On reachable set problem for impulse switched singular systems with mixed delays
Xinyue Zhang, Zhiguang Feng, Xun Zhang
Abstract
Abstract This paper focuses on the reachable set problem for impulse switched singular (ISS) systems with mixed time‐varying delays via the Lyapunov theory. To solve the state boundary of system, a real‐bounded lemma is developed by analyzing the impulse switching point under bounded disturbance input and initial function. Based on real‐bounded lemma and integral inequality technology, a sufficient condition for reachable set of ISS system is established in the form of linear matrix inequalities (LMIs) to ensure that the reachable state of system is limited to a closed bounded set. Simulation results are given to verify the validity of the obtained theoretical results for the reachable state criterion.
Topics & Concepts
Bounded functionMathematicsImpulse (physics)Control theory (sociology)Lemma (botany)Boundary (topology)Lyapunov functionState (computer science)Linear matrix inequalityComputer scienceMathematical optimizationMathematical analysisAlgorithmControl (management)Nonlinear systemPoaceaeBiologyEcologyQuantum mechanicsArtificial intelligencePhysicsStability and Control of Uncertain SystemsControl Systems and IdentificationNeural Networks Stability and Synchronization