Progressive Clustering of Networks Using Structure-Connected Order of Traversal

Network clustering enables us to view a complex network at the macro level, by grouping its nodes into units whose characteristics and interrelationships are easier to analyze and understand. State-of-the-art network partitioning methods are unable to identify hubs and outliers. A recently proposed algorithm, SCAN, overcomes this difficulty. However, it requires a minimum similarity parameter epsilon but provides no automated way to find it. Thus, it must be rerun for each epsilon value and does not capture the variety or hierarchy of clusters. We propose a new algorithm, SCOT (or Structure-Connected Order of Traversal), that produces a length n sequence containing all possible epsilon-clusterings. We propose a new algorithm, HintClus (or Hierarchy-Induced Network Clustering), to hierarchically cluster the network by finding only best cluster boundaries (not agglomerative). Results on model-based synthetic network data and real data show that SCOT's execution time is comparable to SCAN, that HintClus runs in negligible time, and that HintClus produces sensible clusters in the presence of noise.