Sizing Buffers of IoT Edge Routers

Proceedings of the 1st International Workshop on Edge Systems, Analytics and Networking Pub Date : 2018-06-10 DOI:10.1145/3213344.3213354

J. A. Khan, Muhammad Shahzad, A. Butt

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引用次数: 4

Abstract

In typical IoT systems, sensors and actuators are connected to small embedded computers, called IoT devices, and the IoT devices are connected to one or more appropriate cloud services over the internet through an edge access router. A very important design aspect of an IoT edge router is the size of the output packet buffer of its interface that connects to the access link. Selecting an appropriate size for this buffer is crucial because it directly impacts two key performance metrics: 1) access link utilization and 2) latency. In this paper, we calculate the size of the output buffer that ensures that the access link stays highly utilized and at the same time, significantly lowers the average latency experienced by the packets. To calculate this buffer size, we theoretically model the average TCP congestion window size of all IoT devices while eliminating three key assumptions of prior art that do not hold true for IoT TCP traffic, as we will demonstrate through a measurement study. We show that for IoT traffic, buffer size calculated by our method results in 50% lower queuing delay compared to the state of the art schemes while achieving similar access link utilization and loss-rate.

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物联网边缘路由器的缓冲区大小

在典型的物联网系统中，传感器和执行器连接到称为物联网设备的小型嵌入式计算机，物联网设备通过边缘接入路由器通过互联网连接到一个或多个适当的云服务。物联网边缘路由器的一个非常重要的设计方面是其连接到访问链路的接口的输出数据包缓冲区的大小。为这个缓冲区选择合适的大小是至关重要的，因为它直接影响两个关键的性能指标:1)访问链路利用率和2)延迟。在本文中，我们计算了输出缓冲区的大小，以确保访问链路保持高度利用，同时显着降低数据包经历的平均延迟。为了计算这个缓冲区大小，我们从理论上模拟了所有物联网设备的平均TCP拥塞窗口大小，同时消除了现有技术中不适用于物联网TCP流量的三个关键假设，正如我们将通过测量研究证明的那样。我们表明，对于物联网流量，与最先进的方案相比，通过我们的方法计算的缓冲区大小可使排队延迟降低50%，同时实现类似的访问链路利用率和损失率。

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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Proceedings of the 1st International Workshop on Edge Systems, Analytics and Networking

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