Multivariate Life Testing in Variably Scaled Environments |
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Authors: | Kvam P H Samaniego F J |
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Institution: | (1) School of Industrial and Systems Engineering, Georgia Institute of Technology, Atlanta, GA, 30332-0205;(2) Division of Statistics, University of California, Davis, Davis, CA, 95616 |
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Abstract: | This paper examines modeling and inference questions for experiments in which different subsets of a set of k possibly dependent components are tested in r different environments. In each environment, the failure times of the set of components on test is assumed to be governed by a particular type of multivariate exponential (MVE) distribution. For any given component tested in several environments, it is assumed that its marginal failure rate varies from one environment to another via a change of scale between the environments, resulting in a joint MVE model which links in a natural way the applicable MVE distributions describing component behavior in each fixed environment. This study thus extends the work of Proschan and Sullo (1976) to multiple environments and the work of Kvam and Samaniego (1993) to dependent data. The problem of estimating model parameters via the method of maximum likelihood is examined in detail. First, necessary and sufficient conditions for the identifiability of model parameters are established. We then treat the derivation of the MLE via a numerically-augmented application of the EM algorithm. The feasibility of the estimation method is demonstrated in an example in which the likelihood ratio test of the hypothesis of equal component failure rates within any given environment is carried out. |
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Keywords: | Accelerated life test EM algorithm factorial model identifiability likelihood ratio test maximum likelihood estimation multivariate exponential distribution |
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