Research Article
Mobile Health Monitoring Through Biotelemetry
@INPROCEEDINGS{10.4108/ICST.BODYNETS2009.5835, author={Andrew D. Jurik and Jonathan F. Bolus and Alfred C. Weaver and Benton H. Calhoun and Travis N. Blalock}, title={Mobile Health Monitoring Through Biotelemetry}, proceedings={4th International ICST Conference on Body Area Networks}, publisher={ICST}, proceedings_a={BODYNETS}, year={2010}, month={5}, keywords={}, doi={10.4108/ICST.BODYNETS2009.5835} }
- Andrew D. Jurik
Jonathan F. Bolus
Alfred C. Weaver
Benton H. Calhoun
Travis N. Blalock
Year: 2010
Mobile Health Monitoring Through Biotelemetry
BODYNETS
ICST
DOI: 10.4108/ICST.BODYNETS2009.5835
Abstract
As the population ages and the risk of chronic disease increases, the cost of healthcare will rise. Technology for mobile telemetry could reduce cost and improve the efficiency of treatment. In order to achieve these goals, we first need to overcome several technical challenges, including sufficient system lifetime, high signal fidelity, and adequate security. In this paper we present the design, implementation, and evaluation of a Mobile Biotelemetric System (MBS) that addresses these remote medical monitoring challenges. MBS comprises a custom low-power sensor node that accurately collects and analyzes electrocardiogram (ECG) data, a client service with a multifaceted policy engine that evaluates the data, and a web portal interface for visualizing ECG data streams. MBS differs from other remote monitoring systems primarily in the policy engine's ability to provide flexible, robust, and precise system communication from end-to-end and to enable tradeoffs in metrics such as power and transmission frequency. We show that, given a representative set of ECG signals, policies can be set to make the operation of the hardware and software resilient against transient ECG conditions. Further, we incorporate state-of-the-art security practices to safeguard our data and foil common attacks.