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Energy calculated from an image doesn't match with the energy calculated from its Fourier transform

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ImageProcNaive
ImageProcNaive el 17 de En. de 2017
Editada: David Goodmanson el 19 de En. de 2017
Parseval's theorem (link below) says that these energies will be same. Here's how I calculate energy from image and Fourier domain respectively:
a. Energy (from image) =
sum (image.^2)
b. Energy (from FT) =
sum ( abs(fft2(image)) .^2)
I was wondering if there are more steps required for option b.
Parseval's formula

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ImageProcNaive
ImageProcNaive el 18 de En. de 2017
Follow up: Found this file which shows the correct way of calculating energy in Option B. It turns out that you have to take the square of the fft first and then abs value.

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David Goodmanson
David Goodmanson el 17 de En. de 2017
Editada: David Goodmanson el 17 de En. de 2017
Hello IPN, I assume you mean sum(sum(...)) rather than sum(...). It appears that you are assuming a constant of proportionality of 1 between the two summations you show above. That's not the case, nor should it be. The specific definition of the transform, the factor in front of that, affects the form of the Parseval result. For example in the link you provided, there is a factor of 1/2pi in front of the energy summation (in frequency), due to their definition of the transform itself.
For the Matlab fft there is a factor of the number of elements in each dimension. If you divide your expression b (only with two sums) by prod(size(image)), the results should agree.
p.s. Go Aggies
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ImageProcNaive
ImageProcNaive el 18 de En. de 2017
Hi David, sorry I wanted to mean sum(I(:)) which is the same as sum(sum(I)) where I is an image (i.e. 2D). And dividing by the factor also doesn't help. It turns out that I might be doing a wrong calculation in Option B. I found a file (link below) where they take the square of the fft first and then take the abs value, which gives the same result as Option A. But thanks anyway for your answer.
abs( fft2(image).^2 )
instead of
abs(fft2(image)) .^2
File Exchange - Parseval's Theorem
David Goodmanson
David Goodmanson el 19 de En. de 2017
Editada: David Goodmanson el 19 de En. de 2017
Hi IPN, Well, I don't believe there is any difference between the two lines of code you show above. For a complex number,
abs(z)^2 = abs(z^2)
so the same is true for a sum of them. Just to make sure, I checked on an image. And for a square image the factor of N^2 they divided by is the same as prod(size(image)). What counts, though, is that you got the result you were looking for.

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