SDN-TSCH: Enabling Software Defined Networking for Scheduled Wireless Networks with Traffic Isolation

F. Veisi, J. Montavont, Fabrice Théoleyre
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引用次数: 3

Abstract

The Industrial Internet of Things (IIoT) applications need to rely on a wireless infrastructure able to provide low end-to-end latency, and high reliability. Software-Defined Networking (SDN) is promising to make the network more agile, pushing the decision process to a controller. However, radio links are unstable while the controller needs to construct an accurate view of the network to schedule the transmissions efficiently. We propose here SDN-TSCH to separate the data and control planes for a scheduled network. We construct a reliable control plane, maintaining a collision-free path to and from the controller. Besides, SDN-TSCH guarantees flow isolation: each flow can reserve dedicated resources so that end-to-end reliability and latency constraints can be respected per flow. Finally, we also dedicate resources for best-effort traffic, to accommodate various applications. Our Cooja simulations highlight the flow isolation characteristics of SDN-TSCH: we provide very high reliability even in presence of best-effort traffic.
SDN-TSCH:为具有流量隔离的预定无线网络启用软件定义网络
工业物联网(IIoT)应用需要依赖于能够提供低端到端延迟和高可靠性的无线基础设施。软件定义网络(SDN)有望使网络更加灵活,将决策过程推向控制器。然而,无线链路是不稳定的,控制器需要建立一个准确的网络视图来有效地调度传输。我们在此提出SDN-TSCH,以分离预定网络的数据平面和控制平面。我们构造了一个可靠的控制平面,保持了一条往返于控制器的无碰撞路径。此外,SDN-TSCH还保证了流隔离:每个流都可以预留专用资源,从而保证每个流都能遵守端到端的可靠性和延迟约束。最后,我们还为“尽力而为”的流量分配资源,以适应各种应用程序。我们的Cooja模拟突出了SDN-TSCH的流隔离特性:即使在尽最大努力的流量存在时,我们也提供了非常高的可靠性。
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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