HGN2T: A Simple but Plug-and-Play Framework Extending HGNNs on Heterogeneous Temporal Graphs

IF 7.5 3区计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS IEEE Transactions on Big Data Pub Date : 2024-02-14 DOI:10.1109/TBDATA.2024.3366085

Huan Liu;Pengfei Jiao;Xuan Guo;Huaming Wu;Mengzhou Gao;Jilin Zhang

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Abstract

Heterogeneous graphs (HGs) with multiple entity and relation types are common in real-world networks. Heterogeneous graph neural networks (HGNNs) have shown promise for learning HG representations. However, most HGNNs are designed for static HGs and are not compatible with heterogeneous temporal graphs (HTGs). A few existing works have focused on HTG representation learning but they care more about how to capture the dynamic evolutions and less about their compatibility with those well-designed static HGNNs. They also handle graph structure and temporal dependency learning separately, ignoring that HTG evolutions are influenced by both nodes and relationships. To address this, we propose HGN2T, a simple and general framework that makes static HGNNs compatible with HTGs. HGN2T is plug-and-play, enabling static HGNNs to leverage their graph structure learning strengths. To capture the relationship-influenced evolutions, we design a special mechanism coupling both the HGNN and sequential model. Finally, through joint optimization by both detection and prediction tasks, the learned representations can fully capture temporal dependencies from historical information. We conduct several empirical evaluation tasks, and the results show our HGN2T can adapt static HGNNs to HTGs and overperform existing methods for HTGs.

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HGN2T：在异构时态图上扩展 HGNN 的简单但即插即用的框架

在现实世界的网络中，具有多种实体和关系类型的异构图（HGs）很常见。异构图神经网络（HGNN）已显示出学习 HG 表示的前景。然而，大多数 HGNN 都是针对静态 HG 设计的，与异构时态图（HTG）不兼容。现有的一些研究侧重于 HTG 表示学习，但它们更关注如何捕捉动态演化，而较少关注与那些设计良好的静态 HGNN 的兼容性。它们还将图结构和时间依赖性学习分开处理，忽略了 HTG 演变同时受到节点和关系的影响。为了解决这个问题，我们提出了 HGN2T，这是一个简单而通用的框架，能让静态 HGNN 与 HTG 兼容。HGN2T 即插即用，能让静态 HGNN 充分利用其图结构学习优势。为了捕捉受关系影响的演化，我们设计了一种特殊机制，将 HGNN 和序列模型结合起来。最后，通过检测和预测任务的联合优化，学习到的表征可以从历史信息中充分捕捉时间依赖性。我们进行了几项实证评估任务，结果表明我们的 HGN2T 可以使静态 HGNN 适应 HTG，并优于现有的 HTG 方法。

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来源期刊

IEEE Transactions on Big Data Multiple-

CiteScore

11.80

自引率

2.80%

发文量

114

期刊介绍： The IEEE Transactions on Big Data publishes peer-reviewed articles focusing on big data. These articles present innovative research ideas and application results across disciplines, including novel theories, algorithms, and applications. Research areas cover a wide range, such as big data analytics, visualization, curation, management, semantics, infrastructure, standards, performance analysis, intelligence extraction, scientific discovery, security, privacy, and legal issues specific to big data. The journal also prioritizes applications of big data in fields generating massive datasets.