Deep reinforcement learning driven trajectory-based meta-heuristic for distributed heterogeneous flexible job shop scheduling problem

IF 8.2 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Qichen Zhang , Weishi Shao , Zhongshi Shao , Dechang Pi , Jiaquan Gao
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引用次数: 0

Abstract

As the production environment evolves, distributed manufacturing exhibits heterogeneous characteristics, including diverse machines, workers, and production processes. This paper examines a distributed heterogeneous flexible job shop scheduling problem (DHFJSP) with varying processing times. A mixed integer linear programming (MILP) model of the DHFJSP is formulated with the objective of minimizing the makespan. To solve the DHFJSP, we propose a deep Q network-aided automatic design of a variable neighborhood search algorithm (DQN-VNS). By analyzing schedules, sixty-one types of scheduling features are extracted. These features, along with six shaking strategies, are used as states and actions. A DHFJSP environment simulator is developed to train the deep Q network. The well-trained DQN then generates the shaking procedure for VNS. Additionally, a greedy initialization method is proposed to enhance the quality of the initial solution. Seven efficient critical path-based neighborhood structures with three-vector encoding scheme are introduced to improve local search. Numerical experiments on various scales of instances validate the effectiveness of the MILP model and the DQN-VNS algorithm. The results show that the DQN-VNS algorithm achieves an average relative percentage deviation (ARPD) of 3.2%, which represents an approximately 88.45% reduction compared to the best-performing algorithm among the six compared, with an ARPD of 27.7%. This significant reduction in ARPD highlights the superior stability and performance of the proposed DQN-VNS algorithm.
针对分布式异构灵活作业车间调度问题的基于轨迹的深度强化学习驱动元启发式
随着生产环境的发展,分布式制造呈现出异构特征,包括不同的机器、工人和生产流程。本文研究了处理时间不同的分布式异构灵活作业车间调度问题(DHFJSP)。本文建立了一个 DHFJSP 的混合整数线性规划(MILP)模型,目标是最小化作业时间。为了求解 DHFJSP,我们提出了一种深度 Q 网络辅助自动设计可变邻域搜索算法(DQN-VNS)。通过分析调度,我们提取了六十一种调度特征。这些特征以及六种摇摆策略被用作状态和行动。开发了一个 DHFJSP 环境模拟器来训练深度 Q 网络。训练有素的 DQN 会生成 VNS 的摇摆程序。此外,还提出了一种贪婪初始化方法,以提高初始解的质量。还引入了七种基于临界路径的高效邻域结构和三向量编码方案,以改进局部搜索。各种规模实例的数值实验验证了 MILP 模型和 DQN-VNS 算法的有效性。结果表明,DQN-VNS 算法的平均相对百分比偏差(ARPD)为 3.2%,与六种算法中表现最好的算法(ARPD 为 27.7%)相比,降低了约 88.45%。ARPD 的大幅降低凸显了拟议的 DQN-VNS 算法卓越的稳定性和性能。
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来源期刊
Swarm and Evolutionary Computation
Swarm and Evolutionary Computation COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCEC-COMPUTER SCIENCE, THEORY & METHODS
CiteScore
16.00
自引率
12.00%
发文量
169
期刊介绍: Swarm and Evolutionary Computation is a pioneering peer-reviewed journal focused on the latest research and advancements in nature-inspired intelligent computation using swarm and evolutionary algorithms. It covers theoretical, experimental, and practical aspects of these paradigms and their hybrids, promoting interdisciplinary research. The journal prioritizes the publication of high-quality, original articles that push the boundaries of evolutionary computation and swarm intelligence. Additionally, it welcomes survey papers on current topics and novel applications. Topics of interest include but are not limited to: Genetic Algorithms, and Genetic Programming, Evolution Strategies, and Evolutionary Programming, Differential Evolution, Artificial Immune Systems, Particle Swarms, Ant Colony, Bacterial Foraging, Artificial Bees, Fireflies Algorithm, Harmony Search, Artificial Life, Digital Organisms, Estimation of Distribution Algorithms, Stochastic Diffusion Search, Quantum Computing, Nano Computing, Membrane Computing, Human-centric Computing, Hybridization of Algorithms, Memetic Computing, Autonomic Computing, Self-organizing systems, Combinatorial, Discrete, Binary, Constrained, Multi-objective, Multi-modal, Dynamic, and Large-scale Optimization.
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