Title :
Modeling, Design and Experimentation of Wearable RFID Sensor Tag
Author :
Occhiuzzi, Cecilia ; Cippitelli, Stefano ; Marrocco, Gaetano
Author_Institution :
DISP, Univ. of Roma Tor Vergata, Rome, Italy
Abstract :
Design of effective wearable tags for UHF RFID applications involving persons is still an open challenge due to the strong interaction of the antenna with the human body which is responsible of impedance detuning and efficiency degradation. A new tag geometry combining folded conductors and tuning slots is here discussed through numerical analysis and extensive experimentation also including the integration of a passive motion detector. The achieved designs, having size comparable with a credit card, may be applied to any part of the body. The measured performance indicates a possible application of these body-worn tags for the continuous tracking of human movements in a conventional room.
Keywords :
UHF devices; numerical analysis; radiofrequency identification; wearable antennas; UHF RFID application; antenna; body-worn tags; efficiency degradation; folded conductors; human movement tracking; impedance detuning; numerical analysis; passive motion detector integration; tag geometry; tuning slots; wearable RFID sensor; wearable tags; Biological system modeling; Conductors; Degradation; Geometry; Humans; Impedance; Numerical analysis; RFID tags; UHF antennas; Wearable sensors; Antennas; biomedical applications of electromagnetic radiation; biomedical telemetry; transponders;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2010.2050435
