Modern extreme value statistics for Utopian extremes. EVA (2023) Conference Data Challenge: Team Yalla

IF 1.1 3区数学 Q3 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Extremes Pub Date : 2024-09-07 DOI:10.1007/s10687-024-00496-y

Jordan Richards, Noura Alotaibi, Daniela Cisneros, Yan Gong, Matheus B. Guerrero, Paolo Victor Redondo, Xuanjie Shao

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Abstract

Capturing the extremal behaviour of data often requires bespoke marginal and dependence models which are grounded in rigorous asymptotic theory, and hence provide reliable extrapolation into the upper tails of the data-generating distribution. We present a modern toolbox of four methodological frameworks, motivated by classical extreme value theory, that can be used to accurately estimate extreme exceedance probabilities or the corresponding level in either a univariate or multivariate setting. Our frameworks were used to facilitate the winning contribution of Team Yalla to the EVA (2023) Conference Data Challenge, which was organised for the 13\(^\text {th}\) International Conference on Extreme Value Analysis. This competition comprised seven teams competing across four separate sub-challenges, with each requiring the modelling of data simulated from known, yet highly complex, statistical distributions, and extrapolation far beyond the range of the available samples in order to predict probabilities of extreme events. Data were constructed to be representative of real environmental data, sampled from the fantasy country of “Utopia”.

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乌托邦极值的现代极值统计。EVA (2023) 会议数据挑战赛：雅拉团队

要捕捉数据的极值行为，往往需要以严格的渐近理论为基础的定制边际和依赖模型，从而为数据生成分布的上尾提供可靠的外推。受经典极值理论的启发，我们提出了由四个方法框架组成的现代工具箱，可用于在单变量或多变量环境中准确估计极值超出概率或相应水平。我们的框架被用于帮助Yalla团队在EVA（2023）会议数据挑战赛中获胜，该挑战赛是为第13届（^\text {th}）国际极值分析会议组织的。这项比赛由七个团队组成，分别参加四个子挑战赛，每个子挑战赛都要求对从已知但高度复杂的统计分布中模拟出来的数据进行建模，并进行远远超出现有样本范围的外推，以预测极端事件的概率。所构建的数据代表了真实的环境数据，取样于幻想中的 "乌托邦 "国家。

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来源期刊

Extremes MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-STATISTICS & PROBABILITY

CiteScore

2.20

自引率

7.70%

发文量

审稿时长

>12 weeks

期刊介绍： Extremes publishes original research on all aspects of statistical extreme value theory and its applications in science, engineering, economics and other fields. Authoritative and timely reviews of theoretical advances and of extreme value methods and problems in important applied areas, including detailed case studies, are welcome and will be a regular feature. All papers are refereed. Publication will be swift: in particular electronic submission and correspondence is encouraged. Statistical extreme value methods encompass a very wide range of problems: Extreme waves, rainfall, and floods are of basic importance in oceanography and hydrology, as are high windspeeds and extreme temperatures in meteorology and catastrophic claims in insurance. The waveforms and extremes of random loads determine lifelengths in structural safety, corrosion and metal fatigue.