https://github.com/cran/RandomFields
Tip revision: f082dc8b0950aff830aab568d89a74af74f10e14 authored by Martin Schlather on 12 August 2014, 00:00:00 UTC
version 3.0.35
version 3.0.35
Tip revision: f082dc8
Constants.Rd
\name{Constants}
\alias{constants}
\alias{RC}
\alias{RC_ISOTROPIC}
\alias{RC_ISOTROPY}
\alias{RC_TYPE}
\alias{RC_DOMAIN}
\alias{RC_MONOTONE}
\alias{RC_SPACEISOTROPIC}
\alias{RC_CARTESIAN_COORD}
\title{Constants used in RandomFields}
\description{
Several constants are provided that might make
the use of some functions easier, e.g. \command{\link{RFgetModelNames}}
}
\value{
\code{RC_TYPE = c("tail correlation function", "positive definite",
"negative definite", "process",
"method for Gauss processes", "method for Brown-Resnick processes",
"shifted shape function",
"distribution family", "shape function", "trend", "interface",
"undefined", "other type")}
\code{RC_DOMAIN = c("single variable", "kernel", "framework dependent", "mismatch")
}
\code{RC_ISOTROPY = c("isotropic", "space-isotropic", "zero-space-isotropic",
"vector-isotropic", "symmetric", "cartesian system",
"earth system", "spherical system", "cylinder system",
"non-dimension-reducing", "parameter dependent",
"<mismatch>")
}
\code{RC_MONOTONE = c("mismatch in monotonicity",
"submodel dependent monotonicity",
"previous model dependent monotonicity",
"parameter dependent monotonicity",
"not monotone", "monotone", "Gneiting-Schaback class",
"normal mixture", "completely monotone", "Bernstein")
}
\code{RC_ISOTROPIC} gives the numerical code for option
\code{"isotropic"}
\code{RC_SPACEISOTROPIC} gives the numerical code for option
\code{"space-isotropic"}
\code{RC_CARTESIAN_COORD} gives the numerical code for option
\code{"cartesian system"}
}
\seealso{
\link{RF}, \link{RM}, \link{RP}, \link{RR},
\command{\link{RFgetModelNames}},
\link{RMmodelgenerator-class},
\command{\link{RMtrafo}}
}
\author{Martin Schlather, \email{schlather@math.uni-mannheim.de}
\url{http://ms.math.uni-mannheim.de/de/publications/software}
}
\keyword{spatial}
\examples{
RFoptions(seed=0) ## *ANY* simulation will have the random seed 0; set
## RFoptions(seed=NA) to make them all random again
RC_ISOTROPY[1:5]
RFgetModelNames(isotropy=RC_ISOTROPY[1:5])
\dontshow{FinalizeExample()}
}