基于注意机制的深度学习模型对电磁场相关文献的语义分类

Proceedings of the International Conference on Research in Adaptive and Convergent Systems Pub Date : 2020-10-13 DOI:10.1145/3400286.3418259

Kwanghee Won, Youjeong Jang, Hyung-Do Choi, Sung Y. Shin

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引用次数: 1

摘要

由于缺乏标记数据和文本长度[1,4]，使用机器学习方法对科学文献进行语义分类具有挑战性。大部分的工作都是基于关键词的分类任务，它关注重要术语的出现，而语义分类则是学习关键词和句子的意义。在这项研究中，我们使用Powerwatch研究中列出的大量标记科学论文来评估神经网络模型在语义分类任务上的作用。我们进行了神经结构搜索，以找到最适合任务的模型。在实验中，我们比较了各种神经网络模型的分类精度。此外，我们采用全卷积神经网络(FCN)实现了对电磁场相关文献语义分类的注意机制。实验结果表明，基于fcn的注意模型能够识别输入文本的重要部分。

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Semantic Classification of EMF-related Literature using Deep Learning Models with Attention Mechanism

Semantic classification of scientific literature using machine learning approaches is challenging due to the lack of labeled data and the length of text [1, 4]. Most of the work has been done for keyword based categorization tasks, which take care of occurrence of important terms, whereas the semantic classification is to learn keywords as well as the meaning of sentences. In this study, we have evaluated neural network models on a semantic classification task using a large amount of labeled scientific papers listed in the Powerwatch study. We have conducted neural architecture search to find the most suitable model for the task. In the experiment, we have compared classification accuracy of various neural network models. In addition, we have employed a Fully Convolutional Neural Network (FCN) to implement attention mechanism for the semantic classification of EMF-related literature. The experimental result showed that the FCN-based attention model was able to identify important parts of input texts.

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Proceedings of the International Conference on Research in Adaptive and Convergent Systems

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