SHARP: A novel hybrid architecture for industrial wireless sensor and actuator networks

Óscar Seijo, Zaloa Fernández, I. Val, J. A. López-Fernández
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引用次数: 21

Abstract

Industrial communications have very challenging requirements, especially in Factory Automation (FA) scenarios. Some of these requirements are: packet deadline bounds, high reliability, low transmission jitter, and communication determinism. Wireless communications solutions offer significant advantages over wired solutions: lower costs, faster and seamless deployment, higher flexibility and scalability, and free movement of the systems communicated wirelessly. However, standard wireless technologies do not provide enough performance to satisfy all of the industrial communications requirements in most cases and, therefore, wired solutions cannot be directly replaced by wireless solutions. In this work, we present SHARP (Synchronous and Hybrid Architecture for Real-time Performance in IWSAN), a novel hybrid architecture specially designed for industrial automation, where Ultra-Reliable Low-Latency Communications (URLLC) are required. This paper is mainly focused on the wireless segment of SHARP, a wireless architecture that includes a physical layer based on 802.11g along with a Time Division Multiple Access (TDMA) Medium Access Control (MAC) layer to ensure communication determinism, while maintaining backward compatibility with 802.11. Wireless SHARP segment behavior and its performance are evaluated through OMNeT++ simulations.
SHARP:一种用于工业无线传感器和执行器网络的新型混合架构
工业通信具有非常具有挑战性的要求,特别是在工厂自动化(FA)场景中。其中一些要求是:数据包截止日期界限、高可靠性、低传输抖动和通信确定性。与有线通信解决方案相比,无线通信解决方案具有显著的优势:成本更低,部署更快,无缝,灵活性和可扩展性更高,以及无线通信系统的自由移动。然而,在大多数情况下,标准无线技术不能提供足够的性能来满足所有的工业通信要求,因此,有线解决方案不能直接被无线解决方案所取代。在这项工作中,我们提出了SHARP (IWSAN中实时性能的同步和混合架构),这是一种专门为工业自动化设计的新型混合架构,需要超可靠的低延迟通信(URLLC)。本文主要关注SHARP的无线部分,这是一种无线架构,包括基于802.11g的物理层和时分多址(TDMA)介质访问控制(MAC)层,以确保通信确定性,同时保持与802.11的向后兼容性。通过omnet++仿真对无线SHARP段的行为和性能进行了评估。
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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