A class of integration by parts formulae in stochastic analysis I

Abstract

An integration by parts formula is the foundation for stochastic analysis on path spaces over a (finite dimensional) Riemannian manifold or over Rn, from which we may deduce the operator d is closable and define the Laplacian operator on path spaces. A useful formula on the Riemannian manifold is dPtf(v)=(1/t)E f(xt) ∫0t d\xs\, vs , for Pt the heat semi-group, xt the BM, vt the derivative flow or its conditional expectation (which is a damped parallel translation), d\xs\ is the martingale part of xt. As a meta theorem, this leads to the Clark-Ocone formula (martingale representation theorem with specific integrand) and Logrithmic Sobolev inequalities. Interpreted appropriately, the latter formula is obviously a special case of the integration by parts formula. Here we show by the Markov property and by induction that the latter formula implies the integration by parts formula. WE also use Bismut's original approach to prove an integration by parts formula, using a connection with torsion and one on the free path space.