Robust Kalman filtering for discrete state-delay systems
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Date
2000
Authors
Journal Title
Journal ISSN
Volume Title
Type
Article
Publisher
IEE, Stevenage, United Kingdom
Series Info
IEE Proceedings: Control Theory and Applications
147
147
Scientific Journal Rankings
Abstract
A robust estimator design methodology has been developed for a class of linear uncertain discrete-time systems. It extends the Kalman filter to the case in which the underlying system is subject to norm-bounded uncertainties and constant state delay. A linear state estimator is constructed via a systematic procedure such that the estimation error covariance is guaranteed to lie within a certain bound for all admissible uncertainties. The solution is given in terms of two Riccati equations involving scaling parameters. A numerical example is provided to illustrate the theory.
Description
Scopus
Keywords
Discrete time control systems, Linear control systems, Riccati equations, Robustness (control systems), State estimation, Uncertain systems, Discrete state delay systems, Kalman filtering