Calculate PSD using FFT

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Peppe
Peppe il 21 Nov 2011
Modificato: Aditya il 5 Ott 2023
Hi, The question is to calculate PSD using FFT function in MATLAB. Ive already done it with pwelch command in MATLAB and now it's time to do it with FFT command and compare the results. If I have file named: file2.Mat which contains 3 columns. first column is time, second Force and the third is acceleration. the sampling is 4000Hz and the number of NFFT is ,let us say, 4444. I know that we need to multiply the window with time column. And then what?
Does anybody know how to do it? Ive been work on this for like 3 hours.
regards
  1 Commento
Noel Khan
Noel Khan il 16 Ott 2020
Do you have the pwelch implementation? I would like to see how you got your estimate if you dont mind :)

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Frantz Bouchereau
Frantz Bouchereau il 29 Lug 2021
Here is a popular MATLAB doc page that explains the relationship between FFT and true power spectra: Power Spectral Density Estimates Using FFT.
  1 Commento
Aditya
Aditya il 5 Ott 2023
Modificato: Aditya il 5 Ott 2023
This page appears to have a conceptual error in the first example. Amplitudes must be multiplied by two before taking one-sided PSD (as pointed out in reply by Chris Schwarz on 27 Aug 2020). Can the documentation be fixed?

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Più risposte (4)

Wayne King
Wayne King il 21 Nov 2011
The PSD is an even function of frequency, so you only need from 0 to the Nyquist, if you want to conserve the total power, you have to multiply all frequencies except 0 and the Nyquist by two if you only keep 1/2 the frequencies. 0 and the Nyquist only occur once in the PSD estimate, all other frequencies occur twice. If you look at the example I gave you, then you see it agrees with the scaling in MATLAB's periodogram.
The answer about multiplying by a window, Hanning, Hamming, Blackman, Tukey. etc. is that it depends. A window reduces the bias in the periodogram, but that comes at the cost of reduced frequency resolution (a broader main lobe).
Wayne King
Wayne King il 21 Nov 2011
Why don't you just use spectrum.periodogram?
Fs = 1e3;
t = 0:1/Fs:1-1/Fs;
x = cos(2*pi*100*t)+randn(size(t));
plot(psd(spectrum.periodogram,x,'Fs',Fs,'NFFT',length(x)));
If you want to do it simply with fft()
xdft = fft(x);
xdft = xdft(1:length(x)/2+1);
xdft(2:end-1) = 2*xdft(2:end-1);
psdest = 1/(length(x)*Fs)*abs(xdft).^2;
freq = 0:Fs/length(x):Fs/2;
plot(freq,10*log10(psdest));
grid on;
Compare the plots.
  2 Commenti
Wayne King
Wayne King il 21 Nov 2011
If you want to use a window, like Hamming, etc. You can do:
plot(psd(spectrum.periodogram('Hamming'),x,'Fs',Fs,'NFFT',length(x)));
Chappi
Chappi il 17 Dic 2019
Hi, can I ask about how you can apply Hamming window using FFT method? I dont have Signal Processing Tool so I can not use periodogram function. Thank you

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Peppe
Peppe il 21 Nov 2011
Why xdft = xdft(1:length(x)/2+1); % what does that mean? xdft(2:end-1) = 2*xdft(2:end-1); %? dubbel side? and why?
I dont understand these two lines psdest = 1/(length(x)*Fs)*abs(xdft).^2; freq = 0:Fs/length(x):Fs/2;
  1 Commento
Peppe
Peppe il 21 Nov 2011
Shouldnt I multiply the hanning windows with my time vector?

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Chris Schwarz
Chris Schwarz il 27 Ago 2020
An adjustment to Wayne's code that gives an exact match to the periodogram is:
Fs = 1e3;
t = 0:1/Fs:1-1/Fs;
x = cos(2*pi*100*t)+randn(size(t));
plot(psd(spectrum.periodogram,x,'Fs',Fs,'NFFT',length(x)));
xdft = fft(x);
xdft = xdft(1:length(x)/2+1);
xdft(2:end-1) = 2*xdft(2:end-1);
freq = 0:Fs/length(x):Fs/2;
df = diff(freq);
df = df(1);
% psdest = 1/(length(x)*Fs)*abs(xdft).^2; % original
psdest = abs(xdft/length(x)).^2/(2*df); % modified
hold on
plot(freq,10*log10(psdest),'r');
grid on;
  2 Commenti
PK
PK il 18 Gen 2021
psdest = abs(xdft/length(x)).^2/(2*df); % modified
why '2*df'? For the zero frequency also 2*df?
Thanks
karinkan
karinkan il 7 Mar 2021
close all
Fs = 1e3;
t = 0:1/Fs:1-1/Fs;
x = cos(2*pi*100*t)+randn(size(t));
L =length(x);
NFFT = 2^nextpow2(L);
plot(psd(spectrum.periodogram,x,'Fs',Fs,'NFFT',NFFT));
df = Fs/NFFT;
freq = 0:df:Fs/2;
xdft = fft(x,NFFT);
xdft_s = xdft(1:NFFT/2+1);
amp = abs(xdft_s)/NFFT;
psdest = amp.^2/(df); % original
psdest(2:end-1) = 2*psdest(2:end-1);
hold on
plot(freq,10*log10(psdest),'r');
grid on;

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