Accurate human tissue characterization for energy-efficient wireless on-body communications.

Author: Vallejo M, Recas J, Del Valle PG, Ayala JL.
Affiliation: Grupo de Automática de la UNAL, Departamento de Energía Eléctrica y Automática, Facultad de Minas, Universidad Nacional de Colombia - Sede Medellín, Cra 80 No.65-223, Medellín, Colombia. mavallejov@unal.edu.co.
Conference/Journal: Sensors (Basel).
Date published: 2013 Jun 10
Other: Volume ID: 13 , Issue ID: 6 , Pages: 7546-69 , Special Notes: doi: 10.3390/s130607546 , Word Count: 131



The demand for Wireless Body Sensor Networks (WBSNs) is rapidly increasing due to the revolution in wearable systems demonstrated by the penetration of on-the-body sensors in hospitals, sports medicine and general health-care practices. In WBSN, the body acts as a communication channel for the propagation of electromagnetic (EM) waves, where losses are mainly due to absorption of power in the tissue. This paper shows the effects of the dielectric properties of biological tissues in the signal strength and, for the first time, relates these effects with the human body composition. After a careful analysis of results, this work proposes a reactive algorithm for power transmission to alleviate the effect of body movement and body type. This policy achieves up to 40.8% energy savings in a realistic scenario with no performance overhead.
PMID: 23752565