Galerne, Bruno Random fields of bounded variation and computation of their variation intensity. (English) Zbl 1358.60065 Adv. Appl. Probab. 48, No. 4, 947-971 (2016). Summary: The main purpose of this paper is to define and characterize random fields of bounded variation, that is, random fields with sample paths in the space of functions of bounded variation, and to study their mean total variation. Simple formulas are obtained for the mean total directional variation of random fields, based on known formulas for the directional variation of deterministic functions. It is also shown that the mean variation of random fields with stationary increments is proportional to the Lebesgue measure, and an expression of the constant of proportionality, called the variation intensity, is established. This expression shows, in particular, that the variation intensity only depends on the family of two-dimensional distributions of the stationary increment random field. When restricting to random sets, the obtained results give generalizations of well-known formulas from stochastic geometry and mathematical morphology. The interest of these general results is illustrated by computing the variation intensities of several classical stationary random field and random set models, namely Gaussian random fields and excursion sets, Poisson shot noises, Boolean models, dead leaves models, and random tessellations. Cited in 2 Documents MSC: 60G60 Random fields 60G17 Sample path properties 60G51 Processes with independent increments; Lévy processes 60D05 Geometric probability and stochastic geometry Keywords:random fields; bounded variation; directional variation; variation intensity; stationary increments; germ-grain model × Cite Format Result Cite Review PDF Full Text: DOI Euclid HAL