Abstract
Analysis of production systems (PS) of discrete multi-nomenclature machine-building enterprises is a complex task, its solution is necessary to support decision-making during technical re-equipment, modernization or technological preparation of production. The paper shows a concept of joint use of operational scheduling systems and simulation modeling systems to improve the efficiency and adequacy of PS analysis. The problem of determining the deviation of the planned state of the PS from the simulated state and evaluating the level of stability and stability of the PS behaviour on its basis is considered. It is revealed that the proposed approach allows us to more adequately determine the timing of the production program, assess the stability of the PS behaviour when using various planning logics and algorithms, and choose the best one for subsequent use in a real PS.
Highlights
Discrete multi-nomenclature machine-building enterprises are subject to periodic changes in the product range and production program
The tasks of engineering today are relevant for discrete multi-nomenclature production, which is more susceptible to changes in the nomenclature, production program and the influence of other factors [1,2,3]
In contrast to MES/APS operational scheduling systems, simulation systems allow us to take into account additional factors that affect the behaviour of the production system over time and its functioning
Summary
Discrete multi-nomenclature machine-building enterprises are subject to periodic changes in the product range and production program. In contrast to MES/APS operational scheduling systems, simulation systems allow us to take into account additional factors that affect the behaviour of the production system over time and its functioning.
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