THERP and HEART integrated methodology is proposed to investigate accident scenarios that involve operator errors during high-dose-rate (HDR) treatments. The new approach has been modified on the basis of fuzzy set concept with the aim of prioritizing an exhaustive list of erroneous tasks that can lead to patient radiological overexposures. The results allow for the identification of human errors that are necessary to achieve a better understanding of health hazards in the radiotherapy treatment process, so that it can be properly monitored and appropriately managed
An integrated methodology, that combines Hierarchical Task Analysis (HTA), Cognitive Task Analysis (...
The Human Reliability Analysis (HRA) is considered as a useful tool in predicting and quantifying th...
TEX (explosive atmosphere) risk assessment is required when any equipment or system can potentially ...
THERP and HEART integrated methodology is proposed to investigate accident scenarios that involve op...
The present paper refers to the obtained results by using Fuzzy Fault Tree analyses of accidental sc...
Whilst Human Reliability Analysis (HRA) has been well-accepted and integrated into the safety manage...
Using fuzzy set theory, this paper presents results from risk analyses that explore potential exposu...
As well known, the lack of accurate quantitative human reliability data is a serious limitation and ...
Failure mode, effects and criticality analysis (FMECA) is a safety technique extensively used in man...
Fuzzy fault tree analyses were used to investigate accident scenarios that involve radiological expo...
This study is an attempt to apply the Human Error Assessment and Reduction Technique (HEART) method...
This paper presents safety analyses of accidental events which can involve patient during High Dose ...
Actions and errors by the operating personnel, which are of significance for the safety of a technic...
Introduction: Human error is considered as a crucial challenge in occupational settings. Health care...
AbstractTechnologies under development in the field of radiotherapy offer the possibility of automat...
An integrated methodology, that combines Hierarchical Task Analysis (HTA), Cognitive Task Analysis (...
The Human Reliability Analysis (HRA) is considered as a useful tool in predicting and quantifying th...
TEX (explosive atmosphere) risk assessment is required when any equipment or system can potentially ...
THERP and HEART integrated methodology is proposed to investigate accident scenarios that involve op...
The present paper refers to the obtained results by using Fuzzy Fault Tree analyses of accidental sc...
Whilst Human Reliability Analysis (HRA) has been well-accepted and integrated into the safety manage...
Using fuzzy set theory, this paper presents results from risk analyses that explore potential exposu...
As well known, the lack of accurate quantitative human reliability data is a serious limitation and ...
Failure mode, effects and criticality analysis (FMECA) is a safety technique extensively used in man...
Fuzzy fault tree analyses were used to investigate accident scenarios that involve radiological expo...
This study is an attempt to apply the Human Error Assessment and Reduction Technique (HEART) method...
This paper presents safety analyses of accidental events which can involve patient during High Dose ...
Actions and errors by the operating personnel, which are of significance for the safety of a technic...
Introduction: Human error is considered as a crucial challenge in occupational settings. Health care...
AbstractTechnologies under development in the field of radiotherapy offer the possibility of automat...
An integrated methodology, that combines Hierarchical Task Analysis (HTA), Cognitive Task Analysis (...
The Human Reliability Analysis (HRA) is considered as a useful tool in predicting and quantifying th...
TEX (explosive atmosphere) risk assessment is required when any equipment or system can potentially ...