Joint embedding in hierarchical distance and semantic representation learning for link prediction

IF 3.5 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Big Data Research Pub Date : 2024-11-13 DOI:10.1016/j.bdr.2024.100495

Jin Liu, Jianye Chen, Chongfeng Fan, Fengyu Zhou

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Abstract

The link prediction task aims to predict missing entities or relations in the knowledge graph and is essential for the downstream application. Existing well-known models deal with this task by mainly focusing on representing knowledge graph triplets in the distance space or semantic space. However, they can not fully capture the information of head and tail entities, nor even make good use of hierarchical level information. Thus, in this paper, we propose a novel knowledge graph embedding model for the link prediction task, namely, HIE, which models each triplet (h, r, t) into distance measurement space and semantic measurement space, simultaneously. Moreover, HIE is introduced into hierarchical-aware space to leverage rich hierarchical information of entities and relations for better representation learning. Specifically, we apply distance transformation operation on the head entity in distance space to obtain the tail entity instead of translation-based or rotation-based approaches. Experimental results of HIE on four real-world datasets show that HIE outperforms several existing state-of-the-art knowledge graph embedding methods on the link prediction task and deals with complex relations accurately.

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分层距离和语义表征学习中的联合嵌入，用于链接预测

链接预测任务旨在预测知识图谱中缺失的实体或关系，对于下游应用至关重要。现有的著名模型在处理这项任务时，主要侧重于在距离空间或语义空间中表示知识图谱三元组。但是，这些模型不能完全捕捉头部和尾部实体的信息，甚至不能很好地利用层次信息。因此，本文针对链接预测任务提出了一种新的知识图谱嵌入模型，即 HIE，它将每个三元组（h, r, t）同时建模到距离测量空间和语义测量空间中。此外，HIE 还引入了分层感知空间，以利用实体和关系的丰富分层信息进行更好的表征学习。具体来说，我们在距离空间中对头部实体进行距离变换操作，以获得尾部实体，而不是基于平移或旋转的方法。HIE 在四个真实世界数据集上的实验结果表明，HIE 在链接预测任务上的表现优于现有的几种最先进的知识图嵌入方法，并能准确处理复杂关系。

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来源期刊

Big Data Research Computer Science-Computer Science Applications

CiteScore

8.40

自引率

3.00%

发文量

期刊介绍： The journal aims to promote and communicate advances in big data research by providing a fast and high quality forum for researchers, practitioners and policy makers from the very many different communities working on, and with, this topic. The journal will accept papers on foundational aspects in dealing with big data, as well as papers on specific Platforms and Technologies used to deal with big data. To promote Data Science and interdisciplinary collaboration between fields, and to showcase the benefits of data driven research, papers demonstrating applications of big data in domains as diverse as Geoscience, Social Web, Finance, e-Commerce, Health Care, Environment and Climate, Physics and Astronomy, Chemistry, life sciences and drug discovery, digital libraries and scientific publications, security and government will also be considered. Occasionally the journal may publish whitepapers on policies, standards and best practices.