Extremes of Gaussian Random Fields with regularly varying dependence structure

Abstract

Let X(t), t∈ T be a centered Gaussian random field with variance function σ2(·) that attains its maximum at the unique point t0∈ T, and let M(T):=t∈ T X(t). For T a compact subset of , the current literature explains the asymptotic tail behaviour of M(T) under some regularity conditions including that 1- σ(t) has a polynomial decrease to 0 as t t0. In this contribution we consider more general case that 1- σ(t) is regularly varying at t0. We extend our analysis to random fields defined on some compact T⊂ 2, deriving the exact tail asymptotics of M(T) for the class of Gaussian random fields with variance and correlation functions being regularly varying at t0. A crucial novel element is the analysis of families of Gaussian random fields that do not possess locally additive dependence structures, which leads to qualitatively new types of asymptotics.