Title :
An efficient approach to highly non-linear estimation
Author :
Ruiz, Virginie F.
Author_Institution :
Dept. of Cybern., Reading Univ., UK
Abstract :
This paper presents the theoretical development of a nonlinear adaptive filter based on a concept of filtering by approximated densities (FAD). The most common procedures for nonlinear estimation apply the extended Kalman filter. As opposed to conventional techniques the proposed recursive algorithm does not require any linearisation. The prediction uses a maximum entropy subject to constraints. Thus, the densities created are of an exponential type and depend on a finite number of parameters. The filtering yields recursive equations involving these parameters. The update applies the Bayes´ theorem. Through simulation on a generic exponential model, the proposed nonlinear filter proves to be superior to the extended Kalman filter and a class of nonlinear filters based on the partitioning algorithm.
Keywords :
Bayes methods; adaptive filters; exponential distribution; filtering theory; maximum entropy methods; nonlinear estimation; nonlinear filters; recursive estimation; recursive filters; Bayes theorem; exponential densities; filtering by approximated densities; highly nonlinear estimation; maximum entropy; nonlinear adaptive filter; recursive algorithm; Adaptive filters; Density functional theory; Distributed computing; Entropy; Filtering; Lagrangian functions; Least squares approximation; Nonlinear equations; Partitioning algorithms; Probability distribution;
Conference_Titel :
Digital Signal Processing, 2002. DSP 2002. 2002 14th International Conference on
Print_ISBN :
0-7803-7503-3
DOI :
10.1109/ICDSP.2002.1028196
