Queuing Delay and Achievable Throughput in Random Access Wireless Ad Hoc Networks

Digital Communications and Networks Pub Date : 2006-01-01 DOI:10.1109/SAHCN.2006.288575

Nabhendra Bisnik, A. Abouzeid

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引用次数: 30

Abstract

In this paper we focus on characterizing the average end-to-end delay and maximum achievable per-node throughput in random access multihop wireless ad hoc networks with stationary nodes. We present an analytical model that takes into account the number of nodes, the random packet arrival process, the extent of locality of traffic, and the back off and collision avoidance mechanisms of random access MAC. We model random access multihop wireless networks as open G/G/1 queuing networks and use diffusion approximation to evaluate closed form expressions for the average end-to-end delay. The mean service time of nodes is derived and used to obtain the maximum achievable per-node throughput. The analytical results obtained here from the queuing network analysis are discussed with regard to similarities and differences from the well established information-theoretic results on throughput and delay scaling laws in ad hoc networks. We also investigate the extent of deviation of delay and achievable throughput in a real world network from the analytical results presented in this paper. We perform extensive simulations and verify that the analytical results closely match the results obtained from simulations

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随机接入无线自组织网络中的排队延迟和可实现吞吐量

本文主要研究了固定节点下随机接入多跳无线自组织网络的端到端平均时延和最大可达单节点吞吐量。我们提出了一个分析模型，该模型考虑了节点数量、随机数据包到达过程、流量的局域性程度以及随机访问MAC的退后和避免碰撞机制。我们将随机访问多跳无线网络建模为开放的G/G/1排队网络，并使用扩散近似来评估平均端到端延迟的封闭形式表达式。导出节点的平均服务时间，并用于获得可实现的最大每节点吞吐量。本文讨论了从排队网络分析中得到的分析结果与已建立的关于自组织网络吞吐量和延迟标度规律的信息论结果的异同。根据本文的分析结果，我们还研究了实际网络中延迟和可实现吞吐量的偏差程度。我们进行了大量的模拟，并验证了分析结果与模拟结果非常吻合

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来源期刊

Digital Communications and Networks

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发文量

158