6533b861fe1ef96bd12c575e

RESEARCH PRODUCT

Semiglobal practical integral input-to-state stability for a family of parameterized discrete-time interconnected systems with application to sampled-data control systems

Hamid Reza KarimiAlireza KhayatianNavid Noroozi

subject

Lyapunov functionController designInterconnectionParameterized complexityState (functional analysis)Stability (probability)Computer Science Applicationssymbols.namesakeDiscrete time and continuous timeControl and Systems EngineeringControl theoryData controlsymbolsAnalysisMathematics

description

Abstract Semiglobal practical integral input-to-state stability (SP-iISS) for a feedback interconnection of two discrete-time subsystems is given. We construct a Lyapunov function from the sum of nonlinearly-weighted Lyapunov functions of individual subsystems. In particular, we consider two main cases. The former gives SP-iISS for the interconnected system when both subsystems are semiglobally practically integral input-to-state stable. The latter investigates SP-iISS for the overall system when one of subsystems is allowed to be semiglobally practically input-to-state stable. Moreover, SP-iISS for discrete-time cascades and a feedback interconnection including a semiglobally practically integral input-to-state stable subsystem and a static subsystem are given. As an application of the results, these can be exploited in controller design for a sampled-data system in the framework proposed in Nesic et al. (1999) and Nesic and Angeli (2002). We illustrate such a controller design via an example.

yearjournalcountryeditionlanguage
2015-08-01Nonlinear Analysis: Hybrid Systems
https://doi.org/10.1016/j.nahs.2015.01.002