Hierarchical symmetric cross entropy for distant supervised relation extraction

IF 3.4 2区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Applied Intelligence Pub Date : 2024-09-03 DOI:10.1007/s10489-024-05798-z

Yun Liu, Xiaoheng Jiang, Pengshuai Lv, Yang Lu, Shupan Li, Kunli Zhang, Mingliang Xu

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Abstract

Distant supervised relation extraction has been increasingly popular in recent years, which generates datasets automatically without human intervention. However, the distant supervised assumption has the limitation that the generated datasets have inevitable labeling errors. This paper proposes the method of Hierarchical Symmetric Cross Entropy for Distant Supervised Relation Extraction (HSCERE) to alleviate the impact of the noisy labels. Specifically, HSCERE simultaneously utilizes two extractors with the same network structure for collaborative learning. This collaborative learning process guides the optimization of the extractor through a joint loss function, namely Hierarchical Symmetric Cross Entropy (HSCE). Within the HSCE loss, the predicted probability distribution of the extractors serves as the supervisory signal, guiding the optimization of the extractors on two levels to reduce the impact of noisy labels. The two levels include the internal optimization within each extractor and the collaborative optimization between extractors. Experiments on generally used datasets show that HSCERE can effectively handle noisy labels and can be incorporated into various methods to enhance their performance.

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用于远距离监督关系提取的分层对称交叉熵

远程监督关系提取近年来越来越流行，它可以自动生成数据集，无需人工干预。然而，远距离监督假设有其局限性，即生成的数据集不可避免地存在标注错误。本文提出了用于远距离监督关系提取的分层对称交叉熵方法（HSCERE），以减轻噪声标签的影响。具体来说，HSCERE 同时利用两个具有相同网络结构的提取器进行协作学习。这一协作学习过程通过一个联合损失函数（即层次对称交叉熵（HSCE））来指导提取器的优化。在 HSCE 损失中，提取器的预测概率分布作为监督信号，在两个层面上指导提取器的优化，以减少噪声标签的影响。这两个层面包括每个提取器内部的优化和提取器之间的协同优化。在常用数据集上进行的实验表明，HSCERE 能有效处理噪声标签，并能将其纳入各种方法以提高性能。

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来源期刊

Applied Intelligence 工程技术-计算机：人工智能

CiteScore

6.60

自引率

20.80%

发文量

1361

审稿时长

5.9 months

期刊介绍： With a focus on research in artificial intelligence and neural networks, this journal addresses issues involving solutions of real-life manufacturing, defense, management, government and industrial problems which are too complex to be solved through conventional approaches and require the simulation of intelligent thought processes, heuristics, applications of knowledge, and distributed and parallel processing. The integration of these multiple approaches in solving complex problems is of particular importance. The journal presents new and original research and technological developments, addressing real and complex issues applicable to difficult problems. It provides a medium for exchanging scientific research and technological achievements accomplished by the international community.