Heterogeneous Temporal Hypergraph Neural Network

Graph representation learning (GRL) has emerged as an effective technique for modeling graph-structured data. When modeling heterogeneity and dynamics in real-world complex networks, GRL methods designed for complex heterogeneous temporal graphs (HTGs) have been proposed and have achieved successful applications in various fields. However, most existing GRL methods mainly focus on preserving the low-order topology information while ignoring higher-order group interaction relationships, which are more consistent with real-world networks. In addition, most existing hypergraph methods can only model static homogeneous graphs, limiting their ability to model high-order interactions in HTGs. Therefore, to simultaneously enable the GRL model to capture high-order interaction relationships in HTGs, we first propose a formal definition of heterogeneous temporal hypergraphs and P-uniform heterogeneous hyperedge construction algorithm that does not rely on additional information. Then, a novel Heterogeneous Temporal HyperGraph Neural network (HTHGN), is proposed to fully capture higher-order interactions in HTGs. HTHGN contains a hierarchical attention mechanism module that simultaneously performs temporal message-passing between heterogeneous nodes and hyperedges to capture rich semantics in a wider receptive field brought by hyperedges. Furthermore, HTHGN performs contrastive learning by maximizing the consistency between low-order correlated heterogeneous node pairs on HTG to avoid the low-order structural ambiguity issue. Detailed experimental results on three real-world HTG datasets verify the effectiveness of the proposed HTHGN for modeling high-order interactions in HTGs and demonstrate significant performance improvements.

Authors

• Huan Liu Institute of Information Science, Beijing Jiaotong University Visual Intellgence +X International Cooperation Joint Laboratory of MOE
• Pengfei Jiao Zhuoyue Honors College, Hangzhou Dianzi University, China School of Cyberspace, Hangzhou Dianzi University, China Data Security Governance Zhejiang Engineering Research Center, Hangzhou Dianzi University, China
• Mengzhou Gao Zhuoyue Honors College, Hangzhou Dianzi University, China School of Cyberspace, Hangzhou Dianzi University, China
• Chaochao Chen Zhejiang University
• Di Jin Tianjin University

Keywords

• Data Mining: DM: Mining graphs
• Data Mining: DM: Networks
• Machine Learning: ML: Self-supervised Learning