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I'm using Matlab's regular kmeans algorithm with 'Distance','cosine','EmptyAction','drop' on an L2-normalized feature matrix and I have a problem. The output that Matlab generates is simply assigning EVERY datapoint to cluster 1.00000, even if k=20, and all centroids in C are NaN. Does anyone have any suggestions as to what might be causing this?

The layout of the matrix is ([0,1,...,1,0,1],[...],[0,1,...,1,0,1]). I've done the L2-normalization using Python's numpy.linalg.norm before I passed the file to Matlab. This is the exact way I am running kmeans:

data=m'; % transpose, because kmeans treats columns as features instead of rows
[L, C]=kmeans(data, 20, 'Distance', 'cosine', 'EmptyAction', 'drop')

Here is a sample of my normalized dataset:


Any help or suggestions would be greatly appreciated. If you need more information let me know!

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from what I understood of the example they show in the doc, the kmeans works with sets of x-y coordinates, while you only supply one feature per row, do you have any associated value with your data you should include ? –  Smash May 8 '12 at 17:34
I was assuming that in this case, he only had one feature –  Matt May 8 '12 at 17:37
maybe add a second column of 1s ? –  Smash May 8 '12 at 17:39
That would definitely make it do something, depends on what this means "One minus the cosine of the included angle between points (treated as vectors). Each centroid is the mean of the points in that cluster, after normalizing those points to unit Euclidean length." –  Matt May 8 '12 at 17:44
See my reply to Matt's answer. Spherical k-means (or the mathematical descriptions I could find) takes a unit vector as input. Is it possible that this would be different for Matlab's implementation? –  Doa May 8 '12 at 18:25

1 Answer 1

up vote 1 down vote accepted

It is the cosine distance that is making it fail, it works with sqEuclidean. I think the cosine distance needs more info, or else doesn't make sense on your data set.

Edit: I will agree with you that the documentation is a little vague here...but the definition of cosine distance in the pdist function of Matlab is: "One minus the cosine of the included angle between points (treated as vectors)."

I take it from that, that the angle must be included(I am assuming in the next column). But that kind of seems like it defeats the purpose.cosine similarity Edit again: I guess it is more likely that included means "the included angle between 2 vectors". In this case I think cosine expects 2 or more columns to work on.

Also, if your already into python there are some good machine learning tools there as well. Here is one I have used. There is also MILK, but I have never used it myself.

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As far as I know, kmeans with cosine takes a unit vector as input, doesn't it? E.g., see this description for "spherical k-means", as it is also known: shi-zhong.com/papers/oskm_ijcnn05.pdf Any more ideas? –  Doa May 8 '12 at 18:24
Also, although sklearn has kmeans, it doesn't allow me to set a different distance measure, or does it? It's only Euclidean AFAICT. –  Doa May 8 '12 at 18:29
You can see by running pdist(data,'cosine') that it is calculating a distance of zero for all of your data. So clearly Matlab's definition is not what you are expecting. If you put a column of ones next to your data, you do get something, but I'm not very familiar with cosine distance so I don't know what to expect. –  Matt May 8 '12 at 19:08
You were right, I was giving it the wrong input data. For the normalization I should have done: def l2(a): powered=np.power(a,2) norm=np.matrix(np.sqrt(np.sum(np.power(a,2),1))) return a/np.tile(norm,a.shape[1]) –  Doa May 9 '12 at 2:32

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