# Why isn't the inverse Fourier transform giving the correct results?

I took the Fourier transform of an image in Matlab and now I want to take the inverse fourier but the result is a completely black picture instead of the original image. I think there is some step that I need to do before taking the inverse. Thank you for any help. The code:

nasa=imread('nasaNoise _1_','jpg');
N_Fourier=fft2(nasa);
N_Fourier=fftshift(N_Fourier);
N_Fourier=abs(N_Fourier);
N_Fourier=log(N_Fourier+1);
N_Fourier=mat2gray(N_Fourier);

%Now doing the inverse
N_inverse=ifft2(N_Fourier);
N_inverse=abs(N_inverse);
N_inverse=uint8(N_inverse);
imshow(N_inverse);

• Well, you're applying fftshift, abs, log, and mat2gray. After that, you don't have the Fourier transform of the image anymore, so why would the inverse Fourier transform recover it? – A. Donda Nov 2 '13 at 17:31
• You first lose it when you do N_Fourier=abs(N_Fourier); – chappjc Nov 2 '13 at 17:54
• The Fourier transform is in general complex-valued, so I understand the abs, and can have values orders of magnitude different, so I understand the log. But while the log is (in principle) invertible, the abs isn't, so you're never going to be able to apply the inverse transform. Are you sure you want to edit (in a bitmap graphic editor) the Fourier transform? Maybe you just want to apply a mask or something? – A. Donda Nov 2 '13 at 18:39
• If stackoverflow was capable of using MathJax like other SE sites I would be a lot more likely to post an answer here. – nispio Nov 2 '13 at 18:59
• @nispio: missed that very often, too. Especially since Matlab-related questions tend to have a mathematical side. – A. Donda Nov 2 '13 at 19:15