TY - GEN
T1 - Condition-based component replacement of the pneumatic valve with the unscented particle filter
AU - Tao, Tao
AU - Zhao, Wei
AU - Zio, Enrico
AU - Li, Yan Fu
AU - Sun, Jinping
N1 - Publisher Copyright:
© 2014 IEEE.
PY - 2014/12/16
Y1 - 2014/12/16
N2 - This paper investigates the condition-based maintenance (CBM) that concerns the component replacement strategy based on the estimation of the failure probability distribution. To obtain the accurate estimation of the distribution, specifically in non-linear case, an improved model-based Monte Carlo method, the unscented particle filter (UPF), is introduced. With the estimation of the failure probability, the replacement is determined by minimizing a decision variable called the expected cost per unit time, which considers both the replacement upon failure and preventive replacement. Simulated experiments are performed with regards to a pneumatic valve, a normally-closed and gas-actuated valve, whose dynamic physical model is studied a lot in recent years. The experiment results illustrate that with the accurate prediction of the probability distribution of the component's remaining life, we can effectively realize the condition-based component replacement and risk-informed life-extension in many application domains, such as nuclear, aerospace and chemical ones.
AB - This paper investigates the condition-based maintenance (CBM) that concerns the component replacement strategy based on the estimation of the failure probability distribution. To obtain the accurate estimation of the distribution, specifically in non-linear case, an improved model-based Monte Carlo method, the unscented particle filter (UPF), is introduced. With the estimation of the failure probability, the replacement is determined by minimizing a decision variable called the expected cost per unit time, which considers both the replacement upon failure and preventive replacement. Simulated experiments are performed with regards to a pneumatic valve, a normally-closed and gas-actuated valve, whose dynamic physical model is studied a lot in recent years. The experiment results illustrate that with the accurate prediction of the probability distribution of the component's remaining life, we can effectively realize the condition-based component replacement and risk-informed life-extension in many application domains, such as nuclear, aerospace and chemical ones.
KW - conditiion-based replacement
KW - prognosis
KW - unscented particle filter
UR - https://www.scopus.com/pages/publications/84943185227
U2 - 10.1109/PHM.2014.6988181
DO - 10.1109/PHM.2014.6988181
M3 - 会议稿件
AN - SCOPUS:84943185227
T3 - Proceedings of 2014 Prognostics and System Health Management Conference, PHM 2014
SP - 290
EP - 296
BT - Proceedings of 2014 Prognostics and System Health Management Conference, PHM 2014
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2014 Prognostics and System Health Management Conference, PHM 2014
Y2 - 24 August 2014 through 27 August 2014
ER -