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133 lines
4.2 KiB
Matlab

clear
%% PHICH encoding/decoding
%% Setup simulation
Npackets = 80;
SNR_values = linspace(-6,0,6);
enable_fading=false;
addpath('../../debug/srslte/lib/phch/test')
%% Cell-Wide Settings
enbConfig.NDLRB = 50; % No of Downlink RBs in total BW
enbConfig.CyclicPrefix = 'Normal'; % CP length
enbConfig.Ng = 'One'; % HICH groups
enbConfig.CellRefP = 1; % 1-antenna ports
enbConfig.NCellID = 36; % Physical layer cell identity
enbConfig.NSubframe = 5; % Subframe number 0
enbConfig.DuplexMode = 'FDD'; % Frame structure
enbConfig.PHICHDuration = 'Normal';
%% Define HI resource
hi_res = [1 1];
ack_bit = 1;
%% Setup Fading channel model
if (enable_fading)
cfg.Seed = 8; % Random channel seed
cfg.NRxAnts = 1; % 1 receive antenna
cfg.DelayProfile = 'EPA'; % EVA delay spread
cfg.DopplerFreq = 5; % 120Hz Doppler frequency
cfg.MIMOCorrelation = 'Low'; % Low (no) MIMO correlation
cfg.InitTime = 0; % Initialize at time zero
cfg.NTerms = 16; % Oscillators used in fading model
cfg.ModelType = 'GMEDS'; % Rayleigh fading model type
cfg.InitPhase = 'Random'; % Random initial phases
cfg.NormalizePathGains = 'On'; % Normalize delay profile power
cfg.NormalizeTxAnts = 'On'; % Normalize for transmit antennas
end
% Setup channel equalizer
cec.PilotAverage = 'UserDefined'; % Type of pilot averaging
cec.FreqWindow = 9; % Frequency window size
cec.TimeWindow = 9; % Time window size
cec.InterpType = 'linear'; % 2D interpolation type
cec.InterpWindow = 'Causal'; % Interpolation window type
cec.InterpWinSize = 1; % Interpolation window size
%% Generate TX subframe
subframe_tx = lteDLResourceGrid(enbConfig);
%% Genearte PHICH signal
hi_sym_tx = ltePHICH(enbConfig, [hi_res ack_bit]);
hi_indices = ltePHICHIndices(enbConfig);
subframe_tx(hi_indices)=hi_sym_tx;
%% Add references to subframe
cellRsSym = lteCellRS(enbConfig);
cellRsInd = lteCellRSIndices(enbConfig);
subframe_tx(cellRsInd) = cellRsSym;
%% Modulate signal
[txWaveform, info] = lteOFDMModulate(enbConfig,subframe_tx);
cfg.SamplingRate = info.SamplingRate;
%% Start simulation
decoded = zeros(size(SNR_values));
decoded_srslte = zeros(size(SNR_values));
for snr_idx=1:length(SNR_values)
SNRdB = SNR_values(snr_idx);
SNR = 10^(SNRdB/10); % Linear SNR
N0 = 1/(sqrt(2.0*enbConfig.CellRefP*double(info.Nfft))*SNR);
for i=1:Npackets
%% Fading
rxWaveform = sum(txWaveform,2);
if (enable_fading)
rxWaveform = lteFadingChannel(cfg,rxWaveform);
end
%% Noise Addition
noise = N0*complex(randn(size(rxWaveform)), randn(size(rxWaveform)));
rxWaveform = rxWaveform + noise;
%% Demodulate
subframe_rx = lteOFDMDemodulate(enbConfig, rxWaveform);
%% Channel estimation
if (enable_fading)
[hest, nest] = lteDLChannelEstimate(enbConfig, cec, subframe_rx);
else
hest=ones(size(subframe_rx));
nest=0;
end
%% Extract resources
phichSymbolsRx = subframe_rx(hi_indices);
phichSymbolsHest = hest(hi_indices);
%% PHICH decoding
[hi, hi_symbols] = ltePHICHDecode(enbConfig,hi_res, phichSymbolsRx, phichSymbolsHest, nest);
decoded(snr_idx) = decoded(snr_idx) + (hi == ack_bit);
%% Same with srsLTE
[hi_srslte, hi_symbols_srslte] = srslte_phich(enbConfig, hi_res, subframe_rx, hest, nest);
decoded_srslte(snr_idx) = decoded_srslte(snr_idx) + (hi_srslte == ack_bit);
end
fprintf('SNR: %.1f\n',SNRdB)
end
if (Npackets>1)
semilogy(SNR_values,1-decoded/Npackets,'bo-',...
SNR_values,1-decoded_srslte/Npackets, 'ro-')
grid on
legend('Matlab','srsLTE')
xlabel('SNR (dB)')
ylabel('BLER')
axis([min(SNR_values) max(SNR_values) 1/Npackets/10 1])
else
scatter(real(hi_symbols),imag(hi_symbols))
hold on
scatter(real(hi_symbols_srslte),imag(hi_symbols_srslte))
hold off
grid on;
axis([-2 2 -2 2])
disp(hi)
disp(hi_srslte)
end