Stochastic differential equations (SDEs) models play a crucial role in many field of science such as biology, chemistry, climatology, mechanics, physics, economics and finance. In finance, the Black-Scholes stochastic differential equations are used to model the option price. The earliest work on SDEs was description on the Brownian motion done in Einstein’s paper “On the motion required by the molecular kinetic theory of heat of small particles suspended in a stationary liquid”. The Brownian motion plays an important role in SDEs. In this paper we will study some properties of SDEs and how to solve stochastic differential equation by applying the numerical approximation method
In this paper, Wong-Zakai approximation methods are presented for some stochastic differential equat...
Purpose: The purpose of this paper is to revisit the numerical solutions of stochastic differential ...
The development of numerical methods for stochastic differential equations has intensified over the ...
Numerical methods for stochastic differential equations, including Taylor expansion approximations, ...
Introduction For the last thirty years, there has been interest in numerical simulation of solution...
Numerical Methods for Simulation of Stochastic Differential Equations Stochastic differential equati...
Ordinary differential equations (ODEs) have been widely used to model the dynamical behaviour of bio...
As more applied science researchers are attempting to use Stochastic Differential Equations (SDEs) a...
To my father and mother, to whom I owe everything. ii Declaration I declare that this thesis was com...
This thesis consists of four papers: <p>Paper I is an overview of recent techniques in strong numeri...
Abstract. This chapter is an introduction and survey of numerical solution meth-ods for stochastic d...
Les travaux exposés dans cette thèse sont consacrés à l’étude de méthodesprécises pour approcher des...
A comprehensive introduction to the core issues of stochastic differential equations and their effec...
Using concrete examples, we discuss the current and potential use of stochastic ordinary differentia...
The Euler scheme is a well-known method of approximation of solutions of stochastic differential equ...
In this paper, Wong-Zakai approximation methods are presented for some stochastic differential equat...
Purpose: The purpose of this paper is to revisit the numerical solutions of stochastic differential ...
The development of numerical methods for stochastic differential equations has intensified over the ...
Numerical methods for stochastic differential equations, including Taylor expansion approximations, ...
Introduction For the last thirty years, there has been interest in numerical simulation of solution...
Numerical Methods for Simulation of Stochastic Differential Equations Stochastic differential equati...
Ordinary differential equations (ODEs) have been widely used to model the dynamical behaviour of bio...
As more applied science researchers are attempting to use Stochastic Differential Equations (SDEs) a...
To my father and mother, to whom I owe everything. ii Declaration I declare that this thesis was com...
This thesis consists of four papers: <p>Paper I is an overview of recent techniques in strong numeri...
Abstract. This chapter is an introduction and survey of numerical solution meth-ods for stochastic d...
Les travaux exposés dans cette thèse sont consacrés à l’étude de méthodesprécises pour approcher des...
A comprehensive introduction to the core issues of stochastic differential equations and their effec...
Using concrete examples, we discuss the current and potential use of stochastic ordinary differentia...
The Euler scheme is a well-known method of approximation of solutions of stochastic differential equ...
In this paper, Wong-Zakai approximation methods are presented for some stochastic differential equat...
Purpose: The purpose of this paper is to revisit the numerical solutions of stochastic differential ...
The development of numerical methods for stochastic differential equations has intensified over the ...