Effacer les filtres
Effacer les filtres

Recover gaussian by using fft and ifft.

1 vue (au cours des 30 derniers jours)
Mikhail
Mikhail le 30 Déc 2014
Réponse apportée : Youssef Khmou le 30 Déc 2014
I am trying to recover gaussian by using fft and ifft. But the result is correct only in case of the analytical fft. Please give me advice what should I do in discrete case.
clear all;
T=10;
N=256;
dt=T/(N-1);
t=linspace(-T/2,T/2,N);
f=exp(-t.^2);
g=sqrt(pi).*exp(-(pi^2).*t.^2);
F=fft(fftshift(f))*dt;
F1=F(1:N/2+1);
F2=F(N/2+1:N);
F=[F2,F1];
dnu=(N-1)/(N*T);
nuNyq=1/(2*dt);% Nyquist frequency
nu=-nuNyq+dnu*(0:N);
% plot(t,g);
% plot(nu(N/2+1-20:N/2+1+20),real(F(N/2+1-20:N/2+1+20)));
%------------ifft of analitical Fourier transform--------------------------
Z=ifft(ifftshift(g))*N*dt;
Z1=Z(1:N/2+1);
Z2=Z(N/2+1:N);
Z=[Z2,Z1];
figure
hold on;
plot(t,f);
plot(nu(N/2+1-20:N/2+1+20),real(Z(N/2+1-20:N/2+1+20)));
hold off;
%--------------------------------------------------------------------------
%----------------ifft of discrete Fourier transform------------------------
G=ifft(ifftshift((F)))*dt*N;
G1=G(1:N/2+1);
G2=G(N/2+1:N);
G=[G2,G1];
figure
hold on;
plot(t,f);
plot(nu(N/2+1-20:N/2+1+20),real(G(N/2+1-20:N/2+1+20)));
hold off;
%--------------------------------------------------------------------------

Connectez-vous pour répondre à cette question.

Réponses (1)

Youssef Khmou
Youssef Khmou le 30 Déc 2014
Try :
G(end)=[];
G=(sqrt(2*pi))*G;
figure; plot(t,f,'r',t,G,'g');

Catégories

En savoir plus sur Fourier Analysis and Filtering dans Help Center et File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by