Topology control protocol using sectorized antennas in dense 802.11 wireless networks

2009 17th IEEE International Conference on Network Protocols Pub Date : 2009-11-20 DOI:10.1109/ICNP.2009.5339702

A. Subramanian, Henrik Lundgren, T. Salonidis, D. Towsley

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引用次数: 13

Abstract

We introduce a measurement-based optimization framework for topology control in dense 802.11 networks using sectorized antennas. We first formulate a topology control optimization problem, where nodes activate their sectorized antenna patterns to minimize network interference and maximize network capacity. In contrast to previous approaches, our formulation is based on a physical interference model that relies on Received Signal Strength (RSS) measurements on multiple antenna patterns of each link. We then introduce a distributed measurement protocol to measure RSS of these antenna patterns and a greedy distributed topology control protocol that uses this information to achieve topologies of minimal interference. The protocols are experimentally evaluated on a dense 802.11 wireless testbed. Extensive measurements show that the protocols operate very close to optimal and yield significant increase in network throughput compared to omni-directional antennas. These results hold for various traffic scenarios in both wireless LAN and mesh network configurations.

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在密集的802.11无线网络中使用扇形天线的拓扑控制协议

我们介绍了一种基于测量的优化框架，用于使用扇形天线的密集802.11网络中的拓扑控制。我们首先制定了一个拓扑控制优化问题，其中节点激活其扇形天线模式以最小化网络干扰并最大化网络容量。与以前的方法相比，我们的公式基于物理干扰模型，该模型依赖于每个链路的多个天线模式上的接收信号强度(RSS)测量。然后，我们引入了一个分布式测量协议来测量这些天线方向图的RSS，以及一个贪婪的分布式拓扑控制协议，该协议使用这些信息来实现最小干扰的拓扑。在密集802.11无线测试平台上对协议进行了实验评估。广泛的测量表明，与全向天线相比，这些协议的运行非常接近最佳状态，并显著提高了网络吞吐量。这些结果适用于无线局域网和网状网络配置中的各种流量场景。

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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2009 17th IEEE International Conference on Network Protocols

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