Radio channel characterization for 400 MHz implanted devices
Wireless Communications and Networking Conference(2014)
Abstract
The wireless communication channel around/in the human body is a difficult propagation environment. This paper presents measurement and simulation results to characterize such a channel. A fluid human body model is employed to emulate the inside of a human body. The paper details the fluid human model and path loss model parameters at 400 MHz (MICS band). It is shown that the simulated and measured results are in a close agreement, for instance at a distance of 20 cm and a implant depth of 10 cm, the measurement results in a path loss of -42.1 dB and the simulation in -43.0 dB. The effect of human model shape on measured path loss is analyzed. Furthermore, simulations are employed to characterize this effect. Using the path loss model a top-level link budget is evaluated to determine the feasibility of a given implant device compliant to IEEE802.15.6-WBAN-400 MHz standard.
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Key words
body area networks,prosthetics,wireless channels,IEEE802.15.6 standard,MICS band,WBAN standard,depth 10 cm,distance 20 cm,fluid human body model,frequency 400 MHz,implanted devices,path loss model parameter,propagation environment,radio channel characterization,top-level link budget,wireless communication channel
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