I have a NetCDF file of a probability surface. It's a 30x30 grid of 0.25 degree lat/lon intervals with a probability surface described in the z dimension. I can easily import this into Panoply, a NetCDF viewer:

Raw Grid Data

And it's then a breeze (checking one box) to interpolate/smooth the raw data to a finer grid size:

Interpolated Grid Data

However, I don't just want to visualize the data, I want to plot it in R along with bathymetry and point data. That all is no problem, but I have not found a straightforward way to interpolate the gridded data in R. Here's the code I use to import and plot the data:


nc <- open.nc("132235-1.nc")
tmp <- read.nc(nc)

xran <- range(tmp$longitude)
yran <- range(tmp$latitude)
zran <- range(probs,na.rm=T)
lon <- tmp$longitude
lat <- tmp$latitude[30:1]

z <- array(probs, dim=dim(probs))

z <- z[,rev(seq(ncol(z)))]
z <- z[,seq(ncol(z))]


zbreaks <- seq(0.0001, 0.063, by=0.001)

cols<- c(prob.pal(length(zbreaks)-1))

png("ProbTest.png", width=7.5, height=6, units="in", res=200)
layout(matrix(1:2, 1,2), widths=c(6,1.5), heights=c(6))

par(mar=c(2,2,1,1), ps=10)
image(lon, lat, z=z, col=cols, breaks=zbreaks, useRaster=TRUE, ylim=c(13,28), xlim=c(-115,-100))


And I end up with this, which is the same as using Panoply but with a different color scheme:

R-plotted Prob Surface

Is there a straightforward way to interpolate/smooth this data? I know how to create kernel utilization densities etc. using point data, but not using gridded data.

Many thanks for your assistance!

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  • I'd use the raster package to first read in the NetCDF file using raster() or brick() and to then smooth the data to a finer-scale resolution using resample(). – Josh O'Brien May 29 '15 at 19:31

This is the solution I think you're looking for, which uses bilinear resampling. However this is not the only way to do such interpolation and you'd likely need to justify not using a more sophisticated approach (e.g. geostatistical, splines, etc.):


##  Create an extent boundary:
ex <- extent(c(0, 20, 0, 20))

##  Simulate a coarse raster:
r.small <- raster(ex, vals=rnorm(10*10, mean=5, sd=1), nrow=10, ncol=10)

##  Simulate the grid of a finer-scale raster:
r.big <- raster(ncol=200, nrow=200, ext=ex)

##  Resample the coarser raster to match finer grid:
r.res <- resample(x=r.small, y=r.big, method="bilinear")






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  • Hi Forrest—this most certainly did the trick, and solved a lot of other problems I was having, as I didn't realize raster could read NetCDF files. Many thanks for the solution! – stewart6 May 31 '15 at 23:11
  • You're very welcome, but I should say thank you to Robert Hijmans and the rest of the contributors to the raster package as their hard work makes this kind of thing very easy in R. – Forrest R. Stevens May 31 '15 at 23:16

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