Dynamic Fault Trees (DFT) extend standard fault trees by allowing the modeling of complex system components’ behaviors and interactions. Being a high level model and easy to use, DFT are experiencing a growing success among reliability engineers. Unfortunately, a number of issues still remains when using DFT. Briefly, these issues are (1) a lack of formality (syntax and semantics), (2) limitations in modular analysis and thus vulnerability to the state-space explosion problem, and (3) lack in modular model-building. We use the input/output interactive Markov chain (I/O-IMC) formalism to analyse DFT. I/O-IMC have a precise semantics and are an extension of continuous-time Markov chains with input and output actions. In this paper, using the ...
In the context of the reliability of critical systems, we focus on Dynamic Fault Tree (DFT) analysis...
In this paper, dynamic simulation methods for reliability evaluation of common industry-based contro...
A new approach is proposed to include s-dependencies in fault tree (FT) models. With respect to prev...
Dynamic fault trees (DFT) extend standard fault trees by allowing the modeling of complex system com...
Dynamic fault trees (DFTs) are a versatile and common formalism to model and analyze the reliability...
Fault trees (FT) are among the most prominent formalisms for reliability analysis of technical syste...
Fault trees are a key model in reliability analysis. Classical static fault trees (SFT) can best be ...
Dynamic fault tree (DFT) is a top-down deductive technique extended to model systems with complex fa...
Fault tree analysis is a widespread industry standard for assessing system reliability. Standard (st...
Traditional fault tree analysis is not always sufficient when analysing complex systems. To overcome...
International audienceThis paper focuses on the quantitative analysis of Dynamic Fault Trees (DFTs) ...
[[abstract]]Fault trees theories have been used in years because they can easily provide a concise r...
Most innovation in the automotive industry is driven by embedded systems. They make usage of dynamic...
Fault tree analysis remains the most commonly employed method, particularly in the safety critical i...
Traditional fault tree (FT) analysis is widely used for reliability and safety assessment of complex...
In the context of the reliability of critical systems, we focus on Dynamic Fault Tree (DFT) analysis...
In this paper, dynamic simulation methods for reliability evaluation of common industry-based contro...
A new approach is proposed to include s-dependencies in fault tree (FT) models. With respect to prev...
Dynamic fault trees (DFT) extend standard fault trees by allowing the modeling of complex system com...
Dynamic fault trees (DFTs) are a versatile and common formalism to model and analyze the reliability...
Fault trees (FT) are among the most prominent formalisms for reliability analysis of technical syste...
Fault trees are a key model in reliability analysis. Classical static fault trees (SFT) can best be ...
Dynamic fault tree (DFT) is a top-down deductive technique extended to model systems with complex fa...
Fault tree analysis is a widespread industry standard for assessing system reliability. Standard (st...
Traditional fault tree analysis is not always sufficient when analysing complex systems. To overcome...
International audienceThis paper focuses on the quantitative analysis of Dynamic Fault Trees (DFTs) ...
[[abstract]]Fault trees theories have been used in years because they can easily provide a concise r...
Most innovation in the automotive industry is driven by embedded systems. They make usage of dynamic...
Fault tree analysis remains the most commonly employed method, particularly in the safety critical i...
Traditional fault tree (FT) analysis is widely used for reliability and safety assessment of complex...
In the context of the reliability of critical systems, we focus on Dynamic Fault Tree (DFT) analysis...
In this paper, dynamic simulation methods for reliability evaluation of common industry-based contro...
A new approach is proposed to include s-dependencies in fault tree (FT) models. With respect to prev...