A Simplistic View on Latency of Random Access in Cellular Internet of Things

F. J. Dian, R. Vahidnia
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引用次数: 3

Abstract

It is important for an IoT device to be able to access the network with no or small delay in order to send its data to the Internet quickly. Particularly, in real time applications that time is of the essence, this delay should be small. The period of time from when an IoT device initiates a Random Access (RA) process to get access to the network until it sends its data is called the latency. Since the latency is dependent on the number of IoT devices in the network, the way that each device generates its traffic, and many other factors, it is extremely challenging to accurately estimate the latency. In this paper, we provide a simplistic view to estimate the latency in various situations based on the number of collisions, repetition, and data size for various RA processes belonging to different Cellular Internet of Things (CIoT) technology enhancements. To simplify the situation, we only discuss the most important factors. This simplistic view gives the reader a sense of the trimming of different parts of the RA process without using a complex simulator or analytical model.
对蜂窝物联网随机接入延迟的简单看法
为了快速将数据发送到互联网,物联网设备能够在没有或很小延迟的情况下访问网络是很重要的。特别是,在时间至关重要的实时应用程序中,该延迟应该很小。从物联网设备启动随机访问(RA)进程访问网络到发送其数据的时间段称为延迟。由于延迟取决于网络中物联网设备的数量、每个设备产生流量的方式以及许多其他因素,因此准确估计延迟极具挑战性。在本文中,我们提供了一个简单的视图来估计各种情况下的延迟,该延迟基于属于不同蜂窝物联网(CIoT)技术增强的各种RA过程的碰撞次数、重复次数和数据大小。为了简化情况,我们只讨论最重要的因素。这种简单的视图使读者在不使用复杂的模拟器或分析模型的情况下就能感受到RA过程的不同部分的修剪。
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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