I am looking for a java library / implementation which supports the calculation of the inverse cumulative distribution function for the beta distribution (aka estimation of quantiles) with reasonable precision.
Suppose I want to calculate the credible interval of a beta distribution with a lot of trials. In apache commons math ...
final int trials = 161750; final int successes = 10007; final double alpha = 0.05d; // the supplied precision is the default precision according to the source code BetaDistribution betaDist = new BetaDistribution(successes + 1, trials - successes + 1, 1e-9); System.out.println("2.5 percentile :" + betaDist.inverseCumulativeProbability(alpha / 2d)); System.out.println("mean: " + betaDist.getNumericalMean()); System.out.println("median: " + betaDist.inverseCumulativeProbability(0.5)); System.out.println("97.5 percentile :" + betaDist.inverseCumulativeProbability(1 - alpha / 2d));
2.5 percentile :0.062030402074808505 mean: 0.06187249616697166 median: 0.062030258659508855 97.5 percentile :0.06305170793994147
The issues is that the 2.5 percentile and median are the same meanwhile both greater than the mean.
In comparison, the R-package binom delivers
binom.confint(10007+1,161750+2,methods=c("agresti-coull","exact","wilson")) method x n mean lower upper 1 agresti-coull 10008 161752 0.0618725 0.06070873 0.06305707 2 exact 10008 161752 0.0618725 0.06070317 0.06305756 3 wilson 10008 161752 0.0618725 0.06070877 0.06305703
and the R-package stats
qbeta(c(0.025,0.975),10007+1,161750-10007+1)  0.06070355 0.06305171
To second the results from R, here is what Wolfram Alpha told me
- InverseBetaRegularized[0.025,10007+1,161750-10007+1] => 0.06070354631...
- InverseBetaRegularized[0.975,10007+1,161750-10007+1] => 0.06305170794...
Final note on the requirements:
- I need to run a lot of these calculations. Hence any solution should not take longer than 1s (which is still a lot compared to the 41ms of (albeit wrong) apache commons math).
- I am aware that one can use R within java. For reasons I won't elaborate here, this is the last option if anything else (pure java) fails.
It seems that the issue has been fixed or at least improved in 3.1-SNAPSHOT of apache-commons-math. For the usecase above
2.5 percentile :0.06070354581340706 mean: 0.06187249616697166 median: 0.06187069085946604 97.5 percentile :0.06305170793994147
While at first glance this question and it's responses may be too localized, I think that it very well illustrates that some numerical problems cannot be solved (efficiently) with a what-first-comes-to-mind-hacker-approach. So I hope it remains open.