# A custom clustering algorithm

I have a set of vectors. The vectors are of three different categories viz. A, B and C. Now, I need to cluster these according to the following criteria:

1. There should be a minimum of 1 and a maximum of 3 vectors in each cluster.
2. All the vectors in each cluster should be of a different type. .i.e, a cluster should not contain 2 or more vectors of the same type A, B or C.
3. If here is a cluster containing a set of vectors, then the distance (let's say Eucledian Distance) between any two vectors is less than a pre-defined threshold T.
4. If there is a cluster containing 2 or more vectors (a max of 3 of course), then it is mandatory that one of these vectors is of type A.

Are there any existing algorithms to perform this type of clustering? Suppose I need to do this from scratch, then what steps need to be followed to cluster the vectors according to the above conditions?

-
I think you must have an unstated criterion, since you can satisfy the ones given trivially by putting each vector in a separate cluster. Do you just want to minimize the number of clusters? Also, how many vectors total? –  Michael J. Barber Apr 12 '12 at 12:03
Putting each vector in a different cluster? Can you please clarify that for me please? I have a total of around 5000, 10000 and 12000 vectors of type A, B and C respectively. –  Abhishek Shivkumar Apr 12 '12 at 12:04
Using the numbers given, your criteria are satisfied by having 27000 clusters. 5000 have a single A, 10000 have a single B, 12000 have a single C. –  Michael J. Barber Apr 12 '12 at 12:09
If the euclidean distance between a vector of type A and a vector of type B is less than "T", then these two vectors fall under one cluster. So it would then be 26999 clusters. This is what I meant :) (Sorry if didn't express it clearly). The vectors need to be grouped according to their euclidean distance - condition is that if there are 2 or more vectors in a cluster, then there SHOULD be a master vector of type A in the cluster. This master vector is actually in my use-case some kind of a reference/parent vector against which other vectors of type B and C are paired. Hope it is clear now. –  Abhishek Shivkumar Apr 12 '12 at 12:11