"Error Detection on Knowledge Graphs with Triple Embedding" by Yezi Liu, Qinggang Zhang et al.
 

Error Detection on Knowledge Graphs with Triple Embedding

Document Type

Conference Proceeding

Publication Date

1-1-2023

Abstract

Knowledge graphs (KGs), as essential ingredients in many real-world applications, always contain a considerable number of errors. KG error detection aims to find the triples whose head entity, tail entity, and corresponding relation are mismatched. Despite being urgently needed, existing KG error detection methods lack generalizability. They mainly utilize supervised information such as entity type or erroneous labels, but such information is not often available in the real world. The challenges in detecting errors in KGs are twofold. Firstly, KGs exhibit unique data characteristics that distinguish them from general graphs. Secondly, real-world KGs tend to be large, and labels are often scarce. To bridge the gap, we propose a novel KG error detection framework based on triple embedding, termed TripleNet. TripleNet constructs a triple network by treating each triple as a node and connecting them via shared entities. It then employs a Bi-LSTM module to capture intra-triple translational information at the local level and uses a graph attention network to gather inter-triple contextual information at the global level. Finally, it computes the suspicious score of each triple by integrating its local and global-level information. Experimental results on two real-world KGs demonstrated that TripleNet outperforms state-of-the-art error detection algorithms with comparable or even better efficiency.

Identifier

85178377708 (Scopus)

ISBN

[9789464593600]

Publication Title

European Signal Processing Conference

External Full Text Location

https://doi.org/10.23919/EUSIPCO58844.2023.10289852

ISSN

22195491

First Page

1604

Last Page

1608

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