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This may be a trivial question. How can we choose a good distance function for a special high-dimensional dataset? I have read that some distance functions such as Euclidean distance do not work well in high-dimensional data. If that can not give us a good distance measure then what function can?

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up vote 2 down vote accepted

It comes from the curse of dimensionality which basically is that space becomes exponentially more empty with increasing dimensionality.

The best distance measure is highly data dependent, but I'll recommend doing a cross validation with low values of p for minkowsky distance

mikowsky_distance = sum_i(|u_i-v_i|^p)^(1/p)

p=1 which is the manhattan distance (L1) is in most higher dimensional cases better then using euclidean (L2) and really easy to test. Also try taking smaller values like 1/4 and see what happens. You can also try with the limit p-> -inf which is the min-dstance min(|u_i-v_i|). The lower values on p makes the dimension with the most similarity have much more weight to it compare to the less matching dimensions.

I recommend reading the paper

http://www-users.cs.umn.edu/~kumar/papers/siam_hd_snn_cluster.pdf

which touches the subject.

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