fft definition in matlab doc puzzling
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Hi all,
I'm a bit puzzled with the definition of fft in the documentation :
The definition at the very end in "more about" states the fft as a projection on positive frequency (from 0 to Fs/N) while the examples suggest a "two sided" spectrum ie. with positive frequencies and negative ones (-Fs/2 to Fs/2).
To make my question more precise :
the definition in the doc is :
Given that the fft results in both positive and negative frequencies, I woumld have guess a defintion like :
Am I missing something ?
thanks in advance for your help,
Francois.
2 Kommentare
Walter Roberson
am 17 Feb. 2019
?? I do not see the word "projection" at all in that documentation ??
françois anquez
am 19 Feb. 2019
Dear Walter,
the word projection is not written. However suming on all 
is a projection on harmonic k.
is a projection on harmonic k.
all the best,
Francois.
Akzeptierte Antwort
Given that the fft results in both positive and negative frequencies, I woumld have guess a defintion like :
Perhaps a better way to clear up the confusion is to point out that for any given sinuoid 
at some "positive" frequency 
, the corresponding negative frequency sinusoid 
is indentical, due to n-periodicity, to 
, or equivalently to 
, where 
.
at some "positive" frequency , the corresponding negative frequency sinusoid is indentical, due to n-periodicity, to , or equivalently to , where . Bust since 
and 
both lie in the interval 2...n, we can see that summing from k=1...n in the FFT is sufficient to capture all the same pairs of positive and negative frequencies as summing from -n/2 to +n/2.
and both lie in the interval 2...n, we can see that summing from k=1...n in the FFT is sufficient to capture all the same pairs of positive and negative frequencies as summing from -n/2 to +n/2.1 Kommentar
françois anquez
am 22 Feb. 2019
Weitere Antworten (1)
Your second definition only makes sense if you define the indexing in Y(k) to be modulo-n. Otherwise, it is not clear what it means for a vector Y to be indexed at negative k.
If you are defining Y(k) to be modulo n, then the two IFFT definitions are equivalent because Y(k) and W_n(j-1)(k-1) are then both n-periodic with respect to k. Therefore any sum over n successive indices k gives the same result.
4 Kommentare
françois anquez
am 21 Feb. 2019
Dear Matt,
thanks for your answer. However I not sure it is only a matter of indexing.
The two definition do not lead to the same transform. I quickly checked the two sums (for 1:n and for -n/2:n/2) lead to a different number in the general cas for a given k.
Still I'm wondering what am I missing.
Moreover the two definitions lead to decompostion of functions that have different frequency components. For example, the definition on the documentation page :
lead to harmonic component that do not verify shannon theorem (k>n/2) while the other does not.. Still I'm puzzled.
all the Best,
Francois.
françois anquez
am 21 Feb. 2019
The test code should be as below. The main problem with your implementation is that in the first version of the coefficient calculation, you are putting the time origin at X(1) whereas in the second version, you are putting the time origin at X(N/2). Thus, the second version is really the transform of a phase-shifted version of X.
function [coef1,coef2]=essaiFFT_Matt(X,k)
N=numel(X);
WN=exp(-1i*2*pi/N);
coef1=0;
for j=1:N
coef1=coef1+X(j)*power(WN,(j-1)*(k-1));
end
coef2=0;
for j=(1:N) - floor(N/2) %floor() handles odd N
index=mod(j-1,N)+1; %modulo N transform for 1-based indexing
coef2=coef2 + X(index)*power(WN,(j-1)*(k-1));
end % for jj
end % function
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