Modeling and Predicting Spatio-temporal Dynamics of PM$_{2.5}$ Concentrations Through Time-evolving Covariance Models

Abstract: Fine particulate matter (PM 2.5 ) has become a great concern worldwide due to its adverse health effects. PM 2.5 concentrations typically exhibit complex spatio-temporal variations. Both the mean and the spatio-temporal dependence evolve with time due to seasonality, which makes the statistical analysis of PM 2.5 challenging. In geostatistics, Gaussian process is a powerful tool for characterizing and predicting such spatio-temporal dynamics, for which the specification of a spatio-temporal covariance function… Show more

“…Its special structure has attracted and still attracts interest from a theoretical perspective as well, resulting in several extensions and refinements of the original model (9); see e.g. [17], [18], [23], [25], [32]. Only recently, specific simulation methods have been proposed [1] for the so-called extended Gneiting class, a special case of [32, Theorem 2.1],…”

Characterization theorems for pseudo cross-variograms

“…Its special structure has attracted and still attracts interest from a theoretical perspective as well, resulting in several extensions and refinements of the original model (9); see e.g. [17], [18], [23], [25], [32]. Only recently, specific simulation methods have been proposed [1] for the so-called extended Gneiting class, a special case of [32, Theorem 2.1],…”

Characterization theorems for pseudo cross-variograms