EASC: An exception-aware semantic compression framework for real-world knowledge graphs

Jiang Sihang; Feng Jianchuan; Wang ChaoLiu JingpingXiong ZhuozhiSha ChaofengZheng WeiguoLiang JiaqingXiao Yanghua

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EASC: An exception-aware semantic compression framework for real-world knowledge graphs

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Knowledge graphs (KGs) have achieved great success in many real applications, and great efforts have been dedicated to constructing larger knowledge graphs. An obvious trend in KG construction is that the KGs become ever-increasingly bigger. However, we argue that constructing a KG by directly inserting more triples may harm the performance of the KG, and one possible solution is KG compression. In this paper, we propose an exception-aware semantic lossless compression framework EASC to compress a KG. Since many triples can be inferred from other triples with semantic rules, we remove the triples that can be inferred and store the rules and exception cases. Specifically, we formalize the lossless compression problem as a weighted set cover problem, which is NP-hard, and propose a semantic lossless compression algorithm to get an approximation result. We conduct extensive experiments on seven real-world large-scale KGs. The results show that EASC achieves stateof-the-art performance in semantic compression methods. Furthermore, by combining EASC as an independent module with syntactic compression methods, we achieve state-of-the-art performance in lossless compression methods. COPY; 2023 Elsevier B.V. All rights reserved.

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《Knowledge-based systems》 |2023年第25期|1.1-1.16|共16页
作者
Jiang Sihang; Feng Jianchuan; Wang ChaoLiu JingpingXiong ZhuozhiSha ChaofengZheng WeiguoLiang JiaqingXiao Yanghua;
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Fudan Univ;

Shanghai Univ;

Shanghai UnivEast China Univ Sci & Technol;

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原文格式 PDF
正文语种英语
中图分类计算技术、计算机技术;
关键词
Knowledge graph; Lossless compression; Semantic compression;

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EASC: An exception-aware semantic compression framework for real-world knowledge graphs

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