期刊论文详细信息
Entropy
A Neighborhood Rough Sets-Based Attribute Reduction Method Using Lebesgue and Entropy Measures
Lanying Wang1  Shiguang Zhang1  Lin Sun1  Jiucheng Xu1 
[1] College of Computer and Information Engineering, Henan Normal University, Xinxiang 453007, Henan, China;
关键词: rough sets;    neighborhood rough sets;    attribute reduction;    neighborhood entropy;    Lebesgue measure;   
DOI  :  10.3390/e21020138
来源: DOAJ
【 摘 要 】

For continuous numerical data sets, neighborhood rough sets-based attribute reduction is an important step for improving classification performance. However, most of the traditional reduction algorithms can only handle finite sets, and yield low accuracy and high cardinality. In this paper, a novel attribute reduction method using Lebesgue and entropy measures in neighborhood rough sets is proposed, which has the ability of dealing with continuous numerical data whilst maintaining the original classification information. First, Fisher score method is employed to eliminate irrelevant attributes to significantly reduce computation complexity for high-dimensional data sets. Then, Lebesgue measure is introduced into neighborhood rough sets to investigate uncertainty measure. In order to analyze the uncertainty and noisy of neighborhood decision systems well, based on Lebesgue and entropy measures, some neighborhood entropy-based uncertainty measures are presented, and by combining algebra view with information view in neighborhood rough sets, a neighborhood roughness joint entropy is developed in neighborhood decision systems. Moreover, some of their properties are derived and the relationships are established, which help to understand the essence of knowledge and the uncertainty of neighborhood decision systems. Finally, a heuristic attribute reduction algorithm is designed to improve the classification performance of large-scale complex data. The experimental results under an instance and several public data sets show that the proposed method is very effective for selecting the most relevant attributes with high classification accuracy.

【 授权许可】

Unknown   

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