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SIFT feature matching is done through a Euclidean-distance based nearest neighbor approach. Can some please explain this? Is there a calculation? If then can someone help me to calculate Euclidean-distance for my SIFT feature vector? I want to save calculated Euclidean-distance to feed for neural network with some more features like roundness and color of images.

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It is not clear for me if you are requiring help understanding the SIFT algorithm, or some specific usage of the outcomes. –  belisarius Apr 6 '11 at 13:00
@belisarius not SIFT algorithm.. I need the usage of outcome. My problem is this feature vector is a <nx128 double> where n is the no of feature descriptors. I need one value from this vector. Can I use Euclidean-distance to get the distances of this vector and get the maximum distance value? Because the other features I am feeding for neural network is having only one value. –  Nadeeshani Jayathilake Apr 6 '11 at 14:17
Sorry, I don't understand your question. Perhaps this may help you vlfeat.org/api/sift_8h.html#sift-tech-descriptor –  belisarius Apr 6 '11 at 14:35

1 Answer 1

SIFT feature matching through Euclidean distance is not difficult. Here I will explain this:

  1. you have your keypoint descriptors for both the images.

  2. Take one of the keypoint descriptor from one image.

    2.1 Now, find the Euclidean distance between the keypoint descriptor u taken and the keypoint descriptors of other image.

    2.2 Now, you have the Euclidean distances of one keypoint in image1 to all the keypoints in image2. Arrange them in ascending order.(It implies the nearest distances for keypoint in image1 to keypoints in image2)

    2.3 Now, set some threshold T ( mostly in the range 0.3 to 0.7).

    2.4 take the ratio of first nearest distance to second nearest distance and would be less than this threshold, then only it is a match and save that index. otherwise there is no match.

  3. Repeat this for all keypoint descriptos in image1.

  4. now you have the matches.
  5. you can plot the matches by appending two images and then based on keypoint locations.
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