Teaching-learning-based optimization algorithm with dynamic neighborhood and crossover search mechanism for numerical optimization

This paper presents an improving teaching-learning-based optimization algorithm (called DRCMTLBO) combined with the dynamic ring neighborhood topology. Firstly, based on the individuals’ fitness distribution and clustered state within and beyond the ring neighborhood, two evaluations of relative nei...

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Vydané v:Applied soft computing Ročník 154; s. 111332
Hlavní autori: Zeng, Zhibo, Dong, He, Xu, Yunlang, Zhang, Wei, Yu, Hangcheng, Li, Xiaoping
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier B.V 01.03.2024
Predmet:
Crossover search mechanism
Relative neighborhood quality
Ring neighborhood topology
Teaching-learning-based optimization algorithm
Teaching-learning-based optimization algorithm
Relative neighborhood quality
Crossover search mechanism
Ring neighborhood topology
ISSN:1568-4946, 1872-9681
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Abstract This paper presents an improving teaching-learning-based optimization algorithm (called DRCMTLBO) combined with the dynamic ring neighborhood topology. Firstly, based on the individuals’ fitness distribution and clustered state within and beyond the ring neighborhood, two evaluations of relative neighborhood quality (RNQ) are developed to separately guide population evolution. On the one hand, a dynamic neighborhood strategy driven by fitness-based evaluation is used to adjust neighborhood radius, maintaining individual variability and neighborhood diversity. On the other hand, to utilize individuals’ information of the entire topology, a novel crossover search mechanism driven by Euclidean distance-based evaluation is used to expand the search space, determining whether individuals should enhance exploitation within the neighborhood or exploration beyond the neighborhood. Finally, the above strategies are embedded into the TLBO algorithm, assisted by improved search approaches that achieve a significant balance between exploitation and exploration. Numerical computation results on functions of CEC2014 and CEC2020 show that our proposed DRCMTLBO algorithm outperforms other ten typical algorithms significantly, and its computational performance can compete with several CEC winner algorithms. •Proposing two relative neighborhood quality evaluations for expanding information.•Designing a dynamic neighborhood strategy adapted to the search tendency.•A novel crossover mechanism enhances the exploration of opposite neighborhoods.•Validating the DRCMTLBO algorithm on CEC2014 and CEC2020.
AbstractList This paper presents an improving teaching-learning-based optimization algorithm (called DRCMTLBO) combined with the dynamic ring neighborhood topology. Firstly, based on the individuals’ fitness distribution and clustered state within and beyond the ring neighborhood, two evaluations of relative neighborhood quality (RNQ) are developed to separately guide population evolution. On the one hand, a dynamic neighborhood strategy driven by fitness-based evaluation is used to adjust neighborhood radius, maintaining individual variability and neighborhood diversity. On the other hand, to utilize individuals’ information of the entire topology, a novel crossover search mechanism driven by Euclidean distance-based evaluation is used to expand the search space, determining whether individuals should enhance exploitation within the neighborhood or exploration beyond the neighborhood. Finally, the above strategies are embedded into the TLBO algorithm, assisted by improved search approaches that achieve a significant balance between exploitation and exploration. Numerical computation results on functions of CEC2014 and CEC2020 show that our proposed DRCMTLBO algorithm outperforms other ten typical algorithms significantly, and its computational performance can compete with several CEC winner algorithms. •Proposing two relative neighborhood quality evaluations for expanding information.•Designing a dynamic neighborhood strategy adapted to the search tendency.•A novel crossover mechanism enhances the exploration of opposite neighborhoods.•Validating the DRCMTLBO algorithm on CEC2014 and CEC2020.
ArticleNumber 111332
Author Zeng, Zhibo
Dong, He
Xu, Yunlang
Zhang, Wei
Li, Xiaoping
Yu, Hangcheng
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  organization: School of Mechanical Science and Engineering, Huazhong University of Science and Technology, Wuhan, 430074, China
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Keywords Teaching-learning-based optimization algorithm
Relative neighborhood quality
Crossover search mechanism
Ring neighborhood topology
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Snippet This paper presents an improving teaching-learning-based optimization algorithm (called DRCMTLBO) combined with the dynamic ring neighborhood topology....
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SubjectTerms Crossover search mechanism
Relative neighborhood quality
Ring neighborhood topology
Teaching-learning-based optimization algorithm
Title Teaching-learning-based optimization algorithm with dynamic neighborhood and crossover search mechanism for numerical optimization
URI https://dx.doi.org/10.1016/j.asoc.2024.111332
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