Safety analysis of Nuclear Power Plants (NPPs) employing digital Instrumentation and Control (I&C) implies that the influence of events timing and magnitudes on the accidental scenarios be taken into account. This entails the simulation of a number of scenarios much larger than that considered for the classical Event Tree/Fault Tree (ET/FT)-based analysis. Consequently, the post-simulation retrieval of information becomes quite difficult and computationally burdensome. This paper reports the results of an investigation with respect to the classification of the numerous accidental scenarios generated in a dynamic safety analysis of a NPP with digital I&C. The method investigated is based on a Fuzzy C-Means clustering algorithm in whi...
The most promising configuration of a nuclear energy fusion system is the tokamak, the largest of wh...
Probabilistic safety assessment in nuclear power plants (NPPs) greatly considers plant safety and op...
The application of expert systems to the diagnostics of nuclear power plant accidents is considered....
Safety analysis of Nuclear Power Plants (NPPs) employing digital Instrumentation and Control (I&...
This paper addresses the issue of the classification of accident scenarios generated in a dynamic sa...
International audienceThis paper addresses the issue of the classification of accident scenarios gen...
This paper reports the results of a comparison of different approaches with respect to the classific...
In this paper, the impact of the choice of the dynamic fault scenarios used for training a Fuzzy C-M...
Identification of faults is an important task in system safety analysis. The large number of system ...
AbstractDynamic Probabilistic Safety Assessment embeds models of the system process (typically therm...
In Integrated Deterministic and Probabilistic Safety Analysis (IDPSA), safe scenarios and Prime Impl...
International audienceIn this work, we present a transient identification approach that utilizes clu...
The most promising configuration of a nuclear energy fusion system is the tokamak, the largest of wh...
Probabilistic safety assessment in nuclear power plants (NPPs) greatly considers plant safety and op...
The application of expert systems to the diagnostics of nuclear power plant accidents is considered....
Safety analysis of Nuclear Power Plants (NPPs) employing digital Instrumentation and Control (I&...
This paper addresses the issue of the classification of accident scenarios generated in a dynamic sa...
International audienceThis paper addresses the issue of the classification of accident scenarios gen...
This paper reports the results of a comparison of different approaches with respect to the classific...
In this paper, the impact of the choice of the dynamic fault scenarios used for training a Fuzzy C-M...
Identification of faults is an important task in system safety analysis. The large number of system ...
AbstractDynamic Probabilistic Safety Assessment embeds models of the system process (typically therm...
In Integrated Deterministic and Probabilistic Safety Analysis (IDPSA), safe scenarios and Prime Impl...
International audienceIn this work, we present a transient identification approach that utilizes clu...
The most promising configuration of a nuclear energy fusion system is the tokamak, the largest of wh...
Probabilistic safety assessment in nuclear power plants (NPPs) greatly considers plant safety and op...
The application of expert systems to the diagnostics of nuclear power plant accidents is considered....