Title :
Integrated Active Pulsed Reflector for an Indoor Local Positioning System
Author :
Wehrli, Silvan ; Gierlich, Roland ; Hüttner, Jörg ; Barras, David ; Ellinger, Frank ; Jäckel, Heinz
Author_Institution :
Electron. Lab., ETH Zurich, Zurich, Switzerland
Abstract :
This paper presents an indoor localization system based on a frequency modulated continuous wave radar in the industrial-scientific-medical band at 5.8 GHz. An integrated active pulsed reflector behaves as a backscatter by regenerating the incoming phase with phase coherent startup at a constant frequency. The base station (BS) determines the distance to this reflector with a round-trip time-of-flight measurement. The active pulsed reflector is built around a switchable and tunable oscillator. The circuit has been fully integrated in a 0.18-??m CMOS technology. Outdoor measurements revealed a positioning accuracy of 15 cm, while in a harsh multipath environment with omnidirectional antennas a positioning accuracy of 32.88 cm was measured. The localization system is capable of detecting multiple reflectors at the same time, and no synchronization between BSs is needed.
Keywords :
CMOS integrated circuits; CW radar; FM radar; directive antennas; multipath channels; CMOS technology; frequency 5.8 GHz; frequency modulated continuous wave radar; harsh multipath environment; indoor local positioning system; indoor localization system; industrial-scientific-medical band; integrated active pulsed reflector; omnidirectional antennas; size 0.18 mum; Chirp radar; FM continuous wave (FMCW) secondary radar approach; distance measurement; frequency modulated (FM) radar; indoor multipath propagation environment; radar scattering; tunable oscillators;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2009.2037870
