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Dynamic and dependent tree theory (D2T2): A framework for the analysis of fault trees with dependent basic events

John Andrews, Silvia Tolo

2022Reliability Engineering & System Safety45 citationsDOIOpen Access PDF

Abstract

Fault tree analysis remains the most commonly employed method, particularly in the safety critical industries, to predict the probability or frequency of system failures. Whilst it has its origins back in the 1960s, the assumptions employed in the majority of commercial fault tree analysis codes have not changed significantly since this time and restrict the ability of the method to represent features of the design, operation and maintenance of modern industrial systems. The inability to include general dependencies between the basic events, the requirement for invariant failure and repair rates, and the inability to account for complex maintenance strategies are major limitations. This paper proposes a new fault tree analysis framework which can overcome these restrictions. Whilst retaining the fault tree structure to express the causality of the system failure, the internal calculation method is updated by exploiting features of the Binary Decision Diagram, Stochastic Petri Net and Markov methods. The key elements of the D2T2 algorithm are described in detail and the framework demonstrated through application to a case study example of a pressure vessel cooling system.

Topics & Concepts

Fault tree analysisComputer scienceTree (set theory)MathematicsEconometricsReliability engineeringEngineeringCombinatoricsSoftware System Performance and ReliabilityRisk and Safety AnalysisAnomaly Detection Techniques and Applications