Evaluation of Physical Carrier Sense Based Backbone Maintenance in Mobile Ad Hoc Networks

International Journal of Vehicular Technology Pub Date : 2009-07-05 DOI:10.1155/2009/958056

Sapna Deval, L. Ritchie, M. Reisslein, A. Richa

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引用次数: 2

Abstract

Physical carrier sensing has to date mainly been exploited for improving medium access control in wireless networks. Recently, a parallel algorithm striving to extensively exploit physical carrier sensing for constructing and maintaining a connected dominating set (CDS), which is also known as spanner, backbone, or overlay network in wireless ad hoc networks with interference ranges larger than transmission ranges has been proposed. Existing evaluations of this algorithm are limited to theoretical asymptotic bounds and simulations of static networks. In this paper, we evaluate the physical carrier sensing-based CDS maintenance for mobile ad hoc networks through discrete event simulations. For a wide range of node speeds and node densities, we evaluate the CDS characteristics and message exchanges required for maintaining the CDS. We find that the algorithm maintains a stable leader set dominating all nodes in the network for a wide range of mobility levels but struggles to maintain connectivity at high mobility levels. We also quantify the portions of the control messages for CDS maintenance that are exchanged through physical carrier sensing. We find that the parallel algorithm manages to greatly reduce the reliance on intact message receptions.

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基于物理载波感知的移动自组网骨干网维护评估

物理载波传感迄今主要用于改进无线网络中的介质访问控制。最近，一种致力于广泛利用物理载波感知来构建和维护连接支配集(CDS)的并行算法被提出，该算法也被称为干扰范围大于传输范围的无线自组织网络中的钳形网络、骨干网络或覆盖网络。现有的算法评价仅限于理论渐近界和静态网络的模拟。本文通过离散事件仿真，对移动自组网中基于物理载波感知的CDS维护进行了评估。对于大范围的节点速度和节点密度，我们评估了CDS特性和维护CDS所需的消息交换。我们发现，该算法在大范围的移动水平下保持一个稳定的领导集，主导网络中的所有节点，但在高移动水平下难以保持连通性。我们还量化了通过物理载波感知交换的用于CDS维护的控制消息的部分。我们发现并行算法可以大大减少对完整消息接收的依赖。

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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International Journal of Vehicular Technology

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