I have a dataset. Each element of this set consists of numerical and categorical variables. Categorical variables are nominal and ordinal. There is some natural structure in this dataset. Commonly, experts clusterize datasets such as mine using their 'expert knowledge', but I want to automate this process of clusterization.

Most algorithms for clusterization use distance (Euclidean, Mahalanobdis and so on) between objects to group them in clusters. But **it is hard to find some reasonable metrics for mixed data types**, i.e. we can't find a distance between 'glass' and 'steel'. So I came to the conclusion that I have to use **conditional probabilities** `P(feature = 'something' | Class)`

and some utility function that depends on them. It is reasonable for categorical variables, and it works fine with numeric variables assuming they are distributed normally.

So it became clear to me that algorithms like **K-means** will not produce good results.

At this time I try to work with **COBWEB** algorithm, that fully matches my ideas of using conditional probabilities. But I faced another obsacles: **results of clusterization are really hard to interpret**, if not impossible. As a result I wanted to get something like a set of rules that describes each cluster (e.g. `if feature1 = 'a' and feature2 in [30, 60], it is cluster1`

), like descision trees for classification.

**So, my question is:**

Is there any existing clusterization algorithm that works with mixed data type and produces an understandable (and reasonable for humans) description of clusters.

**Additional info:**

As I understand my task is in the field of conceptual clustering. I can't define a similarity function as it was suggested (it as an ultimate goal of the whoal project), because of the field of study - it is very complicated and mercyless in terms of formalization. As far as I understand the most reasonable approach is the one used in COBWEB, but I'm not sure how to adapt it, so I can get an undestandable description of clusters.

**Decision Tree**

As it was suggested, I tried to train a decision tree on the clustering output, thus getting a description of clusters as a set of rules. But unfortunately interpretation of this rules is almost as hard as with the raw clustering output. First of only a few first levels of rules from the root node do make any sense: closer to the leaf - less sense we have. Secondly, these rules doesn't match any expert knowledge.

So, I came to the conclusion that clustering is a black-box, and it worth not trying to interpret its results.

**Also**

I had an interesting idea to modify a 'decision tree for regression' algorithm in a certain way: istead of calculating an intra-group variance calcualte a category utility function and use it as a **split criterion**. As a result we should have a decision tree with leafs-clusters and clusters description out of the box. But I haven't tried to do so, and I am not sure about accuracy and everything else.

fewmethods around that really give you an explanation of their decision process. – Anony-Mousse Sep 3 '12 at 12:15