Fuzzy filter cost-sensitive feature selection with differential evolution

In recent years, a variety of feature selection methods based on evolutionary computation (EC) techniques have been developed for classification due to their robustness and search ability. However, the previous EC-based feature selection research mostly focuses on enhancing the prediction accuracy w...

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Bibliographic Details
Published in:Knowledge-based systems 2022-04, Vol.241, p.108259, Article 108259
Main Authors: Hancer, Emrah, Xue, Bing, Zhang, Mengjie
Format: Article
Language:English
Subjects:
Classification
Cost-sensitive
Criteria
Differential evolution
Evolutionary computation
Feature selection
Robustness (mathematics)
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Summary:In recent years, a variety of feature selection methods based on evolutionary computation (EC) techniques have been developed for classification due to their robustness and search ability. However, the previous EC-based feature selection research mostly focuses on enhancing the prediction accuracy without taking the costs associated with the learning process into consideration. In other words, the impact of using EC-based feature selection to improve the cost-sensitive classification performance has not been well studied. Further, it is not possible to find a EC-based filter cost-sensitive feature selection method in the literature, to the best of our knowledge. We therefore design a cost-sensitive evaluation criterion using the principles of fuzzy mutual estimator and then adopt the criterion in differential evolution framework. According to a variety of experiments conducted on various benchmarks, the proposed filter method can effectively minimize both the classification error rate and the feature cost by removing irrelevant and distracting features from the dataset in a reasonable time. •A cost sensitive filter evaluation criterion is developed.•Based on the filter evaluation criterion, a EC-based cost-sensitive feature selection method is developed.•It is expected to effectively search for lower-cost features, which are beneficial for the learning performance.•The proposed cost-sensitive method also reduces the computational cost and the total misclassification cost.
ISSN:0950-7051
1872-7409
DOI:10.1016/j.knosys.2022.108259