We consider the approximate Euler scheme for Lévy-driven stochastic differential equations. We study the rate of convergence in law of the paths. We show that when approximating the small jumps by Gaussian variables, the convergence is much faster than when simply neglecting them. For example, when the Lévy measure of the driving process behaves like |z|−1−αdz near 0, for some α
In this paper we present a result on convergence of approximate solutions of stochastic differential...
Weak approximations have been developed to calculate the value of func-tionals of stochastic differe...
We provide a rate for the strong convergence of Euler approximations for stochastic differential equ...
We consider the approximate Euler scheme for Lévy-driven stochastic differential equations. We study...
International audienceWe consider the approximate Euler scheme for Levy-driven stochastic differenti...
The Euler scheme is a well-known method of approximation of solutions of stochastic differential equ...
AbstractThe Euler scheme is a well-known method of approximation of solutions of stochastic differen...
AbstractWe consider the Euler approximation of stochastic differential equations (SDEs) driven by Lé...
International audienceWe consider the Euler approximation of stochastic differential equations (SDEs...
We consider the Euler approximation of stochastic differential equations (SDEs) driven by Levy proce...
Abstract: Stochastic differential equations provide a useful means of intro-ducing stochasticity int...
AbstractThe paper studies the rate of convergence of a weak Euler approximation for solutions to pos...
In this paper, we get some convergence rates in total variation distance in approximating discretize...
This paper studies the rate of convergence of the weak Euler approximation for solutions to Lévy-dri...
Abstract. In this paper we present a result on convergence of approximate solutions of stochastic di...
In this paper we present a result on convergence of approximate solutions of stochastic differential...
Weak approximations have been developed to calculate the value of func-tionals of stochastic differe...
We provide a rate for the strong convergence of Euler approximations for stochastic differential equ...
We consider the approximate Euler scheme for Lévy-driven stochastic differential equations. We study...
International audienceWe consider the approximate Euler scheme for Levy-driven stochastic differenti...
The Euler scheme is a well-known method of approximation of solutions of stochastic differential equ...
AbstractThe Euler scheme is a well-known method of approximation of solutions of stochastic differen...
AbstractWe consider the Euler approximation of stochastic differential equations (SDEs) driven by Lé...
International audienceWe consider the Euler approximation of stochastic differential equations (SDEs...
We consider the Euler approximation of stochastic differential equations (SDEs) driven by Levy proce...
Abstract: Stochastic differential equations provide a useful means of intro-ducing stochasticity int...
AbstractThe paper studies the rate of convergence of a weak Euler approximation for solutions to pos...
In this paper, we get some convergence rates in total variation distance in approximating discretize...
This paper studies the rate of convergence of the weak Euler approximation for solutions to Lévy-dri...
Abstract. In this paper we present a result on convergence of approximate solutions of stochastic di...
In this paper we present a result on convergence of approximate solutions of stochastic differential...
Weak approximations have been developed to calculate the value of func-tionals of stochastic differe...
We provide a rate for the strong convergence of Euler approximations for stochastic differential equ...