Title :
Use of diversity techniques for weak GNSS signal tracking in fading environments
Author :
Siddakatte, Ranjeeth Kumar ; Broumandan, Ali ; Lachapelle, Gerard
Author_Institution :
Position Location & Navig. (PLAN) Group, Univ. of Calgary, Calgary, AB, Canada
Abstract :
This research focuses on improving the GNSS signal measurement performance in harsh multipath environments. The nature of GNSS signal propagation in typical signal impeding wireless channels such as indoors and urban environments is studied. The signal power distribution, delay spread, and Doppler spread characteristics of real GNSS signals in such environments are investigated. Based on the observations obtained from this characterization, a closed-loop tracking architecture based on spatial diversity reception is proposed. The proposed algorithm is tested on real data collected using two antennas in indoor static and urban kinematic scenarios. The carrier loop tracking, code loop tracking, and pseudorange errors are compared between single antenna reception and dual antenna spatial diversity reception for different scenarios. Results show that the proposed tracking method improves the Doppler measurement by more than 50% and pseudorange measurements by 2-5 m compared to a single antenna receiver.
Keywords :
diversity reception; fading channels; multipath channels; satellite navigation; signal processing; tracking; Doppler measurement; Doppler spread characteristics; GNSS signal measurement performance; GNSS signal propagation; carrier loop tracking; closed-loop tracking architecture; code loop tracking; delay spread; dual antenna spatial diversity reception; harsh multipath environments; indoor environments; indoor static scenarios; pseudorange errors; pseudorange measurements; signal impeding wireless channels; signal power distribution; single antenna reception; urban environments; urban kinematic scenarios; Antennas; Correlation coefficient; Delays; Doppler effect; Fading; Global Positioning System; Receivers; Doppler spread; GNSS; antenna diversity; fading; spatial combining; tracking; urban canyon; weak signal;
Conference_Titel :
Ubiquitous Positioning Indoor Navigation and Location Based Service (UPINLBS), 2014
Conference_Location :
Corpus Christ, TX
DOI :
10.1109/UPINLBS.2014.7033704
