G. Wang, D. Turgut, L. Bölöni, Y. Ji, and D.C. Marinescu

A simulation study of a MAC layer protocol for wireless networks with asymmetric links


Cite as:

G. Wang, D. Turgut, L. Bölöni, Y. Ji, and D.C. Marinescu. A simulation study of a MAC layer protocol for wireless networks with asymmetric links. In Proceedings of the IEEE International Wireless Communications and Mobile Computing Conference (IWCMC'06), pp. 929–936, July 2006.

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Abstract:

Asymmetric links are common in wireless networks for a variety of physical, logical, operational, and legal considerations. An asymmetric link supports uni-directional communication between a pair of mobile stations and requires a set of relay stations for the transmission of packets in the other direction. We introduce a MAC layer protocol for wireless networks with asymmetric links (AMAC). The MAC layer protocol requires fewer nodes to maintain silence during a transmission exchange than the protocols proposed in \citePoojary01,Fujii02. We present a set of concepts and metrics characterizing the ability of a medium access control protocol to silence nodes which could cause collisions.

BibTeX:

@inproceedings{Wang-2006-IWCMC,
author = "G. Wang and D. Turgut and L. B{\"o}l{\"o}ni and Y. Ji and D.C. Marinescu",
title = "A simulation study of a {MAC} layer protocol for wireless networks with asymmetric links",
booktitle = "Proceedings of the IEEE International Wireless Communications and Mobile Computing Conference (IWCMC'06)",
location = "Vancouver, Canada",
pages = "929-936",
month = "July",
year = "2006",
abstract = {
  Asymmetric links are common in wireless networks for a variety of physical,
  logical, operational, and legal considerations. An asymmetric link supports
  uni-directional communication between a pair of mobile stations and requires
  a set of relay stations for the transmission of packets in the other
  direction. We introduce a MAC layer protocol for wireless networks with
  asymmetric links (AMAC). The MAC layer protocol requires fewer nodes
  to maintain silence during a transmission exchange than the protocols
  proposed in \cite{Poojary01,Fujii02}. We present a set of concepts and
  metrics characterizing the ability of a medium access control protocol to
  silence nodes which could cause collisions.
 }
}

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