Risk and safety assessments performed on potentially hazardous industrial systems commonly utilize fault tree analysis (FTA) to forecast the probability of system failure. The type of logic for the top event is usually limited to AND and OR gates, which leads to a coherent fault tree structure. In non-coherent fault trees, the working states of components as well as their failures contribute to the failure of the system. The qualitative and quantitative analyses of non-coherent fault trees can introduce further difficulties over and above those seen in the coherent case. It is shown that the binary decision diagram (BDD) method can be used for this type of assessment. The BDD approach can improve the accuracy and efficiency of the quantitat...
The use of Binary Decision Diagrams(BDDs)in fault tree analysis provides an exact and efficient mean...
Non coherent fault trees characterised by non monotonic structure functions allows easier modelling ...
Binary Decision Diagram (BDD) based fault tree analysis algorithms are among the most efficient ones...
Risk and safety assessments performed on potentially hazardous industrial systems commonly utilize f...
Fault tree analysis is commonly used to assess the reliability of potentially hazardous industrial s...
The aim of th1s thesis is to develop the Binary Decision Diagram method for the analysis of coherent...
Fault Tree Analysis (FTA) is widely used for safety and more recently, for security studies. Dependi...
The use of Binary Decision Diagrams (BDDs) in fault tree analysis provides both an accurate and effi...
Quantitative analysis of a non-coherent fault tree structure using binary decision diagram
Fault Tree Analysis is now a widely accepted technique to assess the probability and frequency of sy...
This paper considers a technique for calculating the unconditional failure intensity of any given no...
The aim of this thesis is to extend the current techniques available for the analysis of non-coheren...
Risk and safety assessments carried out on potentially hazardous industrial systems commonly employ ...
This thesis develops a new approach to fault tree analysis, namely the Binary Decision Diagram (BDD)...
The fault tree diagram itself is an excellent way of deriving the failure logic for a system and rep...
The use of Binary Decision Diagrams(BDDs)in fault tree analysis provides an exact and efficient mean...
Non coherent fault trees characterised by non monotonic structure functions allows easier modelling ...
Binary Decision Diagram (BDD) based fault tree analysis algorithms are among the most efficient ones...
Risk and safety assessments performed on potentially hazardous industrial systems commonly utilize f...
Fault tree analysis is commonly used to assess the reliability of potentially hazardous industrial s...
The aim of th1s thesis is to develop the Binary Decision Diagram method for the analysis of coherent...
Fault Tree Analysis (FTA) is widely used for safety and more recently, for security studies. Dependi...
The use of Binary Decision Diagrams (BDDs) in fault tree analysis provides both an accurate and effi...
Quantitative analysis of a non-coherent fault tree structure using binary decision diagram
Fault Tree Analysis is now a widely accepted technique to assess the probability and frequency of sy...
This paper considers a technique for calculating the unconditional failure intensity of any given no...
The aim of this thesis is to extend the current techniques available for the analysis of non-coheren...
Risk and safety assessments carried out on potentially hazardous industrial systems commonly employ ...
This thesis develops a new approach to fault tree analysis, namely the Binary Decision Diagram (BDD)...
The fault tree diagram itself is an excellent way of deriving the failure logic for a system and rep...
The use of Binary Decision Diagrams(BDDs)in fault tree analysis provides an exact and efficient mean...
Non coherent fault trees characterised by non monotonic structure functions allows easier modelling ...
Binary Decision Diagram (BDD) based fault tree analysis algorithms are among the most efficient ones...