FctClus: A fast clustering algorithm for heterogeneous information networks

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Abstract

It is important to cluster heterogeneous information networks. A fast clustering algorithm based on an approximate commute time embedding for heterogeneous information networks with a star network schema is proposed in this paper by utilizing the sparsity of heterogeneous information networks. First, a heterogeneous information network is transformed into multiple compatible bipartite graphs from the compatible point of view. Second, the approximate commute time embedding of each bipartite graph is computed using random mapping and a linear time solver. All of the indicator subsets in each embedding simultaneously determine the target dataset. Finally, a generalmodel is formulated by these indicator subsets, and a fast algorithmis derived by simultaneously clustering all of the indicator subsets using the sum of the weighted distances for all indicators for an identical target object. The proposed fast algorithm, FctClus, is shown to be efficient and generalizable and exhibits high clustering accuracy and fast computation speed based on a theoretic analysis and experimental verification.

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Yang, J., Chen, L., & Zhang, J. (2015). FctClus: A fast clustering algorithm for heterogeneous information networks. PLoS ONE, 10(6). https://doi.org/10.1371/journal.pone.0130086

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