varcov.spatial: Computes Covariance Matrix and Related Results
In geoR: Analysis of Geostatistical Data
varcov.spatial R Documentation
Computes Covariance Matrix and Related Results
Description
This function builds the covariance matrix for a set of spatial
locations, given the covariance parameters.
According to the input options other results related to the covariance matrix
(such as decompositions, determinants, inverse. etc)
can also be returned.
Usage
varcov.spatial(coords = NULL, dists.lowertri = NULL,
cov.model = "matern", kappa = 0.5, nugget = 0,
cov.pars = stop("no cov.pars argument"),
inv = FALSE, det = FALSE,
func.inv = c("cholesky", "eigen", "svd", "solve"),
scaled = FALSE, only.decomposition = FALSE,
sqrt.inv = FALSE, try.another.decomposition = TRUE,
only.inv.lower.diag = FALSE, ...)
Arguments
coords
an n \times 2 matrix with the coordinates
of the data locations. If not provided
the argument dists.lowertri should be provided instead.
dists.lowertri
a vector with the lower triangle of the matrix
of distances between pairs of data points. If not provided
the argument coords should be provided instead.
cov.model
a string indicating the type of the correlation
function. More details in the
documentation for cov.spatial.
Defaults are equivalent to the exponential model.
kappa
values of the additional smoothness parameter, only required by
the following correlation
functions: "matern", "powered.exponential", "cauchy" and
"gneiting.matern".
nugget
the value of the nugget parameter \tau^2.
cov.pars
a vector with 2 elements or an ns \times 2 matrix with
the covariance parameters. The first element (if a vector) or first
column (if a matrix) corresponds to the variance parameter \sigma^2.
second element or column corresponds to the correlation function parameter
\phi. If a matrix is provided each row corresponds to
the parameters of one spatial structure. Models with several structures
are also called nested models in the geostatistical
literature.
inv
if TRUE the inverse of covariance
matrix is returned. Defaults to FALSE.
det
if TRUE the logarithmic of the square root of the
determinant of the covariance
matrix is returned. Defaults to FALSE.
func.inv
algorithm used for the decomposition and inversion of the covariance
matrix. Options are "chol" for Cholesky decomposition,
"svd" for singular value decomposition and "eigen" for
eigenvalues/eigenvectors decomposition. Defaults to "chol".
scaled
logical indicating whether the covariance matrix should
be scaled. If TRUE the partial sill
parameter \sigma^2 is set to 1. Defaults to FALSE.
only.decomposition
logical. If TRUE only the square root
of the covariance matrix is
returned. Defaults to FALSE.
sqrt.inv
if TRUE the square root of the inverse of covariance
matrix is returned. Defaults to FALSE.
try.another.decomposition
logical. If TRUE and the argument
func.inv is one of "cholesky", "svd" or
"solve", the matrix decomposition or inversion is tested and,
if it fails, the argument func.inv is re-set to "eigen".
only.inv.lower.diag
logical. If TRUE only the lower triangle and
the diagonal of the inverse of the covariance matrix are
returned. Defaults to FALSE.
...
for naw, only for internal usage.
Details
The elements of the covariance matrix are computed by the function
cov.spatial. Typically this is an auxiliary function called by other
functions in the geoR package.
Value
The result is always list. The components will vary according to the input
options. The possible components are:
varcov
the covariance matrix.
sqrt.varcov
a square root of the covariance matrix.
lower.inverse
the lower triangle of the inverse of covariance
matrix.
diag.inverse
the diagonal of the inverse of covariance matrix.
inverse
the inverse of covariance matrix.
sqrt.inverse
a square root of the inverse of covariance
matrix.
log.det.to.half
the logarithmic of the square root of the
determinant of the covariance matrix.
Author(s)
Paulo J. Ribeiro Jr. paulojus@leg.ufpr.br,
Peter J. Diggle p.diggle@lancaster.ac.uk.
References
Further information on the package geoR can be found at:
http://www.leg.ufpr.br/geoR/.
See Also
cov.spatial for more information on the
correlation functions; chol, solve,
svd and eigen for matrix inversion and/or decomposition.
geoR documentation built on May 29, 2024, 1:36 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| varcov.spatial | R Documentation |
Computes Covariance Matrix and Related Results
Description
This function builds the covariance matrix for a set of spatial locations, given the covariance parameters. According to the input options other results related to the covariance matrix (such as decompositions, determinants, inverse. etc) can also be returned.
Usage
varcov.spatial(coords = NULL, dists.lowertri = NULL,
cov.model = "matern", kappa = 0.5, nugget = 0,
cov.pars = stop("no cov.pars argument"),
inv = FALSE, det = FALSE,
func.inv = c("cholesky", "eigen", "svd", "solve"),
scaled = FALSE, only.decomposition = FALSE,
sqrt.inv = FALSE, try.another.decomposition = TRUE,
only.inv.lower.diag = FALSE, ...)
Arguments
coords |
an |
dists.lowertri |
a vector with the lower triangle of the matrix
of distances between pairs of data points. If not provided
the argument |
cov.model |
a string indicating the type of the correlation
function. More details in the
documentation for |
kappa |
values of the additional smoothness parameter, only required by
the following correlation
functions: |
nugget |
the value of the nugget parameter |
cov.pars |
a vector with 2 elements or an |
inv |
if |
det |
if |
func.inv |
algorithm used for the decomposition and inversion of the covariance
matrix. Options are |
scaled |
logical indicating whether the covariance matrix should
be scaled. If |
only.decomposition |
logical. If |
sqrt.inv |
if |
try.another.decomposition |
logical. If |
only.inv.lower.diag |
logical. If |
... |
for naw, only for internal usage. |
Details
The elements of the covariance matrix are computed by the function
cov.spatial. Typically this is an auxiliary function called by other
functions in the geoR package.
Value
The result is always list. The components will vary according to the input options. The possible components are:
varcov |
the covariance matrix. |
sqrt.varcov |
a square root of the covariance matrix. |
lower.inverse |
the lower triangle of the inverse of covariance matrix. |
diag.inverse |
the diagonal of the inverse of covariance matrix. |
inverse |
the inverse of covariance matrix. |
sqrt.inverse |
a square root of the inverse of covariance matrix. |
log.det.to.half |
the logarithmic of the square root of the determinant of the covariance matrix. |
Author(s)
Paulo J. Ribeiro Jr. paulojus@leg.ufpr.br,
Peter J. Diggle p.diggle@lancaster.ac.uk.
References
Further information on the package geoR can be found at:
http://www.leg.ufpr.br/geoR/.
See Also
cov.spatial for more information on the
correlation functions; chol, solve,
svd and eigen for matrix inversion and/or decomposition.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.