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Please, see the the description of both fftshift and ifftshift. I would like to understand how to call the above two functions in relationship with fft and fftn in Matlab.

Let say that my signal has a certain frequency content; now, the frequency array can generally be stored as:

f = (-N/2:N/2-1)*df;

f = (1:N)*(df/2);

f = [(0:N/2-1) (-N/2:-1)];

What is the best way to call fft, coupled with fftshift and ifftshift, for the 3 study cases early mentioned?

What is the effect on the standard deviation of the signal of calling the sequence of commands or the wrong one?

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This question encouraged me to ask an extensive question about the topic here: stackoverflow.com/questions/19901519/… – Masi Nov 11 '13 at 8:06
up vote 5 down vote accepted

The result of fft is (in your notation) indices (0:N-1). fftshift simply converts that to [(N/2:N-1) (0:(N/2-1))].* ifftshift simply restores the original indexing.

As this is simply reordering samples, it does nothing to the standard deviation.


* Note that due to periodicity, sample k is equivalent to sample k+N, or k-N, etc.

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and the input of the fft is expected to be swapped or un-swapped? – fpe Feb 26 '13 at 22:08
    
@fpe: I don't understand what you're asking. The output of fft is what it is, (0:N-1). – Oliver Charlesworth Feb 26 '13 at 22:09
    
I would like to understand if fft in Matlab expects to have input in the standard notation (-N/2:N/2-1)*df or not – fpe Feb 26 '13 at 22:11
    
@fpe: The input to fft is time-domain data. The output is frequency-domain data, in frequency order (0:N-1). – Oliver Charlesworth Feb 26 '13 at 22:12
    
mathworks.com/matlabcentral/newsreader/view_thread/285244 is probably the answer I was looking for – fpe Feb 26 '13 at 22:20

Matlab documentation is just killing about it. But experiments show that

ifftshift([1 2 3 4 5])

ans =

 3     4     5     1     2

fftshift([1 2 3 4 5])

ans =

 4     5     1     2     3

It is just swapping around the magic DFT position [N/2]. FFT implemented in matlab use usual indexing (0:N-1). As I understand this is extra functions to prepare your input to DFT if your setup is dicrete function not in (0:N-1)...

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