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Consider the following statements

Directed Graph-1:


Directed Graph-2:


Here 'a', 'b' and 'c' are vertices and all 'p' are edges. The direction is from node a to node b/c. When a graph is drawn, it looks similar to the graph in slide-8 of

In Graph-1 there is a cluster starting from node b1 and in Graph-2 there are two clusters connected at b1. By cluster I mean, all the outgoing edges connected to one vertex and also the vertices involved in that group (of out-going edges). Is there a quick and easy way to find these clusters using any of the existing java based graph APIs? I also would like to find the edges connecting to the clusters (like a1 p1 b1 in Graph-1 and b1 p3 c1 in Graph-2). Am I missing/misusing some graph terminology here? I looked at Good Java graph algorithm library? but didn't find exactly what I am looking for.

The graphs are very small, about 20 vertices and 10 edges.

Note: added Neo4j tag since I felt it is a good candidate for this. Neo4j specific question: Is there a way to get all out going edges whose count is greater than 1? (Exploring cypher now).

Thanks in advance.

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Are these directed or undirected graphs? What constitutes a cluster? Is that just the vertex with the highest degree of incoming/outgoing edges? – Matt Apr 12 '13 at 4:42
@Matt Made edits to my question based on your comment. Yes, it is a directed graph. About the cluster -- yes, but need not be the highest. One cluster might consist of a vertex with 5 out-going edges and another with 3. But the cluster consists of not just that vertex but other vertices in that group (or out-going edges). – Raghava Apr 12 '13 at 5:28
"Cluster: all outgoing edges connected to one vertex, and the vertices connected to those out-going edges". So does that mean each returned cluster should comprise of: a central node, that node's out-edges, and the nodes connected to the other side of those out-edges? – Alex Averbuch Apr 12 '13 at 20:48
@AlexAverbuch, yes that is correct (#out-edges > 1). Now, I get a feeling that I should do it myself rather than looking for something in an api. – Raghava Apr 12 '13 at 21:45
First of all, I wouldn't call what you're looking for "clusters". You are just looking for "high" degree nodes and their neighbors. What exactly should the algorithm return? [1] just the cluster centers (you can retrieve the neighbors later) [2] the cluster centers and their out edges [3] the cluster centers, their out edges, and the relationship that connects them to another cluster? – Alex Averbuch Apr 16 '13 at 12:13

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