Multipath propagation causes major impairments to Global

Positioning System (GPS) based navigation. Multipath results in biased GPS measurements, hence inaccurate position estimates. In this work, multipath effects are considered as abrupt changes affecting the navigation system. A multiple model formulation is proposed whereby the changes are represented by a discrete valued process. The detection of the errors induced by multipath is handled by a Rao-Blackwellized particle filter (RBPF). The RBPF estimates the indicator process jointly with the navigation states and multipath biases. The interest of this approach is its ability to integrate a priori constraints about the propagation environment. The detection is improved by using information from near future GPS measurements at the particle filter (PF) sampling step. A computationally modest delayed sampling is developed, which is based on a minimal duration assumption for multipath effects. Finally, the standard PF resampling stage is modified to include an hypothesis test based decision step

Calmettes, Vincent

Giremus, Audrey

Tourneret, Jean-Yves

English

Multipath propagation causes major impairments to Global Positioning System (GPS) based navigation. Multipath results in biased GPS measurements, hence inaccurate position estimates. In this work, multipath effects are considered as abrupt changes affecting the navigation system. A multiple model formulation is proposed whereby the changes are represented by a discrete valued process. The detection of the errors induced by multipath is handled by a Rao-Blackwellized particle filter (RBPF). The RBPF estimates the indicator process jointly with the navigation states and multipath biases. The interest of this approach is its ability to integrate a priori constraints about the propagation environment. The detection is improved by using information from near future GPS measurements at the particle filter (PF) sampling step. A computationally modest delayed sampling is developed, which is based on a minimal duration assumption for multipath effects. Finally, the standard PF resampling stage is modified to include an hypothesis test based decision step

Open Archive Toulouse Archive Ouverte

A generalized likelihood ratio approach to the detection and estimation of jumps in linear systems,”

A GPS C/A code tracking loop based on extended Kalman with multipath mitigation,” in

A new approach to linear ﬁltering and prediction problems,” Trans. ASME,

A particle ﬁlter to mitigate jamming for GPS navigation,” in

A sequential Monte Carlo ﬁlter for joint linear/nonlinear state estimation with application to DS-CDMA,”

A theoretical framework for sequentialimportancesamplingwithresampling,”inSequentialMonte Carlo Methods in

A.Doucet,deFreitas,andN.Gordon,SequentialMonteCarloMethods in Practice.

Adaptive Filtering and Change Detection.

Auxiliary variable based particle ﬁlter,” in Sequential Monte Carlo Methodsin Practice,

Delayed pilot sampling for mixture Kalman ﬁlter with application in fading channels,”

Detection of Abrupt Changes: Theory and Application.

Efﬁcient particle ﬁltering for Jump Markov Systems. Application to time-varying autoregressions,”

Enhanced strobe correlator multipath rejection for code and carrier,” in

Estimation with Applications to Tracking and Navigation.

Fixed-lag smoothing using sequential importance sampling.,” in Bayesian Statistics

GPS positioning in a multipath environment,”

Improvement strategies for Monte Carlo particle ﬁlters,” in Sequential Monte Carlo Methods in Practice,A

L.Garin,F.VanDiggelen,andJ.Rousseau,“Strobeandedgecorrelator multipath rejection for codeand carrier,”in

Mobile location with bias trackinginnon-line-of-sight,”Proc.IEEEInt.Conf.Acoustics,Speech,

Non linear ﬁltering approaches for GPS/INS integration,” in EUSIPCO-04,F

On sequential Monte Carlo sampling methods for Bayesian ﬁltering,”

Optimal Filtering.

Particle ﬁltering for partially observed Gaussian state space models,”

Particle ﬁlters for state estimation of jump Markov linear systems,”

Recursive state estimation of nonlinear systems with applications to integrated navigation,”

The Global Positioning System and Inertial Navigation.

Understanding GPS, Principles and Applications.

A particle filtering approach for joint detection/estimation of multipath effects on GPS measurements

International audienceMultipath propagation causes major impairments to Global Positioning System (GPS) based navigation. Multipath results in biased GPS measurements, hence inaccurate position estimates. In this work, multipath effects are considered as abrupt changes affecting the navigation system. A multiple model formulation is proposed whereby the changes are represented by a discrete valued process. The detection of the errors induced by multipath is handled by a Rao-Blackwellized particle filter (RBPF). The RBPF estimates the indicator process jointly with the navigation states and multipath biases. The interest of this approach is its ability to integrate a priori constraints about the propagation environment. The detection is improved by using information from near future GPS measurements at the particle filter (PF) sampling step. A computationally modest delayed sampling is developed, which is based on a minimal duration assumption for multipath effects. Finally, the standard PF resampling stage is modified to include an hypothesis test based decision step

Scientific Publications of the University of Toulouse II Le Mirail

HAL Descartes

A Particle Filtering Approach for Joint Detection/Estimation of Multipath Effects on GPS Measurements

https://hal.archives-ouvertes.fr/hal-00183427

A particle filtering approach for joint detection/estimation of multipath effects on GPS measurements

Abstract

Similar works

Full text

Available Versions

Open Archive Toulouse Archive Ouverte

Scientific Publications of the University of Toulouse II Le Mirail

HAL Descartes

Scientific Publications of the University of Toulouse II Le Mirail