Title :
Transmit power control for wireless body area networks using novel channel prediction
Author :
Smith, David B. ; Hanlen, Leif W. ; Miniutti, Dino
Author_Institution :
Nat. ICT Australia (NICTA), Sydney, NSW, Australia
Abstract :
We present a predictor for real Body-Area-Network (BAN) channels that is accurate for up to 2 seconds, even with a nominal channel coherence time of 500 ms. The predictor utilizes the partial-periodicity of measured BAN channels using the previous 4 seconds of channel gain values. We demonstrate use of this predictor for power control with open-access and private channel measurements. When used under a realistic setting for IEEE 802.15.6, with packet loss less than 10%, we show that the accurate channel predictor does not translate into substantial reduction in packet loss or power usage over a simple sample-and-hold method, even though it is a more accurate predictor than sample-and-hold.
Keywords :
body area networks; power control; sample and hold circuits; wireless channels; BAN channels; IEEE 802.15.6; channel gain values; channel prediction; nominal channel coherence time; open access; packet loss; partial periodicity; power usage; private channel measurements; real body-area-network channels; sample-and-hold method; substantial reduction; transmit power control; wireless body area networks; IEEE 802.15 Standards; Power control; Power demand; Power measurement; Reliability; Resource management; Sensitivity;
Conference_Titel :
Wireless Communications and Networking Conference (WCNC), 2012 IEEE
Conference_Location :
Shanghai
Print_ISBN :
978-1-4673-0436-8
DOI :
10.1109/WCNC.2012.6214456
