Title :
An ultra wideband positioning system enhanced by a short multipath mitigation technique
Author :
Waldmann, Benjamin ; Goetz, Alexander ; Weigel, Robert
Author_Institution :
Inst. for Electr. Eng., Univ. of Erlangen-Nuremberg, Erlangen, Germany
Abstract :
In this paper an approach for high precision local positioning radar using an ultra wideband technique is presented. The concept is based on the standard FMCW (frequency modulated continuous wave) radar principle combined with short pulses to fulfill the emission limits given by the official regulatory authorities. In this way, a high accuracy in dense multipath indoor environments can be achieved, ideally suited for 1D, 2D and 3D localization. A prototype was built which operates at a center frequency of 7.5 GHz utilizing a bandwidth of 1 GHz. With the setup presented in this paper the distance between two wireless units can be measured achieving a standard deviation down to 6 mm. Additionally, we studied the effects of short multipath propagation and present simulation results for an applicable mitigation technique.
Keywords :
CW radar; FM radar; indoor radio; multipath channels; radionavigation; ultra wideband radar; FMCW radar principle; bandwidth 1 GHz; frequency 7.5 GHz; frequency modulated continuous wave radar; multipath channel; multipath indoor environment; multipath mitigation technique; ultra wideband positioning system; Bandwidth; Communication system security; Frequency modulation; Prototypes; Pulse modulation; RF signals; Radio frequency; Switches; Ultra wideband radar; Ultra wideband technology; FMCW; Indoor Positioning; Multipath Channels; Neural Networks; Radar Navigation; Ultra Wideband;
Conference_Titel :
Wireless Sensing, Local Positioning, and RFID, 2009. IMWS 2009. IEEE MTT-S International Microwave Workshop on
Conference_Location :
Cavtat
Print_ISBN :
978-1-4244-5060-2
Electronic_ISBN :
978-1-4244-5062-6
DOI :
10.1109/IMWS2.2009.5307871
