A new approach to the construction of mean-square numerical methods for the solution of stochastic differential equations with small noises is proposed. The approach is based on expanding the exact solution of the system with small noises in powers of time increment and small parameter. The theorem on the mean-square estimate of method errors is proved. Various efficient numerical schemes are derived for a general system with small noises and for systems with small additive and small colored noises. The proposed methods are tested by calculation of Lyapunov exponents and simulation of a laser Langevin equation with multiplicative noises
This book covers numerical methods for stochastic partial differential equations with white noise us...
Numerical Methods for Simulation of Stochastic Differential Equations Stochastic differential equati...
AbstractStochastic differential equations (SDEs) arise from physical systems where the parameters de...
A new approach to the construction of mean-square numerical methods for the solution of stochastic d...
New approach to construction of mean-square numerical methods for solution of stochastic differentia...
Abstract. A new approach to the construction of mean-square numerical methods for the solution of st...
New approach to construction of weak numerical methods, which are intended for Monte-Carlo technique...
We propose a new approach to constructing weak numerical methods for finding solutions to stochastic...
Abstract. We propose a new approach to constructing weak numerical methods for nding solutions to st...
In this paper the numerical approximation of solutions of Ito stochastic differential equations is c...
A strategy for controlling the stepsize in the numerical integration of stochastic differential equa...
The paper considers some questions of the numerical analysis of stochastic auto-oscillating systems ...
We consider linear multi-step methods for stochastic ordinary differential equations and study their...
The paper considers some questions of the numerical analysis of stochastic auto-oscillating systems ...
AbstractWe consider linear multi-step methods for stochastic ordinary differential equations and stu...
This book covers numerical methods for stochastic partial differential equations with white noise us...
Numerical Methods for Simulation of Stochastic Differential Equations Stochastic differential equati...
AbstractStochastic differential equations (SDEs) arise from physical systems where the parameters de...
A new approach to the construction of mean-square numerical methods for the solution of stochastic d...
New approach to construction of mean-square numerical methods for solution of stochastic differentia...
Abstract. A new approach to the construction of mean-square numerical methods for the solution of st...
New approach to construction of weak numerical methods, which are intended for Monte-Carlo technique...
We propose a new approach to constructing weak numerical methods for finding solutions to stochastic...
Abstract. We propose a new approach to constructing weak numerical methods for nding solutions to st...
In this paper the numerical approximation of solutions of Ito stochastic differential equations is c...
A strategy for controlling the stepsize in the numerical integration of stochastic differential equa...
The paper considers some questions of the numerical analysis of stochastic auto-oscillating systems ...
We consider linear multi-step methods for stochastic ordinary differential equations and study their...
The paper considers some questions of the numerical analysis of stochastic auto-oscillating systems ...
AbstractWe consider linear multi-step methods for stochastic ordinary differential equations and stu...
This book covers numerical methods for stochastic partial differential equations with white noise us...
Numerical Methods for Simulation of Stochastic Differential Equations Stochastic differential equati...
AbstractStochastic differential equations (SDEs) arise from physical systems where the parameters de...