Performance Evaluation of Centralized and Distributed Control Methods for Efficient Registration of Massive IoT Devices

2018 Tenth International Conference on Ubiquitous and Future Networks (ICUFN) Pub Date : 2018-07-01 DOI:10.1109/ICUFN.2018.8437018

N. Shahin, R. Ali, S. Nam, Young-Tak Kim

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引用次数: 3

Abstract

The IEEE 802.11ah Wi-Fi HaLow allows thousands of devices being connected to a single access point (AP) with several improved functionalities compared to existing WiFi, such as restricted access window (RAW), target wake time (TWT), and traffic indication map (TIM). However, such functionalities are applicable only after successful registration process (exchanges of authentication and association information). In the registration process, a large number IoT devices are simultaneously trying to connect to a single centralized AP and inevitably imports severe contentions that bring a long registration time. In IEEE 802.11ah standards, the problems have been addressed through Centralized Authentication Control (CAC) and Distributed Authentication Control (DAC) protocols. Both CAC and DAC are proposed to reduce severe contentions by allowing an optimal number of devices requests for the registrations. However, the standard does not define the way to select the optimal operational parameters. In this paper, we evaluate and compare the performances of CAC and DAC protocols and provide two modified CAC-based algorithms that achieve substantial improvement overall existing IEEE 802.11ah schemes to reduce the registration time.1

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大规模物联网设备高效注册集中式和分布式控制方法的性能评估

IEEE 802.11ah Wi-Fi HaLow允许数千台设备连接到单个接入点(AP)，与现有WiFi相比，具有几种改进的功能，例如受限访问窗口(RAW)，目标唤醒时间(TWT)和交通指示图(TIM)。但是，这些功能只有在注册过程成功(交换身份验证和关联信息)之后才适用。在注册过程中，大量物联网设备同时尝试连接到单个集中式AP，不可避免地会引入严重的争用，导致注册时间过长。在IEEE 802.11ah标准中，通过集中式身份验证控制(CAC)和分布式身份验证控制(DAC)协议解决了这些问题。CAC和DAC都被提议通过允许最优数量的设备注册请求来减少严重的争用。但是，该标准没有规定选择最佳操作参数的方法。在本文中，我们评估和比较了CAC和DAC协议的性能，并提供了两种改进的基于CAC的算法，这些算法对现有的IEEE 802.11ah方案进行了实质性的改进，以减少注册时间

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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2018 Tenth International Conference on Ubiquitous and Future Networks (ICUFN)

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