Positive results are proved here about the ability of numerical simulations to reproduce the exponential mean-square stability of stochastic differential equations (SDEs). The first set of results applies under finite-time convergence conditions on the numerical method. Under these conditions, the exponential mean-square stability of the SDE and that of the method (for sufficiently small step sizes) are shown to be equivalent, and the corresponding second-moment Lyapunov exponent bounds can be taken to be arbitrarily close. The required finite-time convergence conditions hold for the class of stochastic theta methods on globally Lipschitz problems. It is then shown that exponential mean-square stability for non-globally Lipschitz SDEs is no...
AbstractThe aim of this paper is the analysis of exponential mean-square stability properties of non...
The (asymptotic) behaviour of the second moment of solutions to stochastic differential equations is...
We introduce two approaches by modifying split-step exponential schemes to study stochastic differen...
Positive results are proved here about the ability of numerical simulations to reproduce the exponen...
This paper is mainly concerned with whether the almost sure exponential stability of stochastic diff...
AbstractThis paper is concerned with exponential mean square stability of the classical stochastic t...
We present the analysis of exponential mean-square stability properties of nonlinear stochastic lin...
Relatively little is known about the ability of numerical methods for stochastic differential equati...
Stability analysis of numerical methods for ordinary differential equations (ODEs) is motivated by t...
The aim of this talk is the analysis of various stability issues for numerical methods designed to s...
The aim of this talk is the analysis of various stability issues for numerical methods designed to s...
AbstractOur aim is to study under what conditions the exact and numerical solution (based on equidis...
AbstractThe aim of this paper is the analysis of exponential mean-square stability properties of non...
The (asymptotic) behaviour of the second moment of solutions to stochastic differential equations is...
We introduce two approaches by modifying split-step exponential schemes to study stochastic differen...
Positive results are proved here about the ability of numerical simulations to reproduce the exponen...
This paper is mainly concerned with whether the almost sure exponential stability of stochastic diff...
AbstractThis paper is concerned with exponential mean square stability of the classical stochastic t...
We present the analysis of exponential mean-square stability properties of nonlinear stochastic lin...
Relatively little is known about the ability of numerical methods for stochastic differential equati...
Stability analysis of numerical methods for ordinary differential equations (ODEs) is motivated by t...
The aim of this talk is the analysis of various stability issues for numerical methods designed to s...
The aim of this talk is the analysis of various stability issues for numerical methods designed to s...
AbstractOur aim is to study under what conditions the exact and numerical solution (based on equidis...
AbstractThe aim of this paper is the analysis of exponential mean-square stability properties of non...
The (asymptotic) behaviour of the second moment of solutions to stochastic differential equations is...
We introduce two approaches by modifying split-step exponential schemes to study stochastic differen...