vis.gam: Visualization of GAM objects

Description

Produces perspective or contour plot views of gam model predictions, fixing all but the values in view to the values supplied in cond.

Usage

vis.gam(x,view=NULL,cond=list(),n.grid=30,too.far=0,col=NA,
        color="heat",contour.col=NULL,se=-1,type="link",
        plot.type="persp",zlim=NULL,nCol=50,...)

Arguments

a gam object, produced by gam()

view

an array containing the names of the two main effect terms to be displayed on the x and y dimensions of the plot. If omitted the first two suitable terms will be used. Names must be names from names(x$model). i.e. terms

cond

a named list of the values to use for the other predictor terms (not in view). Terms omitted from this list will have their values set to their mean for continuous variables, or first level for factors. Names must correspond to names

n.grid

The number of grid nodes in each direction used for calculating the plotted surface.

too.far

plot grid nodes that are too far from the points defined by the variables given in view can be excluded from the plot. too.far determines what is too far. The grid is scaled into the unit square along with the view

col

The colours for the facets of the plot. If this is NA then if se>0 the facets are transparent, otherwise the colour scheme specified in color is used. If col is not NA then it is used as th

color

the colour scheme to use for plots when se<=0. one="" of="" "topo", "heat", "cm", "terrain", "gray" or "bw". Schemes "gray" and "bw" also modif

contour.col

sets the colour of contours when using plot.type="contour". Default scheme used if NULL.

if less than or equal to zero then only the predicted surface is plotted, but if greater than zero, then 3 surfaces are plotted, one at the predicted values minus se standard errors, one at the predicted values and one at the predicted value

type

"link" to plot on linear predictor scale and "response" to plot on the response scale.

plot.type

one of "contour" or "persp".

zlim

a two item array giving the lower and upper limits for the z-axis scale. NULL to choose automatically.

nCol

The number of colors to use in color schemes.

...

other options to pass on to persp, image or contour. In particular ticktype="detailed" will add pro

Value

Simply produces a plot.

Details

The x and y limits are determined by the ranges of the terms named in view. If se<=0 then="" a="" single="" (height="" colour="" coded,="" by="" default)="" surface="" is="" produced,="" otherwise="" three="" (by="" default see-through)="" meshes="" are="" produced="" at="" mean="" and="" +="" -="" se standard errors. Parts of the x-y plane too far from data can be excluded by setting too.far

All options to the underlying graphics functions can be reset by passing them as extra arguments ...: such supplied values will always over-ride the defualt values used by vis.gam.

Examples

Run this code

library(mgcv)
set.seed(0)
n<-200;sig2<-4
x0 <- runif(n, 0, 1);x1 <- runif(n, 0, 1)
x2 <- runif(n, 0, 1)
y<-x0^2+x1*x2 +runif(n,-0.3,0.3)
g<-gam(y~s(x0,x1,x2))
old.par<-par(mfrow=c(2,2))
# display the prediction surface in x0, x1 ....
vis.gam(g,ticktype="detailed",color="heat",theta=-35)  
vis.gam(g,se=2,theta=-35) # with twice standard error surfaces
vis.gam(g, view=c("x1","x2"),cond=list(x0=0.75)) # different view 
vis.gam(g, view=c("x1","x2"),cond=list(x0=.75),theta=210,phi=40,
        too.far=.07)
# contour examples....
vis.gam(g, view=c("x1","x2"),plot.type="contour",color="heat")
vis.gam(g, view=c("x1","x2"),plot.type="contour",color="terrain")
vis.gam(g, view=c("x1","x2"),plot.type="contour",color="topo")
vis.gam(g, view=c("x1","x2"),plot.type="contour",color="cm")

# ..... areas where there is no data are not plotted
par(old.par)

# Examples with factor and "by" variables

fac<-rep(1:4,20)
x<-runif(80)
y<-fac+2*x^2+rnorm(80)*0.1
fac<-factor(fac)
b<-gam(y~fac+s(x))

vis.gam(b,theta=-35,color="heat") # factor example

z<-rnorm(80)*0.4   
y<-as.numeric(fac)+3*x^2*z+rnorm(80)*0.1
b<-gam(y~fac+s(x,by=z))

vis.gam(b,theta=-35,color="heat",cond=list(z=1)) # by variable example

vis.gam(b,view=c("z","x"),theta= 35) # plot against by variable