I just estimated the parameters for a mixture of two gaussians with different means and different sigmas, I would like to test if the data adjusts well to the explicit form of the mixture, do I necessarily need to simulate data from the mixture or how can I test the goodness of fit? I am using the mixtools package.
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$\begingroup$ A nonparametric option is the Kolmogorov-Smirnov test but there are probably some ad hoc tools for the case of Gaussian mixtures. $\endgroup$– user10525Commented May 21, 2012 at 15:57
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1 Answer
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You can write a function that calculates the relevant value for a given test under the null hypothesis based on the outputs from, say, normalmixEM, then do the test using that. For example, for the Kolmogorov-Smirnov test, we need the CDF given a set of parameters:
# CDF of mixture of two normals
pmnorm <- function(x, mu, sigma, pmix) {
pmix[1]*pnorm(x,mu[1],sigma[1]) + (1-pmix[1])*pnorm(x,mu[2],sigma[2])
}
We then run the K-S test in the usual way:
# Sample run
x <- c(rnorm(50), rnorm(50,2))
foo <- normalmixEM(x)
test <- ks.test(x, pmnorm, mu=foo$mu, sigma=foo$sigma, pmix=foo$lambda)
test
One-sample Kolmogorov-Smirnov test
data: x
D = 0.0559, p-value = 0.914
alternative hypothesis: two-sided
Always keeping in mind the fact that we estimated the parameters from the same data we are using to do the test, thus biasing the test towards failure to reject H0.
We can overcome that latter bias to some extent via a parametric bootstrap - generating many samples from a mixture of normals parameterized by the estimates from normalmixEM, then estimating the parameters of the samples and calculating the test statistics for each sample using the estimated parameters. Under this construction, the null hypothesis is always true. In the code below, I'm helping the EM algorithm out by starting at the true parameters for the sample, which is also cheating a little, as it makes the EM algorithm more likely to find values near the true values than with the original sample, but greatly reduces the number of error messages.
# Bootstrap estimation of ks statistic distribution
N <- length(x)
ks.boot <- rep(0,1000)
for (i in 1:1000) {
z <- rbinom(N, 1, foo$lambda[1])
x.b <- z*rnorm(N, foo$mu[1], foo$sigma[1]) + (1-z)*rnorm(N, foo$mu[2], foo$sigma[2])
foo.b <- normalmixEM(x.b, maxit=10000, lambda=foo$lambda, mu=foo$mu, sigma=foo$sigma)
ks.boot[i] <- ks.test(x.b, pmnorm, mu=foo.b$mu, sigma=foo.b$sigma, pmix=foo.b$lambda)$statistic
}
mean(test$statistic <= ks.boot)
[1] 0.323
So instead of a p-value of 0.914, we get a p-value of 0.323. Interesting, but not particularly important in this case.
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$\begingroup$ Does anything change in the following case? I have 100 simulated obs from a mixture of two Normals. So i know the means and variances of the "true" mixture. I generate from the predictive distribution 20000 samples. How can i test if those samples are from the specific mixture? I believe i have to skip the foo variable and substitute the known means and variances in the ks.test right? or i am missing something bigger here? $\endgroup$– ChristosCommented Nov 20, 2013 at 14:48
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$\begingroup$ @Christos - Your intuition is correct - better to substitute the known means and variances in the ks test, and, if you do so, you don't need to bootstrap the ks test statistic either. $\endgroup$– jbowmanCommented Nov 20, 2013 at 14:53
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$\begingroup$ Could you please explain how a $p=0.914$ implies that the data from the mixture distribution? I thought failure to reject H0 did not mean that. $\endgroup$– JacobCommented May 5, 2014 at 11:58
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$\begingroup$ @Jacob - where did I say that a p-value of 0.914 implies that the data is from a mixture distribution? $\endgroup$– jbowmanCommented May 5, 2014 at 17:30
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$\begingroup$ @jbowman: I'm sorry, you obviously don't. However, is there a statistical test to establish equivalence? I.e. given a CDF and a small sample of data, is there a statistical test which can prove that the data follows the CDF? $\endgroup$– JacobCommented May 5, 2014 at 20:33