基于改进多目标遗传算法的装配线平衡优化

IF 2.8 3区 工程技术 Q2 ENGINEERING, MANUFACTURING Advances in Production Engineering & Management Pub Date : 2021-06-25 DOI:10.14743/apem2021.2.397
Y. J. Wang, Nan Wang, S. Cheng, X. C. Zhang, H. Y. Liu, J. L. Shi, Q. Y. Ma, M. J. Zhou
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引用次数: 9

摘要

拆卸活动发生在各种回收操作中,包括再制造、再循环和处置。产品拆解是回收废旧产品的有效途径,是完成产品生命周期的必要条件。根据产品拆解线的特点,在尽量减少工位数量和平衡工位空闲时间的基础上,提出了有害指标、需求指标和换向次数作为新的优化目标。因此,在分析传统遗传算法进入早熟现象的基础上,本文构建了拆装线平衡问题的多目标关系。拆装线平衡问题属于np困难问题,智能优化算法在解决该问题方面表现出优异的性能。针对传统求解多目标拆解线平衡问题的方法求解结果单一且不能满足多个平衡目标的特点,提出了一种多目标改进遗传算法求解该模型。该算法加快了算法的收敛速度。以基本拆卸任务为例,通过与现有单目标启发式算法的比较,验证了多目标改进遗传算法的有效性和可行性,并将其应用于实际拆卸实例,得到了平衡优化方案。给出了两个实例:汽车发动机的拆卸过程和计算机部件的拆卸。
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Optimization of disassembly line balancing using an improved multi-objective Genetic Algorithm
Disassembly activities take place in various recovery operations including remanufacturing, recycling, and disposal. Product disassembly is an effective way to recycle waste products, and it is a necessary condition to make the product life cycle complete. According to the characteristics of the product disassembly line, based on minimizing the number of workstations and balancing the idle time in the station, the harmful index, the demand index, and the number of direction changes are proposed as new optimization objectives. So based on the analysis of the traditional genetic algorithm into the precocious phenomenon, this paper constructed the multi-objective relationship of the disassembly line balance problem. The disassembly line balance problem belongs to the NP-hard problem, and the intelligent optimization algorithm shows excellent performance in solving this problem. Considering the characteristics of the traditional method solving the multi-objective disassembly line balance problem that the solution result was single and could not meet many objectives of balance, a multi-objective improved genetic algorithm was proposed to solve the model. The algorithm speeds up the convergence speed of the algorithm. Based on the example of the basic disassembly task, by comparing with the existing single objective heuristic algorithm, the multi-objective improved genetic algorithm was verified to be effective and feasible, and it was applied to the actual disassembly example to obtain the balance optimization scheme. Two case studies are given: a disassembly process of the automobile engine and a disassembly of the computer components.
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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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