A new remanufacturing system scheduling model with diversified reprocessing routes using a hybrid meta-heuristic algorithm

Jun Wang, Xiangqi Liu, Wenyu Zhang, Junliang Xu
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引用次数: 2

Abstract

With the increasingly serious problem of environmental pollution and resource scarcity, remanufacturing has become one of the popular research fields to solve these issues. However, the practical information of end-of-life products is different (e.g. type and degree of damage) because of their various operation conditions, which complicates the reprocessing routes. Therefore, a new remanufacturing system scheduling model is proposed in this study that considers not only the coordination of remanufacturing subsystems but also job-shop-type reprocessing shops related to the diversified reprocessing routes. A hybrid meta-heuristic algorithm combining differential evolution algorithm and biogeography-based optimization algorithm through a new representation scheme is presented to address the model efficiently. Furthermore, the basic algorithms are improved by integrating the self-adaptive parameters, efficient migration and mutation operators, local search strategy, and restart strategy. Simulation experiments are performed to demonstrate the effectiveness and practicality of the proposed method compared with four baseline algorithms.
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利用混合元启发式算法建立了具有多种再制造路径的再制造系统调度模型
随着环境污染和资源短缺问题的日益严重,再制造已成为解决这些问题的热门研究领域之一。然而,由于使用条件的不同,报废产品的实际信息(如损坏类型和程度)也不同,这使得再处理路线变得复杂。因此,本文提出了一种新的再制造系统调度模型,该模型不仅考虑了再制造子系统之间的协调,而且考虑了与多种再加工路线相关的作业车间型再加工车间。提出了一种将差分进化算法与基于生物地理的优化算法相结合的混合元启发式算法,通过一种新的表示方式有效地求解该模型。在此基础上,结合自适应参数、高效迁移和变异算子、局部搜索策略和重启策略对基本算法进行了改进。仿真实验验证了该方法与四种基准算法的有效性和实用性。
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