A novel deep reinforcement learning-based algorithm for multi-objective energy-efficient flow-shop scheduling

IF 2.5 Q2 ENGINEERING, INDUSTRIAL

IET Collaborative Intelligent Manufacturing Pub Date : 2024-11-22 DOI:10.1049/cim2.12121

Peng Liang, Pengfei Xiao, Zeya Li, Min Luo, Chaoyong Zhang

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Abstract

A novel algorithm combining bidirectional recurrent neural networks (BiRNNs) with temporal difference is proposed for multi-objective energy-efficient non-permutation flow-shop scheduling problem (NFSP). The objectives of this problem involve minimising both the makespan and total energy consumption. To begin, a mathematical model is formulated to represent the energy-efficient NFSP. Subsequently, the NFSP is transformed into a Markov decision process, where an action space comprising 28 scheduling rules is constructed. Considering the global and local features of NFSP, a set of 15 state features is extracted. Different reward functions are then defined to correspond to the specific objectives. Furthermore, the state features of NFSP are extracted using a multi-layer perceptron model based on BiRNNs. By utilising the TD(λ) algorithm to calculate the state value function, various policies are generated. In order to evaluate the proposed algorithm, a new test set for the energy-efficient NFSP is constructed, building upon classic benchmark problems. Finally, comparison experiments are conducted to demonstrate the effectiveness and efficiency of the proposed algorithm.

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基于深度强化学习的新型多目标高能效流场调度算法

针对多目标高能效非突变流车间调度问题（NFSP），提出了一种结合双向递归神经网络（BiRNN）和时差的新型算法。该问题的目标包括最大限度地减少时间跨度和总能耗。首先，建立一个数学模型来表示高能效 NFSP。随后，将 NFSP 转化为马尔可夫决策过程，并在此过程中构建了由 28 条调度规则组成的行动空间。考虑到 NFSP 的全局和局部特征，提取了一组 15 个状态特征。然后根据具体目标定义了不同的奖励函数。此外，还使用基于 BiRNN 的多层感知器模型提取了 NFSP 的状态特征。利用 TD(λ) 算法计算状态值函数，生成各种策略。为了评估所提出的算法，在经典基准问题的基础上，为高能效 NFSP 构建了一个新的测试集。最后，通过对比实验证明了所提算法的有效性和效率。

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来源期刊

IET Collaborative Intelligent Manufacturing Engineering-Industrial and Manufacturing Engineering

CiteScore

9.10

自引率

2.40%

发文量

审稿时长

20 weeks

期刊介绍： IET Collaborative Intelligent Manufacturing is a Gold Open Access journal that focuses on the development of efficient and adaptive production and distribution systems. It aims to meet the ever-changing market demands by publishing original research on methodologies and techniques for the application of intelligence, data science, and emerging information and communication technologies in various aspects of manufacturing, such as design, modeling, simulation, planning, and optimization of products, processes, production, and assembly. The journal is indexed in COMPENDEX (Elsevier), Directory of Open Access Journals (DOAJ), Emerging Sources Citation Index (Clarivate Analytics), INSPEC (IET), SCOPUS (Elsevier) and Web of Science (Clarivate Analytics).