A general approach to small deviation via concentration of measures

Abstract

We provide a general approach to obtain upper bounds for small deviations P( y ε) in different norms, namely the supremum and β- H\"older norms. The large class of processes y under consideration takes the form yt= Xt + ∫0t as d s, where X and a are two possibly dependent stochastic processes. Our approach provides an upper bound for small deviations whenever upper bounds for the concentration of measures of Lp- norm of random vectors built from increments of the process X and large deviation estimates for the process a are available. Using our method, among others, we obtain the optimal rates of small deviations in supremum and β- H\"older norms for fractional Brownian motion with Hurst parameter H\ 12. As an application, we discuss the usefulness of our upper bounds for small deviations in pathwise stochastic integral representation of random variables motivated by the hedging problem in mathematical finance.