A fast, near efficient, randomized-trace based method for fitting stationary Gaussian spatial models to large noisy data sets in the case of a single range-parameter
Résumé
We consider the inference problem of fitting to noisy gridded observations, a isotropic zero-mean stationary Gaussian field model which belongs to the Mat\' ern family with known regularity index $\nu \geq 0$, or to the spherical family. For estimating the correlation range and the variance of the field, two simple estimating functions based on the so-called ``conditional Gibbs energy mean'' (CGEM) and the empirical variance (EV) were recently introduced. This article presents a rather extensive Monte Carlo simulation study for problems with around a thousand observations and settings including large, moderate, and even ``small'', correlation ranges. It empirically demonstrates that the statistical efficiency of CGEM-EV is quite satisfying provided the signal-to-noise ratio is strong enough or $\nu$ is not too large
Origine : Fichiers produits par l'(les) auteur(s)