# FFT in MATLAB ( I need help)

Could anybody please tell me whether I can perform this integration with FFT in MATLAB? How? Please answer as soon as possible with the details.

Suppose there exists 2 rectangular planes, say, `input` accessed by `x1` and `y1` variables and the resulting plane is `output` accessed by `tetax` and `tetay` variables.

This is the integral in pseudo-code:

``````output(tetax,tetay)=double integral of [input(x1,y1)*exp(-j*k*((tetax*x1)+(tetay*y1)))](dx1)(dy1)
``````

where: `-1<= x1 <= 1 and -1<= y1 <= 1`

`tetax` and `tetay` should change so they can span the final rectangular plane.

I would really appreciate a prompt and detailed answer.

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Is this homework? –  tom10 Oct 14 '09 at 19:50
retagging as homework, pending objections by the OP –  Managu Oct 14 '09 at 21:04
I assume that 'j' is the imaginary unit (physicists...). What's 'k'? –  Managu Oct 14 '09 at 21:07
Dear tom, yes it is. Sorry I am new and I didn't know tags. and thanks for your kindness. ----------------------------------------------------- Dear Managu about j you are right. k is the wavenumber. –  Richard Oct 15 '09 at 3:46

Since this looks like homework, I'll just give some hints. The trick is to rewrite the integral to look like a normal 2D Fourier integral of a function.

There are two issues:

1) You need to combine k and your tetax, tetay to look like a normal wavenumber (and compensate for this in the appropriate way).

2) You need to deal with the limits being in the range (-1,1) whereas the Fourier integral needs them in the range (-inf, +inf). To do this, pick a function to go inside the Fourier integral that will make this work.

Then it will be obvious how to do this in Matlab. It's a cute problem and I hope this doesn't ruin it (and if people think it does, let me know and I'll delete this answer, or delete it for me if you can).

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Dear Tom; thanks again for your attention. Please accept my apology but I'm new in matlab and I can't understand how I can use fft(fft(that function)) or fft2 with the k which should change in a loop. where should i take into account this? Sorry and thanks again. –  Richard Oct 15 '09 at 5:37
I have tried to perform it with changing the k in my input function but as I have two fft and as I think changing k in the input function is not a logical task, I couldn't do it again! then I think I should change k every time and then add all the answers to have the final output on the interested plane but I can't understand where should I mention k in fft commands. please help me to understand what should I do. –  Richard Oct 15 '09 at 6:43
@Richard - First, look at a normal 2D Fourier transform equation. You just want to make this equation look like that. Normally the term in the exponent in a 2D transform looks like xk_x + yk_y and you have k(tetax + tetay), so multiply each term by k, and set k_x = ktetax and k_y = ktetay. Then this term looks like the normal. –  tom10 Oct 15 '09 at 14:43
Dear tom; thanks a million. my problem is with matlab commands. in matlab help there are fft and fft2 but nowhere i have found the k as the input of these commands. –  Richard Oct 15 '09 at 14:55
Richard - You're going to want to use fft2. But first you need to massage your equation so that fft2 applies to it, and that's what my hints describe, i.e. how to make your equation look like a normal 2d fourier transform. fft2 in Matlab will return a matrix, and the indices of this matrix will correspond to different wave numbers, i.e. different k_x and k_y, i.e. just like an fft always does. So 1) first modify the equation to look like a normal 2d Fourier transform (have you?), 2) read the docs of fft2 in Matlab to figure out how to interpret the result. –  tom10 Oct 15 '09 at 16:03

Your problem looks like a Fourier transform, not a discrete Fourier transform (DFT). A FFT calculates the latter type of transform.

Briefly, a Fourier transform involves an integral, while a DFT involves a sum.

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