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I have a density object dd created like this:

x1 <- rnorm(1000) 
x2 <- rnorm(1000, 3, 2) 
x <- rbind(x1, x2)
dd <- density(x) 

Which produces this very non-Gaussian distribution:

alt text

I would ultimately like to get random deviates from this distribution similar to how rnorm gets deviates from a normal distribution.

The way I am trying to crack this is to get the CDF of my kernel and then get it to tell me the variate if I pass it a cumulative probability (inverse CDF). That way I can turn a vector of uniform random variates into draws from the density.

It seems like what I am trying to do should be something basic that others have done before me. Is there a simple way or a simple function to do this? I hate reinventing the wheel.

FWIW I found this R Help article but I can't grok what they are doing and the final output does not seem to produce what I am after. But it could be a step along the way that I just don't understand.

I've considered just going with a Johnson distribution from the suppdists package but Johnson won't give me the nice bimodal hump which my data has.

share|improve this question
more of a stats question than programming... –  Mitch Wheat Sep 14 '09 at 15:33
I know the stats. I want to implement the stats method in a given language. That's programming. –  JD Long Sep 14 '09 at 15:34

2 Answers 2

Alternative approach:

sample(x, n, replace = TRUE)
share|improve this answer
bootstrapping ftw! –  Eduardo Leoni Sep 14 '09 at 16:46
yeah, I've been over thinking this. If I do sample + a draw from a normal I should end up thickening my tails the same way the kernel would, right? Assuming I param my normal the same way the kerneling method would. –  JD Long Sep 14 '09 at 17:02
Yes, add normal rvs with zero mean and sd=bandwidth from density estimate: sample(x, n, replace=TRUE) + rnorm(n,0,sd=0.4214) Simulating like this is discussed in Silverman's 1986 book on density estimation. –  Rob Hyndman Sep 14 '09 at 22:54
Or, sampling from the density curve, rather than from the data itself sample(dd$x, prob=dd$y, replace=T). –  nico Jan 19 at 9:47

This is just a mixture of normals. So why not something like:

rmnorm <- function(n,mean, sd,prob) {
    nmix <- length(mean)
    if (length(sd)!=nmix) stop("lengths should be the same.")
    y <- sample(1:nmix,n,prob=prob, replace=TRUE)
    mean.mix <- mean[y]
    sd.mix <- sd[y]
plot(density(rmnorm(10000,mean=c(0,3), sd=c(1,2), prob=c(.5,.5))))

This should be fine if all you need are samples from this mixture distribution.

share|improve this answer
I like the idea! But my example is oversimplified for illustrative purposes. In reality I don't know the two modes and it might have just one mode and a long ass tail (i.e. leptokurtosis). But I like your example. I could not have programmed that near as succinctly. BTW, i believe are missing a c in : plot(density(rmnorm(10000,mean=c(0,3), sd=c(1,2), prob=c(.5,.5)))) –  JD Long Sep 14 '09 at 16:29
@JD Long: thanks for spotting the typo. –  Eduardo Leoni Sep 14 '09 at 16:44
Which is why you want Hadley's answer -- resampling it is. Remember that your density plot is /just an estimate/ that also depends on your smoothing parameter. –  Dirk Eddelbuettel Sep 14 '09 at 16:49

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