面向韧性的动态生产与维护调度优化方法:考虑运行不确定性

Resilience-oriented approach of dynamic production and maintenance scheduling optimisation considering operational uncertainty

International Journal of Production Research · 2024
被引 12
ABS 3

中文导读

针对多状态制造系统在运行不确定性下的韧性优化问题,提出一种集成生产与维护调度的强化学习方法,通过性能损失度量韧性并自适应调整调度策略,案例验证有效。

Abstract

One of the main challenges in operating multistate manufacturing systems (MMSs) is maintaining stable and robust production against various disruptions. Therefore, an urgent need exists for an operation and maintenance (O&M) method that optimises MMS resilience, i.e. the capability of withstanding or recover from disruptions of various sources. Consequently, this study proposes an integrated resilience-oriented production and maintenance scheduling approach for MMSs. This approach enhances MMS resilience by reinforcing its adaptivity to the variation in production requirements. Based on a conceptual investigation of operational uncertainty and its mechanism of disruption, this study devotes to (i) formulating a performance loss-based resilience measurement with consideration of operational uncertainties and (ii) proposing a reinforcement learning-based approach to schedule MMS operation and maintenance activities for MMS components of different performance states. An industrial case study of a ferrite phase shifter manufacturing system is subsequently conducted to validate the proposed approach. Results demonstrate the effectiveness of the proposed approach in the resilience optimisation of MMSs.

制造系统生产调度韧性工程运行维护强化学习