基于自适应标签增强和类不平衡感知模糊信息熵的多标签特征选择

IF 3.2 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Qiong Liu , Mingjie Cai , Qingguo Li , Chaoqun Huang
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引用次数: 0

摘要

多标签特征选择可以选择具有代表性的特征,从而降低数据维度。由于现有的多标签特征选择方法通常假定所有标签的重要性是一致的,因此整个标签空间中样本之间的关系是直接生成的,从而忽略了标签分布的形状和类不平衡的特性。为了解决这些问题,我们提出了一种新颖的多标签特征选择方法。基于非负矩阵因式分解(NMF),逻辑标签和标签分布之间的相似性受到了约束,从而确保标签分布的形状不会在一定程度上偏离基本的实际形状。此外,标签空间和特征空间中样本之间的关系受到图嵌入的限制。最后,我们利用标签分布和类不平衡的特性来生成标签空间中样本之间的关系,并提出了一种基于模糊信息熵的多标签特征选择方法。我们将八种最先进的方法与所提出的方法进行了比较,以验证我们方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-label feature selection based on adaptive label enhancement and class-imbalance-aware fuzzy information entropy
Multi-label feature selection can select representative features to reduce the dimension of data. Since existing multi-label feature selection methods usually suppose that the significance of all labels is consistent, the relationships between samples in the entire label space are generated straightforwardly such that the shape of label distribution and the property of class-imbalance are ignored. To address these issues, we propose a novel multi-label feature selection approach. Based on non-negative matrix factorization (NMF), the similarities between the logical label and label distribution are constrained, which ensures that the shape of label distribution does not deviate from the underlying actual shape to some extent. Further, the relationships between samples in label space and feature space are restricted by graph embedding. Finally, we leverage the properties of label distribution and class-imbalance to generate the relationships between samples in label space and propose a multi-label feature selection approach based on fuzzy information entropy. Eight state-of-the-art methods are compared with the proposed method to validate the effectiveness of our method.
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来源期刊
International Journal of Approximate Reasoning
International Journal of Approximate Reasoning 工程技术-计算机:人工智能
CiteScore
6.90
自引率
12.80%
发文量
170
审稿时长
67 days
期刊介绍: The International Journal of Approximate Reasoning is intended to serve as a forum for the treatment of imprecision and uncertainty in Artificial and Computational Intelligence, covering both the foundations of uncertainty theories, and the design of intelligent systems for scientific and engineering applications. It publishes high-quality research papers describing theoretical developments or innovative applications, as well as review articles on topics of general interest. Relevant topics include, but are not limited to, probabilistic reasoning and Bayesian networks, imprecise probabilities, random sets, belief functions (Dempster-Shafer theory), possibility theory, fuzzy sets, rough sets, decision theory, non-additive measures and integrals, qualitative reasoning about uncertainty, comparative probability orderings, game-theoretic probability, default reasoning, nonstandard logics, argumentation systems, inconsistency tolerant reasoning, elicitation techniques, philosophical foundations and psychological models of uncertain reasoning. Domains of application for uncertain reasoning systems include risk analysis and assessment, information retrieval and database design, information fusion, machine learning, data and web mining, computer vision, image and signal processing, intelligent data analysis, statistics, multi-agent systems, etc.
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