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Louise here. I've recently started experimenting with Fourier transforming images and spatially filtering them. For example, here's one of a fireplace, high-pass filtered to remove everything above ten cycles per image:

http://imgur.com/ECa306n,NBQtMsK,Ngo8eEY#0 - first image (sorry, I can't post images on Stack Overflow because I haven't got enough reputation).

As we can see, the image is very dark. However, if we rescale it to [0,1] we get

http://imgur.com/ECa306n,NBQtMsK,Ngo8eEY#0 - second image

and if we raise everything in the image to the power of -0.5 (we can't raise to positive powers as the image data is all between 0 and 1, and would thus get smaller), we get this:

same link - third image

My question is: how should we deal with reductions in dynamic range due to hi/low pass filtering? I've seen lots of filtered images online and they all seemed to have similar brightness profiles to the original image, without manipulation.

Should I be leaving the centre pixel of the frequency domain (the DC value) alone, and not removing it when low-pass filtering?

Is there a commonplace transform (like histogram equalisation) that I should be using after the filtering?

Or should I just interpret the brightness reduction as normal, because some of the information in the image has been removed?

Thanks for the advice :) Best, Louise

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I think maintaining the DC value would be the simplest way of accomplishing this. Your image links are broken btw. –  Connor McKay May 2 '13 at 20:59
    
Thanks for the info, I'll try that. Image links work fine here :) –  Louise May 3 '13 at 10:26

1 Answer 1

I agree with Connor, the best way to preserve brightness is to keep the origin (DC) value unchanged. It is common practise. This way you will get similar image as your second image, because you do not change the average gray level of the image. Removing it using high-pass filtering will set its value to 0 and some scaling is needed afterwards.

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