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I am trying to use ELKI's SLINK implementation of hierarchical clustering in my program.

I have a set of objects (of my own type) that need to be clustered. For that, I convert them to feature vectors before clustering.

This is how I currently got it to run and produce some result (code is in Scala):

val clusterer = new SLINK(CosineDistanceFunction.STATIC, 3)
val connection = new ArrayAdapterDatabaseConnection(featureVectors)
val database = new StaticArrayDatabase(connection, null)

val result = clusterer.run(database).asInstanceOf[Clustering[_ <: Model]]

Now, the result is a Clustering that contains elements of type Model. I can output them, but I don't know how to make sense of this result, especially since SLINK returns models of type DendrogramModel which does not seem to be parametrizable.

Specifically, how can I link the results back to my original elements (the ones from which I created the variable featureVectors earlier)?

I assume I need to create some kind of custom model or somehow maintain some link to the original elements through initialization and execution of the algorithm to retrieve from the result. I cannot find where to get started on this though.

I am aware that embedding ELKI into own programs is discouraged. However, it seems that calling ELKI in some other way would not be any different: I need to cluster and map the results back to my objects during runtime of my program.

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1 Answer 1

The DendrogramModel does not include the objects in the cluster. Models are additional meta data on the clusters.

Use the getIDs() method to access the members of a Cluster instance.

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Okay, so I get the members of a cluster using getIDs(). Following your example on running algorithms I acquire a Relation by calling db.getRelation(TypeUtil.DOUBLE_VECTOR_FIELD) and can then get() my vectors from it. Is that workflow correct? I am still missing a possibility to get back to my original objects. Can I somehow use my own DoubleVector subclass (that contains a reference to my data) when initializing and running the algorithm? –  notan3xit Jul 17 '13 at 12:45
Yes, get the relation of the desired type, then get the instances by their DBID. Avoid making DBID objects, you can call get on the iterator which is much cheaper. Many algorithms will run with any class that you have a distance function for. Most distance functions are defined for arbitrary NumberVectors. So either implement your own distance function (for your data type), or implement the NumberVector interface on your data type, and you should be good to go. –  Erich Schubert Jul 17 '13 at 16:04
I think I understand how to plug in my DistanceFunction. But the rest is exactly the problem: How can I have an algorithm run on custom classes? Do I have to implement my own DatabaseConnection for that? All existing implementations seem not that generic. –  notan3xit Jul 17 '13 at 16:22
Implementing a DatabaseConnection is probably the easiest way to get custom data into the ELKI database layer. If the data is file resident, it may however suffice to implement a Parser instead, or a NumberVector.Factory (if the existing parser can be reused, but should produce different objects). –  Erich Schubert Jul 23 '13 at 7:50

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