interpBarnes {oce} | R Documentation |
Grid Data Using the Barnes Algorithm
Description
The algorithm follows that described by Koch et al. (1983), except
that interpBarnes
adds (1) the ability to
blank out the grid where data are
sparse, using the trim
argument, and (2) the ability to
pre-grid, with the pregrid
argument.
Usage
interpBarnes(
x,
y,
z,
w,
xg,
yg,
xgl,
ygl,
xr,
yr,
gamma = 0.5,
iterations = 2,
trim = 0,
pregrid = FALSE,
debug = getOption("oceDebug")
)
Arguments
x , y |
a vector of x and y locations. |
z |
a vector of z values, one at each (x,y) location. |
w |
a optional vector of weights at the (x,y) location. If not
supplied, then a weight of 1 is used for each point, which means equal
weighting. Higher weights give data points more influence. If |
xg , yg |
optional vectors defining the x and y grids. If not supplied,
these values are inferred from the data, using e.g. |
xgl , ygl |
optional lengths of the x and y grids, to be constructed with
|
xr , yr |
optional values defining the x and y radii of the weighting ellipse. If not supplied, these are calculated as the span of x and y over the square root of the number of data. |
gamma |
grid-focussing parameter. At each successive iteration, |
iterations |
number of iterations. Set this to 1 to perform just
one iteration, using the radii as described at |
trim |
a number between 0 and 1, indicating the quantile of data weight
to be used as a criterion for blanking out the gridded value (using
|
pregrid |
an indication of whether to pre-grid the data. If
|
debug |
a flag that turns on debugging. Set to 0 for no debugging information, to 1 for more, etc; the value is reduced by 1 for each descendent function call. |
Value
A list containing: xg
, a vector holding the x-grid);
yg
, a vector holding the y-grid; zg
, a matrix holding the
gridded values; wg
, a matrix holding the weights used in the
interpolation at its final iteration; and zd
, a vector of the same
length as x
, which holds the interpolated values at the data points.
Author(s)
Dan Kelley
References
S. E. Koch and M. DesJardins and P. J. Kocin, 1983. “An interactive Barnes objective map analysis scheme for use with satellite and conventional data,” J. Climate Appl. Met., vol 22, p. 1487-1503.
See Also
See wind()
.
Examples
library(oce)
# 1. contouring example, with wind-speed data from Koch et al. (1983)
data(wind)
u <- interpBarnes(wind$x, wind$y, wind$z)
contour(u$xg, u$yg, u$zg, labcex = 1)
text(wind$x, wind$y, wind$z, cex = 0.7, col = "blue")
title("Numbers are the data")
# 2. As 1, but blank out spots where data are sparse
u <- interpBarnes(wind$x, wind$y, wind$z, trim = 0.1)
contour(u$xg, u$yg, u$zg, level = seq(0, 30, 1))
points(wind$x, wind$y, cex = 1.5, pch = 20, col = "blue")
# 3. As 1, but interpolate back to points, and display the percent mismatch
u <- interpBarnes(wind$x, wind$y, wind$z)
contour(u$xg, u$yg, u$zg, labcex = 1)
mismatch <- 100 * (wind$z - u$zd) / wind$z
text(wind$x, wind$y, round(mismatch), col = "blue")
title("Numbers are percent mismatch between grid and data")
# 4. As 3, but contour the mismatch
mismatchGrid <- interpBarnes(wind$x, wind$y, mismatch)
contour(mismatchGrid$xg, mismatchGrid$yg, mismatchGrid$zg, labcex = 1)
# 5. One-dimensional example, smoothing a salinity profile
data(ctd)
p <- ctd[["pressure"]]
y <- rep(1, length(p)) # fake y data, with arbitrary value
S <- ctd[["salinity"]]
pg <- pretty(p, n = 100)
g <- interpBarnes(p, y, S, xg = pg, xr = 1)
plot(S, p, cex = 0.5, col = "blue", ylim = rev(range(p)))
lines(g$zg, g$xg, col = "red")