Abstract: Fault trees show which joint components ' faults mean system faults. Fault trees can often be used to determine dependability parameters of systems. Here it is shown that i) binary decision diagrams (BDDs) can also be used to calculate system mean failure frequency, ii) modeling dynamics of fault trees does not always mean Markov modeling, iii) a deeper understanding of interrelations between s-dependent components is supported, rather, by Petri nets than by state transition graphs
Several extensions of the Fault Tree (FT) [1] formalism have been proposed in the literature. One of...
[[abstract]]Fault trees theories have been used in years because they can easily provide a concise r...
Fault trees are a key model in reliability analysis. Classical static fault trees (SFT) can best be ...
Fault trees show which joint components' faults mean system faults. Fault trees can often be used to...
Fault Tree analysis is not only the most common technique used in engineering practice for the estim...
Many of the more efficient systems reliability modelling methods require the components which compri...
The application of fault tree analysis (FTA) to system safety and reliability is presented within th...
The fault tree diagram defines the causes of the system failure mode or ‘top event’ in terms of the ...
Fault tree analysis remains the most commonly employed method, particularly in the safety critical i...
The use of Binary Decision Diagrams (BDDs) in fault tree analysis provides both an accurate and effi...
Fault Tree Analysis is now a widely accepted technique to assess the probability and frequency of sy...
The Fault Tree (FT) is a widespread model for the dependability (reliability) analysis. One of its s...
The aim of th1s thesis is to develop the Binary Decision Diagram method for the analysis of coherent...
The technique of fault tree analysis is commonly used to assess the probability of failure of indust...
The technique of fault tree analysis is commonly used to assess the probability of failure of indust...
Several extensions of the Fault Tree (FT) [1] formalism have been proposed in the literature. One of...
[[abstract]]Fault trees theories have been used in years because they can easily provide a concise r...
Fault trees are a key model in reliability analysis. Classical static fault trees (SFT) can best be ...
Fault trees show which joint components' faults mean system faults. Fault trees can often be used to...
Fault Tree analysis is not only the most common technique used in engineering practice for the estim...
Many of the more efficient systems reliability modelling methods require the components which compri...
The application of fault tree analysis (FTA) to system safety and reliability is presented within th...
The fault tree diagram defines the causes of the system failure mode or ‘top event’ in terms of the ...
Fault tree analysis remains the most commonly employed method, particularly in the safety critical i...
The use of Binary Decision Diagrams (BDDs) in fault tree analysis provides both an accurate and effi...
Fault Tree Analysis is now a widely accepted technique to assess the probability and frequency of sy...
The Fault Tree (FT) is a widespread model for the dependability (reliability) analysis. One of its s...
The aim of th1s thesis is to develop the Binary Decision Diagram method for the analysis of coherent...
The technique of fault tree analysis is commonly used to assess the probability of failure of indust...
The technique of fault tree analysis is commonly used to assess the probability of failure of indust...
Several extensions of the Fault Tree (FT) [1] formalism have been proposed in the literature. One of...
[[abstract]]Fault trees theories have been used in years because they can easily provide a concise r...
Fault trees are a key model in reliability analysis. Classical static fault trees (SFT) can best be ...