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|Title:||Almost sure state estimation with H2-type performance constraints for nonlinear hybrid stochastic systems|
|Keywords:||State estimation;Suboptimal estimator;Almost surely asymptotic stability;Nonlinear hybrid stochastic systems|
|Citation:||Nonlinear Analysis: Hybrid Systems, 19: 26 - 37, (2016)|
|Abstract:||This paper is concerned with the problem of almost sure state estimation for general nonlinear hybrid stochastic systems whose coefficients only satisfy local Lipschitz conditions. By utilizing the stopping time method combined with martingale inequalities, a theoretical framework is established for analyzing the so-called almost surely asymptotic stability of the addressed system. Within such a theoretical framework, some sufficient conditions are derived under which the estimation dynamics is almost sure asymptotically stable and the upper bound of estimation error is also determined. Furthermore, a suboptimal state estimator is obtained by solving an optimization problem in the H<inf>2</inf> sense. According to the obtained results, for a class of special nonlinear hybrid stochastic systems, the corresponding conditions reduce to a set of matrix inequalities for the purpose of easy implementation. Finally, two numerical simulation examples are used to demonstrate the effectiveness of the results derived.|
|Appears in Collections:||Dept of Computer Science Research Papers|
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