Performance Evaluation of Channel Access Methods for Dedicated IoT Networks

2019 Wireless Days (WD) Pub Date : 2019-04-24 DOI:10.1109/WD.2019.8734186

Abderrahman Ben Khalifa, Razvan Stanica

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引用次数: 4

Abstract

Networking technologies dedicated for the Internet of Things are different from the classical mobile networks in terms of architecture and applications. This new type of network is facing several challenges to satisfy specific user requirements. Sharing the communication medium between (hundreds of) thousands of connected nodes and one base station is one of these main requirements, hence the necessity to imagine new solutions, or to adapt existing ones, for medium access control. In this paper, we start by comparing two classical medium access control protocols, CSMA/CA and Aloha, in the context of Internet of Things dedicated networks. We continue by evaluating a specific adaptation of Aloha, already used in low-power wide area networks, where no acknowledgement messages are transmitted in the network. Finally, we apply the same concept to CSMA/CA, showing that this can bring a number of benefits. The results we obtain after a thorough simulation study show that the choice of the best protocol depends on many parameters (number of connected objects, traffic arrival rate, allowed retransmission number), as well as on the metric of interest (e.g. packet reception probability or energy consumption).

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专用物联网网络通道接入方法的性能评估

物联网专用的网络技术在架构和应用上都不同于传统的移动网络。这种新型网络在满足特定用户需求方面面临着一些挑战。在(数十万)个连接节点和一个基站之间共享通信媒介是这些主要需求之一，因此有必要为媒介访问控制设想新的解决方案，或调整现有的解决方案。在本文中，我们首先比较了两种经典的介质访问控制协议，CSMA/CA和Aloha，在物联网专用网络的背景下。我们继续评估Aloha的特定适应，Aloha已经在低功耗广域网中使用，其中网络中不传输确认消息。最后，我们将相同的概念应用于CSMA/CA，表明这可以带来许多好处。经过深入的仿真研究，我们得到的结果表明，最佳协议的选择取决于许多参数(连接对象的数量，流量到达率，允许重传数)，以及感兴趣的度量(如数据包接收概率或能耗)。

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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2019 Wireless Days (WD)

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