Advanced Search

Query:

Fill in the form and click »Search«...

Format:

Display: entries per page entries

Zbl 1162.93039
Shen, Bo; Wang, Zidong; Shu, Huisheng; Wei, Guoliang
$H_\infty $ filtering for nonlinear discrete-time stochastic systems with randomly varying sensor delays. (English)
[J] Automatica 45, No. 4, 1032-1037 (2009). ISSN 0005-1098

Summary: This paper is concerned with the $H_\infty $ filtering problem for a general class of nonlinear discrete-time stochastic systems with randomly varying sensor delays, where the delayed sensor measurement is governed by a stochastic variable satisfying the Bernoulli random binary distribution law. In terms of the Hamilton-Jacobi-Isaacs inequalities, preliminary results are first obtained that ensure the addressed system to possess an $l_{2}$-gain less than a given positive scalar $\gamma $. Next, a sufficient condition is established under which the filtering process is asymptotically stable in the mean square and the filtering error satisfies the $H_\infty $ performance constraint for all nonzero exogenous disturbances under the zero-initial condition. Such a sufficient condition is then decoupled into four inequalities for the purpose of easy implementation. Furthermore, it is shown that our main results can be readily specialized to the case of linear stochastic systems. Finally, a numerical simulation example is used to demonstrate the effectiveness of the results derived.

MSC 2000:: *93E11 Filtering in stochastic control
93C55 Discrete-time control systems
93C10 Nonlinear control systems

Keywords: nonlinear systems; stochastic systems; discrete-time systems; $H_\infty $ filtering; random sensor delay; Hamilton-Jacobi-Isaacs inequality

Comment on this Item PDF MathML XML ASCII DVI PS BibTeX Online Ordering Article Journal

	Scientific prize winners of the ICM 2010
	Overhang
	Lie groups, physics and geometry. An introduction for physicists, engineers and chemists.

Advanced Search

Zentralblatt MATH Berlin [Germany]