数字工厂:离散事件建模和生产特性优化的方法

V. Makarov, A. Bakhtizin, G. Beklaryan, A. Akopov
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引用次数: 2

摘要

本文以一家电视制造工厂为例,提出了一种制造企业“数字孪生”发展的新方法。该方法的特点是使用基于智能体的建模和离散事件仿真的混合方法,以实现从供应部件组装最终产品的复杂生产过程的仿真模型。对这样一个系统最重要的要求是集成数字化工厂的所有关键链:传送带、存放组件和最终产品(tv)的仓库、分拣和传送带系统、装配单元、技术控制部门、包装单元等。提出的仿真模型在AnyLogic系统中实现,该系统支持在一个模型中使用基于代理和离散事件建模方法的可能性。该系统还支持使用内置的遗传算法来优化模型的主要参数:最重要的生产特征(例如,产品的装配时间,参与装配的员工数量,质量控制和包装过程)。利用所建立的模型,在不同强度的带组件的输送线加载、不同的人力资源限制等条件下完成了优化实验。研究了生产系统行为的三种情况:不存在组件赤字,但可能显著增加所涉及的劳动力资源;组件赤字,但对最终产品的需求保持不变;以及在组件赤字条件下,对参与流程的员工数量存在严格限制。
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Digital plant: methods of discrete-event modeling and optimization of production characteristics
This article presents a new approach to the development of a ‘digital twin’ of a manufacturing enterprise, using a television manufacturing plant as the case study. The feature of the proposed approach is the use of hybrid methods of agent-based modeling and discrete-event simulation in order to implement a simulation model of a complex production process for assembling final products from supplied components. The most important requirement for such a system is the integration of all key chains of a digital plant: conveyor lines, warehouses with components and final products (TVs), sorting and conveyor system, assembly unit, technical control department, packing unit, etc. The proposed simulation model is implemented in the AnyLogic system, which supports the possibility of using agent-based and discrete-event modeling methods within one model. The system also supports using the built-in genetic algorithm to optimize the main parameters of the model: the most important production characteristics (for example, assembly time of a product, the number of employees involved in assembly, quality control and packaging processes). Optimization experiments were completed with the help of the developed model at various intensities of loading conveyor lines with components, various restrictions on labor resources, etc. Three scenarios of the production system behavior are investigated: the absence of the components deficit with the possibility of significantly increasing the labor resource involved, a components deficit while demand for final products is maintained, and the presence of hard restrictions on the number of employees who can be involved in the processes under conditions of components deficit.
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