Calculation of the System Unavailability Measures of Component Importance Using the DT Methodology of Fault Tree Analysis
Mathematics, ISSN: 2227-7390, Vol: 12, Issue: 2
2024
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Mathematics, Vol. 12, Pages 292: Calculation of the System Unavailability Measures of Component Importance Using the D2T2 Methodology of Fault Tree Analysis
Mathematics, Vol. 12, Pages 292: Calculation of the System Unavailability Measures of Component Importance Using the D2T2 Methodology of Fault Tree Analysis Mathematics doi: 10.3390/math12020292
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Findings from University of Nottingham Advance Knowledge in Mathematics (Calculation of the System Unavailability Measures of Component Importance Using the D2T2 Methodology of Fault Tree Analysis)
2024 FEB 08 (NewsRx) -- By a News Reporter-Staff News Editor at Math Daily News -- A new study on mathematics is now available. According
Article Description
A recent development in Fault Tree Analysis (FTA), known as Dynamic and Dependent Tree Theory (DT), accounts for dependencies between the basic events, making FTA more powerful. The method uses an integrated combination of Binary Decision Diagrams (BDDs), Stochastic Petri Nets (SPN) and Markov models. Current algorithms enable the prediction of the system failure probability and failure frequency. This paper proposes methods which extend the current capability of the DT framework to calculate component importance measures. Birnbaum’s measure of importance, the Criticality measure of importance, the Risk Achievement Worth (RAW) measure of importance and the Risk Reduction Worth (RRW) measure of importance are considered. This adds a vital ability to the framework, enabling the influence that components have on system failure to be determined and the most effective means of improving system performance to be identified. The algorithms for calculating each measure of importance are described and demonstrated using a pressure vessel cooling system.
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