# Clustering in python(scipy) with space and time variables

The format of my dataset: [x-coordinate, y-coordinate, hour] with hour an integer value from 0 to 23.

My question now is how can I cluster this data when I need an euclidean distance metric for the coordinates, but a different one for the hours (since d(23,0) is 23 in the euclidean distance metric). Is it possible to cluster data with different distance metrics for each feature in scipy? How?

Thank you

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What clustering technique do you want to use? –  Mr E Sep 11 '13 at 10:15
Currently i'm experimenting with kmeans, but any clustering method that gives a good result is fine. –  user2768102 Sep 11 '13 at 10:20
Are you confident it would converge? The way I would do it would be to monkey patch the VQ function with my own modifications based on the dictionary for each iteration. I don't think it would be overly difficult to do that. –  Henry Gomersall Sep 11 '13 at 11:24
It should converge if the distance for the different metrics is well chosen, currently I'm trying to rewrite part of the kmeans algorithm so it can handle different distance metrics for each feature. Since I'm pretty new to python however this might take a while. But I have a feeling this is the only solution. –  user2768102 Sep 11 '13 at 11:55
added a reply, than searched for what clustering was, n figured out that you dont really just want to calculate the distance between (x0,y0) and (x1,y1) on one side and time difference between (h0) and (h1) on the other side, but with one data structure - If thats what you want to do, i can undelete my reply though –  usethedeathstar Sep 11 '13 at 14:21

You'll need to define your own metric, which handles "time" in an appropriate way. In the docs for scipy.spatial.distance.pdist you can define your own function

``````Y = pdist(X, f)
``````

Computes the distance between all pairs of vectors in X using the user supplied 2-arity function f. [...] For example, Euclidean distance between the vectors could be computed as follows:

``````dm = pdist(X, lambda u, v: np.sqrt(((u-v)**2).sum()))
``````

The metric can be passed to any scipy clustering algorithm, via the `metric` keyword. For example, using `linkage`:

``````scipy.cluster.hierarchy.linkage(y, method='single', metric='euclidean')
``````
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thank you very much! –  user2768102 Sep 12 '13 at 6:49
@user2768102 No problem, and welcome to Stack Overflow! Small tip for better posts, you don't need to say "Thank you/please/Cheers" in the post as we like to cut down the signal-to-noise ratio. –  Hooked Sep 12 '13 at 13:47