Hybrid Micro Genetic Multi-Population Algorithm With Collective Communication for the Job Shop Scheduling Problem

Marco Antonio Cruz-Chavez; Martin H. Cruz Rosales; Jose Crispin Zavala-Diaz; Jose Alberto Hernandez Aguilar; Abelardo Rodriguez-Leon; Juan Carlos Prince Avelino; Martha Elena Luna Ortiz; Oscar H. Salinas

doi:10.1109/ACCESS.2019.2924218

IEEE Access (Jan 2019)

Hybrid Micro Genetic Multi-Population Algorithm With Collective Communication for the Job Shop Scheduling Problem

Marco Antonio Cruz-Chavez,
Martin H. Cruz Rosales,
Jose Crispin Zavala-Diaz,
Jose Alberto Hernandez Aguilar,
Abelardo Rodriguez-Leon,
Juan Carlos Prince Avelino,
Martha Elena Luna Ortiz,
Oscar H. Salinas

Affiliations

Marco Antonio Cruz-Chavez: ORCiD; Research Center in Engineering and Applied Sciences (CIICAP), Autonomous University of Morelos State, Cuernavaca, México
Martin H. Cruz Rosales: Faculty of Accounting, Administration and Informatics (FCAeI), Autonomous University of Morelos State, Cuernavaca, México
Jose Crispin Zavala-Diaz: Faculty of Accounting, Administration and Informatics (FCAeI), Autonomous University of Morelos State, Cuernavaca, México
Jose Alberto Hernandez Aguilar: Faculty of Accounting, Administration and Informatics (FCAeI), Autonomous University of Morelos State, Cuernavaca, México
Abelardo Rodriguez-Leon: Department of Systems and Computing (SyC), Veracruz Institute of Technology, Veracruz, México
Juan Carlos Prince Avelino: Department of Mechanic Metal (DMM), Veracruz Institute of Technology, Veracruz, México
Martha Elena Luna Ortiz: Department of Research and Technological Development (IDT), Emiliano Zapata Technological University of Morelos State, Emiliano Zapata, México
Oscar H. Salinas: Academic Division of Information and Communication Technologies (DATIC), Emiliano Zapata Technological University of Morelos State, Emiliano Zapata, México

DOI: https://doi.org/10.1109/ACCESS.2019.2924218
Journal volume & issue: Vol. 7
pp. 82358 – 82376

Abstract

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This paper presents a hybrid genetic algorithm with collective communication (HGACC) using distributed processing for the job shop scheduling problem. The genetic algorithm starts with a set of elite micro-populations created randomly, where the fitness of these individuals does not exceed a tuned upper bound in the makespan value. The computational processes distribute the micro-populations collectively. In the micro-populations, each individual's search for good solutions is directed toward the solution space of the fittest individual, identified by an approximation of genetic traits. In each generation of the genetic algorithm, the best individual from each micro-population migrates to another micro-population to maintain diversity in populations. Changes in the genetic sequence are applied to each individual by the simulated annealing algorithm (iterative mutation). In this paper, the results obtained show that the genetic algorithm achieves excellent results, as compared to other genetic algorithms. It is also better than other non-genetic meta heuristics or competes with them.

Published in IEEE Access

ISSN: 2169-3536 (Online)
Publisher: IEEE
Country of publisher: United States
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6287639

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