A Parallel Model for Jointly Extracting Entities and Relations

IF 2.6 4区计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Neural Processing Letters Pub Date : 2024-05-07 DOI:10.1007/s11063-024-11616-x

Zuqin Chen, Yujie Zheng, Jike Ge, Wencheng Yu, Zining Wang

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Abstract

Extracting relational triples from a piece of text is an essential task in knowledge graph construction. However, most existing methods either identify entities before predicting their relations, or detect relations before recognizing associated entities. This order may lead to error accumulation because once there is an error in the initial step, it will accumulate to subsequent steps. To solve this problem, we propose a parallel model for jointly extracting entities and relations, called PRE-Span, which consists of two mutually independent submodules. Specifically, candidate entities and relations are first generated by enumerating token sequences in sentences. Then, two independent submodules (Entity Extraction Module and Relation Detection Module) are designed to predict entities and relations. Finally, the predicted results of the two submodules are analyzed to select entities and relations, which are jointly decoded to obtain relational triples. The advantage of this method is that all triples can be extracted in just one step. Extensive experiments on the WebNLG*, NYT*, NYT and WebNLG datasets show that our model outperforms other baselines at 94.4%, 88.3%, 86.5% and 83.0%, respectively.

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联合提取实体和关系的并行模型

从文本中提取关系三元组是构建知识图谱的一项基本任务。然而，现有的大多数方法要么是先识别实体再预测其关系，要么是先检测关系再识别相关实体。这种顺序可能会导致错误累积，因为一旦初始步骤出现错误，就会累积到后续步骤。为了解决这个问题，我们提出了一种联合提取实体和关系的并行模型，称为 PRE-Span，它由两个相互独立的子模块组成。具体来说，首先通过枚举句子中的标记序列生成候选实体和关系。然后，设计两个独立的子模块（实体提取模块和关系检测模块）来预测实体和关系。最后，对两个子模块的预测结果进行分析，选出实体和关系，并对它们进行联合解码，得到关系三。这种方法的优点是只需一步就能提取所有三元组。在 WebNLG*、NYT*、NYT 和 WebNLG 数据集上进行的大量实验表明，我们的模型优于其他基线模型的比例分别为 94.4%、88.3%、86.5% 和 83.0%。

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来源期刊

Neural Processing Letters 工程技术-计算机：人工智能

CiteScore

4.90

自引率

12.90%

发文量

392

审稿时长

2.8 months

期刊介绍： Neural Processing Letters is an international journal publishing research results and innovative ideas on all aspects of artificial neural networks. Coverage includes theoretical developments, biological models, new formal modes, learning, applications, software and hardware developments, and prospective researches. The journal promotes fast exchange of information in the community of neural network researchers and users. The resurgence of interest in the field of artificial neural networks since the beginning of the 1980s is coupled to tremendous research activity in specialized or multidisciplinary groups. Research, however, is not possible without good communication between people and the exchange of information, especially in a field covering such different areas; fast communication is also a key aspect, and this is the reason for Neural Processing Letters