Title :
Indoor Localization of Passive UHF RFID Tags Based on Phase-of-Arrival Evaluation
Author :
Scherhaufl, Martin ; Pichler, Mario ; Schimback, Erwin ; Muller, Dominikus J. ; Ziroff, Andreas ; Stelzer, Andreas
Author_Institution :
Dept. of Sensors & Commun., Linz Center of Mechatron., Linz, Austria
Abstract :
This paper introduces a two-dimensional localization system for passive UHF RFID transponders based on phase-of-arrival evaluation of the backscattered tag signal. A multiple-channel system, where alternately one path is configured as a transmitter and the remaining paths work as receivers, is used to permit the position estimation. To improve localization accuracy and reduce disturbances caused by multipath propagation, a frequency-stepped continuous-waveform approach is employed. To achieve proof of concept, a local position measurement system demonstrator comprising an RFID reader, passive EPC Gen 2 RFID tags, several transceivers, baseband hardware, and signal processing was used for measurements. The results show excellent localization accuracy, even in an indoor environment.
Keywords :
UHF devices; UHF radio propagation; indoor radio; radiofrequency identification; transponders; 2D localization system; RFID reader; backscattered tag signal; baseband hardware; frequency stepped continuous waveform; indoor environment; indoor localization; localization accuracy; multipath propagation; multiple channel system; passive EPC Gen 2 RFID tags; passive UHF RFID tags; passive UHF RFID transponders; phase-of-arrival evaluation; position measurement system demonstrator; receivers; signal processing; transmitter; Antenna measurements; Passive RFID tags; Position measurement; Receiving antennas; Transponders; UHF measurements; Phase estimation; RFID tags; UHF technology; position measurement; radio frequency identification (RFID);
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2013.2287183
