFFT)
am=ifft(upsampled,Nfft);
% Parallel to serial
p2s=am.';
% Cyclic Prefixing
CP_part=p2s(:,Nfft-Ncp+1:Nfft); % this is the Cyclic Prefix part to be appended.
cp=[CP_part p2s];
% cp_v=reshape(cp,Nused,Nfft+Ncp);
%c_in_v=reshape(c_in,1,8);
conv_data=convn(cp ,c_out);
% Reciever
% Adding Noise using AWGN
SNRstart=3;
SNRincrement=2;
SNRend=11;
c=0;
r=zeros(size(SNRstart:SNRincrement:SNRend));
for snr=SNRstart:SNRincrement:SNRend
c=c+1;
noisy=awgn(conv_data,snr,'measured');
% Remove cyclic prefix part
cpr=noisy(:,Ncp+1:Nfft+Ncp); %remove the Cyclic prefix
% serial to parallel
parallel=cpr.';
% Amplitude demodulation (DFT using fast version FFT)
amdemod=fft(parallel,Nfft);
% Down-Sampling
downsampled=downsample(amdemod,2);
% Parallel to serial
rserial=downsampled.';
% demodulation
Umap=demodulate(Rx,rserial);
% Calculating the Symbol Error Rate
[n, r(c)]=symerr(Tx_data,Umap);
end
figure(1)
snr=SNRstart:SNRincrement:SNRend;
% Plotting SER vs SNR
semilogy(snr,r,'-ok');
grid;
title('OFDM Symbol Error Rate vs SNR');
ylabel('Symbol Error Rate');
xlabel('SNR [dB]');
Citar como
raghav khandelwal (2024). OFDM MULTIPATH CODE FOR OUTDOOR LTE GENERAL (https://www.mathworks.com/matlabcentral/fileexchange/50846-ofdm-multipath-code-for-outdoor-lte-general), MATLAB Central File Exchange. Recuperado .
Compatibilidad con la versión de MATLAB
Compatibilidad con las plataformas
Windows macOS LinuxCategorías
Etiquetas
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!Descubra Live Editor
Cree scripts con código, salida y texto formateado en un documento ejecutable.
| Versión | Publicado | Notas de la versión | |
|---|---|---|---|
| 1.0.0.0 | GENERAL CODE DISPLAY OFDM MULTIPATH |
También puede seleccionar uno de estos países/idiomas:
América
- América Latina (Español)
- Canada (English)
- United States (English)
Europa
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom (English)
Asia-Pacífico
- Australia (English)
- India (English)
- New Zealand (English)
- 中国
- 日本Japanese (日本語)
- 한국Korean (한국어)