# Inverse of Fourier transformed image

why i cant get the inverse of the image that i converted using Fourier transform and image processing? the code for the program is as below.here the image is being converted via image processing but i cannot get the inverse image back.pls help me

``````clc;
clear all;
close all;
j=rgb2gray(a)
figure,imshow(a);
figure,imshow(j);
p=size(j);
[x,y]=size(j);
n1=rand(220,220);
b=exp(2*pi*i*n1);
k=fft2(j);
c=k.*b;
d=fft2(c);
figure,imshow(d);
s=size(d);
[r,t]=size(d);
n2=rand(220,220);
e=exp(2*pi*i*n2);
f=fft2(e);
figure,imshow(f);
g=fft2(f);
h=conj(e);
i=g.*h;
k=ifft(i);
figure,imshow(k);
``````
-
Please at least put comments in your code! Also explain what goes wrong and where – Dan Aug 5 '13 at 14:23
Surely you need `ifft2` rather than `ifft`? – Roger Rowland Aug 5 '13 at 14:24

There are a number of things wrong with the code and the objective is not clear. Most critically you are multiplying mismatched matrices in frequency space. If your goal is to add noise to the image spectrum, you can do something like this:

``````a=imread('lenna.png');
j=rgb2gray(a);
p=size(j);
n1=0.01*rand(p);
k=fft2(j);
figure,imshow(k);
c=k.*n1;
d=ifft2(c);
figure,imshow(d);
``````

To recover the "signal" that was dumped on the image in frequency space, just repeat the previous step with the corrupted and original files: (1) FFT both, (2) take the ratio, (3) do whatever you want with the remainder, which is the "signal" you originally dumped on the image:

``````a=imread('lenna.png');
j=rgb2gray(a);