Calculating Exceedance Probabilities Using a Distributionally Robust Method

Calculation of exceedance probabilities or the inverse problem of finding the level corresponding to a given exceedance probability occurs in many practical applications. For instance, it is often of interest in offshore engineering to evaluate the wind, wave, current, and sea ice properties with an...

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Bibliographic Details
Main Authors: Farzad Faridafshin, Bogdan Grechuk, Arvid Naess
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2017
Subjects:
Uncategorized
Exceedance probability
Probability bound
Distributionally robust optimization
Log-concave distribution
Imprecise probability
Sea ice
Online Access:https://figshare.com/articles/journal_contribution/Calculating_Exceedance_Probabilities_Using_a_Distributionally_Robust_Method/10216775
Description
Summary:Calculation of exceedance probabilities or the inverse problem of finding the level corresponding to a given exceedance probability occurs in many practical applications. For instance, it is often of interest in offshore engineering to evaluate the wind, wave, current, and sea ice properties with annual exceedance probabilities of, e.g., 10−1, 10−2, and 10−3, or so-called 10-year, 100-year, and 1000-year values. A methodology is provided in this article to calculate a tight upper bound of the exceedance probability, given any probability distribution from a wide range of commonly used distributions. The approach is based on a generalization of the Chebyshev inequality for the class of distributions with a logarithmically concave cumulative distribution function, and has the potential to relieve the often-debated exercise of determining an appropriate probability distribution function based on limited data, particularly in terms of tail behavior. Two numerical examples are provided for illustration.

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