Jacobi Angles for Simultaneous Diagonalization
SIAM Journal on Matrix Analysis and Applications
FORTRAN programs for space-time modeling
Computers & Geosciences
Space-time variograms and a functional form for total air pollution measurements
Computational Statistics & Data Analysis
An intrinsic model of coregionalization that solves variance inflation in collocated cokriging
Computers & Geosciences
FORTRAN programs for space-time multivariate modeling and prediction
Computers & Geosciences
Iterative algorithms for fitting a linear model of coregionalization
Computers & Geosciences
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In many environmental sciences, several correlated variables are observed at some locations of the domain of interest and over a certain period of time. In this context, appropriate modeling and prediction techniques for multivariate space-time data as well as interactive software packages are necessary. In this paper, a new automatic procedure for fitting the space-time linear coregionalization model (ST-LCM) using the product-sum variogram model is discussed. This procedure, based on the simultaneous diagonalization of the sample matrix variograms, allows the identification of the ST-LCM parameters in a very flexible way. The fitting process is analytically described by a main flow chart and all steps are specified by four subprocedures. An application of this procedure is illustrated through a case study concerning the daily concentrations of three air pollutants measured in an urban area. Then the fitted space-time coregionalization model is applied to predict the variable of interest using a recent GSLib routine, named ''COK2ST.''