Is CSMA able to coordinate multiple access in vehicular radio channels effectively?

2012 12th International Conference on ITS Telecommunications Pub Date : 2012-11-01 DOI:10.1109/ITST.2012.6425293

Jens Mittag, H. Hartenstein

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引用次数: 7

Abstract

The first generation of inter-vehicle communication networks will most likely be based on the IEEE 802.11p standard. That is, they are going to deploy Carrier Sense Multiple Access (CSMA) to coordinate channel access among neighboring vehicles. Recently, concerns have been raised that fast-fading propagation conditions, i.e. a time- and frequency-selective fading as reported by several measurement campaigns in highway environments, might challenge the effectiveness of CSMA. These concerns also lead to the situation that alternative medium access control solutions are being discussed in standardization bodies. In this paper, we evaluate whether these concerns are justified or not. In comparison to previous studies, we use a high fidelity network simulator to study the extent by which the effectiveness of CSMA is reduced if such fading propagation conditions are considered. We also resolve the two reasons that may cause incoordination - either simultaneous transmission times or hidden terminal situations - and conclude that CSMA is able to effectively coordinate multiple access in vehicular radio channels as long as the load offered to the channel does not approach the maximum capacity.

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CSMA是否能够有效地协调车载无线电信道的多址接入?

第一代车辆间通信网络很可能基于IEEE 802.11p标准。也就是说，他们将部署载波感知多址(CSMA)来协调相邻车辆之间的信道访问。最近，人们开始关注快速衰落传播条件，即在高速公路环境中进行的一些测量活动所报告的时间和频率选择性衰落，这可能会挑战CSMA的有效性。这些问题还导致标准化机构正在讨论替代介质访问控制解决方案。在本文中，我们评估这些担忧是否合理。与以往的研究相比，我们使用高保真网络模拟器来研究在考虑这种衰落传播条件下CSMA的有效性降低的程度。我们还解决了可能导致不协调的两个原因-同时传输时间或隐藏终端情况-并得出结论，只要提供给信道的负载不接近最大容量，CSMA就能够有效地协调车载无线电信道中的多路接入。

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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2012 12th International Conference on ITS Telecommunications

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