Uncertain differential equation based accelerated degradation modeling

Due to economic and technical reasons, in accelerated degradation testing (ADT) there are usually limited ADT data, which embody lots of epistemic uncertainties that cannot be depicted well by probability theory. Noting these facts, several uncertain processes based accelerated degradation models (U...

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Bibliographic Details
Published in:Reliability engineering & system safety 2022-09, Vol.225, p.108641, Article 108641
Main Authors: Liu, Zhe, Li, Xiaoyang, Kang, Rui
Format: Article
Language:English
Subjects:
Accelerated degradation testing
Accelerated tests
Belief reliability theory
Data analysis
Differential equations
Distribution functions
Economic models
Empirical analysis
Epistemic uncertainty
Mathematical models
Parameter estimation
Performance degradation
Probability theory
Reliability analysis
Reliability aspects
Reliability engineering
Uncertain differential equation
Uncertainty
Uncertainty theory
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Summary:Due to economic and technical reasons, in accelerated degradation testing (ADT) there are usually limited ADT data, which embody lots of epistemic uncertainties that cannot be depicted well by probability theory. Noting these facts, several uncertain processes based accelerated degradation models (UADMs) are proposed under the framework of uncertainty theory. However, these UADMs described uncertainties from a macro perspective which ignored the characteristic of performance degradation in small time scales and failed to describe the essence of nonlinear degradation. What is more, to estimate unknown parameters, these models used empirical distribution functions, which may have a great impact on the estimation results with limited samples. Motivated by these problems, based on uncertainty theory this paper builds up an uncertain differential equation based accelerated degradation model (UDEADM), which considers the dynamic cumulative change process of performance in small space–time scale, and explains the essence of nonlinear for uncertainties in degradation trend. Unknown parameters are estimated using uncertain generalized moment estimations. Furthermore, reliability and lifetime are analyzed under the normal operating condition based on belief reliability theory. A simulation study and a real data analysis are conducted to illustrate the effectiveness and advantages of the proposed methodology in details. •An uncertain differential equation based accelerated degradation model is proposed.•Dynamic cumulative change of performance in small space–time scale is considered.•Unknown parameters are estimated by uncertain generalized moment estimations.
ISSN:0951-8320
1879-0836
DOI:10.1016/j.ress.2022.108641