Awesome
jLouvain
Description
Formally, a community detection aims to partition a graph’s vertices in subsets, such that there are many edges connecting between vertices of the same sub-set compared to vertices of different sub-sets; in essence, a community has many more ties between each constituent part than with outsiders. There are numerous algorithms present in the literature for solving this problem, a complete survey can be found in [1].
One of the popular community detection algorithms is presented in [2]. This algorithm separates the network in communities by optimizing greedily a modularity score after trying various grouping operations on the network. By using this simple greedy approach the algorithm is computationally very efficient.
[1] Fortunato, Santo. "Community detection in graphs." Physics Reports 486, no. 3-5 (2010).
[2] V.D. Blondel, J.-L. Guillaume, R. Lambiotte, E. Lefebvre. "Fast unfolding of communities in large networks." J. Stat. Mech., 2008: 1008.
Usage
1. Import the script.
<script type="text/javascript" src="jLouvain.js"></script>
2. Sample Data Format
Node Data
let node_data = ['id1', 'id2', 'id3']; // any type of string can be used as id
Edge Data
let edge_data = [
{ source: 'id1', target: 'id2', weight: 10.0 },
{ source: 'id2', target: 'id3', weight: 20.0 },
{ source: 'id3', target: 'id1', weight: 30.0 }
];
(Optional) Partition Data
let init_part = { id1: 0, id2: 0, id3: 1 };
// Object with ids of nodes as properties and community number assigned as value.
3. Run the algorithm
- Run the Algorithm on your node and edge set by chaining the nodes and edges methods, optionally you can provide an intermediary community partition assignement with the partition_init method. [ Order of chaining is important ]
let community = jLouvain()
.nodes(node_data)
.edges(edge_data)
.partition_init(init_part);
let result = community();
Example
See example.html, use the console to view the raw input data and raw output.
Initial input graph for community detection.
After Community Detection
We can see the partitioned graph vertices with the help of color coding.