A Randomized Milstein Scheme for SDEs with Superlinear Drift Coefficient

Abstract

This work presents a randomized-tamed Milstein scheme for stochastic differential equations whose drift coefficient exhibits superlinear growth in the state variable and limited temporal regularity, quantified by β-H\"older continuity with β ∈ (0,1]. The scheme combines a taming mechanism to control the superlinear state dependence with a drift randomization strategy designed to address the challenges posed by low temporal regularity. Under suitable assumptions on temporal smoothness, the scheme achieves an optimal strong Lp-convergence rate of order one.