Classical risk assessment and risk management which is gaining importance in many industries is usually based on well defined processes and uses techniques like FTA and FMEA. However, classical risk analysis techniques like FTA and FMEA should ideally be automated, at least to some extent and without loss of effectiveness, to enable fast and cost effective iterations of system modelling and risk analysis that can meet the tight cost and time constraints of most offshore projects. This paper is focused on the presentation of a new concept and tool extension for model-based synthesis of fault trees and FMEAs in which these failure analyses are automatically constructed from engineering design models, e.g. simulation models that have been augm...
This research work is primarily concerned with modelling of process plants for use with hazard ident...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Classical risk assessment and risk management which is gaining importance in many industries is usua...
Abstract—Safety analysis is a common and important task for any operational planning of missions suc...
Engineering systems such as energy production facilities, aviation systems, maritime vessels, etc. c...
Safety engineering for complex systems is a very challenging task and the industry has a firm basis...
To deliver complex functionalities in a cost effective manner, distributed manufacturing systems sho...
Failure Modes and Effects Analysis (FMEA) is a widely used system and software safety analysis techn...
The application of fault tree analysis (FTA) to system safety and reliability is presented within th...
Today’s technical systems complexity is increasing in most industrial domains. In combination with t...
Engineering systems such as energy production facilities, aviation systems, maritime vessels, etc. c...
To deliver complex functionalities in a cost effective manner, distributed manufacturing systems sho...
Abstract: To deliver complex functionalities in a cost effective manner, distributed manufacturing s...
PresentationFault tree analysis (FTA) has been used in the chemical process industry (CPI) for syste...
This research work is primarily concerned with modelling of process plants for use with hazard ident...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Classical risk assessment and risk management which is gaining importance in many industries is usua...
Abstract—Safety analysis is a common and important task for any operational planning of missions suc...
Engineering systems such as energy production facilities, aviation systems, maritime vessels, etc. c...
Safety engineering for complex systems is a very challenging task and the industry has a firm basis...
To deliver complex functionalities in a cost effective manner, distributed manufacturing systems sho...
Failure Modes and Effects Analysis (FMEA) is a widely used system and software safety analysis techn...
The application of fault tree analysis (FTA) to system safety and reliability is presented within th...
Today’s technical systems complexity is increasing in most industrial domains. In combination with t...
Engineering systems such as energy production facilities, aviation systems, maritime vessels, etc. c...
To deliver complex functionalities in a cost effective manner, distributed manufacturing systems sho...
Abstract: To deliver complex functionalities in a cost effective manner, distributed manufacturing s...
PresentationFault tree analysis (FTA) has been used in the chemical process industry (CPI) for syste...
This research work is primarily concerned with modelling of process plants for use with hazard ident...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...
Formal methods have significant benefits for developing safety critical systems, in that they allow ...