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enter image description hereI am trying find the probability that a point lies within an ellipse? For eg if I was plotting the bivariate data (x,y) for 300 datasets in an 95% ellipsoid region, how do I calculate how many times out of 300 will my points fall inside the ellipse?

Heres the code I am using

   library(MASS)
   seed<-1234
   x<-NULL
   k<-1
   Sigma2 <- matrix(c(.72,.57,.57,.46),2,2)
   Sigma2
   rho <- Sigma2[1,2]/sqrt(Sigma2[1,1]*Sigma2[2,2])
   rho
   eta1<-replicate(300,mvrnorm(k, mu=c(-1.59,-2.44), Sigma2))

   library(car)
   dataEllipse(eta1[1,],eta1[2,], levels=c(0.05, 0.95))

Thanks for your help.

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2  
Um, if it is a 95% ellipse, then the probability IS 95%, by definition. 95% of 300 is 285. WTP? –  user85109 Jul 12 '13 at 23:34
2  
Yes. That was my impression when I saw it on Rhelp earlier today. To user1560215 aka Anamika Chaudhuri, you are asked not to crosspost to Rhelp. –  BondedDust Jul 13 '13 at 1:10
1  
DWin, I understand I am not allowed to crosspost if I had received responses from the other post but I didnt. –  user1560215 Jul 13 '13 at 1:43
1  
As it seems, dataEllipse estimates the respective means and covariance matrix from the data set and then (by assuming an underlying multivariate normal distribution) draws the user-provided (see levels parameter) quantiles. These quantiles do not necessarily coincide with the quantiles of the empirical data, i.e. the data given in eta1. –  cryo111 Jul 13 '13 at 2:35
1  
Disagree that this is off-topic. See posted answer. –  Hong Ooi Jul 13 '13 at 10:25

1 Answer 1

up vote 3 down vote accepted

I don't see why people are jumping on the OP. In context, it's clearly a programming question: it's about getting the empirical frequency of data points within a given ellipse, not a theoretical probability. The OP even posted code and a graph showing what they're trying to obtain.

It may be that they don't fully understand the statistical theory behind a 95% ellipse, but they didn't ask about that. Besides, making plots and calculating frequencies like this is an excellent way of coming to grips with the theory.

Anyway, here's some code that answers the narrowly-defined question of how to count the points within an ellipse obtained via a normal distribution (which is what underlies dataEllipse). The idea is to transform your data to the unit circle via principal components, then get the points within a certain radius of the origin.

within.ellipse <- function(x, y, plot.ellipse=TRUE)
{
    if(missing(y) && is.matrix(x) && ncol(x) == 2)
    {
        y <- x[,2]
        x <- x[,1]
    }

    if(plot.ellipse)
        dataEllipse(x, y, levels=0.95)

    d <- scale(prcomp(cbind(x, y), scale.=TRUE)$x)
    rad <- sqrt(2 * qf(.95, 2, nrow(d) - 1))
    mean(sqrt(d[,1]^2 + d[,2]^2) < rad)
}

It was also commented that a 95% data ellipse contains 95% of the data by definition. This is certainly not true, at least for normal-theory ellipses. If your distribution is particularly bad, the coverage frequency may not even converge to the assumed level as the sample size increases. Consider a generalised pareto distribution, for example:

library(evd) # for rgpd

# generalised pareto has no variance for shape > 0.5
z <- sapply(1:1000, function(...) within.ellipse(rgpd(100, shape=5), rgpd(100, shape=5), FALSE))
mean(z)
[[1] 0.97451

z <- sapply(1:1000, function(...) within.ellipse(rgpd(10000, shape=5), rgpd(10000, shape=5), FALSE))
mean(z)
[1] 0.9995808
share|improve this answer
    
+1! excellent even I think that within.ellipse need more explanation(how do you compute rad?) –  agstudy Jul 13 '13 at 9:31
    
Hong Ooi: Thanks for your reply, it is very helpful. So for my example x<-eta[1,] y<-eta[2,] and apply your code, I am not sure how it will calculate the frequencies of points inside/outside the ellipse. Sorry for not understanding. Thanks –  user1560215 Jul 13 '13 at 16:21
    
Yes, the x and y correspond to your eta[,1] and eta[,2]. If you run the code with a small sample (say 10 or 100 obervations), you should see that the fraction of points inside the ellipse corresponds to the printed output of the function. –  Hong Ooi Jul 13 '13 at 16:24
    
Sorry, could you please help me with the code to print output of the function? –  user1560215 Jul 14 '13 at 15:33
    
I'm not sure what you're asking for. If you just run within.ellipse(eta[,1], eta.[,2]) you should see it return a number. That number is the fraction of points inside the ellipse. –  Hong Ooi Jul 14 '13 at 15:34

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