English

Tolerance and Prediction Intervals for Non-normal Models

Methodology 2022-01-19 v5 Applications Machine Learning

Abstract

A prediction interval covers a future observation from a random process in repeated sampling, and is typically constructed by identifying a pivotal quantity that is also an ancillary statistic. Analogously, a tolerance interval covers a population percentile in repeated sampling and is often based on a pivotal quantity. One approach we consider in non-normal models leverages a link function resulting in a pivotal quantity that is approximately normally distributed. In settings where this normal approximation does not hold we consider a second approach for tolerance and prediction based on a confidence interval for the mean. These methods are intuitive, simple to implement, have proper operating characteristics, and are computationally efficient compared to Bayesian, re-sampling, and machine learning methods. This is demonstrated in the context of multi-site clinical trial recruitment with staggered site initiation, real-world time on treatment, and end-of-study success for a clinical endpoint.

Keywords

Cite

@article{arxiv.2011.11583,
  title  = {Tolerance and Prediction Intervals for Non-normal Models},
  author = {Geoffrey S Johnson},
  journal= {arXiv preprint arXiv:2011.11583},
  year   = {2022}
}

Comments

Clinical Trial Recruitment, Time on Treatment, Probability of Success, Prediction Interval, Tolerance Interval

R2 v1 2026-06-23T20:27:08.080Z