Is this the correct implementation of the total variation algorithm?
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I have implemented the following code using the l1 norm of the spatial fist-order derivatives:
function TV = compute_total_variation1(y)
% y is the image
nbdims = 2;
% check number of channels in an image
if size(y,1)==1 || size(y,2)==1
% we have one dimension
nbdims = 1;
end
if size(y,1)>1 && size(y,2)>1 && size(y,3)>1
% we have three dimensions
nbdims = 3;
end
if nbdims==1
TV = sum(abs(diff(y)));
return;
end
% the total variation weight is 1
% weight_tv = ones(size(y));
[gx gy] = gradient(y);
% compute using the l1 norm of the first order derivatives
% horizontal
TVgx = sum( abs(gx),nbdims+1);
% vertical
TVgy = sum( abs(gy),nbdims+1);
% TV = TV .* weight_tv;
TV = sum(TVgx(:)) + sum(TVgy(:));
Is the above implementation valid or not?
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