Construction of fuzzy classification systems by fitness sharing based genetic search and boosting based ensemble

IF 3.2 1区数学 Q2 COMPUTER SCIENCE, THEORY & METHODS Fuzzy Sets and Systems Pub Date : 2024-03-20 DOI:10.1016/j.fss.2024.108949

Jidong Li, Xuejie Zhang

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Abstract

This paper concentrates on the development of precise fuzzy rule-based classification systems for high-dimensional and multi-class problems. The approach begins with the extraction on potential fuzzy if-then rules using fitness sharing based genetic algorithms, this ensures effective searching for productive niches, thereby evolving and maintaining a diverse, cooperative population. Subsequently, for the purpose of combining the obtained fuzzy rules and eliminating their conflicts, an adaboost ensemble method is utilized, enhancing the accuracy of the fuzzy classification systems.

Experiments have been conducted on 10 UCI datasets and 3 well-known image classification problems. The features for these image tasks were derived from the activation values of the final convolutional layer in pre-trained convolutional neural networks. These datasets, which were chosen to evaluate the effectiveness of the proposed approach, exhibit significant variation in terms of dimensionality and the number of class labels. Comparative analyses are carried out with conventional fuzzy rule-based classification methods, and the results demonstrate that the classification systems can be developed for complex problems, while maintaining a high-level of prediction accuracy.

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通过基于遗传搜索的适度共享和基于提升的集合构建模糊分类系统

本文主要针对高维和多类问题开发基于模糊规则的精确分类系统。该方法首先使用基于适度共享的遗传算法提取潜在的 "如果-那么 "模糊规则，从而确保有效地搜索有生产力的利基，进而发展和维持一个多样化的合作种群。随后，为了组合所获得的模糊规则并消除它们之间的冲突，使用了一种 adaboost 集合方法，从而提高了模糊分类系统的准确性。这些图像任务的特征来自预先训练好的卷积神经网络中最终卷积层的激活值。选择这些数据集是为了评估所提出方法的有效性，这些数据集在维度和类标签数量方面存在显著差异。我们将这些数据集与传统的基于模糊规则的分类方法进行了比较分析，结果表明，这种分类系统既能解决复杂问题，又能保持较高的预测准确率。

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来源期刊

Fuzzy Sets and Systems 数学-计算机：理论方法

CiteScore

6.50

自引率

17.90%

发文量

321

审稿时长

6.1 months

期刊介绍： Since its launching in 1978, the journal Fuzzy Sets and Systems has been devoted to the international advancement of the theory and application of fuzzy sets and systems. The theory of fuzzy sets now encompasses a well organized corpus of basic notions including (and not restricted to) aggregation operations, a generalized theory of relations, specific measures of information content, a calculus of fuzzy numbers. Fuzzy sets are also the cornerstone of a non-additive uncertainty theory, namely possibility theory, and of a versatile tool for both linguistic and numerical modeling: fuzzy rule-based systems. Numerous works now combine fuzzy concepts with other scientific disciplines as well as modern technologies. In mathematics fuzzy sets have triggered new research topics in connection with category theory, topology, algebra, analysis. Fuzzy sets are also part of a recent trend in the study of generalized measures and integrals, and are combined with statistical methods. Furthermore, fuzzy sets have strong logical underpinnings in the tradition of many-valued logics.

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