Title :
Antenna radiation characterization for on-body communication channel using creeping wave theory
Author :
Zhongkun Ma ; Sarrazin, Julien ; Petrillo, Luca ; Mavridis, Theodoros ; De Doncker, Philippe ; Benlarbi-Delai, Aziz
Author_Institution :
L2E Dept., Univ. Pierre et Marie Curie, Paris, France
Abstract :
Creeping wave theory is re-visited for BAN (Body Area Network) channel modeling. The formulation takes the characteristics of both antenna and human tissues into account. The field density at a certain distance from the radiating antenna can be directly determined by input power and on-body antenna gain. It is observed that the complicated on-body antenna gain measurement can be replaced by measuring antenna gain above infinitely large PEC (perfect electric conductor) plane to determine field density. Using time gating technique, the antenna gain above infinitely large PEC can be obtained by measuring continuous field on finitely large PEC, which is much easier to use in practice. The whole concept is validated through CST Microwave Studio. A very good agreement between the analytical model and full-wave simulation results is achieved.
Keywords :
antenna radiation patterns; biological tissues; body area networks; conductors (electric); microwave antennas; wireless channels; BAN channel modelling; CST Microwave Studio; PEC; antenna radiation characterization; creeping wave theory; full wave simulation; human tissues; on-body antenna gain; on-body communication channel; perfect electric conductor; radiating antenna; Analytical models; Antenna measurements; Antennas; Gain; Gain measurement; Probes; Surface waves; Body area network (BAN); antena characterization; channel modeling; creeping wave theory;
Conference_Titel :
Antennas and Propagation (EuCAP), 2015 9th European Conference on
