7x7 arithmetic mean filter
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How can I apply 7x7 arithmetic mean filter to following image?
3 Comments
faysal firas
on 17 Jul 2020
% Chessboard
n = 8;
v = 1:n; % 1 =w; 0=black
c = zeros(n,n); for k=1:n; c(k,:) = mod(v+k-1,2); end; c
% mean filter
h = [1 1 1 1 1 1 1; 1 1 1 1 1 1 1; 1 1 1 1 1 1 1; 1 1 1 1 1 1 1; 1 1 1 1 1 1 1; 1 1 1 1 1 1 1; 1 1 1 1 1 1 1;]/49;
cf = imfilter(c,h) % built-in matlab function
% Now we design our function for filtering.
% zero-pad c to e: (n+2)*(n+2). Note: n1=n+3-1=n+2.
e = zeros(n+2,n+2);
e(2:n+1,2:n+1)=c; % original image
e % print e on screen
% Now perform correlation filtering (not convolution):
% Move the mask across image as follows: put the center of the mask at each
% pixel of the extended (zero-padded) image. Multiply the corresponding
% elements, and add them, then put the result on the center pixel.
g = zeros(size(e));
for i=2:n+1
for j=2:n+1
m = e(i-1:i+5, j-1:j+5); % 7 by 7square, center at (i,j)
g(i,j) = sum(sum(h .* m));
end
end
cg = g(2:n+1,2:n+1)
imshow(cg);
faysal firas
on 17 Jul 2020
% Chessboard
n = 8;
v = 1:n; % 1 =w; 0=black
c = zeros(n,n); for k=1:n; c(k,:) = mod(v+k-1,2); end; c
% mean filter
h = [1 1 1; 1 1 1; 1 1 1]/9;
cf = imfilter(c,h) % built-in matlab function
% Now we design our function for filtering.
% zero-pad c to e: (n+2)*(n+2). Note: n1=n+3-1=n+2.
e = zeros(n+2,n+2);
e(2:n+1,2:n+1)=c; %original image
e % print e on screen
% Now perform correlation filtering (not convolution):
% Move the mask across image as follows: put the center of the mask at each
% pixel of the extended (zero-padded) image. Multiply the corresponding
% elements, and add them, then put the result on the center pixel.
g = zeros(size(e));
for i=2:n+1
for j=2:n+1
m = e(i-1:i+1, j-1:j+1); % 3 by 3 square, center at (i,j)
g(i,j) = sum(sum(h .* m));
end
end
cg = g(2:n+1,2:n+1)
imshow(cg);
% error = cg-cf is zero
Image Analyst
on 17 Jul 2020
faysal, are your two comments above "Answers"? If so, put them below in the official Answers area, not up here in comments. That way you can get credit (reputation points) for them. The comments section up here is where people are supposed to ask for clarification of a question, not offer solutions.
Accepted Answer
Image Analyst
on 7 Jun 2020
You can do this:
windowWidth = 7;
kernel = ones(windowWidth) / windowWidth^2;
outputImage = imfilter(grayImage, kernel);
If you use conv2() you'll need to make sure your input image is not of integer class, so cast it to double first:
outputImage = conv2(double(grayImage), kernel, 'same');
imfilter() does not require casting to double in advance. Also imfilter() does not flip the kernel like convolution does, though for a symmetric filter like this box filter, it doesn't matter if it's flipped or not.
4 Comments
Atalay Asa
on 8 Jun 2020
Image Analyst
on 8 Jun 2020
What's up with manual filtering instead of using built-in functions. Is it the latest hot homework question? This is the second one today that I've seen, plus I've seen tons of them in the past month. Just search for them, or see my attached demo.
Atalay Asa
on 9 Jun 2020
Image Analyst
on 9 Jun 2020
You're welcome. Then since conv2() is a built-in function, it seems mine is the Answer that you should "Accept". Thanks in advance.
More Answers (1)
Thiago Henrique Gomes Lobato
on 7 Jun 2020
You can colvolve the image with a filter that will perform the average. In your case it will be something like this:
I = randn(50,50); % Substitute this by your image
N = 7;
F = ones(N)/(N.^2); % Each element is scaled so the sum of all will be 1
IFiltered = conv2(I,F,'same');
1 Comment
Atalay Asa
on 9 Jun 2020
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