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How can I select a random point on one image, then find its corresponding point on another image using cross-correlation?

So basically I have image1, I want to select a point on it (automatically) then find its corresponding/similar point on image2.

Here are some example images:

Full image:

full image

Patch:

patch

Result of cross correlation:

result of cross correlation

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  • If you cross-correlate two (similar) images, the peak should correspond to the relative offset of the two images. Commented Mar 8, 2014 at 13:03
  • Are you looking for something like SIFT or SURF or do you specifically want to use cross-correlation? How do the two images relate with respect to scale, rotation, lighting, angle of view, ...?
    – mbschenkel
    Commented Mar 8, 2014 at 13:07
  • @OliCharlesworth yes have to be cross correlation, They have some overlap. I want to get 4 points if possible, and want them to be as seperated as possible. I have tried something like C_1 = normxcorr2(image1, image2); however C_1 changes size then you cant get the actual points on image1 and 2
    – Ramo
    Commented Mar 8, 2014 at 13:43
  • @mbschenkel yes have to be cross correlation, They have some overlap.
    – Ramo
    Commented Mar 8, 2014 at 14:14
  • So what's the issue with xcorr2?
    – mbschenkel
    Commented Mar 8, 2014 at 14:30

1 Answer 1

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Well, xcorr2 can essentially be seen as analyzing all possible shifts in both positive and negative direction and giving a measure for how well they fit with each shift. Therefore for images of size N x N the result must have size (2*N-1) x (2*N-1), where the correlation at index [N, N] would be maximal if the two images where equal or not shifted. If they were shifted by 10 pixels, the maximum correlation would be at [N-10, N] and so on. Therefore you will need to subtract N to get the absolute shift.

With your actual code it would probably be easier to help. But let's look at an example:

(A) We read an image and select two different sub-images with offsets da and db

Orig = imread('rice.png');
N = 200; range = 1:N;
da = [0 20];
db = [30 30];
A=Orig(da(1) + range, da(2) + range);
B=Orig(db(1) + range, db(2) + range);

(b) Calculate cross-correlation and find maximum

X = normxcorr2(A, B);
m = max(X(:));
[i,j] = find(X == m);

(C) Patch them together using recovered shift

R = zeros(2*N, 2*N);
R(N + range, N + range) = B;
R(i + range, j + range) = A;

(D) Illustrate things

figure
subplot(2,2,1), imagesc(A)
subplot(2,2,2), imagesc(B)
subplot(2,2,3), imagesc(X)
rectangle('Position', [j-1 i-1 2 2]), line([N j], [N i])
subplot(2,2,4), imagesc(R);

(E) Compare intentional shift with recovered shift

delta_orig = da - db
%--> [30 10]
delta_recovered = [i - N, j - N]
%--> [30 10]

As you see in (E) we get exactly the shift we intenionally introduced in (A).

Result of xcorr2


Or adjusted to your case:

full=rgb2gray(imread('a.jpg'));
template=rgb2gray(imread('b.jpg'));
S_full = size(full);
S_temp = size(template);

X=normxcorr2(template, full);
m=max(X(:));
[i,j]=find(X==m);

figure, colormap gray
subplot(2,2,1), title('full'), imagesc(full)
subplot(2,2,2), title('template'), imagesc(template), 
subplot(2,2,3), imagesc(X), rectangle('Position', [j-20 i-20 40 40])

R = zeros(S_temp);
shift_a = [0 0];
shift_b = [i j] - S_temp;
R((1:S_full(1))+shift_a(1), (1:S_full(2))+shift_a(2)) = full;
R((1:S_temp(1))+shift_b(1), (1:S_temp(2))+shift_b(2)) = template;
subplot(2,2,4), imagesc(R);

enter image description here

However, for this method to work properly the patch (template) and the full image should be scaled to the same resolution.


A more detailed example can also be found here.

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  • thanks imgray = rgb2gray(image); imgray2 = rgb2gray(image2); template = imgray(200:600,540:end); C_1 = normxcorr2(template, imgray); C_2 = normxcorr2(template, imgray2); [y1, x1] = find(C_1 == max(abs(C_1(:)))); [y2, x2] = find(C_2 == max(abs(C_2(:)))); so here i took the highest point of C_1 and C_2, but they are not actual points on image1 and image2, as you said i need to subtract, so i have subtracted the template size but still wont give me the right points?
    – Ramo
    Commented Mar 8, 2014 at 16:40
  • Ok, so you are doing this for a total of 3 images with probably different sizes. But it should be possible to just look at two of them at once (ìmgray vs. template in your case). Maybe it would help to show us the exact images to understand the problem better. If you look at the output of normxcorr2, do you see a clear peak and if so where?
    – mbschenkel
    Commented Mar 8, 2014 at 16:44
  • I dont know how to post images onto here, but yes I get a clear bright spot (peak), so I want to take the coordinate of this bright spot (peak) and plot it on the actual image (imgray in my case) the image is 1728by2300, and tempate 1250by955
    – Ramo
    Commented Mar 8, 2014 at 16:54
  • Then the coordinates of that "spot" minus the size of template gives you the coordinates in imgray and vice versa. I'd recommend you to start with a known offset as in my answer, so you know what to expect. You can upload images e.g. here and link to them in your question. With more reputation you will also be able to upload directly.
    – mbschenkel
    Commented Mar 8, 2014 at 17:00
  • yes I have done that, subtracted the template size, but somehow it didnt plot in the right place. here is the link for the images imgur.com/a/9M14y/all
    – Ramo
    Commented Mar 8, 2014 at 17:08

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