Distribution of the Height of Local Maxima of Gaussian Random Fields

Abstract

Let \f(t): t∈ T\ be a smooth Gaussian random field over a parameter space T, where T may be a subset of Euclidean space or, more generally, a Riemannian manifold. For any local maximum of f(t) located at t0 in the interior of T, we provide general formulae and asymptotic approximations for both the tail distribution of the height of a local maximum P\f(t0)>u | t0 is a local maximum of f(t) \ and the overshoot distribution of a local maximum P\f(t0)>u+v | t0 is a local maximum of f(t) and f(t0)>v\. Assuming further that f is isotropic, we apply techniques from random matrix theory related to the Gaussian orthogonal ensemble to compute such conditional probabilities explicitly when T is Euclidean or a sphere of arbitrary dimension. Such calculations are motivated by the statistical problem of detecting peaks in the presence of smooth Gaussian noise.