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Analytical modeling of bidirectional multi‐channel IEEE 802.11 MAC protocols
Authors:Vandana Gupta  Mingwei Gong  S. Dharmaraja  Carey Williamson
Affiliation:1. Department of Mathematics, Indian Institute of Technology Delhi, New Delhi, India;2. Department of Computer Science and Information Systems, Mount Royal University, Calgary, AB, Canada;3. Department of Computer Science, University of Calgary, Calgary, AB, Canada
Abstract:This paper presents an analytical approach to model the bi‐directional multi‐channel IEEE 802.11 MAC protocols (Bi‐MCMAC) for ad hoc networks. Extensive simulation work has been done for the performance evaluation of IEEE 802.11 MAC protocols. Since simulation has several limitations, this work is primarily based on the analytical approach. The objective of this paper is to show analytically the performance advantages of Bi‐MCMAC protocol over the classical IEEE 802.11 MAC protocol. The distributed coordination function (DCF) mode of medium access control (MAC) is considered in the modeling. Two different channel scheduling strategies, namely, random channel selection and fastest channel first selection strategy are also presented in the presence of multiple channels with different transmission rates. M/G/1 queue is used to model the protocols, and stochastic reward nets (SRNs) are employed as a modeling technique as it readily captures the synchronization between events in the DCF mode of access. The average system throughput, mean delay, and server utilization of each MAC protocol are evaluated using the SRN formalism. We also validate our analytical model by comparison with simulation results. The results obtained through the analytical modeling approach illustrate the performance advantages of Bi‐MCMAC protocols with the fastest channel first scheduling strategy over the classical IEEE 802.11 protocol for TCP traffic in wireless ad hoc networks. Copyright © 2010 John Wiley & Sons, Ltd.
Keywords:IEEE 802.11 MAC protocols  wireless ad hoc networks  stochastic reward net  M/G/1 queue  throughput  delay
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