Strong rate of convergence for the Euler-Maruyama approximation of SDEs with H\"older continuous drift coefficient

Abstract

In this paper, we consider a numerical approximation of the stochastic differential equation (SDE) Xt=x0+ ∫0t b(s, Xs) ds + Lt,~x0 ∈ Rd,~t ∈ [0,T], where the drift coefficient b:[0,T] × Rd Rd is H\"older continuous in both time and space variables and the noise L=(Lt)0 ≤ t ≤ T is a d-dimensional L\'evy process. We provide the rate of convergence for the Euler-Maruyama approximation when L is a Wiener process or a truncated symmetric α-stable process with α ∈ (1,2). Our technique is based on the regularity of the solution to the associated Kolmogorov equation.