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I am estimating ridge orientation of an fingerprint image by dividing it into blocks of 41*41..image is of size 240* is my code and the problem is that I am getting output image size different than input image.

 % matalb code for orientation
    im =imread('D:\project\116_2_5.jpg');
    im = double(im);
    [m,n] = size(im);

    % to normalise image
    nor = im - mean(im(:));
    im = nor/std(nor(:));
    w = 41;

    % To calculate x and y gradient component using 3*3 sobel mask
    [delx,dely] = gradient(im);

    % Ridge orientation
     for i=21:w:240-41        
        for j=21:w:320-41     

            A = delx(i-20:i+20,j-20:j+20);
            B = dely(i-20:i+20,j-20:j+20); 

            Gxy = sum(sum(A.*B));
            Gxx = sum(sum(A.*A));
            Gyy = sum(sum(B.*B));
            diff = Gxx-Gyy;

            theta(i-20:i+20,j-20:j+20) = (pi/2) + 0.5*atan2(2*Gxy,diff);


but in this process i am loosing the pixels at the boundries so as to avoid the "index exceed" error i.e size of theta is m = 240-41 = 199 and n = 320-41=279..Thus my input image size is 240*320 and output image size is size 199*279..How can i get output image same as size of input image. one more thing that i dnt have to use "blockproc" function...Thanks in advance

share|improve this question
If you wanna map the original boundary pixels for theta, use this maybe? - theta1 = im; theta1(21:size(theta,1),21:size(theta,2)) = theta; theta = theta1; – Divakar Mar 4 '14 at 10:06
Why blocks of 41 in the first place? Why not use blocks of 40 (which would fit neatly into your image size). – nkjt Mar 4 '14 at 10:17
@nkjt block of 41 is used instead of 40 so as to get a center pixel of pixel 21 has 20 pixel on either side and up down..u'll not get center in a block of 41 – Ritesh Mar 4 '14 at 12:25
Does the algorithm require blocks with an odd number of pixels, or is that just a function of the way you're defining your loop, though? – nkjt Mar 4 '14 at 12:38
@nkjt..ya it was my way of defining the using a block of size 40*40 is good idea...thnks for your help.. – Ritesh Mar 5 '14 at 14:15
up vote 1 down vote accepted

You can use padarray to add zeros onto your matrix:

A1 = padarray(A,[7 8],'post'); % 240+7=41*7, 320+8=41*8
B1 = padarray(B,[7 8],'post');

then generate Gxx, Gyy, and Gxy with A1 and B1.

Method 2:

Besides, I tried to simplify your code a little bit by removing the loops, for your reference:

% Ridge orientation
Gxy = delx .* dely;
Gxx = delx .* delx;
Gyy = dely .* dely;

fun = @(x) sum(x(:))*ones(size(x));
theta_Gxy = blockproc(Gxy,[41 41],fun, 'PadPartialBlocks', true);
theta_diff = blockproc(Gxx-Gyy,[41 41],fun, 'PadPartialBlocks', true);

theta0 = pi/2 + 0.5 * atan2(2 * theta_Gxy, theta_diff);
theta = theta0(1:240, 1:320);

You may check blockproc for more details.

share|improve this answer
@lennon...thnks for help.. does the padarray will affect the code performance.. – Ritesh Mar 5 '14 at 14:28
what do you mean by code performance? It just added some zeros in order to make your matrix [41*7 41*8], since your elements in each 41*41 are all the same (sum of all the elements, then atan2 operation..), such a zero-padding won't influence on your orientation results. – lennon310 Mar 5 '14 at 15:11
ok..ok..i thought padding may result in difference in location of pixels..but padding worked very well..thanks.. – Ritesh Mar 6 '14 at 13:51
you are very welcome! – lennon310 Mar 6 '14 at 13:54

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