Sample size and number of failure requirements for demonstration tests with log-location-scale distributions and failure censoring
Document Type
Article
Publication Date
5-1-2005
Abstract
Reliability demonstration tests require demonstrating, with some level of confidence, that reliability exceeds a given standard. Demonstration tests can be expensive and time-consuming. Careful planning of sample size and test length is essential. This article develops exact theoretical methods, based on pivotal quantities and confidence intervals, to aid in proper sample size selection and determining how long the test should be run (in terms of how many units must fail before the test's end) for demonstration tests with failure-censored (type II censored) data from log-location-scale (and the corresponding location-scale) distributions. The methods have been implemented in S-PLUS for the lognormal, Weibull, and log-logistic distributions to allow users to develop graphs depicting probability of successful demonstration as a function of actual reliability, a target reliability, sample size, and number of units failing for an assumed distribution. © 2005 American Statistical Association and the American Society for Quality.
Publication Source (Journal or Book title)
Technometrics
First Page
182
Last Page
190
Recommended Citation
McKane, S., Escobar, L., & Meeker, W. (2005). Sample size and number of failure requirements for demonstration tests with log-location-scale distributions and failure censoring. Technometrics, 47 (2), 182-190. https://doi.org/10.1198/004017005000000030