An Improved Hybrid Feature Selection Algorithm for Electric Charge Recovery Risk

Suxiang, Qian; Shi, Yongsheng; Wu, Huaiguang; Shang, Songtao

doi:10.1155/2020/8479341

Cited by 1 publication

(1 citation statement)

References 58 publications

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“…Similarly, Qian et al [ 190 ] proposed an upgraded combined feature selection algorithm comprised of nonlinear inertia weight binary particle swarm optimization with shrinking encircling and exploration mechanism (NBPSOSEE) with sequential backward selection (SBS) known as NBPSOSEE-SBS, to select the best feature subset and applied in electric charge recovery risk. The experiment results proved the effectiveness of NBPSOSEE-SBS in reducing the significant number of irrelevant features and improving the prediction results in terms of the lower execution time compared with a well-known algorithm with seven other popular wrapper-based features subset selection techniques used in the prediction of risk of ECR for power customers.…”

Section: Hybrid Methodsmentioning

confidence: 99%

Multiclass feature selection with metaheuristic optimization algorithms: a review

Akinola

Ezugwu

Agushaka

et al. 2022

Neural Comput & Applic

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Selecting relevant feature subsets is vital in machine learning, and multiclass feature selection is harder to perform since most classifications are binary. The feature selection problem aims at reducing the feature set dimension while maintaining the performance model accuracy. Datasets can be classified using various methods. Nevertheless, metaheuristic algorithms attract substantial attention to solving different problems in optimization. For this reason, this paper presents a systematic survey of literature for solving multiclass feature selection problems utilizing metaheuristic algorithms that can assist classifiers selects optima or near optima features faster and more accurately. Metaheuristic algorithms have also been presented in four primary behavior-based categories, i.e., evolutionary-based, swarm-intelligence-based, physics-based, and human-based, even though some literature works presented more categorization. Further, lists of metaheuristic algorithms were introduced in the categories mentioned. In finding the solution to issues related to multiclass feature selection, only articles on metaheuristic algorithms used for multiclass feature selection problems from the year 2000 to 2022 were reviewed about their different categories and detailed descriptions. We considered some application areas for some of the metaheuristic algorithms applied for multiclass feature selection with their variations. Popular multiclass classifiers for feature selection were also examined. Moreover, we also presented the challenges of metaheuristic algorithms for feature selection, and we identified gaps for further research studies.

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Section: Hybrid Methodsmentioning

confidence: 99%