A machine learning-based decision-making framework for the green flexible flowshop scheduling problem by considering preventive maintenance

Open Access

Issue		RAIRO-Oper. Res. Volume 60, Number 1, January-February 2026


Page(s)		437 - 457
DOI		https://doi.org/10.1051/ro/2025011
Published online		06 March 2026

Z.A. Ali, Z.H. Abduljabbar, H.A. Taher, A.B. Sallow and S.M. Almufti, Exploring the power of eXtreme gradient boosting algorithm in machine learning: a review. Acad. J. Nawroz Univ. 12 (2023) 320–334. [Google Scholar]
C. Bentéjac, A. Csörgő and G. Martínez-Muñoz, A comparative analysis of gradient boosting algorithms. Artif. Intell. Rev. 54 (2021) 1937–1967. [Google Scholar]
J. Castaneda, X.A. Martin, M. Ammouriova, J. Panadero and A.A. Juan, A fuzzy simheuristic for the permutation flow shop problem under stochastic and fuzzy uncertainty. Mathematics 10 (2022) 1760. [Google Scholar]
M. Fekri, M. Heydari and M.M. Mazdeh, Bi-objective optimization of flexible flow shop scheduling problem with multi-skilled human resources. Eng. Appl. Artif. Intell. 133 (2024) 108094. [Google Scholar]
A. Goli, A. Ala and M. Hajiaghaei-Keshteli, Efficient multi-objective meta-heuristic algorithms for energy-aware non-permutation flow-shop scheduling problem. Expert Syst. Appl. 213 (2023) 119077. [CrossRef] [Google Scholar]
Q. Gong, J. Li, Z. Jiang and Y. Wang, A hierarchical integration scheduling method for flexible job shop with green lot splitting. Eng. Appl. Artif. Intell. 129 (2024) 107595. [Google Scholar]
B. Javan-Molaei, R. Tavakkoli-Moghaddam, M. Ghanavati-Nejad and A. Asghari-Asl, A data-driven robust decision-making model for configuring a resilient and responsive relief supply chain under mixed uncertainty. Ann. Oper. Res. (2024) 1–38. [Google Scholar]
M. Li and G.-G. Wang, A review of green shop scheduling problem. Inf. Sci. (Ny) 589 (2022) 478–496. [Google Scholar]
Z. Mamashli and N. Javadian, Sustainable design modifications municipal solid waste management network and better optimization for risk reduction analyses. J. Clean. Prod. 279 (2021) 123824. [Google Scholar]
Z. Mamashli, S. Nayeri, R. Tavakkoli-Moghaddam, Z. Sazvar and N. Javadian, Designing a sustainable-resilient disaster waste management system under hybrid uncertainty: a case study. Eng. Appl. Artif. Intell. 106 (2021) 104459. [Google Scholar]
S. Nayeri, E. Asadi-Gangraj and S. Emami, Goal programming-based post-disaster decision making for allocation and scheduling the rescue units in natural disaster with time-window. Int. J. Ind. Eng. Prod. Res. 29 (2018) 65–78. [Google Scholar]
S. Nayeri, M.M. Paydar, E. Asadi-Gangraj and S. Emami, Multi-objective fuzzy robust optimization approach to sustainable closed-loop supply chain network design. Comput. Ind. Eng. 148 (2020) 106716. [Google Scholar]
S. Nayeri, M.A. Khoei, M.R. Rouhani-Tazangi, M. GhanavatiNejad, M. Rahmani and E.B. Tirkolace, A data-driven model for sustainable and resilient supplier selection and order allocation problem in a responsive supply chain: a case study of healthcare system. Eng. Appl. Artif. Intell. 124 (2023) 106511. [CrossRef] [Google Scholar]
P. Perez-Gonzalez and J.M. Framinan, A review and classification on distributed permutation flowshop scheduling problems. Eur. J. Oper. Res. 312 (2024) 1–21. [Google Scholar]
H.-X. Qin, Y.-Y. Han, B. Zhang, L.L. Meng, Y.P. Liu, Q.K. Pan and D.W. Gong, An improved iterated greedy algorithm for the energy-efficient blocking hybrid flow shop scheduling problem. Swarm Evol. Comput. 69 (2022) 100992. [CrossRef] [Google Scholar]
O. Rostami, M. Tavakoli, A. Tajally and M. GhanavatiNejad. A goal programming-based fuzzy best-worst method for the viable supplier selection problem: a case study. Soft Comput. 27 (2023) 2827–2852. [CrossRef] [PubMed] [Google Scholar]
Z. Sazvar, K. Tafakkori, N. Oladzad and S. Nayeri, A capacity planning approach for sustainable-resilient supply chain network design under uncertainty: a case study of vaccine supply chain. Comput. Ind. Eng. 159 (2021) 107406. [CrossRef] [Google Scholar]
Z. Sazvar, M. Tavakoli, M. Ghanavati-Nejad and S. Nayeri, Sustainable-resilient supplier evaluation for high-consumption drugs during COVID-19 pandemic using a data-driven decision-making approach. Sci. Iran (2022). DOI: 10.24200/sci.2022.59789.6424. [Google Scholar]
M. Seyedhamzeh, H. Amoozad Khalili, S.M.H. Hosseini, M. Honarmand Azimi and K. Rahmani, Investigating the two-stage assembly flow shop scheduling problem with uncertain assembling times. J. Ind. Syst. Eng. 14 (2022) 245–267. [Google Scholar]
W. Shao, Z. Shao and D. Pi, Effective constructive heuristics for distributed no-wait flexible flow shop scheduling problem. Comput. Oper. Res. 136 (2021) 105482. [Google Scholar]
Y. Shi, Z. Lu, H. Huang, Y. Liu, Y. Li, E. Zio and Y. Zhou, A new preventive maintenance strategy optimization model considering lifecycle safety. Reliab. Eng. Syst. Saf. 221 (2022) 108325. [Google Scholar]
M. Talaei, B.F. Moghaddam, M.S. Pishvaee, A. Bozorgi-Amiri and S. Gholamnejad, A robust fuzzy optimization model for carbon-efficient closed-loop supply chain network design problem: a numerical illustration in electronics industry. J. Clean. Prod. 113 (2016) 662–673. [Google Scholar]
E.B. Tirkolaee, A. Mardani, Z. Dashtian, M. Soltani and G.W. Weber, A novel hybrid method using fuzzy decision making and multi-objective programming for sustainable-reliable supplier selection in two-echelon supply chain design. J. Clean. Prod. 250 (2020) 119517. [Google Scholar]
N.A. Utami, W. Maharani and I. Atastina, Personality classification of facebook users according to big five personality using SVM (support vector machine) method. Proc. Comput. Sci. 179 (2021) 177–184. [Google Scholar]
J. Wang and Y. Miao, Optimal preventive maintenance policy of the balanced system under the semi-Markov model. Reliab. Eng. Syst. Saf. 213 (2021) 107690. [Google Scholar]
Y. Wang and N. Xie, Flexible flow shop scheduling with interval grey processing time. Grey Syst. Theory Appl. 11 (2021) 779–795. [Google Scholar]
Y.-J. Wang, G.-G. Wang, F.-M. Tian, D.W. Gong and W. Pedrycz, Solving energy-efficient fuzzy hybrid flow-shop scheduling problem at a variable machine speed using an extended NSGA-II. Eng. Appl. Artif. Intell. 121 (2023) 105977. [Google Scholar]
Y. Xiao and A. Konak, A genetic algorithm with exact dynamic programming for the green vehicle routing & scheduling problem. J. Clean. Prod. 167 (2017) 1450–1463. [Google Scholar]
F. Yu, C. Lu, J. Zhou and L. Yin, Mathematical model and knowledge-based iterated greedy algorithm for distributed assembly hybrid flow shop scheduling problem with dual-resource constraints. Expert Syst. Appl. 239 (2024) 122434. [Google Scholar]
S. Zandkarimkhani, H. Mina, M. Biuki and K. Govindan, A chance constrained fuzzy goal programming approach for perishable pharmaceutical supply chain network design. Ann. Oper. Res. 295 (2020) 425–452. [CrossRef] [MathSciNet] [Google Scholar]
B. Zhang, L. Meng, C. Lu and J. Li, Real-time data-driven automatic design of multi-objective evolutionary algorithm: a case study on production scheduling. Appl. Soft Comput. 138 (2023) 110187. [Google Scholar]
F. Zhao, D. Shao, L. Wang, T. Xu and N. Zhu, An effective water wave optimization algorithm with problem-specific knowledge for the distributed assembly blocking flow-shop scheduling problem. Knowl.-Based Syst. 243 (2022) 108471. [Google Scholar]

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