Optimal Two-Variable Accelerated Degradation Test Plan for Gamma Degradation Processes

Optimal Two-Variable Accelerated Degradation Test Plan for Gamma Degradation Processes

An accelerated degradation test (ADT) can be used to assess the reliability of highly reliable products by using degradation information. In this study, to exhibit a monotone increasing pattern, the gamma process is used to model the degradation of a product subject to a constant-stress ADT of two l...

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Veröffentlicht in:IEEE transactions on reliability 2016-03, Vol.65 (1), p.459-468
Hauptverfasser: Tzong-Ru Tsai, Wen-Yun Sung, Lio, Y. L., Chang, Shing I., Jye-Chyi Lu
Format: Artikel
Sprache:eng
Schlagworte:
Accelerated tests
Asymptotic properties
Bonferroni's inequality
Brownian motion process
Computer simulation
Constants
Cost engineering
cumulative exposure model
Degradation
Frequency measurement
gamma process
geometric Brownian motion process
inverse Gaussian distribution
Light emitting diodes
Loading
Maximum likelihood estimation
Monte Carlo simulation
Optimization
Reliability
Stress
Time measurement
Transaction processing
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Beschreibung
Zusammenfassung:An accelerated degradation test (ADT) can be used to assess the reliability of highly reliable products by using degradation information. In this study, to exhibit a monotone increasing pattern, the gamma process is used to model the degradation of a product subject to a constant-stress ADT of two loadings. Maximum likelihood estimates (MLEs) of the parameters of the ADT model were obtained. Given a budget for the total cost, an optimal ADT procedure was established to minimize the asymptotic variance of the MLE of the mean time to failure of a product, and the sample size and termination time of each run of the ADT at a constant measurement frequency were determined. An algorithm is provided to achieve an optimal ADT plan. An extensive Monte Carlo simulation was implemented to evaluate the sensitivity of the MLE variations to the sample size. A lumen degradation data set of light emitting diodes is presented to illustrate the proposed method.
ISSN:0018-9529
1558-1721
DOI:10.1109/TR.2015.2435774