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Discretizing Malliavin calculus (1602.08858v1)

Published 29 Feb 2016 in math.PR

Abstract: Suppose $B$ is a Brownian motion and $Bn$ is an approximating sequence of rescaled random walks on the same probability space converging to $B$ pointwise in probability. We provide necessary and sufficient conditions for weak and strong $L2$-convergence of a discretized Malliavin derivative, a discrete Skorokhod integral, and discrete analogues of the Clark-Ocone derivative to their continuous counterparts. Moreover, given a sequence $(Xn)$ of random variables which admit a chaos decomposition in terms of discrete multiple Wiener integrals with respect to $Bn$, we derive necessary and sufficient conditions for strong $L2$-convergence to a $\sigma(B)$-measurable random variable $X$ via convergence of the discrete chaos coefficients of $Xn$ to the continuous chaos coefficients of $X$. In the special case of binary noise, our results support the known formal analogies between Malliavin calculus on the Wiener space and Malliavin calculus on the Bernoulli space by rigorous $L2$-convergence results.

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