From Static to Active: Knowledge-Aware Node State Selection in Multi-view Graph Learning

Multimedia technologies leverage multi-source to alleviate real-world data incompleteness, providing a versatile platform for multi-view learning. Among existing research, graph-based multi-view learning has achieved notable success. However, prior studies always immerse in comprehensive collaboration across all views and nodes to pursue consistency and complementary, which ignore the negative contribution of nodes from low-quality views. To overcome the above limitation, we explore node behavior selection in multi-view dynamic modeling and propose a knowledge-aware multi-view state space model. Specifically, nodes autonomously select either activation sequences or static sequences according to their current knowledge. In the former, we design the mask-based attention mechanism to capture the dynamics of node behaviors. In the latter, we construct a history pool and simulate synaptic signals to regulate the behavioral distribution of nodes. Moreover, the proposed model provides a directional inter-view diffusion equation that selectively propagates information to alleviate interference from low-quality nodes across views. Extensive experiments demonstrate that the proposed model outperforms baselines on multiple benchmarks and achieves significant performance improvement.

Authors

• Weiran Liao
• Jielong Lu
• Yuhong Chen College of Computer and Data Science, Fuzhou University; Guangdong Institute of Intelligence Science and Technology
• Shide Du Fuzhou University
• Hongrong Chen College of Computer and Data Science, Fuzhou University, Fuzhou, China
• Shiping Wang College of Computer and Data Science, Fuzhou University

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