# Separating Background and Foreground

I am new to Matlab and to Image Processing as well. I am working on separating background and foreground in images like this

I have hundreds of images like this, found here. By trial and error I found out a threshold (in RGB space): the red layer is always less than 150 and the green and blue layers are greater than 150 where the background is.

so if my RGB image is I and my r,g and b layers are

redMatrix = I(:,:,1);
greenMatrix = I(:,:,2);
blueMatrix = I(:,:,3);


by finding coordinates where in red, green and blue the values are greater or less than 150 I can get the coordinates of the background like

[r1 c1] = find(redMatrix < 150);
[r2 c2] = find(greenMatrix > 150);
[r3 c3] = find(blueMatrix > 150);


now I get coordinates of thousands of pixels in r1,c1,r2,c2,r3 and c3.

My questions:

1. How to find common values, like the coordinates of the pixels where red is less than 150 and green and blue are greater than 150? I have to iterate every coordinate of r1 and c1 and check if they occur in r2 c2 and r3 c3 to check it is a common point. but that would be very expensive. Can this be achieved without a loop ?

2. If somehow I came up with common points like [commonR commonC] and commonR and commonC are both of order 5000 X 1, so to access this background pixel of Image I, I have to access first commonR then commonC and then access image I like

I(commonR(i,1),commonC(i,1))

that is expensive too. So again my question is can this be done without loop.

Any help would be appreciated.

I got solution with @Science_Fiction answer's

I used

mask = I(:,:,1) < 150 & I(:,:,2) > 150 & I(:,:,3) > 150;

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Your approach seems basic but decent. Since for this particular image the background is composed of mainly blue so you be crude and do:

mask = img(:,:,3) > 150;


This will set those pixels which evaluate to true for > 150 to 0 and false to 1. You will have a black and white image though.

imshow(mask);


mask3d(:,:,1) = mask;

imshow(img);


Should give you the colour image of face hopefully, with a pure white background. All this requires some trial and error.

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this approach is helpful, but still when I am adding color back, it still replace some part of face as well. –  Muhammad Muaz Jan 20 '13 at 11:11
Yes, since this is a crude method. Some parts of the face will have a high level of blue so will be set to 0. You could play around with the numbers more and include checks on the R and G as well. Will require lots of trial and error as said. –  Science_Fiction Jan 20 '13 at 11:13

No loop is needed. You could do it like this:

I = imread('image.jpg');
redMatrix = I(:,:,1);
greenMatrix = I(:,:,2);
blueMatrix = I(:,:,3);
J(:,:,1) = redMatrix < 150;
J(:,:,2) = greenMatrix > 150;
J(:,:,3) = blueMatrix > 150;
J = 255 * uint8(J);
imshow(J);


A greyscale image would also suffice to separate the background.

K = ((redMatrix < 150) + (greenMatrix > 150) + (blueMatrix > 150))/3;
imshow(K);


## EDIT

I had another look, also using the other images you linked to. Given the variance in background colors, I thought you would get better results deriving a threshold value from the image histogram instead of hardcoding it.

Occasionally, this algorithm is a little to rigorous, e.g. erasing part of the clothes together with the background. But I think over 90% of the images are separated pretty well, which is more robust than what you could hope to achieve with a fixed threshold.

close all;

path = 'C:\path\to\CUHK_training_cropped_photos\photos';
files = dir(path);
bins = 16;

for f = 3:numel(files)
fprintf('%i/%i\n', f, numel(files));
file = files(f);
if isempty(strfind(file.name, 'jpg'))
continue
end

% Take the histogram of the blue channel
B = I(:,:,3);
h = imhist(B, bins);
h2 = h(bins/2:end);

% Find the most common bin in the *upper half*
% of the histogram
m = bins/2 + find(h2 == max(h2));

% Set the threshold value somewhat below
% the value corresponding to that bin
thr = m/bins - .25;
BW = im2bw(B, thr);
% Pad with ones to ensure background connectivity
BW = padarray(BW, [1 1], 1);
% Find connected regions in BW image
CC = bwconncomp(BW);
L = labelmatrix(CC);
% Crop back again
L = L(2:end-1,2:end-1);

% Set the largest region in the orignal image to white
for c = 1:3
channel = I(:,:,c);
channel(L==1) = 255;
I(:,:,c) = channel;
end

% Show the results with a pause every 16 images
subplot(4,4,mod(f-3,16)+1);
imshow(I);
title(sprintf('Img %i, thr %.3f', f, thr));

if mod(f-3,16)+1 == 16
pause
clf
end

end

pause
close all;


Results:

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brother thank you for your answer, but this approach is changing person's coordinate value, cant I do it without changing them ? –  Muhammad Muaz Jan 20 '13 at 11:07
@Muhammad: See my updated answer. –  Junuxx Jan 20 '13 at 13:59