International audienceThe estimation of the functional failure probability of a thermal-hydraulic (T-H) passive system can be done by Monte Carlo (MC) sampling of the epistemic uncertainties affecting the system model and the numerical values of its parameters, followed by the computation of the system response by a mechanistic T-H code, for each sample. The computational effort associated to this approach can be prohibitive because a large number of lengthy T-H code simulations must be performed (one for each sample) for accurate quantification of the functional failure probability and the related statistics. In this paper, the computational burden is reduced by replacing the long-running, original T-H code by a fast-running, empirical reg...
An approach for efficient estimation of passive safety system functional reliability has been develo...
International audienceThermal-Hydraulic (T-H) passive safety systems are potentially more reliable t...
International audienceFor safety analysis of Nuclear Power Plants (NPPs), Best Estimate (BE) Thermal...
The estimation of the functional failure probability of a thermal-hydraulic (T-H) passive system can...
International audienceThe estimation of the functional failure probability of a thermal-hydraulic (T...
Abstract: In this paper, bootstrapped Artificial Neural Network (ANN) and quadratic Response Surface...
International audienceIn this work, bootstrapped artificial neural network (ANN) and quadratic respo...
International audienceIn this paper, Artificial Neural Network (ANN) and quadratic Response Surface ...
International audienceThe computation of the reliability of a thermal-hydraulic (T-H) passive system...
quadratic Response Surfaces for the estimation of the functional failure probability of a thermal-hy...
International audienceThe quantitative reliability assessment of a thermal-hydraulic (T-H) passive s...
An Adaptive Metamodel-Based Subset Importance Sampling (AM-SIS) approach, previously developed by th...
International audienceThe assessment of the functional failure probability of a thermal-hydraulic (T...
An incremental query learning algorithm is developed for generating an accurate representation of a ...
Thermal-Hydraulic (T-H) passive safety systems are potentially more reliable than active systems, an...
An approach for efficient estimation of passive safety system functional reliability has been develo...
International audienceThermal-Hydraulic (T-H) passive safety systems are potentially more reliable t...
International audienceFor safety analysis of Nuclear Power Plants (NPPs), Best Estimate (BE) Thermal...
The estimation of the functional failure probability of a thermal-hydraulic (T-H) passive system can...
International audienceThe estimation of the functional failure probability of a thermal-hydraulic (T...
Abstract: In this paper, bootstrapped Artificial Neural Network (ANN) and quadratic Response Surface...
International audienceIn this work, bootstrapped artificial neural network (ANN) and quadratic respo...
International audienceIn this paper, Artificial Neural Network (ANN) and quadratic Response Surface ...
International audienceThe computation of the reliability of a thermal-hydraulic (T-H) passive system...
quadratic Response Surfaces for the estimation of the functional failure probability of a thermal-hy...
International audienceThe quantitative reliability assessment of a thermal-hydraulic (T-H) passive s...
An Adaptive Metamodel-Based Subset Importance Sampling (AM-SIS) approach, previously developed by th...
International audienceThe assessment of the functional failure probability of a thermal-hydraulic (T...
An incremental query learning algorithm is developed for generating an accurate representation of a ...
Thermal-Hydraulic (T-H) passive safety systems are potentially more reliable than active systems, an...
An approach for efficient estimation of passive safety system functional reliability has been develo...
International audienceThermal-Hydraulic (T-H) passive safety systems are potentially more reliable t...
International audienceFor safety analysis of Nuclear Power Plants (NPPs), Best Estimate (BE) Thermal...