short time fourier transform

4 vues (au cours des 30 derniers jours)
Richard
Richard le 9 Déc 2012
I would like to perform a short time fourier transform (STFT) to a synthetic data series. I can compute the fourier transform by:
fs = 40;
t = 0:(1 / fs):4;
y1 = [sin(2 * pi * 5 * t(t <= 2)), sin(2 * pi * 10 * t(t > 2))];
subplot(311);
plot(t,y1,'k');
Fy1 = abs(ifft(y1));
N = numel(t);
idx = 1:numel(Fy1) / 2; % # Indices of half the spectrum
f = fs * (0:(N - 1)) / N; % # Actual frequencies
subplot(312);
plot(f(idx),2*Fy1(idx),'k');
As a third subplot, I would now like to compute the STFT otherwise known as the windowed fourier transform, which will show hoe the frequency of the signal varies in time. How can this be done?

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Réponses (3)

Matt J
Matt J le 9 Déc 2012
  2 commentaires
Richard
Richard le 13 Déc 2012
what about the spectrogram, is this better?
Matt J
Matt J le 13 Déc 2012
Once you have the STFT, you can obtain the spectrogram as abs(STFT).^2

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Wayne King
Wayne King le 13 Déc 2012
Why not just use spectrogram if you have the Signal Processing Toolbox?
You can output the STFT and/or the short-time periodograms (PSD estimates)
  1 commentaire
Richard
Richard le 13 Déc 2012
I have tried using the spectrogram. By typing spectrogram(y1), matlab returns a plot, but I cannot get the spectrogram to display the results in a format that follows from subplot(311) and (312) above. For example, I would like the time along the x axis and the frequency along the y.

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Wayne King
Wayne King le 13 Déc 2012
Then just use the 'yaxis' option
t = 0:0.001:1-0.001;
x=chirp(t,0,1,150);
spectrogram(x,'yaxis')
If you actually output arguments from spectrogram, you have much more control over the plot. See the help.

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