Title :
A Bayes approach to step-stress accelerated life testing
Author :
Van Dorp, J. René ; Mazzuchi, Thomas A. ; Fornell, Gordon E. ; Pollock, Lee R.
Author_Institution :
George Washington Univ., Washington, DC, USA
fDate :
9/1/1996 12:00:00 AM
Abstract :
This paper develops a Bayes model for step-stress accelerated life testing. The failure times at each stress level are exponentially distributed, but strict adherence to a time-transformation function is not required. Rather, prior information is used to define indirectly a multivariate prior distribution for the failure rates at the various stress levels. Our prior distribution preserves the natural ordering of the failure rates in both the prior and posterior estimates. Methods are developed for Bayes point estimates as well as for making probability statements for use-stress life parameters. The approach is illustrated with an example
Keywords :
Bayes methods; environmental testing; failure analysis; life testing; reliability; reliability theory; stress analysis; Bayes approach; environmental testing; failure rates; failure times; multivariate prior distribution; natural ordering; ordered Dirichlet distribution; overstress testing; posterior estimates; prior information; probability statements; step-stress accelerated life testing; time-transformation function; Acceleration; Costs; Electronic equipment testing; Information analysis; Life estimation; Life testing; State estimation; Stress; System testing; Voltage;
Journal_Title :
Reliability, IEEE Transactions on
