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Finite-Time Observer-Based Sliding-Mode Control for Markovian Jump Systems With Switching Chain: Average Dwell-Time Method

Panpan Zhang, Yonggui Kao, Jun Hu, Ben Niu, Hongwei Xia, Changhong Wang

2021IEEE Transactions on Cybernetics70 citationsDOI

Abstract

In this article, the finite-time observer-based sliding-mode control (SMC) problem is considered for stochastic Markovian jump systems (MJSs) with a deterministic switching chain (DSC) subject to time-varying delay and packet losses (PLs). First, the stochastic MJSs with DSC are appropriately modeled and the PLs case is characterized by using some Bernoulli random variables. Then, a nonfragile finite-time bounded sliding-mode observer is designed. Our objective is to propose a finite-time observer-based SMC approach such that for the above addressed system, the finite-time boundedness in a certain time interval can be guaranteed by giving sufficient criteria via the stochastic analysis skills and average dwell time (ADT) method. Moreover, a new robust finite-time sliding-mode controller can be designed to ensure reachability of the common sliding surface in the estimation space. Finally, a numerical example is provided to illustrate our theoretical results.

Topics & Concepts

ReachabilityDwell timeControl theory (sociology)Observer (physics)Bounded functionBernoulli's principleSliding mode controlComputer scienceMathematicsController (irrigation)Interval (graph theory)Control (management)AlgorithmEngineeringNonlinear systemPhysicsMathematical analysisArtificial intelligenceQuantum mechanicsBiologyMedicineAgronomyAerospace engineeringCombinatoricsClinical psychologyStability and Control of Uncertain SystemsAdaptive Control of Nonlinear SystemsNeural Networks Stability and Synchronization
Finite-Time Observer-Based Sliding-Mode Control for Markovian Jump Systems With Switching Chain: Average Dwell-Time Method | Litcius