Bayesian planning of step-stress accelerated degradation tests under various optimality criteria

Bayesian planning of step-stress accelerated degradation tests under various optimality criteria

Step-stress accelerated degradation testing (SSADT) has become a common approach to predicting lifetime for highly reliable products that are unlikely to fail in a reasonable time under use conditions or even elevated stress conditions. In literature, the planning of SSADT has been widely investigat...

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Bibliographic Details
Main Authors: Pan, R. (Author), Xie, M. (Author), Zhao, X. (Author)
Format: Article
Language:English
Published: John Wiley and Sons Ltd 2019
Subjects:
Bayesian inference
Bayesian networks
Degradation model
degradation modeling
Inference engines
optimal design
Optimal design
optimality criteria
Optimality criteria
reliability prediction
Reliability prediction
Statistical tests
Stochastic systems
Online Access:View Fulltext in Publisher
Description
Summary:Step-stress accelerated degradation testing (SSADT) has become a common approach to predicting lifetime for highly reliable products that are unlikely to fail in a reasonable time under use conditions or even elevated stress conditions. In literature, the planning of SSADT has been widely investigated for stochastic degradation processes, such as Wiener processes and gamma processes. In this paper, we model the optimal SSADT planning problem from a Bayesian perspective and optimize test plans by determining both stress levels and the allocation of inspections. Large-sample approximation is used to derive the asymptotic Bayesian utility functions under 3 planning criteria. A revisited LED lamp example is presented to illustrate our method. The comparison with optimal plans from previous studies demonstrates the necessity of considering the stress levels and inspection allocations simultaneously. © 2018 John Wiley & Sons, Ltd.
ISBN:15241904 (ISSN)
DOI:10.1002/asmb.2332

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