Language-Based Syllogistic Reasoning Using Deep Neural Networks

IF 0.5 0 LANGUAGE & LINGUISTICS
Zeinab Aghahadi, A. Talebpour
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引用次数: 1

Abstract

Syllogism is a common form of deductive reasoning that requires precisely two premises and one conclusion. It is considered as a logical method to arrive at new information. However, there has been limited research on language-based syllogistic reasoning that is not typically used in logic textbooks. In support of this new field of study, the authors created a dataset comprised of common-sense English pair sentences and named it Avicenna. The results of the binary classification task indicate that humans recognize the syllogism with 98.16% and the Avicenna-trained model with 89.19% accuracy. The present study demonstrates that aided with special datasets, deep neural networks can understand human inference to an acceptable degree. Further, these networks can be used in designing comprehensive systems for automatic decision-making based on textual resources with near human-level accuracy.
基于深度神经网络的语言层次推理
三段论是一种常见的演绎推理形式,需要两个前提和一个结论。它被认为是获得新信息的一种合乎逻辑的方法。然而,对基于语言的三段论推理的研究有限,这在逻辑教科书中并不常见。为了支持这一新的研究领域,作者创建了一个由常识性英语配对句子组成的数据集,并将其命名为Avicenna。二元分类任务的结果表明,人类对三段论的识别率为98.16%,对Avicenna训练的模型的识别准确率为89.19%。目前的研究表明,在特殊数据集的帮助下,深度神经网络可以在可接受的程度上理解人类的推理。此外,这些网络可以用于设计基于文本资源的自动化决策的综合系统,具有接近人类水平的准确性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Cognitive Semantics
Cognitive Semantics Arts and Humanities-Language and Linguistics
CiteScore
0.50
自引率
0.00%
发文量
14
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