利用因子分解机对句子交互进行有效建模以进行事实验证

IF 5.6 3区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Zhen-Heng Chen, Fuzhen Zhuang, Lejian Liao, Meihuizi Jia, Jiaqi Li, Heyan Huang
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引用次数: 0

摘要

事实验证是一项非常具有挑战性的任务,需要从可靠的语料库中检索多个证据句子来验证索赔。许多主张需要同时整合和推理若干证据来验证。现有模型存在两个方面的局限性:1)在句子选择阶段,它们只考虑主张与证据之间的相互作用,而忽略了句子间的信息;2)目前研究中采用的大多数融合策略,如加法、串联或简单的神经网络,未能捕捉证据之间的关系和逻辑信息。为了解决这些问题,我们提出了选择和事实验证建模(SFVM)。我们的模型利用多头自注意机制结合门控机制来促进句子交互和增强句子嵌入。然后,我们利用因式分解机有效地表示压缩的对齐向量,然后将其用于扩展基本证据的表示。为了区分特征的重要性,我们使用证据融合网络来确定各种特征交互的重要性。在两个公共数据集上的实验结果表明,SFVM可以利用更丰富的声明和证据之间的信息进行事实验证,并在FEVER数据集上取得具有竞争力的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effectively Modeling Sentence Interactions With Factorization Machines for Fact Verification
Fact verification is a very challenging task that requires retrieving multiple evidence sentences from a reliable corpus to authenticate claims. Many claims require the simultaneous integration and reasoning of several pieces of evidence for verification. Existing models exhibit limitations in two aspects: 1) during the sentence selection stage, they only consider the interaction between the claim and the evidence, disregarding the intersentence information, and 2) most fusion strategies employed in current research, such as addition, concatenation, or simple neural networks, fail to capture the relationships and logical information among the evidence. To alleviate these problems, we propose select and fact verification modeling (SFVM). Our model utilizes a multihead self-attention mechanism combined with a gating mechanism to facilitate sentence interaction and enhance sentence embeddings. Then, we utilize factorization machines to effectively express the compressed alignment vectors, which are then used to expand the representations of the base evidence. To distinguish the importance of features, we use the evidence fusion network to determine the importance of various feature interactions. Results from experiments on the two public datasets showed that SFVM can utilize richer information between the claim and the evidence for fact verification and achieve competitive performance on the FEVER dataset.
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来源期刊
IEEE Intelligent Systems
IEEE Intelligent Systems 工程技术-工程:电子与电气
CiteScore
13.80
自引率
3.10%
发文量
122
审稿时长
1 months
期刊介绍: IEEE Intelligent Systems serves users, managers, developers, researchers, and purchasers who are interested in intelligent systems and artificial intelligence, with particular emphasis on applications. Typically they are degreed professionals, with backgrounds in engineering, hard science, or business. The publication emphasizes current practice and experience, together with promising new ideas that are likely to be used in the near future. Sample topic areas for feature articles include knowledge-based systems, intelligent software agents, natural-language processing, technologies for knowledge management, machine learning, data mining, adaptive and intelligent robotics, knowledge-intensive processing on the Web, and social issues relevant to intelligent systems. Also encouraged are application features, covering practice at one or more companies or laboratories; full-length product stories (which require refereeing by at least three reviewers); tutorials; surveys; and case studies. Often issues are theme-based and collect articles around a contemporary topic under the auspices of a Guest Editor working with the EIC.
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