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Reinforcement learning and stochastic dynamic programming for jointly scheduling jobs and preventive maintenance on a single machine to minimise earliness-tardiness

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  • Abderrazzak Sabri
  • Hamid Allaoui
  • Omar Souissi

Abstract

This paper addresses the problem of stochastic jointly scheduling of resumable jobs and preventive maintenance on a single machine, subject to random breakdowns, to minimise the earliness-tardiness cost. The main objective is to investigate using trending machine learning-based methods compared to stochastic optimisation approaches. We propose two different methods from both fields as we solve the same problem firstly with a stochastic dynamic programming model in an approximation way, then with an attention-based deep reinforcement learning model. We conduct a detailed experimental study according to solution quality, run time, and robustness to analyse their performances compared to those of an existing approach in the literature as a baseline. Both algorithms outperform the baseline. Moreover, the machine learning-based algorithm outperforms the stochastic dynamic programming-based heuristic as we report up to 30.5% saving in total cost, a reduction of computational time from 67 min to less than $ 1s $ 1s on big instances, and a better robustness. These facts highlight clearly its potential for solving such problems.

Suggested Citation

  • Abderrazzak Sabri & Hamid Allaoui & Omar Souissi, 2024. "Reinforcement learning and stochastic dynamic programming for jointly scheduling jobs and preventive maintenance on a single machine to minimise earliness-tardiness," International Journal of Production Research, Taylor & Francis Journals, vol. 62(3), pages 705-719, February.
    • Handle: RePEc:taf:tprsxx:v:62:y:2024:i:3:p:705-719
    DOI: 10.1080/00207543.2023.2172472
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