具有间隔灰色加工时间的单机调度

IF 3.2 3区 工程技术 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
Nai-ming Xie, Yuquan Wang
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引用次数: 0

摘要

目的将灰色系统理论与加工时间不确定的调度问题相结合,研究灰色调度问题。以区间灰数及其相关定义、性质和定理为基础,研究了加工时间不确定的单机调度问题及其一般形式。在此基础上重构了多个单机调度模型,并以实际生产为例说明了研究的合理性。本文首先总结了区间灰数的相关定义和性质,特别是区间灰数偏阶的传递性,并举例说明了传递性对多个区间灰数比较的计算时间复杂度有积极的影响。其次,根据区间灰数的定义和定理,重新定义了加工时间不确定的单机调度问题的一般形式。在此基础上重构了加工时间不确定的单机调度模型,给出了基于区间灰数的启发式算法,并对其进行了证明。最后,以K公司发动机试车车间为例进行了实例分析,结果表明,所提出的加工时间不确定的单机调度模型和算法能够有效地指导不确定环境下的实际生产。主要研究结果如下:(1)总结了区间灰数的相关定义和定理,证明了区间灰数偏序的可传递性;(2)定义了具有区间灰色加工时间的单机调度问题的一般形式;(3)重构了加工时间不确定的单机调度模型,并给出了相应的启发式算法;(4)通过案例分析来说明研究的合理性。在进一步的研究中,作者将继续总结更先进的灰色调度的一般形式,完善和证明灰色调度的理论,并进一步探索灰色调度在现实中的应用。总的来说,灰色调度还需要与灰色系统理论进一步结合,形成一个完整的理论体系。独创性/价值利用区间灰数确定加工时间不确定的单机调度的一般形式是一项基础性工作。然而,它可以被看作是灰色调度的重要理论基础,也有利于扩大灰色系统理论在现实世界中的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Single machine scheduling with interval grey processing time
PurposeThis paper aims to investigate the grey scheduling, which is the combination of grey system theory and scheduling problems with uncertain processing time. Based on the interval grey number and its related definitions, properties, and theorems, the single machine scheduling with uncertain processing time and its general forms are studied as the research object. Then several single machine scheduling models are reconstructed, and an actual production case is developed to illustrate the rationality of the research.Design/methodology/approachIn this paper, the authors first summarize the definitions and properties related to interval grey numbers, especially the transitivity of the partial order of interval grey numbers, and give an example to illustrate that the transitivity has a positive effect on the computational time complexity of multiple interval grey number comparisons. Second, the authors redefine the general form of the single machine scheduling problem with uncertain processing time according to the definitions and theorems of interval grey numbers. The authors then reconstruct three single machine scheduling models with uncertain processing time, give the corresponding heuristic algorithms based on the interval grey numbers and prove them. Finally, the authors develop a case study based on the engine test shop of K Company, the results show that the proposed single machine scheduling models and algorithms with uncertain processing time can provide effective guidance for actual production in an uncertain environment.FindingsThe main findings of this paper are as follows: (1) summarize the definitions and theorems related to interval grey numbers and prove the transitivity of the partial order of interval grey numbers; (2) define the general form of the single machine scheduling problem with interval grey processing time; (3) reconstruct three single machine scheduling models with uncertain processing time and give the corresponding heuristic algorithms; (4) develop a case study to illustrate the rationality of the research.Research limitations/implicationsIn the further research, the authors will continue to summarize more advanced general forms of grey scheduling, improve the theory of grey scheduling and prove it, and further explore the application of grey scheduling in the real world. In general, grey scheduling needs to be further combined with grey system theory to form a complete theoretical system.Originality/valueIt is a fundamental work to define the general form of single machine scheduling with uncertain processing time used the interval grey number. However, it can be seen as an important theoretical basis for the grey scheduling, and it is also beneficial to expand the application of grey system theory in real world.
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来源期刊
Grey Systems-Theory and Application
Grey Systems-Theory and Application MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
CiteScore
4.80
自引率
13.80%
发文量
22
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