High level excursion set geometry for non-Gaussian infinitely divisible random fields

Abstract

We consider smooth, infinitely divisible random fields (X(t),t∈ M), M⊂ Rd, with regularly varying Levy measure, and are interested in the geometric characteristics of the excursion sets \[Au=\t∈ M:X(t)>u\\] over high levels u. For a large class of such random fields, we compute the u∞ asymptotic joint distribution of the numbers of critical points, of various types, of X in Au, conditional on Au being nonempty. This allows us, for example, to obtain the asymptotic conditional distribution of the Euler characteristic of the excursion set. In a significant departure from the Gaussian situation, the high level excursion sets for these random fields can have quite a complicated geometry. Whereas in the Gaussian case nonempty excursion sets are, with high probability, roughly ellipsoidal, in the more general infinitely divisible setting almost any shape is possible.