An improved artificial bee colony algorithm for solving multi-objective low-carbon flexible job shop scheduling problem

Based on the analysis of multi-objective flexible job-shop scheduling problem (FJSP), a multi-objective low-carbon job-shop scheduling problem(MLFJSP) with variable processing speed constraint is proposed in this paper. The optimization objectives of MLFJSP include minimizing the makespan, total car...

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Published inApplied soft computing Vol. 95; p. 106544
Main Authors Li, Yibing, Huang, Weixing, Wu, Rui, Guo, Kai
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2020
Subjects
Artificial bee colony (ABC)
Dynamic neighborhood search
Flexible job-shop scheduling problem
Low-carbon
Multi-objective optimization
Flexible job-shop scheduling problem
Multi-objective optimization
Dynamic neighborhood search
Artificial bee colony (ABC)
Low-carbon
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Abstract Based on the analysis of multi-objective flexible job-shop scheduling problem (FJSP), a multi-objective low-carbon job-shop scheduling problem(MLFJSP) with variable processing speed constraint is proposed in this paper. The optimization objectives of MLFJSP include minimizing the makespan, total carbon emission and machine loading. Meanwhile, an improved artificial bee colony algorithm (IABC) is designed to solve the MLFJSP. The improvement of algorithm mainly includes: (1) an effective three-dimensions encoding/decoding mechanism and a mixed initialization strategy are designed to generate a better initial population; (2) special crossover operators and mutation operators were designed to increase the diversity of the population in the employed bee phase; (3)an efficient dynamic neighbor search (DNS) is applied to enhance local search capabilities in the onlooker bee phase; (4) the new food sources generation strategy was proposed to reduce the blindness in the scout bee phase. Finally, this paper carried out a series of comparative experimental studies, including the comparison before and after algorithm improvement, and the comparison between the improved algorithm with MOPSO, MODE and NSGA-II. The results demonstrate that the IABC can achieve a better performance for solving the MLFJSP. •Multi-objective Low-carbon flexible job shop scheduling problem is studied.•Makespan, machine loading and total carbon emission objectives are considered.•An improved artificial bee colony (IABC) algorithm is proposed.•A total of 15 benchmarks are used to test the performance of the IABC.
AbstractList Based on the analysis of multi-objective flexible job-shop scheduling problem (FJSP), a multi-objective low-carbon job-shop scheduling problem(MLFJSP) with variable processing speed constraint is proposed in this paper. The optimization objectives of MLFJSP include minimizing the makespan, total carbon emission and machine loading. Meanwhile, an improved artificial bee colony algorithm (IABC) is designed to solve the MLFJSP. The improvement of algorithm mainly includes: (1) an effective three-dimensions encoding/decoding mechanism and a mixed initialization strategy are designed to generate a better initial population; (2) special crossover operators and mutation operators were designed to increase the diversity of the population in the employed bee phase; (3)an efficient dynamic neighbor search (DNS) is applied to enhance local search capabilities in the onlooker bee phase; (4) the new food sources generation strategy was proposed to reduce the blindness in the scout bee phase. Finally, this paper carried out a series of comparative experimental studies, including the comparison before and after algorithm improvement, and the comparison between the improved algorithm with MOPSO, MODE and NSGA-II. The results demonstrate that the IABC can achieve a better performance for solving the MLFJSP. •Multi-objective Low-carbon flexible job shop scheduling problem is studied.•Makespan, machine loading and total carbon emission objectives are considered.•An improved artificial bee colony (IABC) algorithm is proposed.•A total of 15 benchmarks are used to test the performance of the IABC.
ArticleNumber 106544
Author Wu, Rui
Guo, Kai
Li, Yibing
Huang, Weixing
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Keywords Flexible job-shop scheduling problem
Multi-objective optimization
Dynamic neighborhood search
Artificial bee colony (ABC)
Low-carbon
Language English
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Snippet Based on the analysis of multi-objective flexible job-shop scheduling problem (FJSP), a multi-objective low-carbon job-shop scheduling problem(MLFJSP) with...
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elsevier
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StartPage 106544
SubjectTerms Artificial bee colony (ABC)
Dynamic neighborhood search
Flexible job-shop scheduling problem
Low-carbon
Multi-objective optimization
Title An improved artificial bee colony algorithm for solving multi-objective low-carbon flexible job shop scheduling problem
URI https://dx.doi.org/10.1016/j.asoc.2020.106544
Volume 95
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