Asymptotic behavior of a general class of mixture failure rates. (English) Zbl 1092.62108
Summary: Mixtures of increasing failure rate distributions can decrease, at least in some intervals of time. Usually this property is observed asymptotically, as \(t\to \infty\), which is due to the fact that a mixture failure rate is ‘bent down’, as the weakest populations are dying out first. We consider a survival model that generalizes additive hazards models, proportional hazards models, and accelerated life models very well known in reliability and survival analysis.
We obtain new explicit asymptotic relations for a general setting and study specific cases. Under reasonable assumptions we prove that the asymptotic behavior of the mixture failure rate depends only on the behavior of the mixing distribution in the neighborhood of the left-hand endpoint of its support, and not on the whole mixing distribution.
We obtain new explicit asymptotic relations for a general setting and study specific cases. Under reasonable assumptions we prove that the asymptotic behavior of the mixture failure rate depends only on the behavior of the mixing distribution in the neighborhood of the left-hand endpoint of its support, and not on the whole mixing distribution.
MSC:
| 62N05 | Reliability and life testing |
| 62E10 | Characterization and structure theory of statistical distributions |
| 60E15 | Inequalities; stochastic orderings |
Keywords:
Mixture of distributions; decreasing failure rate; increasing failure rate; proportional hazards model; accelerated life modelReferences:
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