# calculating Euclidean distance between two image in matlab

I want to calculate the Euclidean distance between two images in Matlab. I find some examples and I've try them but they are not correct.
The result of this Euclidean distance should be between `0` and `1` but with two different ways I reached to different solutions.
The first algorithm gives me a 4 digit number such as `2000` and other digits like this and by the other way I reached numbers such as `0.007`
What is wrong with it?

This is one of those algorithms I mentioned:

``````Im1 = imread('1.jpeg');
Im2 = imread('2.jpeg');

Im1 = rgb2gray(Im1);
Im2 = rgb2gray(Im2);

hn1 = imhist(Im1)./numel(Im1);
hn2 = imhist(Im2)./numel(Im2);

% Calculate the Euclidean distance
f = sum((hn1 - hn2).^2)
``````
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Very similar question can be find here: stackoverflow.com/questions/5475815/… –  NKN Jul 9 '13 at 18:14

## 2 Answers

the final line of code needs a sqrt command:

``````f = sum(sqrt(hn1-hn2).^2);
``````

check this link

You can also use the norm command

``````f = norm(hn1-hn2);
``````

These post1 and post2 can be useful.

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i don't have enough reputation to vote you,and i'm sorry:(. thanks a milion for your great help –  deansam Jul 9 '13 at 19:10
In some specific case, the result of the euclidean distance between 2 arrays can be an array ? or it should be always scalar ? –  Christina Dec 24 '13 at 21:52

Oh, I'm not sure where to begin but here are some things that you should think about:

1: You're normalising your histograms incorrectly. You want them to have unit L1-norm:

``````hn1 = imhist(Im1);
hn2 = imhist(Im2);
hn1 = hn1/numel(hn1);
hn2 = hn2/numel(hn2);
``````

2: Taking L2-distance between histograms doesn't really make sense (what is an euclidian distance between two distributions really?). You should rather take a look at something like a L1 or Chi-2 distance, or use an intersection kernel. L1 would be

``````f=norm(hn1-hn2,1);
``````

3: If you really do want it to be L2 euclidian distance, the last line should be

``````f=norm(hn1-hn2);
``````

but then you should rather L2-normalize the histogram:

``````hn1 = imhist(Im1);
hn2 = imhist(Im2);
hn1 = hn1/norm(hn1);
hn2 = hn2/norm(hn2);
``````

4: Please try to be clearer in the formulation of your questions - it was a bit hard to decode :). If your would have mentioned the application - I could have given some additional pointers. :)

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thank a lot for your help:) –  deansam Jul 9 '13 at 19:11
thanks. i want to write the vsumm algorithm. i must compute the pairwise distance of consecutive frames in the extracted sample, according to Euclidean distance. while there is a threshold 0.5 ,when ever the Euclidean distance go above 0.5 , k should be increased. –  deansam Jul 9 '13 at 19:58
I see. In that case I would vote for sticking with Euclidian distance, (as it is justified by the k-means clustering step) even if it is not the most suitable distance measure for comparing histograms. –  kamjagin Jul 9 '13 at 20:54
thank you. do you have any idea for this algorithm? i'm writing it and it's a little hard. do you have any guidance? –  deansam Jul 9 '13 at 23:47
dear kamjagin <br> can you please answer to my other question which i asked in this link:stackoverflow.com/questions/17563980/… –  deansam Jul 10 '13 at 7:47