Basic FFT Question: What range to sample the function in.
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Sorry about this basic question, and what may just be a bug.
I have been playing with the fft, and as a sanity check I thought I would the case of cosine, which we know only has two nonzero terms in the fft, both equal to 1/2. How ever when I sample cosine in the range it gives me the coefficients equal to -1/2.
test_func = @(t) cos(t);
M = 10;
ms = (-M/2:(M/2-1));
dx = 2 * pi / M;
xn = ms * dx;
fs = test_func(xn);
cms = (1/M) * fft(fs);
plot(real(fftshift(cms)),"*")
However when I change my range to everything works as expected. However I am under the impression that the fft should not be sensitive to this change. Can you tell me where I am going wrong?
test_func = @(t) cos(t);
M = 10;
ms = (0:M-1);
dx = 2 * pi / M;
xn = ms * dx;
fs = test_func(xn);
cms = (1/M) * fft(fs);
plot(real(fftshift(cms)),"*")
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採用された回答
Bruno Luong
2024 年 3 月 29 日
" However I am under the impression that the fft should not be sensitive to this change. "
Your expectation in incorrect When you change the range you equivalently shift the signal in time domain; resulting multiplying the FFT by the linear phase term; which happens to be -1 at the non zero frequency.
1 件のコメント
Paul
2024 年 3 月 29 日
To put this another way, fft always assumes the first point in the input corresponds to the independent variable being zero. So, when creating the function like this
test_func = @(t) cos(t);
M = 10;
ms = (-M/2:(M/2-1));
dx = 2 * pi / M;
xn = ms * dx;
fs = test_func(xn);
it is a cosine over the interval from -pi to pi
figure
plot(xn,fs,'-o')
But to fft, the signal is actually this
figure
plot((0:M-1)*dx,fs,'-o')
which is a negative cosine.
Because of the symmetry in ms used to define fs, the correct result can be obtained by using ifftshift on input to fft to get the values of the periodic extension of fs in the interval 0:M-1
cms = (1/M) * fft(ifftshift(fs));
figure
stem(ms,real(fftshift(cms)),"*")
その他の回答 (1 件)
Mitchell Thurston
2024 年 3 月 29 日
編集済み: Mitchell Thurston
2024 年 3 月 29 日
When you perform an FFT, it is assumed that the original signal is on a timespan from [0 to 2*pi]. When you pass these signals as arguments using fft, the program is seeing these signals as:
The negative signs you're seeing essentially mean "same magnitude of the frequencies, but 180° out of phase"
You can recreate any signal from fftshift output with:
A = fftshift(cms);
mag = abs(A); % frequency magnitude
phase = angle(A); % phase shift for each frequency
w = floor((1-M)/2):floor((M-1)/2); % angular rates
S = @(t) sum(real( mag.*(cos(w.*t+phase)) ));
figure
plot(xn, fs); hold on
fplot(@(t) S(t), [0 2*pi])
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