Title :
On nonlinear filters for mixed H2/H∞ estimation
Author :
Hassibi, Babak ; Kailath, Thomas
Author_Institution :
Inf. Syst. Lab., Stanford Univ., CA, USA
Abstract :
We study the problem of mixed least-mean-squares H∞ -optimal (or mixed H2/H∞-optimal) estimation of signals generated by discrete-time, finite-dimensional, linear state-space models. The major result is that, for finite-horizon problems, and when the stochastic disturbances have Gaussian distributions, the optimal solutions have finite-dimensional (i.e., bounded-order) nonlinear state-space structure of order 2n+1 (where n is the dimension of the underlying state-space model). Being nonlinear, the filters do not minimize an H2 norm subject to an H∞ constraint, but instead minimize the least-mean-squares estimation error (given a certain a priori probability distribution on the disturbances) subject to a given constraint on the maximum energy gain from disturbances to estimation errors. The mixed filters therefore have the property of yielding the best average (least-mean-squares) performance over all filters that achieve a certain worst-case (H∞) bound
Keywords :
Gaussian distribution; H∞ optimisation; discrete time systems; filtering theory; least mean squares methods; multidimensional systems; nonlinear filters; probability; recursive estimation; signal processing; state-space methods; Gaussian distributions; H∞ estimation; H2 estimation; discrete-time model; finite-dimensional model; finite-horizon problems; least-mean-squares; linear state-space models; nonlinear filters; probability distribution; recursive estimation; Contracts; Ear; Estimation error; Estimation theory; Hydrogen; Information systems; Laboratories; Nonlinear filters; Robustness; Signal generators;
Conference_Titel :
American Control Conference, 1997. Proceedings of the 1997
Conference_Location :
Albuquerque, NM
Print_ISBN :
0-7803-3832-4
DOI :
10.1109/ACC.1997.611970
