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Estimation of System Reliability Using a Semiparametric Model

Leon Li Wu; Timothy Kaleva Teravainen; Gail E. Kaiser; Roger N. Anderson; Albert G. Boulanger; Cynthia Rudin

Title:
Estimation of System Reliability Using a Semiparametric Model
Author(s):
Wu, Leon Li
Teravainen, Timothy Kaleva
Kaiser, Gail E.
Anderson, Roger N.
Boulanger, Albert G.
Rudin, Cynthia
Date:
Type:
Technical reports
Department:
Computer Science
Permanent URL:
Series:
Columbia University Computer Science Technical Reports
Part Number:
CUCS-015-11
Abstract:
An important problem in reliability engineering is to predict the failure rate, that is, the frequency with which an engineered system or component fails. This paper presents a new method of estimating failure rate using a semiparametric model with Gaussian process smoothing. The method is able to provide accurate estimation based on historical data and it does not make strong a priori assumptions of failure rate pattern (e.g., constant or monotonic). Our experiments of applying this method in power system failure data compared with other models show its efficacy and accuracy. This method can be used in estimating reliability for many other systems, such as software systems or components.
Subject(s):
Computer science
Item views:
289
Metadata:
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