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.
dual-resource, flexible job-shop, job-shop scheduling, multi-objective invasive weed optimization (MOIWO), sequence-dependent setup times
Barak, Sasan
f82186de-f5b7-4224-9621-a00e7501f2c3
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
(2025)
Dual resource constrained flexible job shop scheduling with sequence-dependent setup time.
Expert Systems, 41 (10), [e13669].
(doi:10.1111/exsy.13669).
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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ManuscriptWith_author_details-Rev2
- Accepted Manuscript
More information
Accepted/In Press date: 12 June 2024
e-pub ahead of print date: 25 June 2025
Keywords:
dual-resource, flexible job-shop, job-shop scheduling, multi-objective invasive weed optimization (MOIWO), sequence-dependent setup times
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: 11 Oct 2025 04:03
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Contributors
Author:
Shima Javanmard
Author:
Reza Moghdani
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