Estimating probabilities of multivariate failure sets based on pairwise tail dependence coefficients
Abstract
Estimating probabilities of extreme events involving multiple risk factors is a critical challenge in fields such as finance and climate science.
This paper proposes a parametric approach to estimate the probability that a multivariate random vector falls into an extreme failure set, based on the information in the tail pairwise dependence matrix (TPDM) only.
The TPDM provides a summary of tail dependence for all pairs of components of the random vector.
We propose an efficient algorithm to obtain approximate completely positive decompositions of the TPDM, enabling the construction of a max-linear model whose TPDM approximates that of the original random vector.
We also provide conditions under which the approximation turns out to be exact.
Based on the decompositions, we can construct max-linear random vectors to estimate failure probabilities, exploiting their computational simplicity.
We apply the proposed method to estimate probabilities of extreme events for real-world datasets, including industry portfolio returns and maximal wind speeds, demonstrating its practical utility for risk assessment.
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