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引用次数: 0
摘要
深度神经网络被广泛应用于文本挖掘和自然语言处理领域,使计算机能够理解、分析和生成文本或语音等自然语言数据,但分类法和本体等语义资源并未完全纳入深度学习。在本文中,我们使用深度卷积神经网络(Deep CNN),利用计算机科学本体(计算机科学领域研究领域的本体)对研究论文进行分类。它将特定研究论文的摘要和关键词作为输入,并返回相关的研究主题。为了评估本体,我们使用了一个包含研究文章的金标准数据集。为了进一步改进文本分类结果,我们建议设计一个深度 CNN 模型。然后,我们使用本体匹配来减少类别,从而获得更好的结果。实验结果表明,我们提出的方法在精确度、召回率和 F1 分数上都优于其他方法。
Deep Convolutional Neural Network for Knowledge-Infused Text Classification
Deep neural networks are extensively used in text mining and Natural Language Processing is to enable computers to understand, analyze, and generate natural language data, such as text or speech, but semantic resources, such as taxonomies and ontologies, are not fully included in deep learning. In this paper, we use Deep Convolutional Neural Network (Deep CNN) to classify research papers using the Computer Science Ontology, an ontology of research areas in the field of computer science. It takes as input the abstract and keywords of a particular research paper and returns the relevant research topic. To evaluate our ontology, we used a gold standard dataset that includes research articles. To further improve text classification results, we propose to design a Deep CNN model. We then used ontology matching to reduce the classes and get better results. Experimental results show that the proposed approach outperforms the one with the highest precision, recall, and F1-score.
期刊介绍:
The journal is specially intended to support the development of new computational and cognitive paradigms stemming from the cross-fertilization of various research fields. These fields include, but are not limited to, programming (logic, constraint, functional, object-oriented), distributed/parallel computing, knowledge-based systems, agent-oriented systems, and cognitive aspects of human embodied knowledge. It also encourages theoretical and/or practical papers concerning all types of learning, knowledge discovery, evolutionary mechanisms, human cognition and learning, and emergent systems that can lead to key technologies enabling us to build more complex and intelligent systems. The editorial board hopes that New Generation Computing will work as a catalyst among active researchers with broad interests by ensuring a smooth publication process.
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