Strong solutions of some one-dimensional SDEs with random and unbounded drifts

Abstract

In this paper, we are interested in the following one dimensional forward stochastic differential equation (SDE) \[ d Xt=b(t,Xt,ω)d t +σ d Bt, 0≤ t≤ T, X0=\,x∈ R, \] where the driving noise Bt is a d-dimensional Brownian motion. The drift coefficient b:[0,T] ×× R R is Borel measurable and can be decomposed into a deterministic and a random part, i.e., b(t,x,ω) = b1(t,x) + b2(t,x,ω). Assuming that b1 is of spacial linear growth and b2 satisfies some integrability conditions, we obtain the existence and uniqueness of a strong solution. The method we use is purely probabilitic and relies on Malliavin calculus. As byproducts, we obtain Malliavin differentiability of the solutions, provide an explicit representation for the Malliavin derivative and prove existence of weighted Sobolev differentiable flows.