# Finding coverage using Bivariate Ellipse

I am struggling with a problem on estimation. In several instances I have shown how to calculate a Bivariate Ellipse using a vector of points generated by Bivariate Normal distribution. The code works fine except that the coverage (the number of times the generated or true ps(p1,p2) are contained in the estimated ellipse) I am getting seems extremely low. I should also state that the old version of R gave significantly different results compared to the new version. I am now using R 3.0.1. Here is the code to be able to reproduce the problem.

``````  library(MASS)
set.seed(1234)
x1<-NULL
x2<-NULL
k<-1
Sigma2 <- matrix(c(.72,.57,.57,.46),2,2)
Sigma2
rho <- Sigma2[1,2]/sqrt(Sigma2[1,1]*Sigma2[2,2])
eta<-replicate(300,mvrnorm(k, mu=c(-1.01,-2.39), Sigma2))
p1<-exp(eta)/(1+exp(eta)) # true p's
n<-60
x1<-replicate(300,rbinom(k,n,p1[1,]))
x2<-replicate(300,rbinom(k,n,p1[2,]))

rate1<-x1/60  # Estimated p's
rate2<-x2/60
library(car)
ell <- dataEllipse(rate1, rate2, levels=c(0.05, 0.95))
library(sp)
within<-point.in.polygon(p1[1,], p1[2,], ell\$`0.95`[,1], ell\$`0.95`[,2])
mean(within)    # coverage
``````
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The mistake lies in the lines:

``````x1<-replicate(300,rbinom(k,n,p1[1,]))
x2<-replicate(300,rbinom(k,n,p1[2,]))
``````

Because `k=1`, the call `rbinom(k,n,p1[1,])` generates a single random deviate, and only the first probability in `p1[1,]` is used. You are replicating this call 300 times, and so are using the same probability for each deviate. Therefore, `rate1` and `rate2` occupy a far smaller parameter space than does `p1`. Visualize this by plotting `p1` over your data ellipse:

``````x1<-replicate(300,rbinom(k,n,p1[1,]))
x2<-replicate(300,rbinom(k,n,p1[2,]))

rate1<-x1/60  # Estimated p's
rate2<-x2/60
library(car)
plot.new()
ell <- dataEllipse(rate1, rate2, levels=c(0.05, 0.95), plot.points=T, pch=NA)
library(sp)
within<-point.in.polygon(p1[1,], p1[2,], ell\$`0.95`[,1], ell\$`0.95`[,2])
mean(within)

plot(p1[1,which(within==1)], p1[2,which(within==1)], col="blue", ylim=c(0,1),xlim=c(0,1))
points(p1[1,which(within==0)], p1[2,which(within==0)], col="green")

ell <- dataEllipse(rate1, rate2, levels=c(0.05, 0.95), plot.points=T, pch=NA, add=T)
``````

The correct code gives the appropriate coverage (around 95%):

``````x1<-rbinom(300,n,p1[1,])
x2<-rbinom(300,n,p1[2,])
rate1<-x1/60  # Estimated p's
rate2<-x2/60
library(car)
plot.new()
ell <- dataEllipse(rate1, rate2, levels=c(0.05, 0.95), plot.points=T, pch=NA)
library(sp)
within<-point.in.polygon(p1[1,], p1[2,], ell\$`0.95`[,1], ell\$`0.95`[,2])
mean(within)

plot(p1[1,which(within==1)], p1[2,which(within==1)], col="blue", ylim=c(0,1),xlim=c(0,1))
points(p1[1,which(within==0)], p1[2,which(within==0)], col="green")
ell <- dataEllipse(rate1, rate2, levels=c(0.05, 0.95), plot.points=T, pch=NA, add=T)
``````
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As a followup, is there a function in R to find area of the above generated Ellipse? –  user1560215 Aug 27 '13 at 19:26