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In the context of image processing for edge detection or in my case a basic SIFT implementation:

When taking the 'difference' of 2 Gaussian blurred images, you are bound to get pixels whose difference is negative (they are originally between 0 - 255, when subtracting they are possibly between -255 - 255). What is the normal approach to 'fixing' this? I don't see taking the absolute value to be very correct in this situation.

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There are two different approaches depending on what you want to do with the output.

The first is to offset the output by 128, so that your calculation range of -128 to 127 maps to 0 to 255.

The second is to clamp negative values so that they all equal zero.

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For the first method, what about the remaining calculation range of -255 to -129 and 128 to 255 ? (Specifically the -255 to -129) – Display Name Nov 5 '12 at 5:51
    
@RodrigoSalazar you can either divide by 2 before adding 128, or you can clamp the result again. Sadly there's no good way to make 9 bits fit into 8. In most applications where you do a difference like this the magnitude will rarely be high enough where this is a problem. – Mark Ransom Nov 5 '12 at 14:19
    
Within the context of image processing and computing the difference b/w two images ... What does the negative values mean either way ? – ablaze Sep 3 '15 at 19:11

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