Sampling properties and empirical estimates of extreme events

Mackay, E. and Jonathan, P. (2021) Sampling properties and empirical estimates of extreme events. Ocean Engineering, 239. ISSN 0029-8018

Full text not available from this repository.


The statistical characteristics of the largest observations in a sample are highly uncertain. In this work we consider the problem of how to define empirical estimates of exceedance probabilities and return periods associated with an ordered sample of observations. Understanding the sampling properties of these quantities is important for assessing the fit of a statistical model and also for placing confidence bounds on estimates of extreme events from Monte Carlo simulations. The empirical distribution function (EDF) is often defined as the expected non-exceedance probability (NEP) associated with sample order statistics. Yet, due to the non-linearity of the relations between return periods, quantiles and NEP, the return period (or quantile) associated with the expected NEP is not equal to the expected return period (or quantile), leading to ambiguity. However, the sampling distributions of exceedance probabilities, return periods and quantiles are, in fact, linked by a simple relation. From this relation, it follows that defining the EDF in terms of the median NEP of the order statistics gives a consistent framework for defining empirical estimates of all three quantities. We demonstrate that the median value of the return period of the largest observation is 44% larger than the return period calculated using the common definition of the EDF in terms of the expected NEP of the order statistics. We also derive some new results about the size of the confidence intervals for exceedance probabilities and return periods.

Item Type:
Journal Article
Journal or Publication Title:
Ocean Engineering
Uncontrolled Keywords:
ID Code:
Deposited By:
Deposited On:
05 Oct 2021 09:45
Last Modified:
22 Nov 2022 10:40