Delay, throughput and packet absorption rate analysis of heterogeneous WMN

IET International Conference on Wireless Communications and Applications Pub Date : 1900-01-01 DOI:10.1049/cp.2012.2085

S. Chien, Ka Kien Lo, K. Kwong, G. Poh, D. Chieng

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引用次数: 2

Abstract

The pioneering work of Gupta and Kumar [1] has inspired many subsequent studies on asymptotically achievable per node throughput and delay analysis for wireless networks. In this paper, we evaluate the delay and maximum achievable per node throughput of a heterogeneous wireless mesh network (HWMN). We derive an analytical model which incorporates diffusion approximation method [2] and then compare with the results of per node information theoretic capacity done by P. Li and Y.G. Fang [3]. The network topology consists of n normal nodes and m more powerful helping nodes in a rectangular area. Results show that higher magnitude of exponent w gives higher absorption probability which consequently reduces the delay. We found that the derived maximum achievable per node throughput is inversely proportional to the average number of hops traversed by packets, node density, and number of squares in the network. Also, we are able to obtain the result stated in [1] i.e., maximum achievable per-node throughput is according to Θ(W1/√nlogn), where W1 is normal node transmission bandwidth. (6 pages)

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异构WMN的延迟、吞吐量和包吸收率分析

Gupta和Kumar的开创性工作[1]启发了许多关于无线网络渐近可实现的每节点吞吐量和延迟分析的后续研究。在本文中，我们评估了异构无线网状网络(HWMN)的延迟和最大可实现的每节点吞吐量。我们推导了一个包含扩散近似方法的解析模型[2]，并与P. Li和Y.G. Fang[3]的每节点信息理论容量结果进行了比较。网络拓扑由矩形区域内的n个正常节点和m个更强大的辅助节点组成。结果表明，指数w的大小越大，吸收概率越高，从而减少了延迟。我们发现，每个节点可实现的最大吞吐量与数据包穿越的平均跳数、节点密度和网络中的方块数成反比。同样，我们能够得到[1]中所述的结果，即每个节点可实现的最大吞吐量根据Θ(W1/√nlogn)，其中W1为正常节点传输带宽。(6页)

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IET International Conference on Wireless Communications and Applications

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