A0689
Title: Assessing extreme risk using stochastic simulation of extremes
Authors: Nisrine Madhar - LPSM (France) [presenting]
Juliette Legrand - Universite de Bretagne Occidentale (UBO) (France)
Maud Thomas - LPSM (France)
Abstract: Risk management is particularly concerned with extreme events, but analysing these events is often hindered by the scarcity of data, especially in a multivariate context. This data scarcity complicates risk management efforts. Various tools can assess the risk posed by extreme events, even under extraordinary circumstances. The evaluation of univariate risk is studied for a given risk factor using metrics that account for its asymptotic dependence on other risk factors. Data availability is crucial, particularly for extreme events where it is often limited by the nature of the phenomenon itself, making estimation challenging. To address this issue, two non-parametric simulation algorithms based on multivariate extreme theory are developed. These algorithms aim to extend a sample of extremes jointly and conditionally for asymptotically dependent variables using stochastic simulation and multivariate generalized Pareto distributions. The approach is illustrated with numerical analyses of both simulated and real data to assess the accuracy of extreme risk metric estimations.
