DocumentCode
1553302
Title
Sleep Control for Tracking in Sensor Networks
Author
Fuemmeler, Jason A. ; Atia, George K. ; Veeravalli, Venugopal V.
Author_Institution
Rockwell Collins, Cedar Rapids, IA, USA
Volume
59
Issue
9
fYear
2011
Firstpage
4354
Lastpage
4366
Abstract
We study the problem of tracking an object moving through a network of wireless sensors. In order to conserve energy, the sensors may be put into a sleep mode with a timer that determines their sleep duration. It is assumed that an asleep sensor cannot be communicated with or woken up, and hence the sleep duration needs to be determined at the time the sensor goes to sleep based on all the information available to the sensor. Having sleeping sensors in the network could result in degraded tracking performance, therefore, there is a tradeoff between energy usage and tracking performance. We design sleeping policies that attempt to optimize this tradeoff and characterize their performance. As an extension to our previous work in this area, we consider generalized models for object movement, object sensing, and tracking cost. For discrete state spaces and continuous Gaussian observations, we derive a lower bound on the optimal energy-tracking tradeoff. It is shown that in the low tracking error regime, the generated policies approach the derived lower bound.
Keywords
tracking; wireless sensor networks; continuous Gaussian observations; discrete state spaces; energy usage; lower bound; object movement; object sensing; optimal energy-tracking tradeoff; sensor networks; sleep control; sleeping sensors; tracking cost; tracking performance; wireless sensors; Aerospace electronics; Cost function; Equations; Markov processes; Mathematical model; Sensors; Tracking; Dynamic programming; Markov models; POMDP; sensor networks; sleep control; tracking;
fLanguage
English
Journal_Title
Signal Processing, IEEE Transactions on
Publisher
ieee
ISSN
1053-587X
Type
jour
DOI
10.1109/TSP.2011.2159496
Filename
5875902
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