# Detecting Similar images [duplicate]

Possible Duplicate:
Image comparison algorithm

So basically i need to write a program that checks whether 2 images are the same or not. Consider the following 2 images:

http://i221.photobucket.com/albums/dd298/ramdeen32/starry_night.jpg

http://i221.photobucket.com/albums/dd298/ramdeen32/starry_night2.jpg

Well they are both the same images but how do i check to see if these images are the same. I am only limited to the media functions. All i can think of right now is the width height scaling and compare the RGB for each pixel but wouldnt the color be different?

Im completely lost on this one, any help is appreciated.

*Note this has to be in python and use the (media library)

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## marked as duplicate by aaronasterling, Matthew Flaschen, Michael Petrotta, dmckee, GravitonSep 26 '10 at 8:07

See [ Image comparison algorithm ](stackoverflow.com/questions/1819124/image-comparison-algorithm). – Matthew Flaschen Sep 24 '10 at 0:28

Wow - that is a massive question, and one that has a vast number of possible solutions. I'm afraid I'm not a python expert, but I thought your question was interesting - so I wanted to propose a method that I would implement if I were posed with this problem.

Obviously, the two images you posted are actually very different - so you will need to consider 'how much different is the same', especially when working with images and considering different image formats and compression etc.

Anyway, for a solution that allows for a given difference in colour values (but not for pixels to be in the wrong places), I would do something like the following;

1. Pick two images.

2. Rescale the largest image to the exact same height and width as the first (even distorting the image if necessary).

3. Possibly grayscale the images to make the next steps simpler, without losing much in the way of effectiveness. Actually, possibly running edge detection here could work too.

4. Go through each pixel in both images and store the difference in either each of the RGB channels, or just the difference in grayscale intensity. You would end up with an array the size of the image noting the difference between the pixel intensities on the two images.

5. Now, I don't know the exact values, but you would probably then find that if you iterate over the array you could see whether the difference between each pixel in the two images is the same (or nearly the same) across all of the pixels. Perhaps iterate over the array once to find the average difference between the pixel intensities in the two images, then iterate over the image again to see if 90% of the differences fall within a certain threshold (5% difference?).

Just an idea. Of course, there might be some nice functions that I'm not aware of to make this easy, but I wouldn't hold my breath!

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This is good!! However i dont understand what you mean by "grayscale intensity". To make the image grayscale dont you have to normalize each pixel, like taking the average of the R+G+B and then reset the RGB to the average? – 1337holiday Sep 24 '10 at 1:42
Grayscale is not the average of RGB, but the weighted average, with R = 0.299, G = 0.587, B = 0.114. (This is because our eyes are more sensitive to green than to red or blue, and least sensitive to blue.) – kindall Sep 24 '10 at 2:01
Hmm still a little unclear about this, can you show a very basic calculation for a pixel? – 1337holiday Sep 24 '10 at 2:33
As Kindall says, to greyscale the image (which would make the rest of the process easier, though possibly less accurate - a red version of the same image might appear the same as a yellow one) you would iterate over each pixel; grayScalePixel = (0.299*R)+(0.587*G)+(0.114*B); Although, there must be a function in python's media lib for this! Then in step 5, you would iterate over each pixel in both of the greyScale images, and then measure the differences; differences[x][y] = grayImageA[x][y] - grayImageB[x][y]. Then you can evaluate the differences using some algorithm (as suggested in 5?). – John Wordsworth Sep 24 '10 at 7:51
I think im confused about where the 0.299, 0.587, 0.114 came from (are these constants?). I managed to workout the scaling but this gray scale is still giving me problems. – 1337holiday Sep 24 '10 at 22:56

ImageMagick has Python bindings and a comparison function. It should do most of the work for you, but I've never used it in Python.

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I think step 2 of John Wordsworths answer may be one of the hardest - here you are dealing with a stretched copy of the image but do you also allow rotated, cropped or in other ways distorted images? If so you are going to need a feature matching algorithm, such as used in Hugin or other panorama creation software. This will find matching features, distort to fit and then you can do the other stages of comparing. Ideally you want to recognise Van Gogh's painting from photos, even photos on mugs! It's easy for a human to do this, for a computer it needs rather more complex maths.

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