Delay, throughput and packet absorption rate analysis of heterogeneous WMN

Su Fong Chien; Ka Kien Lo; Kae Hsiang Kwong; Geong Sen Poh; David Chieng

doi:10.1049/cp.2012.2085

Delay, throughput and packet absorption rate analysis of heterogeneous WMN

Su Fong Chien, Ka Kien Lo, Kae Hsiang Kwong, Geong Sen Poh, David Chieng

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

1 Citation (Scopus)

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 ΘW₁/√nlogn, where W₁ is normal node transmission bandwidth.

Original language	English
Title of host publication	IET International Conference on Wireless Communications and Applications, ICWCA 2012
Edition	614 CP
DOIs	https://doi.org/10.1049/cp.2012.2085
Publication status	Published - 2012
Externally published	Yes
Event	IET International Conference on Wireless Communications and Applications, ICWCA 2012 - Kuala Lumpur, Malaysia Duration: 8 Oct 2012 → 10 Oct 2012

Publication series

Name	IET Conference Publications
Number	614 CP
Volume	2012

Conference

Conference	IET International Conference on Wireless Communications and Applications, ICWCA 2012
Country/Territory	Malaysia
City	Kuala Lumpur
Period	8/10/12 → 10/10/12

Keywords

Helping node
Heterogeneous wireless
User node
Wireless mesh network

ASJC Scopus subject areas

Electrical and Electronic Engineering

Access to Document

10.1049/cp.2012.2085

Cite this

@inproceedings{e934ef39d2054af1bb2d48e4188372d1,

title = "Delay, throughput and packet absorption rate analysis of heterogeneous WMN",

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 ΘW1/√nlogn, where W1 is normal node transmission bandwidth.",

keywords = "Helping node, Heterogeneous wireless, User node, Wireless mesh network",

author = "Chien, {Su Fong} and Lo, {Ka Kien} and Kwong, {Kae Hsiang} and Poh, {Geong Sen} and David Chieng",

year = "2012",

doi = "10.1049/cp.2012.2085",

language = "English",

isbn = "9781849195508",

series = "IET Conference Publications",

number = "614 CP",

booktitle = "IET International Conference on Wireless Communications and Applications, ICWCA 2012",

edition = "614 CP",

note = "IET International Conference on Wireless Communications and Applications, ICWCA 2012 ; Conference date: 08-10-2012 Through 10-10-2012",

}

Chien, SF, Lo, KK, Kwong, KH, Poh, GS & Chieng, D 2012, Delay, throughput and packet absorption rate analysis of heterogeneous WMN. in IET International Conference on Wireless Communications and Applications, ICWCA 2012. 614 CP edn, IET Conference Publications, no. 614 CP, vol. 2012, IET International Conference on Wireless Communications and Applications, ICWCA 2012, Kuala Lumpur, Malaysia, 8/10/12. https://doi.org/10.1049/cp.2012.2085

Delay, throughput and packet absorption rate analysis of heterogeneous WMN. / Chien, Su Fong; Lo, Ka Kien; Kwong, Kae Hsiang et al.
IET International Conference on Wireless Communications and Applications, ICWCA 2012. 614 CP. ed. 2012. (IET Conference Publications; Vol. 2012, No. 614 CP).

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

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T1 - Delay, throughput and packet absorption rate analysis of heterogeneous WMN

AU - Chien, Su Fong

AU - Lo, Ka Kien

AU - Kwong, Kae Hsiang

AU - Poh, Geong Sen

AU - Chieng, David

PY - 2012

Y1 - 2012

N2 - 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 ΘW1/√nlogn, where W1 is normal node transmission bandwidth.

AB - 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 ΘW1/√nlogn, where W1 is normal node transmission bandwidth.

KW - Helping node

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ER -

Delay, throughput and packet absorption rate analysis of heterogeneous WMN

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Keywords

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