stats-interpAkima: Bivariate Spline Interpolation
In fBasics: Rmetrics - Markets and Basic Statistics
akimaInterp R Documentation
Bivariate Spline Interpolation
Description
Interpolates bivariate data sets using Akima
spline interpolation.
Usage
akimaInterp(x, y = NULL, z = NULL, gridPoints = 21,
xo = seq(min(x), max(x), length = gridPoints),
yo = seq(min(y), max(y), length = gridPoints), extrap = FALSE)
akimaInterpp(x, y = NULL, z = NULL, xo, yo, extrap = FALSE)
Arguments
x, y, z
for akimaInterp the arguments x and y are
two numeric vectors of grid pounts, and z is a numeric
matrix or any other rectangular object which can be transformed
by the function as.matrix into a matrix object.
For akimaInterpp we consider either three numeric vectors
of equal length or if y and z are NULL, a list with
entries x, y, z, or named data frame with
x in the first, y in the second, and z in
the third column.
gridPoints
an integer value specifying the number of grid points in x
and y direction.
xo, yo
for akimaInterp
two numeric vectors of data points spanning the grid, and
for akimaInterpp
two numeric vectors of data points building pairs for pointwise
interpolation.
extrap
a logical, if TRUE then the data points are extrapolated.
Details
Two options are available: gridded and pointwise interpolation.
akimaInterp is a wrapper to interp provided by the
contributed R package akima. The Fortran code of the Akima
spline interpolation routine was written by H. Akima.
Linear surface fitting and krige surface fitting are provided by the
functions linearInterp and krigeInterp.
Value
- akimaInterp
-
returns a list with at least three entries, x, y
and z. Note, that the returned values, can be directly
used by the persp and contour 3D plotting methods.
- akimaInterpp
-
returns a data.frame with columns "x", "y",
and "z".
Note
Package akima is no longer needed. Equivalent functions from
package interp are now called instead.
References
Akima H., 1978,
A Method of Bivariate Interpolation and Smooth Surface Fitting for
Irregularly Distributed Data Points,
ACM Transactions on Mathematical Software 4, 149-164.
Akima H., 1996,
Algorithm 761: Scattered-Data Surface Fitting that has the Accuracy
of a Cubic Polynomial,
ACM Transactions on Mathematical Software 22, 362-371.
See Also
linearInterp,
krigeInterp.
Examples
## Does not run for r-solaris-x86
## akimaInterp -- Akima Interpolation:
if (requireNamespace("interp")) {
set.seed(1953)
x <- runif(999) - 0.5
y <- runif(999) - 0.5
z <- cos(2*pi*(x^2+y^2))
ans <- akimaInterp(x, y, z, gridPoints = 41, extrap = FALSE)
persp(ans, theta = -40, phi = 30, col = "steelblue",
xlab = "x", ylab = "y", zlab = "z")
contour(ans)
}
## Use spatial as alternative on r-solaris-x86
## spatialInterp - Generate Kriged Grid Data:
if (requireNamespace("spatial")) {
RNGkind(kind = "Marsaglia-Multicarry", normal.kind = "Inversion")
set.seed(4711, kind = "Marsaglia-Multicarry")
x <- runif(999)-0.5
y <- runif(999)-0.5
z <- cos(2*pi*(x^2+y^2))
ans <- krigeInterp(x, y, z, extrap = FALSE)
persp(ans)
title(main = "Kriging")
contour(ans)
title(main = "Kriging")
}
fBasics documentation built on Nov. 3, 2023, 3:01 p.m.
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| akimaInterp | R Documentation |
Bivariate Spline Interpolation
Description
Interpolates bivariate data sets using Akima spline interpolation.
Usage
akimaInterp(x, y = NULL, z = NULL, gridPoints = 21,
xo = seq(min(x), max(x), length = gridPoints),
yo = seq(min(y), max(y), length = gridPoints), extrap = FALSE)
akimaInterpp(x, y = NULL, z = NULL, xo, yo, extrap = FALSE)
Arguments
x, y, z |
for |
gridPoints |
an integer value specifying the number of grid points in |
xo, yo |
for |
extrap |
a logical, if |
Details
Two options are available: gridded and pointwise interpolation.
akimaInterp is a wrapper to interp provided by the
contributed R package akima. The Fortran code of the Akima
spline interpolation routine was written by H. Akima.
Linear surface fitting and krige surface fitting are provided by the
functions linearInterp and krigeInterp.
Value
- akimaInterp
-
returns a list with at least three entries,
x,yandz. Note, that the returned values, can be directly used by theperspandcontour3D plotting methods. - akimaInterpp
-
returns a data.frame with columns
"x","y", and"z".
Note
Package akima is no longer needed. Equivalent functions from
package interp are now called instead.
References
Akima H., 1978, A Method of Bivariate Interpolation and Smooth Surface Fitting for Irregularly Distributed Data Points, ACM Transactions on Mathematical Software 4, 149-164.
Akima H., 1996, Algorithm 761: Scattered-Data Surface Fitting that has the Accuracy of a Cubic Polynomial, ACM Transactions on Mathematical Software 22, 362-371.
See Also
linearInterp,
krigeInterp.
Examples
## Does not run for r-solaris-x86
## akimaInterp -- Akima Interpolation:
if (requireNamespace("interp")) {
set.seed(1953)
x <- runif(999) - 0.5
y <- runif(999) - 0.5
z <- cos(2*pi*(x^2+y^2))
ans <- akimaInterp(x, y, z, gridPoints = 41, extrap = FALSE)
persp(ans, theta = -40, phi = 30, col = "steelblue",
xlab = "x", ylab = "y", zlab = "z")
contour(ans)
}
## Use spatial as alternative on r-solaris-x86
## spatialInterp - Generate Kriged Grid Data:
if (requireNamespace("spatial")) {
RNGkind(kind = "Marsaglia-Multicarry", normal.kind = "Inversion")
set.seed(4711, kind = "Marsaglia-Multicarry")
x <- runif(999)-0.5
y <- runif(999)-0.5
z <- cos(2*pi*(x^2+y^2))
ans <- krigeInterp(x, y, z, extrap = FALSE)
persp(ans)
title(main = "Kriging")
contour(ans)
title(main = "Kriging")
}
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