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I am trying to write a code in R that use gstat library in order to create an interpolation. I have already read the gstat manual and based on some examples on internet I had managed to write this code (this is only a part):

 g <- gstat(id="tec", formula=TEC ~ 1, data=data)  ##I create an object
 v <- variogram(g) # plot the empirical variogram
 plot(v)
 mod<-vgm(sill=var(data$TEC),model="Sph",range=200,nugget=200) #create the variogram model

v.fit <- fit.variogram(v, model=mod,fit.method=1)  #fit the empirical variogram 
Theor_variogram=plot(variogram(g),v.fit,main="WLS Model") #plot the theoretical variogram
plot(Theor_variogram)
 ## Kriging interpolation
 p <- predict.gstat(g, model=v.fit, newdata=predGrid)

My problem is that, when I run the last command (predict) instead of getting a result with ordinary kriging interpolation, I get one with inverse distance weighted (IDW). I read in the gstat manual that: "When no variograms are specified, inverse distance weighted interpolation is the default action. When variograms are specified the default prediction method is ordinary kriging."

But, as you can see in my code, I specify both the empirical and theoretical variogram. Do you know why I keep getting IDW instead of ordinary kriging? Can it be related with the type of coordinates that I have? If for example I have coordinates close to each other, or if the region of interest is too big? Any help would be really useful.

Thanks in advance Dimitris

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You need to include the creation of the gstat object, not in de prediction phase:

g <- gstat(id="tec", formula=TEC ~ 1, data=data, model = v.fit)

However, I would recommend using the standard interface for gstat using krige. This combines the building of the gstat object and the prediction into one functions. Very rarely do you need to build gstat objects yourself. For example:

data(meuse)
coordinates(meuse) = ~x+y
data(meuse.grid)
gridded(meuse.grid) = ~x+y
m <- vgm(.59, "Sph", 874, .04) 
# OK:
x <- krige(log(zinc)~1, meuse, meuse.grid, model = m)

You could also use the automap package (which I am the author of) and let the variogram model be automatically fitted to the data. For example using the meuse dataset:

library(automap)
kr = autoKrige(log(zinc)~1, meuse, meuse.grid)

This will automatically build a sample variogram, and fit a variogram model to that sample variogram.

  • Thanx for your answer. Autokrige function sounds really interesting. When using it, can you specify the method for fitting (f.e WLS,OLS). Also, what initial values for sill/range/nugget does it use? In any case, I will try to find some documentation for it. Thanx – user1919 Dec 18 '12 at 16:57

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