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I want an algorithm to detect if an image is of high professional quality or is done with poor contrast, low lighting etc. How do I go about designing such an algorithm.

I feel that it is feasible, since if I press a button in picassa it tries to fix the lighting, contrast and color. Now I have seen that in good pictures if I press the auto-fix buttons the change is not that high as in the bad images. Could this be used as a lead?

Please throw any ideas at me. Also if this has already been done before, and I am doing the wheel invention thing, kindly stop me and point me to previous work.

thanks much,

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Step #1 get some reading on #2 get some more reading on. This is covered in many different text books and college-level courses and likely numerous online resources (and I have seen some related SO questions before). –  user166390 Oct 22 '12 at 20:08
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Why all the buzzwords? (SVM, Artificial Intelligence, machine-learning) Unless you are looking for some kind of fancy classification for photographs, there are several measurements and techniques of image-processing which can supply simple heuristics for what I think you are trying to achieve. Follow pst's advice to read first and return with more specific questions; do read-up on image processing first because even if statistical methods were eventually required for your needs, the attributes the SVM or other devices would be based on concepts from digital imagery. –  mjv Oct 22 '12 at 20:22
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stackoverflow.com/questions/560316/… Seems like a start. –  Cameron Lowell Palmer Oct 22 '12 at 20:23
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@CameronLowellPalmer your comment was the only one of value and it is not a co-incidence that you did not try to talk down to me. –  user1521607 Oct 22 '12 at 20:35
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Is the reason this person is getting horribly downvoted because he's asking a basic question, or is it not specific enough? I personally have no idea how to go about doing what he's asking. I'd love to get an answer as well, given that I haven't gone to school for this, while most of you have, apparently. Only one dude has done him the courtesy of helping him out in any tangible way. –  TankorSmash Oct 22 '12 at 21:19
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closed as not constructive by DNA, martin clayton, bmargulies, Ted Hopp, the Tin Man Oct 23 '12 at 0:43

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2 Answers

You are making this way too hard. I handled this in production code by generating a histogram of the image, throwing away outliers (1 black pixel doesn't mean that the whole image has lots of black; 1 white pixel doesn't imply a bright image), then seeing if the resulting distribution covered a sufficient range of brightnesses.

In stats terms, you could also see if the histogram approximates a Gaussian distribution with a satisfactorily large standard deviation. If the whole image is medium gray with a tiny stddev, then you have a low contrast image - by definition. If the mean is approximately medium-gray but the stddev covers brightness levels from say 20% to 80%, then you have a decent contrast.

But note that neither of these approaches require anything remotely resembling machine learning.

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My point, exactly! –  mjv Oct 22 '12 at 21:08
    
@Kirk thanks for the comment. That is the first thing I wanted to attempt. Could you share some accuracy numbers if you have them. –  user1521607 Oct 22 '12 at 21:12
    
@Kirk When you say 'making this way too hard' you are not seeing it from a ML engineer's perspective. Throwing in an SVM is a function call for me which I have been doing for years and understand what/how/why etc. So this whole 'stay off machine learning' cause its hard and complicated is from perspective of say a firm ware engineer. I would faint before debugging assembly code, but it is a day in the life of a firmware engineer. Hope my point is clear. –  user1521607 Oct 22 '12 at 21:17
    
@user1521607 I apologize, but I don't have access to the numbers anymore. To get started in the right direction, look at the ImageMagick manual, particularly the '-auto-level' and '-normalize' commands. Apply normalization to a bunch of images and compare their before-and-after statistics. You can write a learning algorithm to help you find your cutoff points. :-) –  Kirk Strauser Oct 22 '12 at 21:51
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@user1521607 And by "making this way too hard", I mean "using tools that aren't efficient solutions to the problem at hand". I love working with AI stuff and I'm sure you're miles ahead of me. It's just that sometimes there are much lower-level ways to solve a problem. You wouldn't build a Bayesian network to add single-digit numbers - although you certainly could! So I'm not saying that "SVM is too hard a complicated to use for any problem." I'm saying that it's unnecessarily complicated for this one particular problem. :-) –  Kirk Strauser Oct 22 '12 at 21:55
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There are several open source programs that do the kind of image correction you are looking for as indications of a low-quality image. Gimp (see enhancing photos from the documentation) and ImageMagick (see contrast stretch, normalize, adaptive sharpen, auto level from the examples) come to mind.

Studying their code would be a good start, because an obvious way to detect a low-quality image is to put the image through one of the aforementioned enhancement algorithms and look for differences between the original and processed image.

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