Title :
GPS positioning in a multipath environment
Author :
Soubielle, Jérôme ; Fijalkow, Inbar ; Duvaut, Patrick ; Bibaut, Alain
Author_Institution :
Thomson Airsys, Bagneux, France
fDate :
1/1/2002 12:00:00 AM
Abstract :
We address the problem of GPS signal delay estimation in a multipath environment with a low-complexity constraint. After recalling the usual early-late estimator and its bias in a multipath propagation context, we study the maximum-likelihood estimator (MLE) based on a signal model including the parametric contribution of reflected components. It results in an efficient algorithm using the existing architecture, which is also very simple and cheap to implement. Simulations show that the results of the proposed algorithm, in a multipath environment, are similar to these of the early-late in a single-path environment. The performance are further characterized, for both MLEs (based on the single-path and multipath propagation) in terms of bias and standard deviation. The expressions of the corresponding Cramer-Rao (CR) bounds are derived in both cases to show the good performance of the estimators when unbiased
Keywords :
Global Positioning System; delay estimation; maximum likelihood estimation; multipath channels; radio receivers; Cramer-Rao bounds; GPS positioning; GPS receiver; GPS signal delay estimation; Gold codes; MLE; Rician distribution; bias; early-late estimator; global positioning system; low-complexity constraint; maximum-likelihood estimator; multipath environment; multipath propagation; pseudo random codes; reflected components; signal model; simulations; single-path environment; standard deviation; Chromium; Context modeling; Correlators; Delay estimation; Global Positioning System; Helium; Maximum likelihood estimation; Position measurement; Satellites; Spread spectrum communication;
Journal_Title :
Signal Processing, IEEE Transactions on
