Title :
An approach to noncausal hybrid estimation for linear discrete-time systems with non-Gaussian noises
Author_Institution :
Japan
Abstract :
In this paper we study hybrid estimation for linear discrete-time systems with noises not to be restricted to be Gaussian. It is assumed that modes of the systems are not directly accessible. We consider optimal estimation problems to find both estimated states of the systems and a candidate of the distributions of the modes over the finite time interval. We adopt most probable trajectory (MPT) approach. Q. Zhang (1999, 2000) has presented hybrid filtering algorithm, i.e., causal estimation, by MPT approach.We consider both filtering and smoothing problems in this paper. We can expect better estimation performance by taking into consideration noncausal information of observations. The hybrid smoother is realized by two filters approach.
Keywords :
discrete time systems; filtering theory; linear systems; optimal control; MPT approach; causal estimation; finite time interval; hybrid filtering algorithm; linear discrete-time systems; most probable trajectory approach; non-Gaussian noises; noncausal hybrid estimation; optimal estimation problems; smoothing problems; Approximation algorithms; Equations; Estimation; Noise; Optimal control; Smoothing methods; Trajectory; Hybrid systems; Non-Gaussian noise; Noncausal estimation; Smoothing; Two filters approach;
Conference_Titel :
Advanced Mechatronic Systems (ICAMechS), 2012 International Conference on
Conference_Location :
Tokyo
Print_ISBN :
978-1-4673-1962-1
