Research Article
Optimizing Battery Lifetime-Fidelity Tradeoffs in BSNs using Personal Activity Profiles
@INPROCEEDINGS{10.4108/icst.bodynets.2012.249974, author={Jeff Brantley and Adam Barth and John Lach}, title={Optimizing Battery Lifetime-Fidelity Tradeoffs in BSNs using Personal Activity Profiles}, proceedings={7th International Conference on Body Area Networks}, publisher={ICST}, proceedings_a={BODYNETS}, year={2012}, month={11}, keywords={battery lifetime fidelity body sensor networks}, doi={10.4108/icst.bodynets.2012.249974} }- Jeff Brantley
Adam Barth
John Lach
Year: 2012
Optimizing Battery Lifetime-Fidelity Tradeoffs in BSNs using Personal Activity Profiles
BODYNETS
ICST
DOI: 10.4108/icst.bodynets.2012.249974
Abstract
Body sensor networks (BSNs) often operate in dynamic environments, with the collected data profiles--and the resulting importance of data--varying throughout the system runtime. Therefore, the potential for power reduction fluctuates with changing user behavior, creating a dynamic battery lifetime-fidelity relationship that is subject to variations throughout the battery lifetime corresponding to an individual's daily activities--past, present, and future.
This paper explores the potential for optimizing the tradeoff between meeting a desired battery lifetime and maximizing system fidelity through run-time adaptation of sensor acquisition (duty cycling) and profile-based predictions of an individual's future activities. A "personal activity profile" describes the expected behavior of an individual and is used to inform the desired battery discharge characteristics over time. Using walking activity traces collected from three human subjects wearing Fitbit trackers over [truncated].