This question borders on a mathematics question but the reason I'm asking it here is because I want a solution using boost. Please let me know if you think this would be better suited to the SE Maths.
I have a sample of error values from a set of arbitrary algorithms;
std::vector<double> errors {/* some values */};
Assuming a normal distribution of the values in errors, I need an algorithm that tells me the floating point value below which any number constitutes at least an n-sigma event. Using the 68–95–99.7 rule, if n were 2 then I would want to know the number below which there is at most a 5% chance of the number existing in the dataset.
double getSigmaEventValue(const std::vector<double>& container, int n);
Now, I have a suspicion that this problem is already solved for me in the boost accumulator library but I lack the mathsy know-how to figure out exactly what I'm looking for.
I know I can get the variance using boost::accumulators::variance, but I'm not aware of any wizardry I can employ to convert a variance to an n-sigma value, so that might not be the best approach. I'm interested in using boost because I already perform a set of time-critical statistics on this dataset (median, mean, variance, min and max) so it's likely that at least some of the calculations required for this will already have been cached.
sigma = sqrt(accumulators::moment<2>(acc))boost::accumulatordocs and it mentioned caching values from prior requests, so I thought it would be neat to reuse that data (I had a look at the boost code for themedianimplementation and it uses themeanheader so presumably that part of the median calculation is "free" if you've already requested the mean previously).