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I am using the sm package in R to draw a density plot of several variables with different sample sizes, like this:

var1 <- density(vars1[,1]) 
var2 <- density(vars2[,1]) 
var3 <- density(vars3[,1]) 

pdf(file="density.pdf",width=8.5,height=8)
plot(var1,col="BLUE")  
par(new=T)
plot(var2,axes=FALSE,col="RED")  
par(new=T)
plot(var3,axes=FALSE,col="GREEN")  
dev.off()

The problem I'm having, is that I want the y-axis to show the proportions so I can compare the different variables with each other in a more meaningful way. The maxima of all three density plots are now exactly the same, and I'm pretty sure that they wouldn't be if the y-axis showed proportions. Any suggestions? Many thanks!

Edit:

I just learned that I should not plot on top of an existing plot, so now the plotting part of the code looks like this:

pdf(file="density.pdf",width=8.5,height=8)
plot(var1,col="BLUE")  
lines(var2,col="RED")  
lines(var3,col="GREEN")  
dev.off()

The maxima of those lines however are now very much in line with the sample size differences. Is there a way to put the proportions on the y-axis for all three variables, so the area under the curve is equal for all three variables? Many thanks!

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2 Answers 2

up vote 3 down vote accepted

Don't plot on top of an existing plot, because they axes may be different. Instead, use lines() to plot the second and third densities after plotting the first. If necessary, adjust the ylim parameter in plot() so that they all fit.

An example for how sample size ought not matter:

    set.seed(1)
    D1 <- density(rnorm(1000))
    D2 <- density(rnorm(10000))
    D3 <- density(rnorm(100000))
    plot(D1$x,D1$y,type='l',col="red",ylim=c(0,.45))
    lines(D2$x,D2$y,lty=2,col="blue")
    lines(D3$x,D3$y,lty=3,col="green")

enter image description here

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Thank you very much! That helped. But it still looks like the maxima of those lines are very much in line with the sample size differences. Is there a way to put the proportions on the y-axis for all three variables? –  Abdel Feb 20 '12 at 11:38
1  
To make densities comparable, what you want is an equal area under the curve, not necessarily the same maxima. It's hard to tell if there's something else that needs to be taken into account without your data though. Can you post your data, a sample of it, or simulated data similar to yours? Then myself or someone else might take a look –  tim riffe Feb 20 '12 at 11:49
    
I don't expect the maxima to be the same, but the large differences they show now are clearly due to the sample size differences. What I want is indeed an equal area under the curve... For the first variable I have about 100,000 observations, for the second about half of that, and for the third even less (the sample size differences are pretty large). –  Abdel Feb 20 '12 at 11:51
1  
well, the sample size shouldn't make a difference: see example above. Are you being tricked by different x-ranges? –  tim riffe Feb 20 '12 at 11:58
1  
The value of a density function is not a proportion: it is not guaranteed to be between 0 and 1. The area under the curve is 1, but if the density is very concentrated (which is more likely to be visible if you have a lot of data), the maximum can be very high. Example: curve(dbeta(x,1,100), xlim=c(-.1,1.1)). –  Vincent Zoonekynd Feb 20 '12 at 13:33

You could make tim's solution a little more flexible by not hard-coding in the limits.

plot(D1$x,D1$y,type='l',col="red",ylim=c(0, max(sapply(list(D1, D2, D3),
    function(x) {max(x$y)}))))

This would also cater for Vincent's point that the density functions are not necessarily constrained in their range.

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