% fdmdv_demod_c.m % % Plots Octave dump file information from C FDMDV demodulator program, % to give a similar set of plots to fdmdv_demod.m. Useful for off % line analysis of demod performance. % % Copyright David Rowe 2012 % This program is distributed under the terms of the GNU General Public License % Version 2 % function fdmdv_demod_c(dumpfilename, bits) fdmdv; % include modem code frames = bits/(Nc*Nb); load(dumpfilename); % BER stats total_bit_errors = 0; total_bits = 0; bit_errors_log = []; sync_log = []; test_frame_sync_log = []; test_frame_sync_state = 0; % Run thru received bits to look for test pattern bits_per_frame = Nc*Nb; for f=1:frames rx_bits = rx_bits_log_c((f-1)*bits_per_frame+1:f*bits_per_frame); % count bit errors if we find a test frame [test_frame_sync bit_errors] = put_test_bits(rx_bits); if (test_frame_sync == 1) total_bit_errors = total_bit_errors + bit_errors; total_bits = total_bits + Ntest_bits; bit_errors_log = [bit_errors_log bit_errors/Ntest_bits]; else bit_errors_log = [bit_errors_log 0]; end % test frame sync state machine, just for more informative plots next_test_frame_sync_state = test_frame_sync_state; if (test_frame_sync_state == 0) if (test_frame_sync == 1) next_test_frame_sync_state = 1; test_frame_count = 0; end end if (test_frame_sync_state == 1) % we only expect another test_frame_sync pulse every 4 symbols test_frame_count++; if (test_frame_count == 4) test_frame_count = 0; if ((test_frame_sync == 0)) next_test_frame_sync_state = 0; end end end test_frame_sync_state = next_test_frame_sync_state; test_frame_sync_log = [test_frame_sync_log test_frame_sync_state]; end % --------------------------------------------------------------------- % Plots % --------------------------------------------------------------------- xt = (1:frames)/Rs; secs = frames/Rs; figure(1) clf; plot(real(rx_symbols_log_c(1:Nc+1,15:frames)),imag(rx_symbols_log_c(1:Nc+1,15:frames)),'+') axis([-2 2 -2 2]); title('Scatter Diagram'); figure(2) clf; subplot(211) plot(xt, rx_timing_log_c(1:frames)) title('timing offset (samples)'); subplot(212) plot(xt, foff_log_c(1:frames), '-;freq offset;') hold on; plot(xt, coarse_fine_log_c(1:frames)*75, 'r;course-fine;'); hold off; title('Freq offset (Hz)'); grid figure(3) clf; subplot(211) b = M*frames; xt1 = (1:b)/Fs; plot(xt1, rx_fdm_log_c(1:b)); title('Rx FDM Signal'); subplot(212) spec(rx_fdm_log_c(1:b),8000); title('FDM Rx Spectrogram'); figure(4) clf; subplot(311) stem(xt, sync_bit_log_c(1:frames)) axis([0 secs 0 1.5]); title('BPSK Sync') subplot(312) stem(xt, bit_errors_log); title('Bit Errors for test frames') subplot(313) plot(xt, test_frame_sync_log); axis([0 secs 0 1.5]); title('Test Frame Sync') figure(5) clf; plot(xt, snr_est_log_c(1:frames)); title('SNR Estimates') endfunction