Dynamical systems under random perturbations with fast switching and slow diffusion: Hyperbolic equilibria and stable limit cycles

TitleDynamical systems under random perturbations with fast switching and slow diffusion: Hyperbolic equilibria and stable limit cycles
Publication TypeJournal Article
Year of Publication2021
AuthorsDu, NHuu, Hening, A, Nguyen, DH, Yin, G
JournalJournal of Differential Equations
Volume293
Pagination313-358
ISSN0022-0396
KeywordsHybrid diffusion, Invariant probability measure, Limit cycle, Random dynamical system, Random perturbation, Rapid switching
Abstract

This work is devoted to the study of long-term qualitative behavior of randomly perturbed dynamical systems. The focus is on certain stochastic differential equations (SDE) with Markovian switching, when the switching is fast varying and the diffusion (white noise) is slowly changing. Consider the systemdXε,δ(t)=f(Xε,δ(t),αε(t))dt+δσ(Xε,δ(t),αε(t))dW(t),Xε,δ(0)=x,αε(0)=i, where αε(t) is a finite state Markov chain with irreducible generator Q=(qιℓ). The relative changing rates of the switching and the diffusion are highlighted by two small parameters ε and δ. Associated with the above stochastic differential equation, there is an averaged ordinary differential equation (ODE)dX‾(t)=f‾(X‾(t))dt,X‾(0)=x, where f‾(⋅)=∑ι=1m0f(⋅,ι)νι and (ν1,…,νm0) is the unique stationary distribution of the Markov chain with generator Q. Suppose that for each pair (ε,δ), the process has an invariant probability measure με,δ, and that the averaged ODE has a limit cycle in which there is an averaged occupation measure μ0 for the averaged equation. It is proved in this paper that under weak conditions, if f‾ has finitely many stable or hyperbolic fixed points, then με,δ converges weakly to μ0 as ε→0 and δ→0. Our results generalize to the setting where the switching process αε is state-dependent in thatPαε(t+Δ)=ℓ|αε=ι,Xε,δ(s),αε(s),s≤t=qιℓ(Xε,δ(t))Δ+o(Δ),ι≠ℓ as long as the generator Q(⋅)=(qιℓ(⋅)) is locally bounded, locally Lipschitz, and irreducible for all x∈Rd. Finally, we provide two examples in two and three dimensions to showcase our results.

URLhttps://www.sciencedirect.com/science/article/pii/S0022039621003223
DOI10.1016/j.jde.2021.05.032