A general time-varying Wiener process for degradation modeling and RUL estimation under three-source variability

维纳过程 降级(电信) 趋同(经济学) 过程(计算) 非线性系统 计算机科学 控制理论(社会学) 数学优化 工程类 数学 应用数学 人工智能 物理 操作系统 电信 量子力学 经济 控制(管理) 经济增长
作者
Yu Wang,Qiufa Liu,W. J. Lu,Yizhen Peng
出处
期刊:Reliability Engineering & System Safety [Elsevier BV]
卷期号:232: 109041-109041 被引量:33
标识
DOI:10.1016/j.ress.2022.109041
摘要

The study of the remaining useful life (RUL) has shown a rising momentum for ensuring system availability in past few years. For an engineering unit, due to the existence of dynamic operational condition and unpredictable internal degradation mechanisms, the degradation process tends to exhibit a multi-phase pattern, where the degradation rate and variation level are varied at different stages. In conventional degradation models, there are challenges in tracking the dynamic and multi-source variability of a degradation process jointly. To get a more adaptable and robust RUL estimation, a general time-varying Wiener process (GTWP) is proposed in this paper. First, a state-space model is constructed to consider nonlinearity and three-source variability simultaneously, where an implicit transition model is incorporated to depict the evolution of model parameters over time. Then an approximate analytical form for the estimated RUL is derived under the concept of the first hitting time (FHT). At the offline stage, a two-step approach is developed to identify unknown model parameters for the usability. To verify the feasibility and superiority of the proposed model, three simulation cases and the XJTU-SY bearing dataset are adopted. The results show that the proposed model is more general and owns higher accuracy and faster convergence on most units compared with exiting homogeneous models.
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