hybrid Genetic-ADAM Optimizer to Improve Disassembly Line Balancing Problem

Journal of Karary University for Engineering and Science Pub Date : 2022-03-30 DOI:10.54388/jkues.v1i2.167

Nadir A. siddig, Zhang Ze Qiang, Abdallah Mokhtar, Ahmed Abualnor

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引用次数: 2

Abstract

Modern products are designed to meet the needs of customized and short-lived products, after a short period of time, these products become waste products, these waste products are accumulating at an exponential rate, resulting in environmental degradation as a result of pollution, in order to keep this environment clean, it is necessary to have disassembly lines for those waste products, so in this research a Hybrid Genetic ADAM optimizer Algorithm was proposed to facilitate the disassembly operations at work stations placed in the disassembly lines, the proposed algorithm used to solve multi-objective disassembly line balancing problem, and Pareto optimal solution was used to determine non inferior solutions from a population. The trend of results reveal 6.1 percent a reduction in disassembly workstations, reduction of at least 0.05 percent of the idle time, reducing to minimum run time 1.5 percent comparing proposed and other meta heuristics algorithms. Furthermore, the plans of disassembly data are created to be valuable regarding trace ability and disassembly improvement processes in the future.

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改进拆解线平衡问题的遗传- adam混合优化算法

现代产品的设计都是为了满足定制化和寿命短的产品的需求，经过很短的一段时间，这些产品就变成了废品，这些废品正以指数级的速度积累，造成环境的恶化，污染的结果，为了保持这个环境的清洁，有必要对这些废品有拆解线，因此，本文提出了一种混合遗传ADAM优化算法，以方便拆卸线上工位的拆卸操作，该算法用于解决多目标拆卸线上平衡问题，并使用Pareto最优解从种群中确定非劣解。结果的趋势显示拆卸工作站减少了6.1%，空闲时间减少了至少0.05%，与所提出的和其他元启发式算法相比，最小运行时间减少了1.5%。此外，创建的拆卸数据计划对于将来的跟踪能力和拆卸改进过程是有价值的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Karary University for Engineering and Science

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