A self-adaptive multi-objective dynamic differential evolution algorithm and its application in chemical engineering

This paper proposes a new multi-objective dynamic differential evolution algorithm with parameter self-adaptive strategies, named SA-MODDE. All components of the algorithm are synergically designed to reach its full potential, containing parental selection, mutation strategy, parameter setting, surv...

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Vydané v:Applied soft computing Ročník 106; s. 107317
Hlavní autori: Zhang, Xiaodong, Jin, Lu, Cui, Chengtian, Sun, Jinsheng
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier B.V 01.07.2021
Predmet:
Chemical and biochemical processes
Dynamic differential evolution
Multi-objective optimization
Optimal control problem
Parameter adaptation
Multi-objective optimization
Dynamic differential evolution
Chemical and biochemical processes
Parameter adaptation
Optimal control problem
ISSN:1568-4946, 1872-9681
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Abstract This paper proposes a new multi-objective dynamic differential evolution algorithm with parameter self-adaptive strategies, named SA-MODDE. All components of the algorithm are synergically designed to reach its full potential, containing parental selection, mutation strategy, parameter setting, survival selection, constraint handling, and termination criteria. The improvement measures emphasize exploiting Pareto dominance information more efficiently. Particularly, parameter adaptation schemes are introduced based on both prior knowledges of current individual and feedback information on previous promising solutions, and their effectiveness is validated by comparison with three fixed-parameter combinations. Extensive numerical tests are conducted on multiple test suites with five state-of-the-art peer competitors. The statistical results demonstrated that the SA-MODDE exhibits good proximity and diversity in dealing with benchmark functions with various characteristics. Three industrial (bio)chemical processes, including two optimal control and one reformulated constrained tri-objective, are investigated to show the feasibility and robustness of the SA-MODDE. •Pareto dominance relationship among the population is fully utilized during evolution processes.•Parameter self-adaptive strategies based on prior and posteriori information are presented.•Only generic control parameters of evolutionary algorithms are required.•A performance-based termination criterion is applied.•Tests on 18 numerical experiments and 3 (bio)chemical processes make results persuasive.
AbstractList This paper proposes a new multi-objective dynamic differential evolution algorithm with parameter self-adaptive strategies, named SA-MODDE. All components of the algorithm are synergically designed to reach its full potential, containing parental selection, mutation strategy, parameter setting, survival selection, constraint handling, and termination criteria. The improvement measures emphasize exploiting Pareto dominance information more efficiently. Particularly, parameter adaptation schemes are introduced based on both prior knowledges of current individual and feedback information on previous promising solutions, and their effectiveness is validated by comparison with three fixed-parameter combinations. Extensive numerical tests are conducted on multiple test suites with five state-of-the-art peer competitors. The statistical results demonstrated that the SA-MODDE exhibits good proximity and diversity in dealing with benchmark functions with various characteristics. Three industrial (bio)chemical processes, including two optimal control and one reformulated constrained tri-objective, are investigated to show the feasibility and robustness of the SA-MODDE. •Pareto dominance relationship among the population is fully utilized during evolution processes.•Parameter self-adaptive strategies based on prior and posteriori information are presented.•Only generic control parameters of evolutionary algorithms are required.•A performance-based termination criterion is applied.•Tests on 18 numerical experiments and 3 (bio)chemical processes make results persuasive.
ArticleNumber 107317
Author Jin, Lu
Zhang, Xiaodong
Cui, Chengtian
Sun, Jinsheng
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  organization: School of Chemical Engineering and Technology, Tianjin University, Tianjin, 300072, PR China
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Keywords Multi-objective optimization
Dynamic differential evolution
Chemical and biochemical processes
Parameter adaptation
Optimal control problem
Language English
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Snippet This paper proposes a new multi-objective dynamic differential evolution algorithm with parameter self-adaptive strategies, named SA-MODDE. All components of...
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StartPage 107317
SubjectTerms Chemical and biochemical processes
Dynamic differential evolution
Multi-objective optimization
Optimal control problem
Parameter adaptation
Title A self-adaptive multi-objective dynamic differential evolution algorithm and its application in chemical engineering
URI https://dx.doi.org/10.1016/j.asoc.2021.107317
Volume 106
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