How to calculate a gradient by fft ???

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3omyer 3omayer
3omyer 3omayer el 19 de Sept. de 2011
Hi;
someone can help me, how to calculate Gradient using fft ???

Respuesta aceptada

David Young
David Young el 20 de Sept. de 2011
It's still not clear what you mean by 'simple "gradient"' - that could refer to a variety of things.
One possibility is that you mean just the differences between adjacent values - what you'd get by computing
diff(im, 1, 2) % x differences - x component of gradient
and
diff(im, 1, 1) % y differences - y component of gradient
for example. You can do a similar operation in the frequency domain using the fact that the differentiation operator transforms to multiplication with ik (where k is the transform variable). The code looks like this for differentiating with respect to x:
im = imread('pout.tif'); % data
% compute differencing operator in the frequency domain
nx = size(im, 2);
hx = ceil(nx/2)-1;
ftdiff = (2i*pi/nx)*(0:hx); % ik
ftdiff(nx:-1:nx-hx+1) = -ftdiff(2:hx+1); % correct conjugate symmetry
% compute "gradient" in x using fft
g = ifft2( bsxfun(@times, fft2(im), ftdiff) );
imshow(g, []); % see result
As you can see, it's simpler to do it in the space domain. Why use the FFT?
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3omyer 3omayer
3omyer 3omayer el 22 de Sept. de 2011
I actually changed size(im,2) by size(im,1), but it gives me the same results ??
this is the following code
im = imread('pout.tif');
ny = size(im, 1);
hy = ceil(ny/2)-1;
ftdiff2 = (2i*pi/ny)*(0:hy);
ftdiff2(ny:-1:ny-hy+1) = -ftdiff2(2:hy+1);
% compute "gradient" in x using fft
g2 = ifft2( bsxfun(@times, fft2(im), ftdiff2) );
figure(2),
imshow(g2, []);
David Young
David Young el 28 de Sept. de 2011
Well, you have to think about the shapes of the arrays. Differentiating with respect to x means multiplying each row of the the Fourier transform by ftdiff. If you want to differentiate with respect to y, you have to multiply each column by ftdiff. Changing the size of ftdiff is a start, but you also have to change it from a row vector to a column vector.

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Walter Roberson
Walter Roberson el 19 de Sept. de 2011
Is that plain "gradient", or is it "conjugate gradient" ?
(I notice you posted the same question to some other locations, all of which seem to have replied asking for clarification.)
  1 comentario
3omyer 3omayer
3omyer 3omayer el 20 de Sept. de 2011
I want to calculate simple "gradient" for images by using "fft"

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