Dual resource constrained flexible job shop scheduling with sequence-dependent setup time
Dual resource constrained flexible job shop scheduling with sequence-dependent setup time
This study addresses the imperative need for efficient solutions in the context of the dual resource constrained flexible job shop scheduling problem with sequence-dependent setup times (DRCFJS-SDST). We introduce a pioneering tri-objective mixed-integer linear mathematical model tailored to this complex challenge. Our model is designed to optimize the assignment of operations to candidate multi-skilled machines and operators, with the primary goals of minimizing operators' idleness cost and sequence-dependent setup time-related expenses. Additionally, it aims to mitigate total tardiness and earliness penalties while regulating maximum machine workload. Given the NP-hard nature of the proposed DRCFJS-SDST, we employ the epsilon constraint method to derive exact optimal solutions for small-scale problems. For larger instances, we develop a modified variant of the multi-objective invasive weed optimization (MOIWO) algorithm, enhanced by a fuzzy sorting algorithm for competitive exclusion. In the absence of established benchmarks in the literature, we validate our solutions against those generated by multi-objective particle swarm optimization (MOPSO) and non-dominated sorted genetic algorithm (NSGA-II). Through comparative analysis, we demonstrate the superior performance of MOIWO. Specifically, when compared to NSGA-II, MOIWO achieves success rates of 90.83% and shows similar performance in 4.17% of cases. Moreover, compared to MOPSO, MOIWO achieves success rates of 84.17% and exhibits similar performance in 9.17% of cases. These findings contribute significantly to the advancement of scheduling optimization methodologies.
Barak, Sasan
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Javanmard, Shima
29b7f028-773d-4072-80aa-8a5183e22c54
Moghdani, Reza
f3ccdd7d-145d-4c95-bb47-23c1341df155
Barak, Sasan
f82186de-f5b7-4224-9621-a00e7501f2c3
Javanmard, Shima
29b7f028-773d-4072-80aa-8a5183e22c54
Moghdani, Reza
f3ccdd7d-145d-4c95-bb47-23c1341df155
Barak, Sasan, Javanmard, Shima and Moghdani, Reza
(2024)
Dual resource constrained flexible job shop scheduling with sequence-dependent setup time.
Expert Systems.
(In Press)
Abstract
This study addresses the imperative need for efficient solutions in the context of the dual resource constrained flexible job shop scheduling problem with sequence-dependent setup times (DRCFJS-SDST). We introduce a pioneering tri-objective mixed-integer linear mathematical model tailored to this complex challenge. Our model is designed to optimize the assignment of operations to candidate multi-skilled machines and operators, with the primary goals of minimizing operators' idleness cost and sequence-dependent setup time-related expenses. Additionally, it aims to mitigate total tardiness and earliness penalties while regulating maximum machine workload. Given the NP-hard nature of the proposed DRCFJS-SDST, we employ the epsilon constraint method to derive exact optimal solutions for small-scale problems. For larger instances, we develop a modified variant of the multi-objective invasive weed optimization (MOIWO) algorithm, enhanced by a fuzzy sorting algorithm for competitive exclusion. In the absence of established benchmarks in the literature, we validate our solutions against those generated by multi-objective particle swarm optimization (MOPSO) and non-dominated sorted genetic algorithm (NSGA-II). Through comparative analysis, we demonstrate the superior performance of MOIWO. Specifically, when compared to NSGA-II, MOIWO achieves success rates of 90.83% and shows similar performance in 4.17% of cases. Moreover, compared to MOPSO, MOIWO achieves success rates of 84.17% and exhibits similar performance in 9.17% of cases. These findings contribute significantly to the advancement of scheduling optimization methodologies.
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Accepted/In Press date: 12 June 2024
Identifiers
Local EPrints ID: 491553
URI: http://eprints.soton.ac.uk/id/eprint/491553
ISSN: 1468-0394
PURE UUID: 48187fb8-5ed2-4cf1-ae62-d06162bd3451
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Date deposited: 26 Jun 2024 16:30
Last modified: 27 Jun 2024 01:56
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Author:
Shima Javanmard
Author:
Reza Moghdani
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