# How can I plot the results of the spectrogram function?

Within my figure I have 2 axes, the first is the time series of the signal and the second is the `ifft` of the signal. I'd like to add a 3rd axes that contains the spectrogram of the signal. How can I do this?

``````% Create the raw signal
fs = 40;
t = 0:( 1/fs ):4;
y1 = [ sin( 2*pi*5*t( t<=2 ) ), sin( 2*pi*10*t( t>2 ) ) ];

% Compute the ifft of the signal
Fy1 = abs(ifft(y1));
N = numel(t);
idx = 1:numel(Fy1) / 2;
f = fs*(0:(N-1)) / N;

% Plot the raw signal as a time series
subplot(311);
plot(t,y1,'k');
xlabel('Time (s)');
ylabel('Amplitude');

% Plot the spectrum of the signal
subplot(312);
plot(f(idx),2*Fy1(idx),'k')
xlabel('Frequency (cycles/second)');
ylabel('Amplitude');
``````

I've tried using the `spectrogram` function however I'm having a hard time interpreting its results as a figure. How do I compute the spectrogram so that i have time running along the xaxis and the amplitude along the y?

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You need to provide more input arguments into `spectrogram`. The form of the function you need is:

``````[S,F,T]=spectrogram(x,window,noverlap,F,fs)
``````

See http://www.mathworks.com/help/signal/ref/spectrogram.html complete documentation, but basically you need define:

• `windows`: the number of samples to use for each spectral estimate calculation
• `noverlap`: how many samples to include from the calculation of spectrum N-1 in spectrum N
• `F`: the frequencies you want the spectrum evaluated at
• `fs`: the sampling frequency of your signal.

Then plot the spectrogram with:

``````subplot(313);
imagesc( T, F, log(S) ); %plot the log spectrum
set(gca,'YDir', 'normal'); % flip the Y Axis so lower frequencies are at the bottom
``````

Note: The quality and interpretability of a spectrogram depends on using the correct inputs into the `spectrogram` function.

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