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Dual Fusion-Propagation Graph Neural Network for Multi-View Clustering

Shunxin Xiao, Shide Du, Zhaoliang Chen, Yunhe Zhang, Shiping Wang

2023IEEE Transactions on Multimedia62 citationsDOI

Abstract

Deep multi-view representation learning focuses on training a unified low-dimensional representation for data with multiple sources or modalities. With the rapidly growing attention of graph neural networks, more and more researchers have introduced various graph models into multi-view learning. Although considerable achievements have been made, most existing methods usually propagate information in a single view and fuse multiple information only from the perspective of attributes or relationships. To solve the aforementioned problems, we propose an efficient model termed Dual Fusion-Propagation Graph Neural Network (DFP-GNN) and apply it to deep multi-view clustering tasks. The proposed method is designed with three submodules and has the following merits: a) The proposed view-specific and cross-view propagation modules can capture the consistency and complementarity information among multiple views; b) The designed fusion module performs multi-view information fusion with the attributes of nodes and the relationships among them simultaneously. Experiments on popular databases show that DFP-GNN achieves significant results compared with several state-of-the-art algorithms.

Topics & Concepts

Computer scienceArtificial intelligenceCluster analysisArtificial neural networkGraphMachine learningCategorizationDeep learningRepresentation (politics)Perspective (graphical)Theoretical computer scienceData miningPolitical sciencePoliticsLawAdvanced Graph Neural NetworksText and Document Classification TechnologiesAdvanced Computing and Algorithms