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I find out that SIFT features is only good for find the same object in the scene, but it seems not suitable for "similar" objects.

maybe I doing something wrong? maybe I must use some other descriptors?

images and SIFT\ASIFT algorithms work:


same problem- no matches


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I know about haar features(drawbacks- many scales) and template matching(drawbacks- no rotate and scale invariance) – mrgloom Mar 27 '12 at 8:04
SIFT features are used quite successfully to find (perceptual) similar images. I think you need to put in some more hours to learn. – Maurits Mar 27 '12 at 19:50
I think you don't understand what I mean, I don't want some clusterisation of templates or CBIR system, I tryed ASIFT and SIFT look at the pictures… they have no matches. – mrgloom Mar 28 '12 at 8:26
Can you please add the images to your question? Then it is a bit more clear to everybody what the problem is. – Maurits Mar 28 '12 at 9:07

2 Answers 2

up vote 1 down vote accepted

The basic SIFT algorithm using VLfeat gives me this as a result. Which given the small and not so unique target image, is a pretty good result I would say.

enter image description here

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I think it found just the plane that was croped from the scene, but why it can't find other planes? maybe I need to tune some settings of descriptors? – mrgloom Mar 28 '12 at 12:07
In this case, I used a rule that stipulates that a match between points is only accepted if it has the smallest euclidean distance and if it is significantly better than the second best match. You can play with this criteria yourself, and show more matches, if you want. – Maurits Mar 28 '12 at 14:29

I find out that SIFT features is only good for find the same object in the scene, but it seems not suitable for "similar" objects.

It is exactly what they are doing (and not only them, task is called "wide baseline matching") - 1)for each feature find the most similar - called "tentative" or "putative" correspondence 2)use RANSAC or other similar method to find geometric transformation between sets of correspondences.

So, if you need to find "similar", you have to use other method, like Viola-Jones

Or (but it will give you a lot of false positives) you can compare big image to small and do not use step 2.

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