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What packages and functions in R can perform a two dimensional non-additive local regression/smooth. For example consider

b<-seq(-6*pi,6*pi,length=100)
xy<-expand.grid(b,b) 
x=xy[[1]]
y=xy[[2]]
z= sin(x)+cos(y) + 2*sin(x)*cos(y)
contour(b,b,matrix(z,100,100))

alt text

What functions could estimate this?

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OK now a little more complicated how do I do in in an additive, binary framework? –  Andrew Redd Oct 18 '10 at 21:58
    
You may also try on stats.stackexchange.com –  mbq Oct 19 '10 at 11:30
    
Doing this with binary data could be a little tricky. Two things I can think of: (1) do loess anyway; use bootstrap to get confidence intervals (a little tricky because of the spatial aspect -- block bootstrap?) or (2) use gam() in mgcv (but see @ucfagls's comment below for difficulties with this approach) –  Ben Bolker Oct 20 '10 at 18:37
    
PS perhaps you could also try some sort of Fourier or wavelet transform/smooth –  Ben Bolker Oct 20 '10 at 18:37
    
I'm looking at the locfit package for doing local likelihood in an additive model, but keep getting errors. I might have to do loess despite the binary nature. –  Andrew Redd Oct 21 '10 at 15:35

2 Answers 2

up vote 3 down vote accepted

you can do this with loess:

fit <- loess( z ~ x+ y, span=0.01 )
dev.new()

contour( b, b, matrix( predict(fit), 100, 100 ) )
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mgcv has a variety of 2-D spline options.

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That was going to be my suggestion after I saw Greg's answer. However, when I tried this I needed to fit a very complex surface using a large number of knots and even then, the fit was not as good as the loess() one in this case. I used something like gam( z ~ s(x, y, k = 200) to get a reasonable fit. I didn't explore much further as my old laptop wasn't up to the task of fitting these models quickly. –  Gavin Simpson Oct 19 '10 at 7:57

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