Abstract
Energy efficient wireless communication system is the key to the future. The goal of this paper is to maximize the energy efficiency performance of a wireless communication system within the IEEE 802.11 standards. The distributed coordination function (DCF) of IEEE 802.11 medium access control (MAC) provides two fundamental access modes, namely 2-way (basic access) and 4-way (RTS/CTS) frame exchange modes. We applied a fair 802.11h transmit power control (TPC) based power-rate adaptive scheme to both DCF access modes and propose a novel and effective strategy that allows any wireless stations to switch between the two access modes based on network conditions to achieve a truly energy efficient system. We analyze and compare the energy efficiency of 2-way and 4-way access modes with our proposed adaptive energy efficient scheme and our simulation results show that our proposed strategy gives a more superior performance in system energy utilization, by achieving an average of 20% Mbits/Joule gain compared to a rate-adaptive 2-way or 4-way DCF access mode for a ten-stations network.
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