ASPER: Answer Set Programming Enhanced Neural Network Models for Joint Entity-Relation Extraction

IF 1.4 2区 数学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING
TRUNG HOANG LE, HUIPING CAO, TRAN CAO SON
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引用次数: 0

Abstract

Abstract A plethora of approaches have been proposed for joint entity-relation (ER) extraction. Most of these methods largely depend on a large amount of manually annotated training data. However, manual data annotation is time-consuming, labor-intensive, and error-prone. Human beings learn using both data (through induction) and knowledge (through deduction). Answer Set Programming (ASP) has been a widely utilized approach for knowledge representation and reasoning that is elaboration tolerant and adept at reasoning with incomplete information. This paper proposes a new approach, ASP-enhanced Entity-Relation extraction (ASPER), to jointly recognize entities and relations by learning from both data and domain knowledge. In particular, ASPER takes advantage of the factual knowledge (represented as facts in ASP) and derived knowledge (represented as rules in ASP) in the learning process of neural network models. We have conducted experiments on two real datasets and compare our method with three baselines. The results show that our ASPER model consistently outperforms the baselines.
联合实体关系抽取的答案集规划增强神经网络模型
摘要针对联合实体关系(ER)的提取,已经提出了大量的方法。这些方法在很大程度上依赖于大量手工标注的训练数据。但是,手动数据注释非常耗时、费力且容易出错。人类学习既使用数据(通过归纳),也使用知识(通过演绎)。答案集编程(ASP)是一种广泛应用于知识表示和推理的方法,它具有精细容错性和善于对不完全信息进行推理。本文提出了一种新的方法,即asp增强的实体-关系提取(ASPER),通过学习数据和领域知识来共同识别实体和关系。特别是,ASPER在神经网络模型的学习过程中利用了事实知识(在ASP中表示为事实)和派生知识(在ASP中表示为规则)。我们在两个真实数据集上进行了实验,并将我们的方法与三个基线进行了比较。结果表明,我们的ASPER模型始终优于基线。
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来源期刊
Theory and Practice of Logic Programming
Theory and Practice of Logic Programming 工程技术-计算机:理论方法
CiteScore
4.50
自引率
21.40%
发文量
40
审稿时长
>12 weeks
期刊介绍: Theory and Practice of Logic Programming emphasises both the theory and practice of logic programming. Logic programming applies to all areas of artificial intelligence and computer science and is fundamental to them. Among the topics covered are AI applications that use logic programming, logic programming methodologies, specification, analysis and verification of systems, inductive logic programming, multi-relational data mining, natural language processing, knowledge representation, non-monotonic reasoning, semantic web reasoning, databases, implementations and architectures and constraint logic programming.
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