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I have two spatially projected raster objects that are NOT overlapping. One raster (rk) has reliable values and the values of the other one (dnn) is unreliable.

plot(dnn, add=TRUE, col='gray80')

In this figure (showing a subset of my data), the colors are representing the values of the reliable raster whereas I plotted all unreliable raster pixels as gray. I want to change the unreliable values based on the reliable values. An easier solution to the problem might be assigning the mean of the nearest neighbor values of the surrounding reliable pixels (mean) to the unreliable ones and thereafter merging those together.

I thought the first step might be finding a buffer around each of the gray cells, then finding the mean values within each buffer. However, to deal with the NAs (not including those in computation), I determined the non-NA indexes first

#selecting those index that are non-NAs
> length(idx)
[1] 602
#proving that the determined idx is correct
> sum(!is.na(getValues(dnn)))
[1] 602

But I'm getting an error while doing the buffering

#doing buffer for those idx only
for (i in idx[i]) {b(i)<-buffer(dnn[i], width=500)}
Error in (function (classes, fdef, mtable)  : 
  unable to find an inherited method for function ‘buffer’ for signature ‘"numeric"’

I'm not sure if this is the right way, even after getting the buffers, calculating the mean (I expect to use the zonal statistics) and assigning those to corresponding gray cells doesn't look like an easy task to me. Any suggestions??

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1 Answer 1

up vote 0 down vote accepted

Use a point-pattern approach. Treat each unreliable cell as an x,y coordinate, and all the reliable cells as x,y,Z values. Put the x,y,Z into a spatial interpolation algorithm, such as simple inverse distance weighting or less-simple Kriging, and then predict at the unreliable x,y locations. Put the predicted values back in the grid at the right place.

The automap package can help you here (also gstat and the R Spatial Task View).

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thanks@Spacedman, but the problem is that I actually don't want to interpolate - that will be my last resort. I'm trying the 'adjacent' function of raster package. –  ToNoY Dec 30 '13 at 16:58
Unless the values are categorical and not continuous numeric I can't see the point in using adjacency compared to a principled method that can not only get you estimates but error estimates too. Oh well... –  Spacedman Dec 30 '13 at 22:57
I actually tried adjacent and failed, I think interpolation is the only choice I had! –  ToNoY Jan 5 at 4:58

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