Asymptotic analysis of average case approximation complexity of additive random fields

Abstract

We study approximation properties of sequences of centered additive random fields Yd, d∈N. The average case approximation complexity nYd() is defined as the minimal number of evaluations of arbitrary linear functionals that is needed to approximate Yd with relative 2-average error not exceeding a given threshold ∈(0,1). We investigate the growth of nYd() for arbitrary fixed ∈(0,1) and d∞. Under natural assumptions we obtain general results concerning asymptotics of nYd(). We apply our results to additive random fields with marginal random processes corresponding to the Korobov kernels.