+++ /dev/null
-function baseband(rolloff, M, numSymbs)
- %% Set defaults for inputs
- if nargin < 3
- numSymbs = 1000;
- end
- if nargin < 2
- M = 2;
- end
- if nargin < 1
- rolloff = 0.5;
- end
-
- %% https://www.mathworks.com/help/comm/examples/passband-modulation-with-adjacent-channel-interference.html
- Rsym = 1e6; % symbol rate (sym/sec)
-
- span = 6; % filter span
- sps = 2; % samples per symbol
-
- fs = Rsym * sps; % sampling freq (Hz)
-
- t = (0 : 1 / fs : numSymbs / Rsym + (1.5 * span * sps - 1) / fs)';
-
- EbN0_db = 0:0.2:10;
- EbN0 = 10 .^ (EbN0_db ./ 10);
- Es = 1;
- Eb = Es / log2(M);
- N0 = Eb ./ EbN0;
-
- EsN0 = EbN0 .* log2(M);
- EsN0_db = 10 .* log10(EsN0);
-
- plotlen = length(EbN0);
- ber = zeros(1, plotlen);
-
- data = randi([0 M - 1], numSymbs, 1);
- modData = pskmod(data, M, 0, 'gray');
-
- xBaseband = txFilter(modData, rolloff, span, sps);
-
- for i = 1:plotlen
- snr = EbN0_db(i) + 10 * log10(log2(M)) - 10 * log10(sps);
- noiseEnergy = 10 ^ (-snr / 10);
-
- yBaseband = awgn(xBaseband, snr, 'measured');
-
- rBaseband = rxFilter(yBaseband, rolloff, span, sps);
-
- rSampled = rBaseband(sps*span/2+1:sps:(numSymbs+span/2)*sps);
- demodData = pskdemod(rSampled, M, 0, 'gray');
- [bitErrors, ber(i)] = biterr(data, demodData);
- end
-
- figure(1);
- clf;
-
- %% Plot simulated results
- semilogy(EbN0_db, ber, 'r', 'LineWidth', 2);
- hold on;
-
- theoreticalPSK(EbN0_db, M, 'b', 'LineWidth', 1);
- legend('Simulated', 'Discrete');
-
- title(strcat(num2str(M), '-PSK with Gray code'));
- grid on;
- xlabel('$E_b/N_0$ (dB)');
- ylabel('BER');
-
- formatFigure;
-end
projects / 4yp.git / blobdiff