Mathematical Model Developed Using Meta-Initiative Optimization Algorithm for Production and Labor Planning

IF 0.6 Q4 ENGINEERING, INDUSTRIAL Industrial Engineering and Management Systems Pub Date : 2021-06-30 DOI:10.7232/iems.2021.20.2.192
R. Setiawan
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Abstract

In today's competitive environment, production efficiency is a very important and key issue in success in the market. However, all decisions of the production unit are interdependent and it is necessary to use an integrated form which leads to finding a better approach for the management. Accordingly, in this research, the integration of three important fields in manufacturing companies has been addressed. These fields include production planning, maintenance, and labor scheduling. In this regard, a novel mathematical model with the aim of optimal use of labor and increasing production volume is presented. In this model of workers’ experience, machine utilization rate and machine failure rate are expressed using fuzzy numbers. To optimize this model, the ant colony optimization algorithm has been used. Numerical results obtained from the implementation of the mathematical model and solution method show that the used algorithm can provide solutions with the least possible error in a reasonable time. Moreover, the sensitivity analysis shows that the failure rate of the machine before and after maintenance has a great impact on the objective function of the mathematical model.
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基于元主动优化算法的生产与劳动计划数学模型
在当今竞争激烈的环境中,生产效率是市场成功的一个非常重要和关键的问题。然而,生产单位的所有决策都是相互依存的,有必要使用一种集成的形式,从而找到更好的管理方法。因此,在本研究中,制造企业的三个重要领域的整合问题得到了解决。这些领域包括生产计划、维护和劳动力调度。在这方面,提出了一个新的数学模型,目的是优化劳动力利用和提高产量。在这个工人经验模型中,机器使用率和机器故障率用模糊数表示。为了优化该模型,使用了蚁群优化算法。从数学模型和求解方法的实现中获得的数值结果表明,所使用的算法可以在合理的时间内提供具有最小可能误差的解。此外,灵敏度分析表明,机器维修前后的故障率对数学模型的目标函数有很大影响。
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来源期刊
CiteScore
2.20
自引率
28.60%
发文量
45
期刊介绍: Industrial Engineering and Management Systems (IEMS) covers all areas of industrial engineering and management sciences including but not limited to, applied statistics & data mining, business & information systems, computational intelligence & optimization, environment & energy, ergonomics & human factors, logistics & transportation, manufacturing systems, planning & scheduling, quality & reliability, supply chain management & inventory systems.
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