prevR (version 3.4.0)

krige,ANY,prevR-method: Spatial interpolation (kriging and inverse distance weighting) for objects of class prevR.

Description

These functions execute a spatial interpolation of a variable of the slot rings of an object of class prevR. The method krige implements the ordinary kriging technique. The method idw executes an inverse distance weighting interpolation.

Usage

# S4 method for ANY,prevR
krige(formula, locations, N = NULL, R = Inf,
  model = NULL, nb.cells = 100, cell.size = NULL, fit = "auto",
  keep.variance = FALSE, show.variogram = FALSE, ...)

# S4 method for ANY,prevR idw(formula, locations, N = NULL, R = Inf, nb.cells = 100, cell.size = NULL, idp = 2, ...)

Arguments

formula

variable(s) to interpolate (see details).

locations

object of class prevR.

N

integer or list of integers corresponding to the rings to use.

R

integer or list of integers corresponding to the rings to use.

model

a variogram model returned by the function vgm{gstat}.

nb.cells

number of cells on the longuest side of the studied area (unused if cell.size is defined).

cell.size

size of each cell (in the unit of the projection).

fit

"auto" for using a variogram automatically fitted from the data, "manual" for using a variogram fitted through a graphic interface (unused if model is defined).

keep.variance

return variance of estimates?

show.variogram

plot the variogram?

additional arguments transmited to krige{gstat} or idw{gstat}.

idp

inverse distance weighting power (see idw{gstat}).

Value

Object of class SpatialPixelsDataFrame. The name of estimated surfaces depends on the name of the interpolated variable, N and R (for example: r.radius.N300.RInf). If you ask the function to return variance (keep.variance=TRUE), corresponding surfaces names will have the suffix .var.

NA value is applied to points located outside of the studied area (voir NA.outside.SpatialPolygons).

Details

formula specifies the variable(s) to interpolate. Only variables available in the slot rings of locations could be used. Possible values are "r.pos", "r.n", "r.prev", "r.radius", "r.clusters", "r.wpos", "r.wn" ou "r.wprev". Variables could be specifed with a character string or a formula (example: list(r.pos~1,r.prev~1). Only formula like variable.name~1 are accepted. For more complexe interpolations, use directly functions krige and idw from gstat.

N and R determine the rings to use for the interpolation. If they are not defined, surfaces will be estimated for each available couples (N,R). Several interpolations could be simultaneously calculated if several variables and/or several values of N and R are defined.

A suggested value of N could be computed with Noptim.

In the case of an ordinary kriging, the method krige from prevR will try to fit automatically a exponantial variogram to the sample variogram (fit="auto"). If you choose fit="manual", the sample variogram will be plotted and a graphical dialog box (adapted from eyefit{geoR}) will appear for a manual and visual fitting. You can also specify directly the variogram to use with the parameter model. Packages geoR and tcltk are required for manual fit.

Interpolations are calculated on spatial gridd obtained with as.SpatialGrid.

References

Larmarange Joseph, Vallo Roselyne, Yaro Seydou, Msellati Philippe and Meda Nicolas (2011) "Methods for mapping regional trends of HIV prevalence from Demographic and Health Surveys (DHS)", Cybergeo: European Journal of Geography, no 558, http://cybergeo.revues.org/24606, DOI: 10.4000/cybergeo.24606.

See Also

krige{gstat}, idw{gstat}, rings,prevR-method, Noptim.

Examples

Run this code
# NOT RUN {
  
# }
# NOT RUN {
    dhs <- rings(fdhs, N = c(100,200,300,400,500))
    radius.N300 <- krige('r.radius', dhs, N = 300, nb.cells = 200)
    prev.krige <- krige(r.wprev ~ 1, dhs, N = c(100, 300, 500))
    library(sp)
    spplot(prev.krige, c('r.wprev.N100.RInf', 'r.wprev.N300.RInf', 'r.wprev.N500.RInf'))
  
# }
# NOT RUN {
# }

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