Title :
A Robust Particle Filtering Algorithm With Non-Gaussian Measurement Noise Using Student-t Distribution
Author :
Dingjie Xu ; Chen Shen ; Feng Shen
Author_Institution :
Coll. of Autom., Harbin Eng. Univ., Harbin, China
Abstract :
The Gaussian noise assumption may result in a major decline in state estimation accuracy when the measurements are with the presence of outliers. In this letter, we endow the unknown measurement noise with the Student-t distribution to model the underlying non-Gaussian dynamics of a real physical system. Thereafter a robust particle filtering algorithm is developed. First, we employ variational Bayesian (VB) approach to robustly infer the unknown noise parameters recursively. Second, in order to decrease the computational complexity resulted by the unknown noise parameters, those parameters are marginalized out to allow each particle to be updated by using sufficient statistics estimated by VB approach. The proposed algorithm is tested with a typical non-linear model and the robustness of our algorithm has been borne out.
Keywords :
Bayes methods; Gaussian noise; computational complexity; particle filtering (numerical methods); state estimation; variational techniques; computational complexity; nonGaussian dynamics; nonGaussian measurement noise; nonlinear model; robust particle filtering algorithm; state estimation accuracy; student-t distribution; unknown noise parameters; variational Bayesian approach; Atmospheric measurements; Filtering; Noise; Noise measurement; Particle measurements; Robustness; Signal processing algorithms; Marginalization; particle filter; state estimation; student-t distribution; variational bayes;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2013.2289975
