基于模型的工业无线网络协同仿真

Jing Geng, Honglei Li, Yanzhou Liu, Yongkang Liu, M. Kashef, R. Candell, S. Bhattacharyya
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引用次数: 5

摘要

无线通信技术在降低工厂自动化(FA)系统的成本和提高效率方面具有巨大的潜力。然而,采用无线网络的FA系统的设计涉及对实时性能和可靠性的严格限制,并且需要评估和实验过程控制,工厂拓扑结构(布局和连接子系统,如机器,轨道等)和无线通信之间的复杂交互。在本文中,我们介绍了一种新的仿真框架,以支持下一代FA系统设计中的此类评估和实验。我们的仿真框架采用基于模型的设计原则来提高设计可靠性,并实现控制、拓扑和网络建模方面的系统有效集成。我们通过一个案例研究来展示我们的框架的实用性,该案例研究涉及到一大类FA系统的拓扑设计和可伸缩性分析。我们的结果证明了所提出的框架能够提供对复杂设计权衡的见解,而底层基于模型的特征增强了高效和可靠的系统级集成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Model-based cosimulation for industrial wireless networks
Wireless communications technology has the potential to provide major benefits in lowering the cost and increasing the efficiency of factory automation (FA) systems. However, design of FA systems that employ wireless networks involves stringent constraints on real-time performance and reliability, and requires the assessment of and experimentation with complex interactions among process control, factory topology construction (layout and connectivity of subsystems, such as machines, rails, etc.), and wireless communication. In this paper, we introduce a novel simulation framework to support such assessment and experimentation in the design of next-generation FA systems. Our simulation framework employs model-based design principles to enhance design reliability, and enable systematic and efficient integration of control, topology, and network modeling aspects. We demonstrate the utility of our framework through a case study that involves topology design and scalability analysis for a large class of FA systems. Our results demonstrate the ability of the proposed framework to provide insights on complex design trade-offs, while the underlying model-based features enhance efficient and reliable system-level integration.
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