New estimators for mixed stochastic and set theoretic uncertainty models: The general case

Author

Hanebeck, U.D. ; Horn, J.

Author_Institution

Inst. of Autom. Control Eng., Tech. Univ. Munchen, München, Germany

fYear

2001

fDate

4-7 Sept. 2001

Firstpage

2398

Lastpage

2403

Abstract

New filters are derived for estimating the n-dimensional state of a linear dynamic system based on uncertain m-dimensional observations, which suffer from two types of uncertainties simultaneously. The first uncertainty is a stochastic process with given distribution. The second uncertainty is only known to be bounded, the exact underlying distribution is unknown. The new estimators combine set theoretic and stochastic estimation in a rigorous manner and provide a continuous transition between the two classical estimation concepts. They converge to a set theoretic estimator, when the stochastic error goes to zero, and to a Kalman filter, when the bounded error vanishes. In the mixed noise case, solution sets are provided that are uncertain in a stochastic sense.

Keywords

Kalman filters; estimation theory; linear systems; set theory; stochastic processes; time-varying systems; Kalman filter; bounded error; linear dynamic system; mixed stochastic model; n-dimensional state estimation; set theoretic uncertainty models; stochastic error; stochastic estimation; uncertain m-dimensional observations; Approximation methods; Estimation; Kalman filters; Mathematical model; Noise; Stochastic processes; Uncertainty; Bounded Uncertainty and Errors in Variables; Estimation; Set-membership Estimation and Identification; Stochastic Systems;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference (ECC), 2001 European

Conference_Location

Porto

Print_ISBN

978-3-9524173-6-2

Type

conf

Filename

7076285