Improving embedded knowledge graph multi-hop question answering by introducing relational chain reasoning

Knowledge Graph Question Answering (KGQA) aims to answer user-questions from a knowledge graph (KG) by identifying the reasoning relations between topic entity and answer. As a complex branch task of KGQA, multi-hop KGQA requires reasoning over the multi-hop relational chain preserved in KG to arriv...

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Veröffentlicht in:	Data mining and knowledge discovery 2023, Vol.37 (1), p.255-288
Hauptverfasser:	Jin, Weiqiang, Zhao, Biao, Yu, Hang, Tao, Xi, Yin, Ruiping, Liu, Guizhong
Format:	Artikel
Sprache:	eng
Schlagworte:	Ablation Actors Algorithms Annotations Artificial Intelligence Chains Chemistry and Earth Sciences Computer Science Data mining Data Mining and Knowledge Discovery Graph theory Information Storage and Retrieval Knowledge Knowledge representation Language Methods Natural language Neighborhoods Physics Questions Reasoning Semantics Source code Statistics for Engineering
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creator	Jin, Weiqiang Zhao, Biao Yu, Hang Tao, Xi Yin, Ruiping Liu, Guizhong
description	Knowledge Graph Question Answering (KGQA) aims to answer user-questions from a knowledge graph (KG) by identifying the reasoning relations between topic entity and answer. As a complex branch task of KGQA, multi-hop KGQA requires reasoning over the multi-hop relational chain preserved in KG to arrive at the right answer. Despite recent successes, the existing works on answering multi-hop complex questions still face the following challenges: (i) The absence of an explicit relational chain order reflected in user-question stems from a misunderstanding of a user’s intentions. (ii) Incorrectly capturing relational types on weak supervision of which dataset lacks intermediate reasoning chain annotations due to expensive labeling cost. (iii) Failing to consider implicit relations between the topic entity and the answer implied in structured KG because of limited neighborhoods size constraint in subgraph retrieval-based algorithms. To address these issues in multi-hop KGQA, we propose a novel model herein, namely Relational Chain based Embedded KGQA (Rce-KGQA), which simultaneously utilizes the explicit relational chain revealed in natural language question and the implicit relational chain stored in structured KG. Our extensive empirical study on three open-domain benchmarks proves that our method significantly outperforms the state-of-the-art counterparts like GraftNet, PullNet and EmbedKGQA. Comprehensive ablation experiments also verify the effectiveness of our method on the multi-hop KGQA task. We have made our model’s source code available at github: https://github.com/albert-jin/Rce-KGQA .
doi_str_mv	10.1007/s10618-022-00891-8
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subjects	Ablation Actors Algorithms Annotations Artificial Intelligence Chains Chemistry and Earth Sciences Computer Science Data mining Data Mining and Knowledge Discovery Graph theory Information Storage and Retrieval Knowledge Knowledge representation Language Methods Natural language Neighborhoods Physics Questions Reasoning Semantics Source code Statistics for Engineering
title	Improving embedded knowledge graph multi-hop question answering by introducing relational chain reasoning
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