krigeST: Ordinary global Spatio-Temporal Kriging
In gstat: Spatial and Spatio-Temporal Geostatistical Modelling, Prediction and Simulation
krigeST R Documentation
Ordinary global Spatio-Temporal Kriging
Description
Function for ordinary global and local and trans Gaussian spatio-temporal kriging on point support
Usage
krigeST(formula, data, newdata, modelList, beta, y, ...,
nmax = Inf, stAni = NULL,
computeVar = FALSE, fullCovariance = FALSE,
bufferNmax=2, progress=TRUE)
krigeSTTg(formula, data, newdata, modelList, y, nmax=Inf, stAni=NULL,
bufferNmax=2, progress=TRUE, lambda = 0)
Arguments
formula
formula that defines the dependent variable as a linear
model of independent variables; suppose the dependent variable has name
z, for ordinary and simple kriging use the formula z~1;
for simple kriging also define beta (see below); for universal
kriging, suppose z is linearly dependent on x and y,
use the formula z~x+y
data
ST object: should contain the dependent variable and independent
variables.
newdata
ST object with prediction/simulation locations in
space and time; should contain attribute columns with the independent variables
(if present).
modelList
object of class StVariogramModel, created by
vgmST - see below or the function vgmAreaST for area-to-point kriging. For the general kriging case: a list with named elements: space, time
and/or joint depending
on the spatio-temporal covariance family, and an entry stModel.
Currently
implemented families that may be used for stModel
are separable, productSum, metric,
sumMetric and simpleSumMetric.
See the examples section in fit.StVariogram or
variogramSurface for details on how to define spatio-temporal
covariance models. krigeST will look for a "temporal unit" attribute
in the provided modelList in order to adjust the temporal scales.
y
matrix; to krige multiple fields in a single step, pass data
as columns of matrix y. This will ignore the value of the
response in formula.
beta
The (known) mean for simple kriging.
nmax
The maximum number of neighbouring locations for a spatio-temporal local neighbourhood
stAni
a spatio-temporal anisotropy scaling assuming a metric spatio-temporal space. Used only for the selection of the closest neighbours. This scaling needs only to be provided in case the model does not have a stAni parameter, or if a different one should be used for the neighbourhood selection. Mind the correct spatial unit. Currently, no coordinate conversion is made for the neighbourhood selection (i.e. Lat and Lon require a spatio-temporal anisotropy scaling in degrees per second).
...
further arguments used for instance to pass the model into vgmAreaST for area-to-point kriging
computeVar
logical; if TRUE, prediction variances will be returned
fullCovariance
logical; if FALSE a vector with prediction
variances will be returned, if TRUE the full covariance matrix of
all predictions will be returned
bufferNmax
factor with which nmax is multiplied for an extended search radius (default=2). Set to 1 for no extension of the search radius.
progress
whether a progress bar shall be printed for local spatio-temporal kriging; default=TRUE
lambda
The value of lambda used in the box-cox transformation.
Details
Function krigeST is a R implementation of the kriging function from
gstat using spatio-temporal covariance models following the
implementation of krige0. Function krigeST offers some
particular methods for ordinary spatio-temporal (ST) kriging. In particular,
it does not support block kriging or kriging in a distance-based
neighbourhood, and does not provide simulation.
If data is of class sftime, then newdata MUST be
of class stars or sftime, i.e. mixing form old-style
classes (package spacetime) and new-style classes (sf, stars, sftime)
is not supported.
Value
An object of the same class as newdata (deriving from
ST). Attributes columns contain prediction and prediction
variance.
Author(s)
Edzer Pebesma, Benedikt Graeler
References
Benedikt Graeler, Edzer Pebesma, Gerard Heuvelink. Spatio-Temporal
Geostatistics using gstat. The R Journal 8(1), 204–218.
https://journal.r-project.org/archive/2016/RJ-2016-014/index.html
N.A.C. Cressie, 1993, Statistics for Spatial Data,
Wiley.
Pebesma, E.J., 2004. Multivariable geostatistics in S: the gstat package.
Computers and Geosciences, 30: 683-691.
See Also
krige0, gstat, predict, krigeTg
Examples
library(sp)
library(spacetime)
sumMetricVgm <- vgmST("sumMetric",
space = vgm( 4.4, "Lin", 196.6, 3),
time = vgm( 2.2, "Lin", 1.1, 2),
joint = vgm(34.6, "Exp", 136.6, 12),
stAni = 51.7)
data(air)
suppressWarnings(proj4string(stations) <- CRS(proj4string(stations)))
rural = STFDF(stations, dates, data.frame(PM10 = as.vector(air)))
rr <- rural[,"2005-06-01/2005-06-03"]
rr <- as(rr,"STSDF")
x1 <- seq(from=6,to=15,by=1)
x2 <- seq(from=48,to=55,by=1)
DE_gridded <- SpatialPoints(cbind(rep(x1,length(x2)), rep(x2,each=length(x1))),
proj4string=CRS(proj4string(rr@sp)))
gridded(DE_gridded) <- TRUE
DE_pred <- STF(sp=as(DE_gridded,"SpatialPoints"), time=rr@time)
DE_kriged <- krigeST(PM10~1, data=rr, newdata=DE_pred,
modelList=sumMetricVgm)
gridded(DE_kriged@sp) <- TRUE
stplot(DE_kriged)
gstat documentation built on Sept. 11, 2024, 7:46 p.m.
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| krigeST | R Documentation |
Ordinary global Spatio-Temporal Kriging
Description
Function for ordinary global and local and trans Gaussian spatio-temporal kriging on point support
Usage
krigeST(formula, data, newdata, modelList, beta, y, ...,
nmax = Inf, stAni = NULL,
computeVar = FALSE, fullCovariance = FALSE,
bufferNmax=2, progress=TRUE)
krigeSTTg(formula, data, newdata, modelList, y, nmax=Inf, stAni=NULL,
bufferNmax=2, progress=TRUE, lambda = 0)
Arguments
formula |
formula that defines the dependent variable as a linear
model of independent variables; suppose the dependent variable has name
|
data |
ST object: should contain the dependent variable and independent variables. |
newdata |
ST object with prediction/simulation locations in space and time; should contain attribute columns with the independent variables (if present). |
modelList |
object of class |
y |
matrix; to krige multiple fields in a single step, pass data
as columns of matrix |
beta |
The (known) mean for simple kriging. |
nmax |
The maximum number of neighbouring locations for a spatio-temporal local neighbourhood |
stAni |
a spatio-temporal anisotropy scaling assuming a metric spatio-temporal space. Used only for the selection of the closest neighbours. This scaling needs only to be provided in case the model does not have a stAni parameter, or if a different one should be used for the neighbourhood selection. Mind the correct spatial unit. Currently, no coordinate conversion is made for the neighbourhood selection (i.e. Lat and Lon require a spatio-temporal anisotropy scaling in degrees per second). |
... |
further arguments used for instance to pass the model into vgmAreaST for area-to-point kriging |
computeVar |
logical; if TRUE, prediction variances will be returned |
fullCovariance |
logical; if FALSE a vector with prediction variances will be returned, if TRUE the full covariance matrix of all predictions will be returned |
bufferNmax |
factor with which nmax is multiplied for an extended search radius (default=2). Set to 1 for no extension of the search radius. |
progress |
whether a progress bar shall be printed for local spatio-temporal kriging; default=TRUE |
lambda |
The value of lambda used in the box-cox transformation. |
Details
Function krigeST is a R implementation of the kriging function from
gstat using spatio-temporal covariance models following the
implementation of krige0. Function krigeST offers some
particular methods for ordinary spatio-temporal (ST) kriging. In particular,
it does not support block kriging or kriging in a distance-based
neighbourhood, and does not provide simulation.
If data is of class sftime, then newdata MUST be
of class stars or sftime, i.e. mixing form old-style
classes (package spacetime) and new-style classes (sf, stars, sftime)
is not supported.
Value
An object of the same class as newdata (deriving from
ST). Attributes columns contain prediction and prediction
variance.
Author(s)
Edzer Pebesma, Benedikt Graeler
References
Benedikt Graeler, Edzer Pebesma, Gerard Heuvelink. Spatio-Temporal Geostatistics using gstat. The R Journal 8(1), 204–218. https://journal.r-project.org/archive/2016/RJ-2016-014/index.html
N.A.C. Cressie, 1993, Statistics for Spatial Data, Wiley.
Pebesma, E.J., 2004. Multivariable geostatistics in S: the gstat package. Computers and Geosciences, 30: 683-691.
See Also
krige0, gstat, predict, krigeTg
Examples
library(sp)
library(spacetime)
sumMetricVgm <- vgmST("sumMetric",
space = vgm( 4.4, "Lin", 196.6, 3),
time = vgm( 2.2, "Lin", 1.1, 2),
joint = vgm(34.6, "Exp", 136.6, 12),
stAni = 51.7)
data(air)
suppressWarnings(proj4string(stations) <- CRS(proj4string(stations)))
rural = STFDF(stations, dates, data.frame(PM10 = as.vector(air)))
rr <- rural[,"2005-06-01/2005-06-03"]
rr <- as(rr,"STSDF")
x1 <- seq(from=6,to=15,by=1)
x2 <- seq(from=48,to=55,by=1)
DE_gridded <- SpatialPoints(cbind(rep(x1,length(x2)), rep(x2,each=length(x1))),
proj4string=CRS(proj4string(rr@sp)))
gridded(DE_gridded) <- TRUE
DE_pred <- STF(sp=as(DE_gridded,"SpatialPoints"), time=rr@time)
DE_kriged <- krigeST(PM10~1, data=rr, newdata=DE_pred,
modelList=sumMetricVgm)
gridded(DE_kriged@sp) <- TRUE
stplot(DE_kriged)
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