Uniqorn: Unified question answering over RDF knowledge graphs and natural language text

IF 2.1 3区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Journal of Web Semantics Pub Date : 2024-09-10 DOI:10.1016/j.websem.2024.100833
Soumajit Pramanik , Jesujoba Alabi , Rishiraj Saha Roy , Gerhard Weikum
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Abstract

Question answering over RDF data like knowledge graphs has been greatly advanced, with a number of good systems providing crisp answers for natural language questions or telegraphic queries. Some of these systems incorporate textual sources as additional evidence for the answering process, but cannot compute answers that are present in text alone. Conversely, the IR and NLP communities have addressed QA over text, but such systems barely utilize semantic data and knowledge. This paper presents a method for complex questions that can seamlessly operate over a mixture of RDF datasets and text corpora, or individual sources, in a unified framework. Our method, called Uniqorn, builds a context graph on-the-fly, by retrieving question-relevant evidences from the RDF data and/or a text corpus, using fine-tuned BERT models. The resulting graph typically contains all question-relevant evidences but also a lot of noise. Uniqorn copes with this input by a graph algorithm for Group Steiner Trees, that identifies the best answer candidates in the context graph. Experimental results on several benchmarks of complex questions with multiple entities and relations, show that Uniqorn significantly outperforms state-of-the-art methods for heterogeneous QA – in a full training mode, as well as in zero-shot settings. The graph-based methodology provides user-interpretable evidence for the complete answering process.

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Uniqorn:通过 RDF 知识图谱和自然语言文本进行统一问题解答
通过 RDF 数据(如知识图谱)进行问题解答的技术已经有了长足的进步,许多优秀的系统可以为自然语言问题或电报查询提供清晰的答案。其中一些系统结合了文本来源作为回答过程中的额外证据,但无法计算仅存在于文本中的答案。相反,IR 和 NLP 社区已经解决了文本质量保证问题,但这些系统几乎没有利用语义数据和知识。本文提出了一种处理复杂问题的方法,这种方法可以在一个统一的框架内,在 RDF 数据集和文本体或单个来源的混合体上无缝运行。我们的方法被称为 Uniqorn,它通过使用微调 BERT 模型从 RDF 数据和/或文本语料库中检索与问题相关的证据,即时构建上下文图。生成的图通常包含所有与问题相关的证据,但也有大量噪音。Uniqorn 通过组斯坦纳树图算法来处理这种输入,从而在上下文图中识别出最佳答案候选。在具有多个实体和关系的复杂问题的多个基准上进行的实验结果表明,Uniqorn 在完全训练模式下以及在零点设置下都明显优于最先进的异构质量保证方法。基于图形的方法为整个回答过程提供了用户可解释的证据。
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来源期刊
Journal of Web Semantics
Journal of Web Semantics 工程技术-计算机:人工智能
CiteScore
6.20
自引率
12.00%
发文量
22
审稿时长
14.6 weeks
期刊介绍: The Journal of Web Semantics is an interdisciplinary journal based on research and applications of various subject areas that contribute to the development of a knowledge-intensive and intelligent service Web. These areas include: knowledge technologies, ontology, agents, databases and the semantic grid, obviously disciplines like information retrieval, language technology, human-computer interaction and knowledge discovery are of major relevance as well. All aspects of the Semantic Web development are covered. The publication of large-scale experiments and their analysis is also encouraged to clearly illustrate scenarios and methods that introduce semantics into existing Web interfaces, contents and services. The journal emphasizes the publication of papers that combine theories, methods and experiments from different subject areas in order to deliver innovative semantic methods and applications.
期刊最新文献
Uniqorn: Unified question answering over RDF knowledge graphs and natural language text KAE: A property-based method for knowledge graph alignment and extension Multi-stream graph attention network for recommendation with knowledge graph Ontology design facilitating Wikibase integration — and a worked example for historical data Web3-DAO: An ontology for decentralized autonomous organizations
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