用于具有劣化工作的高能效模糊灵活工作车间调度的偏向双群进化算法

Libao Deng;Yingjian Zhu;Yuanzhu Di;Lili Zhang
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引用次数: 0

摘要

关于模糊处理时间和劣化排程的柔性作业车间排程问题的研究很多,但大多数学者都忽略了它们之间的联系,即两种模型的目的都是为了模拟更真实的工厂环境。从这个角度看,如果同时考虑这两个问题,解决方案会更加精确和实用。因此,本文将劣化效应作为模糊作业车间调度问题的一部分来处理,即把一定加工时间的线性增加转化为三角模糊加工时间的内部线性移动。除此之外,本文还做出了以下贡献。提出了一种新算法,即基于强化学习的偏置双种群进化算法(RB2EA),它利用 Q-learning 算法,根据种群质量调整两个种群的大小和交互频率。提出了一种结合多种局部搜索策略的局部增强方法。设计了一种交互机制来促进双种群的收敛。通过广泛的实验来评估 RB2EA 的功效,可以得出结论:RB2EA 能够高效地解决具有劣化作业的高能效模糊柔性作业车间调度问题(EFFJSPD)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biased Bi-Population Evolutionary Algorithm for Energy-Efficient Fuzzy Flexible Job Shop Scheduling with Deteriorating Jobs
There are many studies about flexible job shop scheduling problem with fuzzy processing time and deteriorating scheduling, but most scholars neglect the connection between them, which means the purpose of both models is to simulate a more realistic factory environment. From this perspective, the solutions can be more precise and practical if both issues are considered simultaneously. Therefore, the deterioration effect is treated as a part of the fuzzy job shop scheduling problem in this paper, which means the linear increase of a certain processing time is transformed into an internal linear shift of a triangle fuzzy processing time. Apart from that, many other contributions can be stated as follows. A new algorithm called reinforcement learning based biased bi-population evolutionary algorithm (RB 2 EA) is proposed, which utilizes Q-learning algorithm to adjust the size of the two populations and the interaction frequency according to the quality of population. A local enhancement method which combimes multiple local search stratgies is presented. An interaction mechanism is designed to promote the convergence of the bi-population. Extensive experiments are designed to evaluate the efficacy of RB 2 EA, and the conclusion can be drew that RB 2 EA is able to solve energy-efficient fuzzy flexible job shop scheduling problem with deteriorating jobs (EFFJSPD) efficiently.
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