The Dynamic-to-Static Conversion of Dynamic Fault Trees Using Stochastic Dependency Graphs and Stochastic Activity Networks

Gabriele Manno; Ferdinando Chiacchio; Francesco Pappalardo

doi:10.4236/eng.2013.52023

Engineering > Vol.5 No.2, February 2013

The Dynamic-to-Static Conversion of Dynamic Fault Trees Using Stochastic Dependency Graphs and Stochastic Activity Networks

Gabriele Manno, Ferdinando Chiacchio, Francesco Pappalardo
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DOI: 10.4236/eng.2013.52023 PDF HTML 4,260 Downloads 6,551 Views Citations

Abstract

In this paper a new modeling framework for the dependability analysis of complex systems is presented and related to dynamic fault trees (DFTs). The methodology is based on a modular approach: two separate models are used to handle, the fault logic and the stochastic dependencies of the system. Thus, the fault schema, free of any dependency logic, can be easily evaluated, while the dependency schema allows the modeler to design new kind of non-trivial dependencies not easily caught by the traditional holistic methodologies. Moreover, the use of a dependency schema allows building a pure behavioral model that can be used for various kinds of dependability studies. In the paper is shown how to build and integrate the two modular models and convert them in a Stochastic Activity Network. Furthermore, based on the construction of the schema that embeds the stochastic dependencies, the procedure to convert DFTs into static fault trees is shown, allowing the resolution of DFTs in a very efficient way.

Keywords

Dynamic Fault Tree; Stochastic Dependency Graphs; Stochastic Activity Network; Continuous Time Markov Chain

Share and Cite:

G. Manno, F. Chiacchio and F. Pappalardo, "The Dynamic-to-Static Conversion of Dynamic Fault Trees Using Stochastic Dependency Graphs and Stochastic Activity Networks," Engineering, Vol. 5 No. 2, 2013, pp. 157-166. doi: 10.4236/eng.2013.52023.

Conflicts of Interest

The authors declare no conflicts of interest.

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