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Hidden space reconstruction inspires link prediction in complex networks

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arxiv 1705.02199 v1 pith:KTBWLMDW submitted 2017-03-25 cs.SI physics.data-anphysics.soc-ph

Hidden space reconstruction inspires link prediction in complex networks

classification cs.SI physics.data-anphysics.soc-ph
keywords spacehiddenpredictionlinknetworkmethodssimilaritylocations
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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As a fundamental challenge in vast disciplines, link prediction aims to identify potential links in a network based on the incomplete observed information, which has broad applications ranging from uncovering missing protein-protein interaction to predicting the evolution of networks. One of the most influential methods rely on similarity indices characterized by the common neighbors or its variations. We construct a hidden space mapping a network into Euclidean space based solely on the connection structures of a network. Compared with real geographical locations of nodes, our reconstructed locations are in conformity with those real ones. The distances between nodes in our hidden space could serve as a novel similarity metric in link prediction. In addition, we hybrid our hidden space method with other state-of-the-art similarity methods which substantially outperforms the existing methods on the prediction accuracy. Hence, our hidden space reconstruction model provides a fresh perspective to understand the network structure, which in particular casts a new light on link prediction.

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