QSR-dissipativity of feedback interconnection of switched nonlinear systems under communication constraints

This article studies QSR-dissipativity of feedback interconnection of switched nonlinear system (SNS) via event-triggered control. The QSR-dissipativity property of a SNS is characterized by multiple storage functions and multiple supply rates, and the storage functions are allowed to increase at switching instants. All subsystems are allowed to be not QSR-dissipative while a switching rule can read QSR-dissipativity of the switched system. An output-based event-triggered control scheme is proposed to guarantee QSR-dissipativity of feedback interconnection of switched systems possessing QSR-dissipativity. In addition, Zeno behavior is excluded and the maximum number of triggers in any switching interval composed by two adjacent switching instants is estimated. Finally, a numerical example is given to illustrate the validity of the results.