Entity alignment via graph neural networks: a component-level study

World Wide Web Pub Date : 2023-11-29 DOI:10.1007/s11280-023-01221-8

Yanfeng Shu, Ji Zhang, Guangyan Huang, Chi-Hung Chi, Jing He

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Abstract

Entity alignment plays an essential role in the integration of knowledge graphs (KGs) as it seeks to identify entities that refer to the same real-world objects across different KGs. Recent research has primarily centred on embedding-based approaches. Among these approaches, there is a growing interest in graph neural networks (GNNs) due to their ability to capture complex relationships and incorporate node attributes within KGs. Despite the presence of several surveys in this area, they often lack comprehensive investigations specifically targeting GNN-based approaches. Moreover, they tend to evaluate overall performance without analysing the impact of individual components and methods. To bridge these gaps, this paper presents a framework for GNN-based entity alignment that captures the key characteristics of these approaches. We conduct a fine-grained analysis of individual components and assess their influences on alignment results. Our findings highlight specific module options that significantly affect the alignment outcomes. By carefully selecting suitable methods for combination, even basic GNN networks can achieve competitive alignment results.

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通过图形神经网络的实体对齐:一个组件级的研究

实体对齐在知识图(KGs)的集成中起着至关重要的作用，因为它试图识别不同知识图中引用相同现实世界对象的实体。最近的研究主要集中在基于嵌入的方法上。在这些方法中，人们对图神经网络(gnn)的兴趣日益浓厚，因为它们能够捕捉复杂的关系，并将节点属性整合到kg中。尽管在这一领域已有几项研究，但它们往往缺乏专门针对基于gnn的方法的全面研究。此外，他们倾向于评估整体性能，而不分析单个组件和方法的影响。为了弥合这些差距，本文提出了一个基于gnn的实体对齐框架，该框架捕捉了这些方法的关键特征。我们对单个组件进行细粒度分析，并评估它们对对齐结果的影响。我们的发现突出了显著影响对齐结果的特定模块选项。通过仔细选择合适的组合方法，即使是基本的GNN网络也可以获得具有竞争力的对齐结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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