Title :
Component Ranking by Birnbaum Importance in Presence of Epistemic Uncertainty in Failure Event Probabilities
Author :
Baraldi, Piero ; Compare, Michele ; Zio, Enrico
Author_Institution :
Politec. di Milano, Milan, Italy
Abstract :
Birnbaum Importance Measure (IM) allows ranking the components of a system with respect to the impact that their failures have on the system´s performance, e.g., its reliability or availability. Such ranking is done in industry to efficiently manage Operation and Maintenance (O&M) activities, and to optimize plant design. In the computation of the Birnbaum IM of the components, uncertainty in the parameters of the system model is often neglected. This neglect may lead to erroneous, possibly non-conservative ranking. In this work, we develop a method based on Possibility Theory (PT) for giving due account to epistemic uncertainties in Birnbaum IMs. An example is given with reference to the components of the Auxiliary FeedWater System (AFWS) of a Nuclear Power Plant.
Keywords :
failure analysis; maintenance engineering; nuclear power stations; possibility theory; probability; reliability theory; water supply; AFWS; Birnbaum IM; Birnbaum importance measure; auxiliary feedwater system; availability; component ranking; epistemic uncertainties; epistemic uncertainty; failure event probabilities; nonconservative ranking; nuclear power plant; operation and maintenance activity management; parameter uncertainty; plant design optimization; possibility theory; reliability; system model; system performance; Measurement uncertainty; Possibility theory; Probabilistic logic; Probability distribution; Reliability; Standards; Uncertainty; Birnbaum importance measure; importance ranking; possibility theory;
Journal_Title :
Reliability, IEEE Transactions on
DOI :
10.1109/TR.2013.2240885
