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비선형 위너과정에 대한 시뮬레이션 기반 최적 가속열화시험 계획A Simulation-Based Optimal Accelerated Degradation Test Plan for a Nonlinear Wiener Process

Other Titles
A Simulation-Based Optimal Accelerated Degradation Test Plan for a Nonlinear Wiener Process
Authors
김도연배석주
Issue Date
Jun-2025
Publisher
한국신뢰성학회
Keywords
Accelerated Degradation Test; Batteries; Lifetime Distribution; Nonlinear Wiener Process; Optimal Plan
Citation
신뢰성 응용연구, v.25, no.2, pp 127 - 136
Pages
10
Indexed
KCI
Journal Title
신뢰성 응용연구
Volume
25
Number
2
Start Page
127
End Page
136
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/207969
DOI
10.33162/JAR.2025.6.25.2.127
ISSN
1738-9895
2733-8320
Abstract
Purpose: This study proposes an optimal accelerated degradation test (ADT) plan based on a nonlinear Wiener process. The optimal ADT plan is devised using a simulation-based method that permits the effective determination of optimal ADT conditions and applied to nonlinear degradation data of lithium-ion battery pack. Methods: An optimal ADT design approach based on simulated ADT data is reported herein. First, maximum likelihood estimates (MLEs) of the nonlinear Wiener process degradation model with random effects were derived, then a Monte Carlo simulation was performed to generate lifetime data based on the MLEs. Using the general optimization procedure for accelerated life test (ALT), the optimal stress levels and sample allocation ratios were determined to minimize the asymptotic variance of the lifetime distribution. Results: The proposed approach was applied to real battery pack data for electric vehicles (EVs). Subsequently, the optimal sample allocation ratios at both maximum and minimum stresses were determined. Conclusion: The proposed simulation-based ADT plan is particularly effective when deriving the Fisher information matrix for the parameters, which is a challenging task given the complexity of the degradation model or when lifetime distributions are difficult to derive.
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