Stabilization with Optimal Performance for Dissipative Discrete-Time Impulsive Hybrid Systems

Stabilization with Optimal Performance for Dissipative Discrete-Time Impulsive Hybrid Systems

This paper studies the problem of stabilization with optimal performance for dissipative DIHS (discrete-time impulsive hybrid systems). By using Lyapunov function method, conditions are derived under which the DIHS with zero inputs is GUAS (globally uniformly asymptotically stable). These GUAS resul...

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Veröffentlicht in:Advances in difference equations 2010-01, Vol.2010 (1), p.1-15
Hauptverfasser: Yan, Lamei, Liu, Bin
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Asymptotic properties
Design engineering
Difference and Functional Equations
Dissipation
Functional Analysis
Hybrid systems
Inequalities
Lyapunov functions
Mathematics
Mathematics and Statistics
Optimization
Ordinary Differential Equations
Partial Differential Equations
Research Article
Stabilization
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Zusammenfassung:This paper studies the problem of stabilization with optimal performance for dissipative DIHS (discrete-time impulsive hybrid systems). By using Lyapunov function method, conditions are derived under which the DIHS with zero inputs is GUAS (globally uniformly asymptotically stable). These GUAS results are used to design feedback control law such that a dissipative DIHS is asymptotically stabilized and the value of a hybrid performance functional can be minimized. For the case of linear DIHS with a quadratic supply rate and a quadratic storage function, sufficient and necessary conditions of dissipativity are expressed in matrix inequalities. And the corresponding conditions of optimal quadratic hybrid performance are established. Finally, one example is given to illustrate the results.
ISSN:1687-1839
1687-1847
DOI:10.1155/2010/278240