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I'm looking for a way to do single link clustering with OpenCV. My scenario:

  • Hundreds (potentially thousands) of feature vectors (vectors dimension can be up to ~800 features).
  • Unknown number of clusters (likely to be much lower than the number of vectors).
  • Fixed similarity threshold E - if the l1 norm between two vectors is less than E, then the vectors should be in the same cluster.
  • I don't need a cluster to be compact. That is, I don't need all the vectors in the cluster to be within E of each other. This can lead to long "chains" instead of clusters, but I'm OK with this.

I tried using K-means, but because I don't know the number of clusters it's not really applicable here. I could do iterative K-means and look for the best K, but it sounds inefficient. Is there a more suitable clustering algorithm implemented in OpenCV that I could use here?

Ideally, I need something similar to the SLINK algorithm, as this is what is quoted in the paper that I'm currently trying to implement. My options are to implement SLINK directly (a bit of a task, because of debugging & testing) or look for an existing algorithm that does something similar.

Any suggestions?

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2 Answers 2

I'd suggest constructing a graph by your similarity threshold and finding connected components. Once you construct the graph, finding connected components will be fairly easy and efficient. If you like NetworkX already has a connected component function.

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up vote 0 down vote accepted

I ended up doing an implementation by myself:

import cv
def main():
    import sys
    x = cv.Load(sys.argv[1])
    epsilon = float(sys.argv[2])
    y = cv.CloneImage(x)
    labels = range(x.height)
    tmp = cv.CreateImage((x.width, 1), x.depth, x.nChannels)
    for i in range(x.height):
        cv.SetImageROI(x, (0, i, x.width, 1))
        for j in range(i+1, x.height):
            cv.SetImageROI(y, (0, j, x.width, 1))
            cv.AbsDiff(x, y, tmp)
            dist, _, _, _ = cv.Avg(tmp)
            if dist < epsilon:
                for k, lbl in enumerate(labels):
                    if lbl == j:
                        labels[k] = i

    for i, lbl in enumerate(labels):
        print i, lbl

if __name__ == '__main__':
    main()

x is a N x M matrix containing N vectors. The dimensionality of a vector is M. It basically compares each pair of vectors using the L1 norm, and considers a pair to be identical if their difference is less than epsilon. This algorithm is very slow --- O(N^3), but it's good enough for me at the moment.

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The key difference between SLINK and the naive hierarchical clustering is the speedup. IIRC, SLINK is O(n^2). You might want to have a look on how this is achieved. Nevertheless, hierarchical clustering is and ages old and pretty naive technique. It does not cope well with noise. You might want to try DBSCAN instead. –  Anony-Mousse Jan 4 '12 at 11:59
    
Thank you for your comment. I read the SLINK paper. As you mention, the speed-up is one advantage. The other one is you don't need to store the entire connectivity matrix in memory (you can pass values in one-by-one, provided its in a special arrangement). I actually ended up doing what @Avaris suggested in the end. It works well enough. I'll have a look at DBSCAN if I ever return to this problem again. –  misha Jan 4 '12 at 12:58

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