MSHCS-MAC: A MAC protocol for Multi-hop cognitive radio networks based on Slow Hopping and Cooperative Sensing approach

2018 IEEE Symposium on Computers and Communications (ISCC) Pub Date : 2018-06-01 DOI:10.1109/ISCC.2018.8538496

Nhat Pham, Kiwoong Kwon, Daeyoung Kim

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引用次数: 2

Abstract

Since the concept of Cognitive Radio (CR) was first introduced, it has been considered as a key technology of future wireless devices to better utilize radio spectrum. A number of CR-MAC protocols have been studied for Cognitive Radio Networks (CRNs), but most state-of-the-art frequencyhopping based protocols focus mainly on channel mobility and spectrum resource allocation. They lack integration of other essential features such as time synchronization and cooperative spectrum sensing, which are practically crucial, into a full-blown CR-MAC protocol. In this paper, we propose MSHCS-MAC: a mac protocol for Multi-hop CRNs based on Slow Hopping and Cooperative Sensing approach which is the cutting edge frequency hopping scheme. The contributions of MSHCS-MAC are threefold: (1) Support of multi-hop communication without dedicated control channel and multiple transceivers, (2) Integration of essential CR-MAC features such as bootstrapping, multi-channel operation, cooperative spectrum sensing and time synchronization, (3) Practical implementation and evaluation on commercial devices. The evaluation results show that MSHCS-MAC provides reasonable performance in the experimental testbed with supporting multihop communication and essential CR-MAC features.

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MSHCS-MAC:一种基于慢跳和协同感知方法的多跳认知无线网络MAC协议

自认知无线电(Cognitive Radio, CR)概念被提出以来，如何更好地利用无线电频谱已被认为是未来无线设备的关键技术之一。认知无线网络(crn)已经研究了许多CR-MAC协议，但大多数最先进的基于跳频的协议主要关注信道移动性和频谱资源分配。它们缺乏其他基本功能的集成，如时间同步和协作频谱感知，这实际上是至关重要的，成为一个成熟的CR-MAC协议。本文提出了一种基于慢跳和协同感知方法的多跳crn mac协议MSHCS-MAC，这是一种最先进的跳频方案。MSHCS-MAC的贡献体现在三个方面:(1)支持无专用控制通道和多收发器的多跳通信;(2)集成了CR-MAC的基本特性，如自举、多通道操作、协同频谱感知和时间同步;(3)在商用设备上的实际实现和评估。评估结果表明，MSHCS-MAC在实验平台上具有合理的性能，支持多跳通信，具备CR-MAC的基本特性。

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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2018 IEEE Symposium on Computers and Communications (ISCC)

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