A new solution to distributed permutation flow shop scheduling problem based on NASH Q-Learning

IF 2.8 3区 工程技术 Q2 ENGINEERING, MANUFACTURING
J. Ren, C. Ye, Y. Li
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引用次数: 9

Abstract

Aiming at Distributed Permutation Flow-shop Scheduling Problems (DPFSPs), this study took the minimization of the maximum completion time of the workpieces to be processed in all production tasks as the goal, and took the multi-agent Reinforcement Learning (RL) method as the main frame of the solution model, then, combining with the NASH equilibrium theory and the RL method, it proposed a NASH Q-Learning algorithm for Distributed Flow-shop Scheduling Problem (DFSP) based on Mean Field (MF). In the RL part, this study designed a two-layer online learning mode in which the sample collection and the training improvement proceed alternately, the outer layer collects samples, when the collected samples meet the requirement of batch size, it enters to the inner layer loop, which uses the Q-learning model-free batch processing mode to proceed, and adopts neural network to approximate the value function to adapt to large-scale problems. By comparing the Average Relative Percentage Deviation (ARPD) index of the benchmark test questions, the calculation results of the proposed algorithm outperformed other similar algorithms, which proved the feasibility and efficiency of the proposed algorithm.
基于NASH q -学习的分布式置换流水车间调度问题的新解决方案
针对分布式置换流车间调度问题(dpfsp),以所有生产任务中工件的最大完成时间最小化为目标,以多智能体强化学习(RL)方法为求解模型的主要框架,结合NASH均衡理论和RL方法,提出了一种基于平均场(MF)的分布式流车间调度问题(DFSP)的NASH q -学习算法。在强化学习部分,本研究设计了一种两层在线学习模式,其中样本采集和训练改进交替进行,外层采集样本,当采集到的样本满足批量要求时,进入内层回路,采用Q-learning无模型的批量处理模式进行,并采用神经网络逼近值函数以适应大规模问题。通过对比基准试题的平均相对百分比偏差(ARPD)指数,所提算法的计算结果优于其他同类算法,证明了所提算法的可行性和高效性。
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来源期刊
Advances in Production Engineering & Management
Advances in Production Engineering & Management ENGINEERING, MANUFACTURINGMATERIALS SCIENC-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
5.90
自引率
22.20%
发文量
19
期刊介绍: Advances in Production Engineering & Management (APEM journal) is an interdisciplinary international academic journal published quarterly. The main goal of the APEM journal is to present original, high quality, theoretical and application-oriented research developments in all areas of production engineering and production management to a broad audience of academics and practitioners. In order to bridge the gap between theory and practice, applications based on advanced theory and case studies are particularly welcome. For theoretical papers, their originality and research contributions are the main factors in the evaluation process. General approaches, formalisms, algorithms or techniques should be illustrated with significant applications that demonstrate their applicability to real-world problems. Please note the APEM journal is not intended especially for studying problems in the finance, economics, business, and bank sectors even though the methodology in the paper is quality/project management oriented. Therefore, the papers should include a substantial level of engineering issues in the field of manufacturing engineering.
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