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A Proportional Intensity Model with Frailty for Missing Recurrent Failure Data

Authors
Bae, Suk JooMun, Byeong MinZhu, Xiaoyan
Issue Date
Apr-2024
Publisher
American Statistical Association
Keywords
Monte Carlo expectation maximization (MCEM) algorithm; Nonhomogeneous Poisson process; Proportional intensity model; Recurrent failure data; Repairable system
Citation
Technometrics, v.66, no.2, pp 1 - 14
Pages
14
Indexed
SCIE
SCOPUS
Journal Title
Technometrics
Volume
66
Number
2
Start Page
1
End Page
14
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/197504
DOI
10.1080/00401706.2023.2277711
ISSN
0040-1706
1537-2723
Abstract
In some practical circumstances, data are recorded after the systems have begun operations, and data collection is stopped at a predetermined time or after a predetermined number of failures. In such circumstances, incompleteness of various types exists in the aspect of the missing number of failures and their occurrence times beyond the duration of the pilot study. Additionally, multiple repairable systems may present system-to-system variability caused by differences in the operating environments or working loads of individual systems. With respect to left-truncated and right-censored recurrent failure data from multiple repairable systems, we propose a reliability model based on a proportional intensity model with frailty. The frailty model explicitly models unobserved heterogeneity among systems. Covariates incorporated into the proportional intensity model additionally account for the heterogeneity between different operating conditions. To estimate the model parameters for the left-truncated and right-censored recurrent failure data, a Monte Carlo expectation maximization algorithm is proposed. Details of the estimation of the model parameters and the construction of their confidence intervals are examined. A real-world example and simulation studies under various scenarios show prominent applications of the proportional intensity model with frailty to left-truncated and right-censored multiple repairable systems for reliability prediction.
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