Perceptional and actional enrichment for metaphor detection with sensorimotor norms

IF 2.3 3区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Natural Language Engineering Pub Date : 2023-09-20 DOI:10.1017/s135132492300044x
Mingyu Wan, Qi Su, Kathleen Ahrens, Chu-Ren Huang
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Abstract

Abstract Understanding the nature of meaning and its extensions (with metaphor as one typical kind) has been one core issue in figurative language study since Aristotle’s time. This research takes a computational cognitive perspective to model metaphor based on the assumption that meaning is perceptual, embodied, and encyclopedic. We model word meaning representation for metaphor detection with embodiment information obtained from behavioral experiments. Our work is the first attempt to incorporate sensorimotor knowledge into neural networks for metaphor detection, and demonstrates superiority, consistency, and interpretability compared to peer systems based on two general datasets. In addition, with cross-sectional analysis of different feature schemas, our results suggest that metaphor, as a device of cognitive conceptualization, can be ‘learned’ from the perceptual and actional information independent of several more explicit levels of linguistic representation. The access to such knowledge allows us to probe further into word meaning mapping tendencies relevant to our conceptualization and reaction to the physical world.
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用感觉运动规范进行隐喻检测的感知和行为富集
自亚里士多德时代以来,理解意义的本质及其延伸(隐喻是其中一种典型的延伸)一直是比喻语言研究的核心问题。本研究从计算认知的角度对隐喻进行建模,假设意义是感性的、具身的和百科全书式的。我们利用行为实验中获得的体现信息对隐喻检测的词义表示建模。我们的工作是第一次尝试将感觉运动知识整合到神经网络中进行隐喻检测,并与基于两个通用数据集的同类系统相比,展示了优越性、一致性和可解释性。此外,通过对不同特征图式的横断面分析,我们的研究结果表明,隐喻作为一种认知概念化的手段,可以独立于几个更明确的语言表征层面,从感知和行为信息中“学习”出来。获得这些知识使我们能够进一步探索与我们对物质世界的概念化和反应相关的词义映射趋势。
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来源期刊
Natural Language Engineering
Natural Language Engineering COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-
CiteScore
5.90
自引率
12.00%
发文量
60
审稿时长
>12 weeks
期刊介绍: Natural Language Engineering meets the needs of professionals and researchers working in all areas of computerised language processing, whether from the perspective of theoretical or descriptive linguistics, lexicology, computer science or engineering. Its aim is to bridge the gap between traditional computational linguistics research and the implementation of practical applications with potential real-world use. As well as publishing research articles on a broad range of topics - from text analysis, machine translation, information retrieval and speech analysis and generation to integrated systems and multi modal interfaces - it also publishes special issues on specific areas and technologies within these topics, an industry watch column and book reviews.
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