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I am trying to sharpen an image by designing a Gaussian High-Pass Filter. I would like to do this using the fact that the high-pass filter is equivalent to the identity matrix minus the low-pass filter, so I did the following:

image= imread('Question3_Data-Cats.jpg'); % read image

H = 1 - fspecial('gaussian' ,[5 5],2); % create unsharp mask
sharpened = imfilter(image,H);  % create a sharpened version of the image using that mask

imshow([image sharpened]); %showing input & output images

I did not get a sharpened image. Instead, I got a white image with some colors on a small region of the image. Can someone help? Thank you.

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1  
You're not subtracting the identity matrix, you're subtracting a matrix of ones. – Roger Rowland Apr 6 '13 at 18:01
    
I tried H = 255-fspecial('gaussian' ,[5 5],2); It did not work as well. – Traveling Salesman Apr 6 '13 at 18:02
    
Have you tried eye()? – Roger Rowland Apr 6 '13 at 18:03
    
yup...it did not work as well – Traveling Salesman Apr 6 '13 at 18:06
up vote 3 down vote accepted

Try this:

H = padarray(2,[2 2]) - fspecial('gaussian' ,[5 5],2); % create unsharp mask

1 is a scalar. You need a 5x5 array with one in the center. Furthermore, the filter elements must sum to one if you want to conserve brightness, so you need to double the central value to counter the amount you are subtracting.

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okay this works, but I don't understand why. Can you elaborate more regarding why all elements are zero except the one in the middle. Also, what do you mean by "conserving the brightness". – Traveling Salesman Apr 6 '13 at 19:34
    
You can view the action of a filter as replacing each pixel with a weighted sum of its neighbors. The weight on each neighbor is given by the magnitude of the filter components. The identity filter is a single one in the center of the filter -- meaning that the pixel's new value is exactly the same as its old value. A Gaussian filter averages contributions from multiple pixels around the center, giving a blur effect. If the filter values don't sum to 1.0, then the overall brightness will change -- brighter if they sum to more than 1, darker if they sum to less than 1. – nhowe Apr 7 '13 at 0:44

Let g be the gaussian kernel and f be the image. Then f * g (convolution) gives the blurred version of the image. That means low-passed version of the image.

Then consider f - f \ast g. It means image - lowpass image. That give high-passed version of the image. It contains only image details. Details are in white on the black background. I think that is the image you are getting right now.

image detail

After you have extract image details from the image you have to add it back to the image to get sharpen image.

Sharpen Image

That means you can get sharpen image by convolution of 2e - g with you image(This is the unsharp mask).

You can get 2e from matlab using padarray(2,[2 2]) and g using fspecial('gaussian' ,[5 5],2).

H = padarray(2,[2 2]) - fspecial('gaussian' ,[5 5],2); %create unsharp mask

Sometimes, you will need to control the brightness of image details. You can do that by

sharpen image = image + alpha(image details)

control brightness of image details

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