Title :
Testing exponentiality of the residual life, based on dynamic Kullback-Leibler information
Author_Institution :
Div. of Stat., Northern Illinois Univ., DeKalb, IL, USA
fDate :
6/1/1998 12:00:00 AM
Abstract :
This paper proposes a test-of-fit for exponentiality of the residual life (TF-ERL) based on the estimated dynamic Kullback-Leibler information. TF-ERL applies when the exponential parameter is or is not specified under the null hypothesis. Asymptotic properties of TF-ERL are discussed. In particular, the TF-ERL is shown to be a statistically consistent test of the null hypothesis for all alternatives. Small-sample null tail probabilities are derived; critical values are tabulated; and its use is shown in an example. Monte-Carlo simulation is used to compute the power of TF-ERL under various alternatives; it performs well in terms of its power
Keywords :
Monte Carlo methods; Weibull distribution; exponential distribution; gamma distribution; life testing; Gamma distribution; Monte-Carlo simulation; Weibull distribution; asymptotic properties; consistent test; dynamic Kullback-Leibler information; entropy; exponential distribution; exponentiality testing; null hypothesis; residual life; small-sample null tail probabilities; statistically consistent test; test-of-fit; Distribution functions; Entropy; Exponential distribution; Life estimation; Life testing; Statistical analysis; Statistical distributions; System testing; Tail; Weibull distribution;
Journal_Title :
Reliability, IEEE Transactions on
