Physical Layer Impact in Wireless Ad Hoc Network Routing

2010 Fifth International Conference on Systems and Networks Communications Pub Date : 2010-08-22 DOI:10.1109/ICSNC.2010.47

T. Saadawi, Merlinda Drini

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引用次数: 2

Abstract

In this paper, we present the set of factors in the physical layer that are relevant to the performance evaluation of the routing protocols. Such factors consist of signal reception, path loss, fading and interference considerations. Therefore it would be desirable for routing algorithms in wireless ad hoc networks, to be able to select paths that are more likely to be stable. With this in mind we adopt a numerical approach based on Finite State Markov Chain channel model to study the performance of an ad hoc routing protocol under various radio propagation models. Further this paper presents a new cross-layer algorithm for joint physical and routing layers in wireless ad hoc networks, applying this to the Optimized Link State Routing (OLSR), protocol. We address the problem of link and route stability, focusing particularly on multipoint relay (MPR) selection method, to find the most optimal routes between any pair of nodes. Our simulation results indicate that the network throughput is greatly improved and the delay is significantly decreased using this cross-layer mechanism, compared to the original OLSR.

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无线自组织网络路由中的物理层影响

在本文中，我们提出了物理层中与路由协议性能评估相关的一组因素。这些因素包括信号接收、路径损耗、衰落和干扰考虑。因此，对于无线自组织网络中的路由算法来说，能够选择更可能稳定的路径是可取的。考虑到这一点，我们采用基于有限状态马尔可夫链信道模型的数值方法研究了自组织路由协议在各种无线电传播模型下的性能。在此基础上，提出了一种新的无线自组织网络物理层和路由层联合跨层算法，并将其应用于优化链路状态路由(OLSR)协议。我们解决了链路和路由的稳定性问题，特别关注多点中继(MPR)选择方法，以找到任意对节点之间的最优路由。我们的仿真结果表明，与原始的OLSR相比，使用这种跨层机制大大提高了网络吞吐量，并显著降低了延迟。

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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2010 Fifth International Conference on Systems and Networks Communications

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