Global sensitivity analysis (GSA) is a powerful approach in identifying which inputs or parameters most affect a model's output. This determines which inputs to include when performing model calibration or uncertainty analysis. GSA allows quantification of the sensitivity index (SI) of a particular input – the percentage of the total variability in the output attributed to the changes in that input – by averaging over the other inputs rather than fixing them at specific values. Traditional methods of computing the SIs using the Sobol and extended Fourier Amplitude Sensitivity Test (eFAST) methods involve running a model thousands of times, but this may not be feasible for computationally expensive Earth system models. GSA methods ...
International audienceThis paper deals with global sensitivity analysis of computer model output. Gi...
Global sensitivity analysis (GSA) of numerical simulators aims at studying the global impact of the ...
This paper deals with global sensitivity analysis of computer model output. Given an independent inp...
Global sensitivity analysis (GSA) is a powerful approach in identifying which inputs or parameters m...
Dynamical earth and environmental systems models are typically computationally intensive and highly ...
Complex Environmental Systems Models (CESMs) have been developed and applied as vital tools to tackl...
The model data used in the paper by Ryan et al. entitled: "Fast sensitivity analysis methods for com...
This chapter makes a review, in a complete methodological framework, of various global sensitivity a...
A novel practical method to conduct a Global Sensitivity Analysis (GSA) for computer models is propo...
Computer models are essential tools in the earth system sciences. They underpin our search for under...
International audienceGlobal sensitivity analysis is used to quantify the influence of uncertain inp...
Global sensitivity analysis (GSA) is an essential tool for understanding, verifying, and improving m...
Global Sensitivity Analysis (GSA) is a set of statistical techniques to investigate the effects of t...
Environmental models involve inherent uncertainties, the understanding of which is required for use ...
International audienceThis paper deals with global sensitivity analysis of computer model output. Gi...
Global sensitivity analysis (GSA) of numerical simulators aims at studying the global impact of the ...
This paper deals with global sensitivity analysis of computer model output. Given an independent inp...
Global sensitivity analysis (GSA) is a powerful approach in identifying which inputs or parameters m...
Dynamical earth and environmental systems models are typically computationally intensive and highly ...
Complex Environmental Systems Models (CESMs) have been developed and applied as vital tools to tackl...
The model data used in the paper by Ryan et al. entitled: "Fast sensitivity analysis methods for com...
This chapter makes a review, in a complete methodological framework, of various global sensitivity a...
A novel practical method to conduct a Global Sensitivity Analysis (GSA) for computer models is propo...
Computer models are essential tools in the earth system sciences. They underpin our search for under...
International audienceGlobal sensitivity analysis is used to quantify the influence of uncertain inp...
Global sensitivity analysis (GSA) is an essential tool for understanding, verifying, and improving m...
Global Sensitivity Analysis (GSA) is a set of statistical techniques to investigate the effects of t...
Environmental models involve inherent uncertainties, the understanding of which is required for use ...
International audienceThis paper deals with global sensitivity analysis of computer model output. Gi...
Global sensitivity analysis (GSA) of numerical simulators aims at studying the global impact of the ...
This paper deals with global sensitivity analysis of computer model output. Given an independent inp...