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I 'm trying to find an efficient way of acceptable complexity to

  • detect an object in an image so I can isolate it from its surroundings
  • segment that object to its sub-parts and label them so I can then fetch them at will

It's been 3 weeks since I entered the image processing world and I've read about so many algorithms (sift, snakes, more snakes, fourier-related, etc.), and heuristics that I don't know where to start and which one is "best" for what I'm trying to achieve. Having in mind that the image dataset in interest is a pretty large one, I don't even know if I should use some algorithm implemented in OpenCV or if I should implement one my own.

Summarize:

  • Which methodology should I focus on? Why?
  • Should I use OpenCV for that kind of stuff or is there some other 'better' alternative?

Thank you in advance.

EDIT -- More info regarding the datasets

Each dataset consists of 80K images of products sharing the same

  • concept e.g. t-shirts, watches, shoes
  • size
  • orientation (90% of them)
  • background (95% of them)

All pictures in each datasets look almost identical apart from the product itself, apparently. To make things a little more clear, let's consider only the 'watch dataset':

All the pictures in the set look almost exactly like this:

enter image description here

(again, apart form the watch itself). I want to extract the strap and the dial. The thing is that there are lots of different watch styles and therefore shapes. From what I've read so far, I think I need a template algorithm that allows bending and stretching so as to be able to match straps and dials of different styles.

Instead of creating three distinct templates (upper part of strap, lower part of strap, dial), it would be reasonable to create only one and segment it into 3 parts. That way, I would be confident enough that each part was detected with respect to each other as intended to e.g. the dial would not be detected below the lower part of the strap.

From all the algorithms/methodologies I've encountered, active shape|appearance model seem to be the most promising ones. Unfortunately, I haven't managed to find a descent implementation and I'm not confident enough that that's the best approach so as to go ahead and write one myself.

If anyone could point out what I should be really looking for (algorithm/heuristic/library/etc.), I would be more than grateful. If again you think my description was a bit vague, feel free to ask for a more detailed one.

share|improve this question
    
Would you mind to describe the domain of your images, or even some samples of the images. For general object detection/recognition/segmentation, i believe or it is generally believed that a good boundary of the domain would give you an 'edge' to differentiate what to be segmented and what not. – Gary Tsui Aug 28 '11 at 16:08
    
@gary - One of the (many) things I want to achieve: Having an image of a watch e.g. link, I want to be able to process independently the 'upper' & 'lower' part of the the strap and the dial. That's why I need some kind of template that supports segmentation. – sawidis Aug 28 '11 at 16:52
    
Can you post a couple of images from your dataset, to show how diverse they are. If for example all your images are as the wiki image you linked, face up, straight into the camera, and no scale, lighting differences or differences in watch brand or type, you can simplify your algorithm tremendously. – Maurits Aug 28 '11 at 21:55

From what you've said, here are a few things that pop up at first glance:

  • Simplest thing to do it binarize the image and do Connected Components using OpenCV or CvBlob library. For simple images with non-complex background this usually yeilds objects
  • HOwever, looking at your sample image, texture-based segmentation techniques may work better - the watch dial, the straps and the background are wisely variant in texture/roughness, and this could be an ideal way to separate them.

    The roughness of a portion can be easily found by the Eigen transform (explained a bit on SO, check the link to the research paper provided there), then the Mean Shift filter can be applied on the output of the Eigen transform. This will give regions clearly separated according to texture. Both the pyramidal Mean Shift and finding eigenvalues by SVD are implemented in OpenCV, so unless you can optimize your own code its better (and easier) to use inbuilt functions (if present) as far as speed and efficiency is concerned.

share|improve this answer
    
Thanks! I really appreciate your help =) – sawidis Aug 29 '11 at 7:06

I think I would turn the problem around. Instead of hunting for the dial, I would use a set of robust features from the watch to 'stitch' the target image onto a template. The first watch has a set of squares in the dial that are white, the second watch has a number of white circles. I would per type of watch:

  • Segment out the squares or circles in the dial. Segmentation steps can be tricky as they are usually both scale and light dependent
  • Estimate the centers or corners of the above found feature areas. These are the new feature points.
  • Use the Hungarian algorithm to match features between the template watch and the target watch. Alternatively, one can take the surroundings of each feature point in the original image and match these using cross correlation
  • Use matching features between the template and the target to estimate scaling, rotation and translation
  • Stitch the image
  • As the image is now in a known form, one can extract the regions simply via pre set coordinates
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