MATHEMATICAL MODELS AND METHODS OF COORDINATED PLANNING

Bulletin of National Technical University "KhPI". Series: System Analysis, Control and Information Technologies Pub Date : 2023-12-19 DOI:10.20998/2079-0023.2023.02.01

Alexander Pavlov, Mykyta Kyselov

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Abstract

Modern processes of globalization and economic competition require a significant increase in the requirements for the professional degree of top-level managers who manage the activities of international corporations, regional economies, branch ministries, etc. Their efficient operation is impossible without the use of basic scientific developments and appropriate software which implement the main qualitative law of complex organizational and production systems management: the law of coordinated management (planning), when management decisions at the top level take into account interests that may not coincide, or even be antagonistic in organizational and production subsystems connected by a certain structure of mutual relations within a single organizational and production complex system. In this work, we consider a two-level organizational and production system, which in terms of the generally known theory of active systems is defined as “decision-making center → elements (of an organizational and production subsystem)”. We consider formal models of elements of two classes, linear continuous and discrete, aggregated production models which belong to the same class of NP-hard single-stage scheduling problems. For both types of element models, we give compromise criteria and corresponding methods of constructing compromise solutions based on the results of Prof. A. A. Pavlov for multi-objective linear programming, as a result of his theoretical research for discrete optimization problems under uncertainty, and the theory of PSC-algorithms created by him and his students, that is, algorithms containing polynomial complexity subalgorithms for constructing feasible solutions that satisfy theoretically substantiated sufficient signs of optimality. In this work, we use the PSC-algorithm for the NP-hard scheduling problem “Minimization of the total weighted completion time of jobs on a single machine with precedence relations given by a directed acyclic graph”.

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协调规划的数学模型和方法

全球化和经济竞争的现代进程要求大幅提高对管理国际公司、地区经济、分支部委等活动的高层管理人员专业水平的要求。如果不利用基本的科学发展和适当的软件来实现复杂的组织和生产系统管理的主要定性规律：协调管理（规划）规律，那么在最高层的管理决策中就不可能考虑到在一个单一的组织和生产复杂系统中由一定的相互关系结构连接起来的组织和生产子系统中可能不一致甚至是对立的利益。在这项工作中，我们考虑的是一个两级组织和生产系统，根据一般已知的主动系统理论，该系统被定义为 "决策中心→（组织和生产子系统的）要素"。我们考虑了两类元素的形式模型，即线性连续和离散的聚合生产模型，它们属于同一类 NP 难的单阶段调度问题。对于这两类要素模型，我们根据 A. A. Pavlov 教授对多目标线性规划的研究成果，给出了折中标准和相应的折中解构建方法，这是他对不确定条件下离散优化问题的理论研究成果，也是他和他的学生们创建的 PSC 算法理论，即包含多项式复杂性子算法的算法，用于构建满足理论证实的最优性充分征兆的可行解。在这项工作中，我们使用 PSC 算法来解决 NP 难调度问题 "单机上作业的总加权完成时间最小化，其优先级关系由有向无环图给出"。

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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Bulletin of National Technical University "KhPI". Series: System Analysis, Control and Information Technologies

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