| | 1 | numSymbs = 10000; |
| | 2 | M = 4; |
| | 3 | |
| | 4 | Rsym = 2.5e10; % symbol rate (sym/sec) |
| | 5 | rolloff = 0.5; |
| | 6 | span = 6; % filter span |
| | 7 | sps = 4; % samples per symbol |
| | 8 | |
| | 9 | fs = Rsym * sps; % sampling freq (Hz) |
| | 10 | Tsamp = 1 / fs; |
| | 11 | |
| | 12 | t = (0 : 1 / fs : numSymbs / Rsym + (1.5 * span * sps - 1) / fs).'; |
| | 13 | |
| | 14 | |
| | 15 | EbN0_db = 8; |
| | 16 | EbN0 = 10 .^ (EbN0_db ./ 10); |
| | 17 | |
| | 18 | Es = 1; |
| | 19 | Eb = Es / log2(M); |
| | 20 | N0 = Eb ./ EbN0; |
| | 21 | |
| | 22 | EsN0 = EbN0 .* log2(M); |
| | 23 | EsN0_db = 10 .* log10(EsN0); |
| | 24 | |
| | 25 | |
| | 26 | data = randi([0 M - 1], numSymbs, 1); |
| | 27 | pskSym = pskmod(data, M, pi/M, 'gray'); |
| | 28 | dpskSym = dpskmod(data, M, pi/M, 'gray'); |
| | 29 | |
| | 30 | xPSK = txFilter(pskSym, rolloff, span, sps); |
| | 31 | xDPSK = txFilter(dpskSym, rolloff, span, sps); |
| | 32 | |
| | 33 | linewidthTx = 0; % Hz |
| | 34 | linewidthLO = 10e6; % Hz |
| | 35 | |
| | 36 | [xPSKpn, pTxLoPSK] = phaseNoise(xPSK, linewidthTx, linewidthLO, Tsamp); |
| | 37 | [xDPSKpn, pTxLoDPSK] = phaseNoise(xDPSK, linewidthTx, linewidthLO, Tsamp); |
| | 38 | |
| | 39 | |
| | 40 | snr = EbN0_db + 10 * log10(log2(M)) - 10 * log10(sps); |
| | 41 | |
| | 42 | %%y = awgn(xPN, snr, 'measured'); |
| | 43 | yPSK = awgn(xPSKpn, snr, 'measured'); |
| | 44 | yDPSK = xDPSKpn; |
| | 45 | |
| | 46 | rPSK = rxFilter(yPSK, rolloff, span, sps); |
| | 47 | rDPSK = rxFilter(yDPSK, rolloff, span, sps); |
| | 48 | |
| | 49 | |
| | 50 | rPSKSa = rPSK(sps*span/2+1:sps:(numSymbs+span/2)*sps); |
| | 51 | rDPSKSa = rDPSK(sps*span/2+1:sps:(numSymbs+span/2)*sps); |
| | 52 | |
| | 53 | [rPSKSaPhEq, phiestsPSK] = phaseNoiseCorr(rPSKSa, M, pi/M, 40); |
| | 54 | |
| | 55 | demodPSK = pskdemod(rPSKSaPhEq, M, pi/M, 'gray'); |
| | 56 | demodDPSK = dpskdemod(rDPSKSa, M, pi/M, 'gray'); |
| | 57 | |
| | 58 | |
| | 59 | [bitErrors, ber] = biterr(data, demodPSK.') |
| | 60 | |
| | 61 | |
| | 62 | figure(2); |
| | 63 | plot(t(1:40000), repelem(-phiestsPSK, sps)); |
| | 64 | hold on; |
| | 65 | plot(t(1:40000), pTxLoPSK(1:40000)); |
| | 66 | legend('estimate', 'actual'); |
| | 67 | title('Phase noise estimation'); |
| | 68 | hold off; |
| | 69 | return |
| | 70 | figure(3); |
| | 71 | plot(t(1:length(x)), real(normalizeEnergy(x, numSymbs*sps, 1))); |
| | 72 | hold on; |
| | 73 | %%plot(t, real(rPhaseEq), 'r'); |
| | 74 | sampledTimes = t(sps*span/2+1:sps:(numSymbs+span/2)*sps); |
| | 75 | %%plot(sampledTimes, real(rSampled), 'x'); |
| | 76 | plot(sampledTimes, real(normalizeEnergy(rSaPhEq, numSymbs, 1)), 'x'); |
| | 77 | legend('original signal', 'corrected received signal'); |
| | 78 | title('Phase noise correction, linewidth 1 MHz, $E_b/N_0=8$ dB'); |
| | 79 | ylabel('Real part of signals'); |
| | 80 | axis([t(1) t(300) -Inf +Inf]); |
| | 81 | hold off; |
| | 82 | formatFigure; |
projects / 4yp.git / blame_incremental