How to apply a quantization step to a 2D transformed image?

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Said BOUREZG
Said BOUREZG am 5 Feb. 2016
Kommentiert: Walter Roberson am 6 Feb. 2016
Hi all of you, I need some help here, my problem is how can i use quantization to the result of that code below?,knowing that the result (XDFT) is complex arry, example: XDFT(1,1)=125+ i*2562. So how values like XDFT(1,1) will be on an interval between 0 and 255.
[filename, pathname] = uigetfile('*.bmp', 'open image');% getting a Bitmap image.
[X,MAP]=imread(fullfile(pathname, filename));%Image reading.
R=input('R=');%bloc size(8*8 or 16*16 or 32*32).
XDFT= blkproc(X,[R R],'fft2');%DFT Transformation of X.
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Said BOUREZG
Said BOUREZG am 5 Feb. 2016
Bearbeitet: Said BOUREZG am 5 Feb. 2016
Thank you Matt J .
Matt J
Matt J am 5 Feb. 2016
Bearbeitet: Matt J am 5 Feb. 2016
You're welcome, but I hope you will also learn to do this.

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Matt J
Matt J am 5 Feb. 2016
Why not quantize the real and imaginary parts? Or, like in JPEG compression, why not use the DCT, instead of the DFT, so that the block spectra are real-valued?
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Said BOUREZG
Said BOUREZG am 6 Feb. 2016
I don't have a problem with DCT or DWT, my problem with DFT coefficients if I separate real and imaginary parts and I quantize them, the compression of them can't give a good results.
Walter Roberson
Walter Roberson am 6 Feb. 2016
Why is it not possible for the compression to give good results? If you keep 5 real components and 5 imaginary components, that is as good a compression as keeping 10 real components.

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