Title :
Range estimation for passive RFID systems that use power-optimized waveforms
Author :
Trotter, Matthew S. ; Durgin, Gregory D.
Author_Institution :
Sch. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
This work investigates three major phenomena of range estimation performance for a passive RFID system that transmits power-optimized waveforms (POWs). The shape of the POW, nonlinear charge pump reflections, and frequency-flat multipath environments are investigated. A maximum-likelihood (ML) range estimator analyzes the backscattered signal from a passive RFID tag that includes the POW as a carrier of tag data. The interferers in a linear-reflection system are multipath components and noise. However, the charge pump of the tag may also induce nonlinear distortion on the reflected POW. It is shown in this paper that each of these sources of interference may be accounted for in theoretical models of the uncertainty and bias of the ML estimator.
Keywords :
backscatter; charge pump circuits; maximum likelihood estimation; nonlinear distortion; radiofrequency identification; ML range estimator; POW; backscattered signal; frequency-flat multipath environments; linear-reflection system; maximum-likelihood; multipath components; nonlinear charge pump reflections; nonlinear distortion; passive RFID systems; passive RFID tag; power-optimized waveforms; range estimation; tag data; Bandwidth; Charge pumps; Distance measurement; Equations; Estimation; Mathematical model; Uncertainty; localization; passive RFID; power optimized waveforms; range estimation; ranging; time delay estimation;
Conference_Titel :
RFID (RFID), 2012 IEEE International Conference on
Conference_Location :
Orlando, FL
Print_ISBN :
978-1-4673-0329-3
DOI :
10.1109/RFID.2012.6193036
