We propose new metrics to assist global sensitivity analysis, GSA, of hydrological and Earth systems. Our approach allows assessing the impact of uncertain parameters on main features of the probability density function, pdf, of a target model output, y. These include the expected value of y, the spread around the mean and the degree of symmetry and tailedness of the pdf of y. Since reliable assessment of higher order statistical moments can be computationally demanding, we couple our GSA approach with a surrogate model, approximating the full model response at a reduced computational cost. Here, we consider the generalized Polynomial Chaos Expansion (gPCE), other model reduction techniques being fully compatible with our theoretical framew...
This is the published version. Copyright 2014 American Geophysical UnionThis paper presents a hybrid...
In this work, we investigate methods for gaining greater insight from hydrological model runs conduc...
International audienceThe PESHMELBA model simulates water and pesticide transfers at the catchment s...
We propose new metrics to assist global sensitivity analysis, GSA, of hydrological and Earth systems...
Global sensitivity analysis (GSA) is routinely used in academic setting to quantify the influence of...
We rely on various Global Sensitivity Analysis (GSA) approaches to detect the way uncertain paramete...
Sensitivity analysis (SA) aims to identify the key parameters that affect model performance and it p...
We perform global sensitivity analysis (GSA) through polynomial chaos expansion (PCE) on a contamina...
Simulations from hydrological models are affected by potentially large uncertainties stemming from v...
Complex Environmental Systems Models (CESMs) have been developed and applied as vital tools to tackl...
International audienceWe perform Global Sensitivity Analysis (GSA) through Polynomial Chaos Expansio...
This is the published version. Copyright 2014 American Geophysical UnionThis paper presents a hybrid...
In this work, we investigate methods for gaining greater insight from hydrological model runs conduc...
International audienceThe PESHMELBA model simulates water and pesticide transfers at the catchment s...
We propose new metrics to assist global sensitivity analysis, GSA, of hydrological and Earth systems...
Global sensitivity analysis (GSA) is routinely used in academic setting to quantify the influence of...
We rely on various Global Sensitivity Analysis (GSA) approaches to detect the way uncertain paramete...
Sensitivity analysis (SA) aims to identify the key parameters that affect model performance and it p...
We perform global sensitivity analysis (GSA) through polynomial chaos expansion (PCE) on a contamina...
Simulations from hydrological models are affected by potentially large uncertainties stemming from v...
Complex Environmental Systems Models (CESMs) have been developed and applied as vital tools to tackl...
International audienceWe perform Global Sensitivity Analysis (GSA) through Polynomial Chaos Expansio...
This is the published version. Copyright 2014 American Geophysical UnionThis paper presents a hybrid...
In this work, we investigate methods for gaining greater insight from hydrological model runs conduc...
International audienceThe PESHMELBA model simulates water and pesticide transfers at the catchment s...