How to get inverse discrete time Fourier transform (IDTFT) of an array?

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Palguna Gopireddy
Palguna Gopireddy on 23 Jul 2022
Commented: Palguna Gopireddy on 27 Jul 2022
Apparently, there is no function to get IDTFT of an array. Is there any?
I used 'freqz(array,1)' to find the DTFT of an array from '0' to 'pi-pi/512'.
I also developed a code for DTFT for ab array A of length N from '-pi' to 'pi'
i=1
for wval=-pi:pi/512:pi
DFT(i)=sum(a.*exp(-1j*(0:N-1).*wval));
i=i+1;
end
But I do not know how to find IDTFT, when applied on a DTFT giving the original array.

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Accepted Answer

Abderrahim. B
Abderrahim. B on 23 Jul 2022
Ran in:
Hi!
Are you trying to implement DFT and its IDFT based on their equations ?
There are optimized algorithms to calculate these equations, the very well known one is the Fast Fourier Transform(FFT) and its inverse (IFFT). You may need to refer to this link for more explanation .
Demo:
Array = [1 2 3 4 5] % Sequence
Array = 1×5
1 2 3 4 5
arrFFT = fft(Array) % DFT based FFT
arrFFT =
15.0000 + 0.0000i -2.5000 + 3.4410i -2.5000 + 0.8123i -2.5000 - 0.8123i -2.5000 - 3.4410i
Array = ifft(arrFFT )
Array = 1×5
1 2 3 4 5
Hope this helps
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Abderrahim. B
Abderrahim. B on 27 Jul 2022
Edited: Abderrahim. B on 27 Jul 2022
Ran in:
Use fft2 and ifft2.
A = [1,2,3; 4,5,6] ;
[n_row, n_col ] = size(A) ;
A_2Dfft = fft2(A, 512, 512) ;
A_ifft2 = ifft2(A_2Dfft) ;
reconst_A = A_ifft2(1:n_row, 1:n_col) ;
isequal(reconst_A , A)
ans = logical
1
Palguna Gopireddy
Palguna Gopireddy on 27 Jul 2022
Thanks @Abderrahim BELISSAOUI.
But I can't prove the convolution theorem for 2D.
I posted it as another question. Could you help me withis this.
https://in.mathworks.com/matlabcentral/answers/1768915-can-t-prove-the-convolution-theorem-of-fourier-theorem-for-two-dimensional-matrices

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