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im working with images double(800x450x3) and I want to change the value of a pixel if it holds certain conditions. However the code that i first had works and gives me a good image. When i tried to optimize it the image will get really strange colors (red/purple/blue etc) when I don't have them at all in the previous case.

First i had the code:

diff = abs(double(rgbimage) - double(backgroundImage));
fusion = zeros(size(currentFrame));
 for i=1:size(backgroundImage,1)
    for j = 1:size(backgroundImage,2)

       if diff(i,j) > 20

        fusion(i,j, :) = double(rgbimage(i,j, :));

         fusion(i,j, :) = 0;  


and i optimized it to:

    diff = abs(double(rgbimage) - double(backgroundImage));
    fusion = zeros(size(currentFrame));    
    indexes = diff > 20;
    fusion(indexes) = double(rgbimage(indexes));

...and after I just plot

    subplot(2,1,1), subimage(uint8(fusion));

What's the difference and why do i get this error? Thanks!

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Its a bad idea to named your variable diff, as then the function diff will be in conflict. –  user85109 Jun 19 '12 at 14:02

2 Answers 2

up vote 2 down vote accepted

The reason why your two methods are different is because you, in the for-loop version, use only the first "layer" of the difference image (i would guess the red component?). Your line if diff(i,j) > 20 is interpreted as if diff(i,j,1) > 20. If the third coordinate is not defined in a look-up it defaults to 1.

The optimized code compares all elements of the 3-dimensional data structure - element-by-element. This is why you get "weird" colors. The difference check is thus made locally in every pixel and does not take color components into consideration.

Try doing this with your optimized version:

diff = abs(double(rgbimage) - double(backgroundImage));
fusion = zeros(size(currentFrame));
indexes = cat( ...
   3, ...
   diff(:,:,1) > 20, ...
   diff(:,:,1) > 20, ...
   diff(:,:,1) > 20 ...
fusion(indexes) = double(rgbimage(indexes));

This should now give the same result as the for-loop version.

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repmat(diff(:,:,1)>20,[1 1 3]) would be cleaner. –  tmpearce Jun 19 '12 at 14:32
Sure :) And your other fine point was removed. So I have removed my long comment. –  Ole Thomsen Buus Jun 19 '12 at 14:41
  1. I suggest instead of subtracting images manually use, imsubtract internal function . (Subtract one image from another or subtract constant from image). Z = imsubtract(X,Y) subtracts each element in array Y from the corresponding element in array X and returns the difference in the corresponding element of the output array Z. X and Y are real, nonsparse numeric arrays of the same size and class, or Y is a double scalar. The array returned, Z, has the same size and class as X unless X is logical, in which case Z is double.

  2. And do not convert images manually to double type and use im2double internal function: I2 = im2double(I) converts the intensity image I to double precision, rescaling the data if necessary.

  3. Also you may use find function, [row,col,v] = find(X, ...) returns a column or row vector v of the nonzero entries in X, as well as row and column indices. If X is a logical expression, then v is a logical array. Output v contains the non-zero elements of the logical array obtained by evaluating the expression X.

    [r,c,v]= find(diff>20);

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