退化分析中Hougaard过程的加速不变性原理

IF 1.9 4区 管理学 Q3 OPERATIONS RESEARCH & MANAGEMENT SCIENCE Naval Research Logistics Pub Date : 2023-09-28 DOI:10.1002/nav.22153
Chien‐Yu Peng, Yi‐Shian Dong, Tsai‐Hung Fan
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引用次数: 0

摘要

摘要加速降解试验(ADTs)被广泛用于评估高可靠性产品在正常使用条件下的寿命信息。对于加速试验,两个基本假设是:改变应力水平不影响底层分布族;不同应力水平下寿命分布具有随机顺序。为了研究这些基本假设,提出了adt的加速不变性原理。利用人工智能原理,建立了Hougaard过程模型参数与加速变量之间的理论联系。这个概念可以推广到异质伽马和逆高斯过程。提出了仿真研究,以支持使用AI原理的adt的Hougaard过程的适用性和灵活性。利用推导出的关系进行实际数据分析,验证了加速退化分析的人工智能原理。所有的技术细节,非线性案例的仿真结果和模型不规范分析都可以在网上作为支持信息。
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Acceleration invariance principle for Hougaard processes in degradation analysis
Abstract Accelerated degradation tests (ADTs) are widely used to assess lifetime information under normal use conditions for highly reliable products. For the accelerated tests, two basic assumptions are that changing stress levels does not affect the underlying distribution family and that there is stochastic ordering for the life distributions at different stress levels. The acceleration invariance (AI) principle for ADTs is proposed to study these fundamental assumptions. Using the AI principle, a theoretical connection between the model parameters and the accelerating variables is developed for Hougaard processes. This concept can be extended to heterogeneous gamma and inverse Gaussian processes. Simulation studies are presented to support the applicability and flexibility of the Hougaard process using the AI principle for ADTs. A real data analysis using the derived relationship is used to validate the AI principle for accelerated degradation analysis. All technical details, simulation results for nonlinear cases and model mis‐specification analysis are available online as Supporting Information.
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来源期刊
Naval Research Logistics
Naval Research Logistics 管理科学-运筹学与管理科学
CiteScore
4.20
自引率
4.30%
发文量
47
审稿时长
8 months
期刊介绍: Submissions that are most appropriate for NRL are papers addressing modeling and analysis of problems motivated by real-world applications; major methodological advances in operations research and applied statistics; and expository or survey pieces of lasting value. Areas represented include (but are not limited to) probability, statistics, simulation, optimization, game theory, quality, scheduling, reliability, maintenance, supply chain, decision analysis, and combat models. Special issues devoted to a single topic are published occasionally, and proposals for special issues are welcomed by the Editorial Board.
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