\name{Obsolete Functions} \alias{CondSimu} \alias{Covariance} \alias{CovarianceFct} \alias{CovMatrix} \alias{DeleteRegister} \alias{DeleteAllRegisters} \alias{DoSimulateRF} \alias{EmpiricalVariogram} \alias{fitvario} \alias{fractal.dim} \alias{GaussRF} \alias{hurst} \alias{InitSimulateRF} \alias{InitGaussRF} \alias{InitMaxStableRF} \alias{Kriging} \alias{MaxStableRF} \title{Obsolete functions} \alias{RFparameters} \alias{Variogram} \description{ This part gives the obsolete functions of RandomFields Version 2 } \usage{ Covariance(x, y = NULL, model, param = NULL, dim = if (!missing(Distances)) { if (is.matrix(x)) ncol(x) else 1}, Distances, fctcall = c("Cov", "Variogram", "CovMatrix")) CovarianceFct(x, y = NULL, model, param = NULL, dim = if (!missing(Distances)) { if (is.matrix(x)) ncol(x) else 1}, Distances, fctcall = c("Cov", "Variogram", "CovMatrix")) CovMatrix(x, y = NULL, model, param = NULL, dim = if (!missing(Distances)) { if (is.matrix(x)) ncol(x) else 1}, Distances) DeleteAllRegisters() DeleteRegister(nr=0) DoSimulateRF(n = 1, register = 0, paired=FALSE, trend=NULL) InitSimulateRF(x, y = NULL, z = NULL, T=NULL, grid=!missing(gridtriple), model, param, trend, method = NULL, register = 0, gridtriple, distribution=NA) InitGaussRF(x, y = NULL, z = NULL, T=NULL, grid=!missing(gridtriple), model, param, trend=NULL, method = NULL, register = 0, gridtriple) GaussRF(x, y = NULL, z = NULL, T=NULL, grid=!missing(gridtriple), model, param, trend=NULL, method = NULL, n = 1, register = 0, gridtriple, paired=FALSE, PrintLevel=1, Storing=TRUE, ...) Variogram(x, model, param = NULL, dim = if (!missing(Distances)) { if (is.matrix(x)) ncol(x) else 1}, Distances) InitMaxStableRF(x, y = NULL, z = NULL, grid, model, param, maxstable, method = NULL, register = 0, gridtriple = FALSE) MaxStableRF(x, y = NULL, z = NULL, grid, model, param, maxstable, method = NULL, n = 1, register = 0, gridtriple = FALSE, ...) EmpiricalVariogram(x, y = NULL, z = NULL, T=NULL, data, grid, bin, gridtriple = FALSE, phi, theta, deltaT) Kriging(krige.method, x, y=NULL, z=NULL, T=NULL, grid, gridtriple=FALSE, model, param, given, data, trend=NULL,pch=".", return.variance=FALSE, allowdistanceZero = FALSE, cholesky=FALSE) CondSimu(krige.method, x, y=NULL, z=NULL, T=NULL, grid, gridtriple=FALSE, model, param, method=NULL, given, data, trend=NULL, n=1, register=0, err.model=NULL, err.param=NULL, err.method=NULL, err.register=1, tol=1E-5, pch=".", paired=FALSE, na.rm=FALSE) RFparameters(...) hurst(x, y = NULL, z = NULL, data, gridtriple = FALSE, sort=TRUE, block.sequ = unique(round(exp(seq(log(min(3000, dim[1] / 5)), log(dim[1]), len=min(100, dim[1]))))), fft.m = c(1, min(1000, (fft.len - 1) / 10)), fft.max.length = Inf, method=c("dfa", "fft", "var"), mode=c("plot", "interactive"), pch=16, cex=0.2, cex.main=0.85, PrintLevel=RFoptions()$general$printlevel,height=3.5, ...) fractal.dim(x, y = NULL, z = NULL, data, grid=TRUE, gridtriple = FALSE, bin, vario.n=5, sort=TRUE, fft.m = c(65, 86), fft.max.length=Inf, fft.max.regr=150000, fft.shift = 50, method=c("variogram", "fft"), mode=c("plot", "interactive"), pch=16, cex=0.2, cex.main=0.85, PrintLevel = RFoptions()$general$printlevel, height=3.5, ...) fitvario(x, y=NULL, z=NULL, T=NULL, data, model, param, lower=NULL, upper=NULL, sill=NA, grid=!missing(gridtriple), gridtriple=FALSE, ...) } \arguments{ \item{x, y, model, param, dim, Distances, fctcall, n, register, paired, trend, z, T, grid, method, gridtriple, distribution, PrintLevel, Storing, ..., maxstable, data, bin, phi, theta, deltaT, krige.method, pch, return.variance, allowdistanceZero, cholesky, given, err.model, err.param, err.method, err.register, tol, na.rm, sort, block.sequ, fft.m, fft.max.length, mode, cex, cex.main, height, vario.n, fft.max.regr, fft.shift, lower, upper, sill, nr}{ as the functions are obsolete, all these arguments are not documented anymore. } } \value{ not given anymore. } \seealso{ The functions that should be used instead are, for instance, \command{\link{RFcov}}, \command{\link{RFcovmatrix}}, \command{\link{RFvariogram}}, \command{\link{RFsimulate}}, \command{\link{RFinterpolate}}, \command{\link{RFempiricalvariogram}}, \command{\link{RFfit}}, \command{\link{RFoptions}}, \command{\link{RFhurst}}, \command{\link{RFfractaldim}} } \author{Martin Schlather, \email{schlather@math.uni-mannheim.de} \url{http://ms.math.uni-mannheim.de/de/publications/software} } \examples{ RFoptions(seed=0) ## *ANY* simulation will have the random seed 0; set ## RFoptions(seed=NA) to make them all random again %\dontshow{RFoptions(internal.warn_newstyle=FALSE, internal.warn_oldstyle=FALSE)} ## no examples given, as command is obsolete \dontshow{\dontrun{ x <- seq(0, 5, if (interactive()) 0.05 else 2) model <- "exp" param <- c(0, 1, 0, 1) plot(x, Covariance(x, model=model, param=param)) plot(x, Variogram(x, model=model, param=param)) z <- GaussRF(x, model=model, param=param) plot(x, z, type="l") z <- GaussRF(x=x, y=x, model=model, param=param, grid=TRUE) image(x, x, z) EmpiricalVariogram(x, x, data=z) g1 <- runif(5) * 2 g2 <- runif(5) * 2 z <- GaussRF(g1, g2, grid=FALSE, model=model, param=param) k <- Kriging("S", x, x, given=cbind(g1, g2), data=z, model=model, param=param) Print(range(z), range(k)) col <- rainbow(20) zlim <- range(z, k) image(x, x, k, col=col, zlim=zlim) points(g1, g2, pch=20,cex=2) points(g1, g2, pch=16, col=col[pmax(1, (z-zlim[1]) / diff(zlim) * 20 )]) #% farben stimmen in etwa. estparam <- rep(NA, 4) v <- fitvario(x=g1, y=g2, grid=FALSE, model=model, param=estparam, data=z) Print(v$ml, v$ml$ml.value) }} \dontshow{FinalizeExample()} } \keyword{spatial}