基于边界检测和双碱注意的自蒸馏命名实体识别

IF 0.9 Q4 COMPUTER SCIENCE, SOFTWARE ENGINEERING

Scalable Computing-Practice and Experience Pub Date : 2022-12-01 DOI:10.1109/smartworld-uic-atc-scalcom-digitaltwin-pricomp-metaverse56740.2022.00162

Yong Song, Zhiwei Yan, Yukun Qin, Xiaozhou Ye, Ye Ouyang

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引用次数: 0

摘要

命名实体识别(NER)是自然语言处理中一个重要的下行任务。基于跨度的方法既适用于平面实体，也适用于嵌套实体。然而，它们缺乏明确的边界监督。为了解决这一问题，我们提出了一种多任务自提取模型，该模型结合了双仿跨度分类和实体边界检测任务。首先，在多任务学习框架下，联合训练边界检测模型和biaffine跨度分类模型，解决边界缺乏监督的问题;然后，在模型上应用自蒸馏技术，将实体概率从标注的跨度重新分配到周围跨度和更多的实体类型，通过包含更丰富知识的软标签进一步提高NER的准确性。实验基于一家电子商务公司商品标题的高密度实体文本数据集。最后，实验结果表明，我们的模型比现有的常用模型具有更好的F1分数。

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Self-distilled Named Entity Recognition Based on Boundary Detection and Biaffine Attention

Named Entity Recognition (NER) is an important down-streaming task in natural language processing. Span-based methods are applicable to both flat and nested entities. However, they lack explicit boundary supervision. To address this issue, we propose a multi-task and self-distilled model which combines biaffine span classification and entity boundary detection tasks. Firstly, the boundary detection and biaffine span classification models are jointly trained under a multi-task learning framework to address the problem of lacking supervision of boundaries. Then, self-distillation technique is applied on the model to reassign entity probabilities from annotated spans to surrounding spans and more entity types, further improving the accuracy of NER by soft labels that contain richer knowledge. Experiments were based on a high-density entity text dataset of the commodity titles from an e-commerce company. Finally, the experimental results show that our model exhibited a better F1 score than the existing common models.

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来源期刊

Scalable Computing-Practice and Experience COMPUTER SCIENCE, SOFTWARE ENGINEERING-

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： The area of scalable computing has matured and reached a point where new issues and trends require a professional forum. SCPE will provide this avenue by publishing original refereed papers that address the present as well as the future of parallel and distributed computing. The journal will focus on algorithm development, implementation and execution on real-world parallel architectures, and application of parallel and distributed computing to the solution of real-life problems.