Non-uniform Edgeworth expansions for weakly dependent random variables and their applications
Abstract
We obtain non-uniform Edgeworth expansions for several classes of weakly dependent (non-stationary) sequences of random variables, including uniformly elliptic inhomogeneous Markov chains, random and time-varying (partially) hyperbolic or expanding dynamical systems, products of random matrices and some classes of local statistics. To the best of our knowledge this is the first time such results are obtained beyond the case of independent summands, even for stationary sequences. As an application of the non uniform expansions we obtain average versions of Edgeworth exapnsions, which provide estimates of the underlying distribution function in Lp(dx) by the standard normal distribution function and its higher order corrections. An additional application is to expansions of expectations [h(Sn)] of functions h of the underlying sequence Sn, whose derivatives grow at most polynomially fast. In particular we provide expansions of the moments of Sn by means the variance of Sn. A third application is to Edgeworth expansions in the Wasserstein distance (transport distance). In particular we prove Berry-Esseen theorems in the Wasserstein metrics. This paper compliments NonU BE where non-uniform Berry-Esseen theorems were obtained.
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