Title :
Stochastic Stability of Markovianly Switched Systems
Author :
Leth, John ; Schioler, Henrik ; Gholami, M. ; Cocquempot, V.
Author_Institution :
Dept. of Electron. Syst., Aalborg Univ., Aalborg, Denmark
Abstract :
This technical note examines the stochastic stability of noisy dynamics in discrete and continuous time. The notion of moment stability in the wide sense (MSWS) is presented as a generalization of ϵ-moment stability. MSWS is intentionally not based on stochastic convergence properties, since in most practically appearing systems convergence to any equilibrium is not present. A sufficient criterion for both MSWS and ergodicity is presented for a class of systems comprising a finite set of noisy dynamical systems among which switching is governed by a Markov chain. Stability/instability properties for each separate subsystem are assumed to be quantified by a Lyapunov function candidate together with an associated growth rate equation. For the set of Lyapunov functions, a compatibility criterion is assumed to be fulfilled, bounding the ratio between pairs of Lyapunov functions.
Keywords :
Lyapunov methods; Markov processes; continuous time systems; discrete time systems; stability; stochastic systems; ϵ-moment stability generalization; Lyapunov function; MSWS; Markov chain; Markovianly switched system; compatibility criterion; continuous time; discrete time; ergodicity; growth rate equation; moment stability; noisy dynamical systems; stability-instability properties; stochastic stability; Convergence; Lyapunov methods; Markov processes; Stability criteria; Switches; Stability; stochastic system; switching diffusion;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2013.2241482
