Bayesian contiguity constrained clustering
Résumé
Clustering is a well-known and studied problem, one of its variants, called contiguity-constrained clustering, accepts as
a second input a graph used to encode prior information about cluster structure by means of contiguity constraints i.e.
clusters must form connected subgraphs of this graph. This paper discusses the interest of such a setting and proposes a
new way to formalise it in a Bayesian setting, using results on spanning trees to compute exactly a posteriori probabilities
of candidate partitions. An algorithmic solution is then investigated to find a maximum a posteriori partition and extract a
Bayesian dendrogram from it. The interest of this last tool, which is reminiscent of the classical output of a simple hierarchical
clustering algorithm, is analysed. Finally, the proposed approach is demonstrated with experiments on simulated data and
real applications. A reference implementation of this work is available in the R package gtclust that accompanies the paper.