Title :
Bayes credibility estimation of an exponential parameter for random censoring and incomplete information
Author :
Elperin, T. ; Gertsbakh, I.
Author_Institution :
Ben-Gurion Univ. of Negev, Beer Sheva, Israel
fDate :
6/1/1990 12:00:00 AM
Abstract :
A Bayes interval estimation for an exponential parameter Θ in a model of random censoring with incomplete information is investigated. The instant of item failure is observed if it occurs before a randomly chosen inspection time and the failure was signaled; otherwise, the experiment is terminated at the instant of inspection. An explicit expression for the posterior PDF (probability distribution function) of the parameter is derived, and a normal approximation to it based on Taylor expansion near the maximum likelihood estimate is suggested. The results of an extension simulation showed that the reparametrization Θ1=log Θ appreciably increases the accuracy of the normal approximation. Highly accurate highest posterior density intervals for Θ1 are derived in a closed form for a normal prior for Θ1 or, equivalently, for the lognormal prior on Θ
Keywords :
Bayes methods; failure analysis; inspection; parameter estimation; reliability theory; statistical analysis; Bayes interval estimation; Taylor expansion; exponential parameter; failure; highest posterior density intervals; incomplete information; inspection; maximum likelihood estimate; probability distribution function; random censoring; reliability; reparametrization; Art; Exponential distribution; Information analysis; Inspection; Life estimation; Lifetime estimation; Maximum likelihood estimation; Reliability theory; State estimation; Taylor series;
Journal_Title :
Reliability, IEEE Transactions on
