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I'd like to automate checking for the sharpness of a large collection of digital images. It doesn't have to be perfect, but if it can tell a sharp from a blurry photograph > 70% of the time, it would be a lifesaver.

Are there any libraries, methods, or software packages that can do this?

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The question you are asking, if solved with > 70% accuracy as a human would judge it, could easily constitute someone's PhD thesis in computer vision, depending on the data set in question and the definition of what counts as 'blurry' and what doesn't. As it is, this is very vague and doesn't really tell us how to help you. If it's just generic pictures of outdoor scenes from your iPhone, then looking at some natural scene statistics, and possibly building a supervised classifier on your own data will work. If they are important artistic or professional photos though, it's very hard. –  EMS Apr 12 '12 at 1:49
    
I have a site that hosts a large number of images. Most everything is automated. I want to start selling poster-sized prints of the larger images without having to curate them. If possible, I'd like to stop blurry, out of focus images that won't look good in a large print format from being ordered in the first place, display a warning, or otherwise make sure the purchaser is fully informed. –  jeremiahs Apr 12 '12 at 3:16
    
The images are basically outdoors photographs of nature, inside pets, or similar. A little schmalzy but no other consistent theme. The ones I'd be interested in analyzing would have at least one edge > 1200 pixels. I have a few ideas for dealing with the possible blurry photos (showing cropped sections at 100% for the buyer to examine) but I'd rather not worry the purchaser unless there's a good chance there's an issue. –  jeremiahs Apr 12 '12 at 3:18
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1 Answer

Essentially you are just looking at the ratio of high frequencies to low.
But you would need to decide on some level which corresponded to 'in focus' for different images - it's a bit tricky on scenes of smooth sand dunes!

A quick and dirty version might be to take a line accross the image and look at the average difference between pixels a few pixels apart - big difference = high contrast = focused

Most algorithms are looking at a series of images (for autofocus) and so you only need to worry about finding a maxima.

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The problem with this is, say the image is primarily of someone's pet (as the OP suggested could be the case in the comments), then if the area around the pet is even slightly blurry it's going to look bad for the customer. But the image as a whole might have nice sharp boundaries everywhere else. Localized blur detection is really hard, and the single-image deconvolution problem is extremely hard. –  EMS Apr 12 '12 at 3:50
    
If most of the images are of open, generic scenes without much specific content in the foreground, then you could just apply a sharpening filter a few times, see if there's a large-norm difference between the sharpened version and the original, and if not, declare it to already be sharp. Localized blur analogs of this are really difficult to get working in practice. –  EMS Apr 12 '12 at 3:51
    
The sharpen-and-compare approach sounds interesting. Do you have experience that it works? –  jeremiahs Apr 12 '12 at 4:43
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