Pathwise Taylor Expansions for It\^o Random Fields
Abstract
In this paper we study the {\it pathwise stochastic Taylor expansion}, in the sense of our previous work \cite{Buckdahn_Ma_02}, for a class of It\^o-type random fields in which the diffusion part is allowed to contain both the random field itself and its spatial derivatives. Random fields of such an "self-exciting" type particularly contains the fully nonlinear stochastic PDEs of curvature driven diffusion, as well as certain stochastic Hamilton-Jacobi-Bellman equations. We introduce the new notion of "-fold" derivatives of a random field, as a fundamental device to cope with the special self-exciting nature. Unlike our previous work \cite{Buckdahn_Ma_02}, our new expansion can be defined around any random time-space point , where the temporal component does not even have to be a stopping time. Moreover, the exceptional null set is independent of the choice of the random point . As an application, we show how this new form of pathwise Taylor expansion could lead to a different treatment of the stochastic characteristics for a class of fully nonlinear SPDEs whose diffusion term involves both the solution and its gradient, and hence lead to a definition of the {\it stochastic viscosity solution} for such SPDEs, which is new in the literature.
Cite
@article{arxiv.1008.3221,
title = {Pathwise Taylor Expansions for It\^o Random Fields},
author = {Rainer Buckdahn and Ingo Bulla and Jin Ma},
journal= {arXiv preprint arXiv:1008.3221},
year = {2010}
}