Threshold selection and trimming in extremes.

IF 1.1 3区数学 Q3 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Extremes Pub Date : 2020-01-01 Epub Date: 2020-07-14 DOI:10.1007/s10687-020-00385-0

Martin Bladt, Hansjörg Albrecher, Jan Beirlant

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引用次数: 5

Abstract

We consider removing lower order statistics from the classical Hill estimator in extreme value statistics, and compensating for it by rescaling the remaining terms. Trajectories of these trimmed statistics as a function of the extent of trimming turn out to be quite flat near the optimal threshold value. For the regularly varying case, the classical threshold selection problem in tail estimation is then revisited, both visually via trimmed Hill plots and, for the Hall class, also mathematically via minimizing the expected empirical variance. This leads to a simple threshold selection procedure for the classical Hill estimator which circumvents the estimation of some of the tail characteristics, a problem which is usually the bottleneck in threshold selection. As a by-product, we derive an alternative estimator of the tail index, which assigns more weight to large observations, and works particularly well for relatively lighter tails. A simple ratio statistic routine is suggested to evaluate the goodness of the implied selection of the threshold. We illustrate the favourable performance and the potential of the proposed method with simulation studies and real insurance data.

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阈值选择和极端修剪。

我们考虑从极值统计中的经典Hill估计中去除低阶统计量，并通过重新缩放剩余项来补偿它。作为修剪程度函数的这些修剪统计的轨迹在最佳阈值附近是相当平坦的。对于规则变化的情况，然后重新审视尾部估计中的经典阈值选择问题，既可以通过修剪的Hill图在视觉上进行，也可以通过最小化预期经验方差在数学上进行。这使得经典Hill估计器的阈值选择过程变得简单，从而避免了对某些尾部特征的估计，而这通常是阈值选择的瓶颈。作为副产品，我们推导出尾指数的另一种估计器，它将更多的权重分配给大的观测值，并且对于相对较轻的尾巴特别有效。提出了一种简单的比率统计例程来评价阈值的隐含选择的优劣。我们用模拟研究和真实保险数据说明了该方法的良好性能和潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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.