The paper deals with the analysis of fault trees containing mutually exclusive (disjoint) events. A new method based on a labelling technique and working on fault trees represented in the form of Binary Decision Diagrams (BDD) is described. Mutually exclusive events are labelled to distinguish them from independent events. The label drives the application of the new rules for the construction of the BDD and for the application of the equations for determining the unavailability, the unconditional failure and repair frequencies as well as some components’ importance measuresJRC.G.7-Traceability and vulnerability assessmen
The Fault Tree (FT) is a widespread model for the dependability (reliability) analysis. One of its s...
Components’ importance measures play a very important role in system reliability analysis. They are ...
Non coherent fault trees characterised by non monotonic structure functions allows easier modelling ...
This paper presents a method for analysing fault trees that contain independent sets of mutually exc...
The use of Binary Decision Diagrams (BDDs) in fault tree analysis provides both an accurate and effi...
The aim of th1s thesis is to develop the Binary Decision Diagram method for the analysis of coherent...
With the advent of the Binary Decision Diagrams (BDD) approach in fault tree analysis a significant ...
AbstractBinary Decision Diagram (BDD) based fault tree analysis algorithms are among the most effici...
The use of Binary Decision Diagrams(BDDs)in fault tree analysis provides an exact and efficient mean...
Risk and safety assessments performed on potentially hazardous industrial systems commonly utilize f...
The fault tree diagram defines the causes of the system failure mode or ‘top event’ in terms of the ...
Fault Tree Analysis is now a widely accepted technique to assess the probability and frequency of sy...
Binary Decision Diagram (BDD) based fault tree analysis algorithms are among the most efficient ones...
Fault Tree Analysis (FTA) is widely used for safety and more recently, for security studies. Dependi...
Fault trees show which joint components' faults mean system faults. Fault trees can often be used to...
The Fault Tree (FT) is a widespread model for the dependability (reliability) analysis. One of its s...
Components’ importance measures play a very important role in system reliability analysis. They are ...
Non coherent fault trees characterised by non monotonic structure functions allows easier modelling ...
This paper presents a method for analysing fault trees that contain independent sets of mutually exc...
The use of Binary Decision Diagrams (BDDs) in fault tree analysis provides both an accurate and effi...
The aim of th1s thesis is to develop the Binary Decision Diagram method for the analysis of coherent...
With the advent of the Binary Decision Diagrams (BDD) approach in fault tree analysis a significant ...
AbstractBinary Decision Diagram (BDD) based fault tree analysis algorithms are among the most effici...
The use of Binary Decision Diagrams(BDDs)in fault tree analysis provides an exact and efficient mean...
Risk and safety assessments performed on potentially hazardous industrial systems commonly utilize f...
The fault tree diagram defines the causes of the system failure mode or ‘top event’ in terms of the ...
Fault Tree Analysis is now a widely accepted technique to assess the probability and frequency of sy...
Binary Decision Diagram (BDD) based fault tree analysis algorithms are among the most efficient ones...
Fault Tree Analysis (FTA) is widely used for safety and more recently, for security studies. Dependi...
Fault trees show which joint components' faults mean system faults. Fault trees can often be used to...
The Fault Tree (FT) is a widespread model for the dependability (reliability) analysis. One of its s...
Components’ importance measures play a very important role in system reliability analysis. They are ...
Non coherent fault trees characterised by non monotonic structure functions allows easier modelling ...