Bayesian Network (BN) has been increasingly exploited to improve different aspects of Human Reliability Analysis (HRA), resulting in a new generation of HRA techniques, known as BN-HRA models. However, validating and evaluating the accuracy of BN-HRA models is still a challenging task. In this study, we have assessed and compared the performance of some of well-known BN-HRA techniques using human performance data obtained from an offshore evacuation simulation. Based on the role of data in quantifying the BN-HRA models, three categories of BN-HRA models have been considered: (i) BN-CREAM and BN-SPARH, which are based on predefined rules (rule-based methods), (ii) Bayesian Parameter Learning (BPL), which is entirely based on the available da...
The Enhanced Bayesian THERP (Technique for Human Reliability Analysis) method uses as its basis the ...
Marine engineering operations rely substantially on high degrees of automation and supervisory contr...
Despite the use of automation technology in the maritime industry, human errors are still the typica...
Success Likelihood Index Model (SLIM) is one of the widely-used deterministic techniques in human re...
Modelling the interdependencies among the factors influencing human error (e.g. the common performan...
This article presents a Bayesian network model for human reliability assessment (HRA). In most exist...
Success Likelihood Index Model (SLIM) is one of the widely-used methods in human reliability assessm...
Major industrial accidents are usually attributed to problems in the interaction of human, technolog...
Human-induced unplanned reactor trips during start-up and shutdown operations can impair the safety ...
International audienceThe use of expert systems can be helpful to improve the transparency and repea...
During a ship life cycle, one of the most critical phases in terms of safety refers to harbor maneuv...
Airplanes, ships, nuclear power plants and chemical production plants (including oil & gas facilitie...
This paper proposes a quantitative human reliability analysis (HRA) model based on fuzzy logic theor...
Looking into aviation, nuclear power generation, oil & gas and chemical industries, one can notice t...
The models adopted in Human Reliability Analysis (HRA) characterize personnel tasks and performance ...
The Enhanced Bayesian THERP (Technique for Human Reliability Analysis) method uses as its basis the ...
Marine engineering operations rely substantially on high degrees of automation and supervisory contr...
Despite the use of automation technology in the maritime industry, human errors are still the typica...
Success Likelihood Index Model (SLIM) is one of the widely-used deterministic techniques in human re...
Modelling the interdependencies among the factors influencing human error (e.g. the common performan...
This article presents a Bayesian network model for human reliability assessment (HRA). In most exist...
Success Likelihood Index Model (SLIM) is one of the widely-used methods in human reliability assessm...
Major industrial accidents are usually attributed to problems in the interaction of human, technolog...
Human-induced unplanned reactor trips during start-up and shutdown operations can impair the safety ...
International audienceThe use of expert systems can be helpful to improve the transparency and repea...
During a ship life cycle, one of the most critical phases in terms of safety refers to harbor maneuv...
Airplanes, ships, nuclear power plants and chemical production plants (including oil & gas facilitie...
This paper proposes a quantitative human reliability analysis (HRA) model based on fuzzy logic theor...
Looking into aviation, nuclear power generation, oil & gas and chemical industries, one can notice t...
The models adopted in Human Reliability Analysis (HRA) characterize personnel tasks and performance ...
The Enhanced Bayesian THERP (Technique for Human Reliability Analysis) method uses as its basis the ...
Marine engineering operations rely substantially on high degrees of automation and supervisory contr...
Despite the use of automation technology in the maritime industry, human errors are still the typica...