89 lines
2.1 KiB
Matlab
89 lines
2.1 KiB
Matlab
clear;
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close all;
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% returns sampling frequency in Hz and data
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[y,Fs] = audioread('fluteircam.wav');
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% Fs = sampling frequency, 32000 for fluteircam.wav
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lenW = 0.04*Fs; % window of lenW samples, i.e. 40 ms
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df=0.9765625; %%% la dsp est calcul\'ee tous les df Hz
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ff=-Fs/2:df:Fs/2; % length 32769 for fluteircam.wav
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ffsub = ff(1:11:end); % compression x11, length 2979
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tt = (0:length(y)-1)/Fs;
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ttsub = (1280/2:1280:length(y))/Fs;
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dsps = zeros(length(ffsub), floor((length(y)-lenW+1)/lenW));
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% dsp fft
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T = 1/Fs; % Sampling period
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L = lenW; % Length of signal
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t = (0:L-1)*T; % Time vector
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fftsp = zeros(L/2+1, floor((length(y)-lenW+1)/lenW));
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f = Fs*(0:(L/2))/L;
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for i = 0:floor((length(y)-lenW+1)/lenW)
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% compute dsp AR
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[~, ~, ~, ~, mydsp] = mylevinsondurbin(y(lenW*i+1:lenW*(i+1))',200,Fs);
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dsps(:,i+1) = mydsp(1:11:end)'; % compression x11, length 2979
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% compute dsp fft
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myfft = fft(blackman(lenW).*y(lenW*i+1:lenW*(i+1)));
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P2 = abs(myfft/L);
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P1 = P2(1:L/2+1);
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P1(2:end-1) = 2*P1(2:end-1);
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fftsp(:,i+1) = P1;
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end
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% take only positive frequencies for dsp
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ffsubp = ffsub(1,(length(ffsub)-1)/2+1:end);
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dspsp = dsps((length(dsps)-1)/2+1:end,:);
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% plot
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figure()
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plot(tt,y)
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xlabel('temps (s)')
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ylabel('amplitude (u.a.)')
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title('signal fluteircam')
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figure()
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surf(ttsub,ffsub,dsps,'EdgeColor','None');
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xlabel('temps (s)')
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ylabel('fréquences (Hz)')
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zlabel('amplitudes (u.a.)')
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title('Full DSP AR signal fluteircam')
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figure()
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surf(ttsub,ffsubp,dspsp,'EdgeColor','None');
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xlabel('temps (s)')
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ylabel('fréquences (Hz)')
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zlabel('amplitudes (u.a.)')
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title('DSP AR signal fluteircam')
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figure()
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surf(ttsub,f,fftsp,'EdgeColor','None');
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xlabel('temps (s)')
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ylabel('fréquences (Hz)')
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zlabel('amplitudes (u.a.)')
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title('DSP FFT signal fluteircam')
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% take max amplitude frequency
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[maxDspsp, maxIndDspsp] = max(dspsp);
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maxFfsubp = ffsubp(maxIndDspsp);
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figure
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plot(ttsub,maxFfsubp)
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xlabel('temps (s)')
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ylabel('fréquences (Hz)')
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title('Frequency max DSP AR signal fluteircam')
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[maxFftsp, maxIndFftsp] = max(fftsp);
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maxF = f(maxIndFftsp);
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figure
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plot(ttsub,maxF)
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xlabel('temps (s)')
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ylabel('fréquences (Hz)')
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title('Frequency max DSP FFT signal fluteircam')
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