Article ID: | iaor20122251 |
Volume: | 100 |
Issue: | 2 |
Start Page Number: | 93 |
End Page Number: | 101 |
Publication Date: | Apr 2012 |
Journal: | Reliability Engineering and System Safety |
Authors: | Pasanisi Alberto, Keller Merlin, Parent Eric |
Keywords: | statistics: distributions |
In the context of risk analysis under uncertainty, we focus here on the problem of estimating a so‐called quantity of interest of an uncertainty analysis problem, i.e. a given feature of the probability distribution function (pdf) of the output of a deterministic model with uncertain inputs. We will stay here in a fully probabilistic setting. A common problem is how to account for epistemic uncertainty tainting the parameter of the probability distribution of the inputs. In the standard practice, this uncertainty is often neglected (plug‐in approach). When a specific uncertainty assessment is made, under the basis of the available information (expertise and/or data), a common solution consists in marginalizing the joint distribution of both observable inputs and parameters of the probabilistic model (i.e. computing the predictive pdf of the inputs), then propagating it through the deterministic model. We will reinterpret this approach in the light of Bayesian decision theory, and will put into evidence that this practice leads the analyst to adopt implicitly a specific loss function which may be inappropriate for the problem under investigation, and suboptimal from a decisional perspective. These concepts are illustrated on a simple numerical example, concerning a case of flood risk assessment.