DynaMo: Dynamic Community Detection by Incrementally Maximizing Modularity

September 25, 2017 Β· Declared Dead Β· πŸ› IEEE Transactions on Knowledge and Data Engineering

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Authors Di Zhuang, J. Morris Chang, Mingchen Li arXiv ID 1709.08350 Category cs.SI: Social & Info Networks Cross-listed cs.CR Citations 91 Venue IEEE Transactions on Knowledge and Data Engineering Last Checked 4 months ago
Abstract
Community detection is of great importance for online social network analysis. The volume, variety and velocity of data generated by today's online social networks are advancing the way researchers analyze those networks. For instance, real-world networks, such as Facebook, LinkedIn and Twitter, are inherently growing rapidly and expanding aggressively over time. However, most of the studies so far have been focusing on detecting communities on the static networks. It is computationally expensive to directly employ a well-studied static algorithm repeatedly on the network snapshots of the dynamic networks. We propose DynaMo, a novel modularity-based dynamic community detection algorithm, aiming to detect communities of dynamic networks as effective as repeatedly applying static algorithms but in a more efficient way. DynaMo is an adaptive and incremental algorithm, which is designed for incrementally maximizing the modularity gain while updating the community structure of dynamic networks. In the experimental evaluation, a comprehensive comparison has been made among DynaMo, Louvain (static) and 5 other dynamic algorithms. Extensive experiments have been conducted on 6 real-world networks and 10,000 synthetic networks. Our results show that DynaMo outperforms all the other 5 dynamic algorithms in terms of the effectiveness, and is 2 to 5 times (by average) faster than Louvain algorithm.
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