Michele Nguyen, Almut E. D. Veraart, Benoit Taisne, Chiou Ting Tan, David Lallemant
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引用次数: 0
Abstract
Abstract Extreme events such as natural and economic disasters leave lasting impacts on society and motivate the analysis of extremes from data. While classical statistical tools based on Gaussian distributions focus on average behaviour and can lead to persistent biases when estimating extremes, extreme value theory (EVT) provides the mathematical foundations to accurately characterise extremes. This motivates the development of extreme value models for extreme event forecasting. In this paper, a dynamic extreme value model is proposed for forecasting volcanic eruptions. This is inspired by one recently introduced for financial risk forecasting with high-frequency data. Using a case study of the Piton de la Fournaise volcano, it is shown that the modelling framework is widely applicable, flexible and holds strong promise for natural hazard forecasting. The value of using EVT-informed thresholds to identify and model extreme events is shown through forecast performance, and considerations to account for the range of observed events are discussed.
自然灾害和经济灾害等极端事件对社会产生了持久的影响,促使人们从数据中分析极端事件。虽然基于高斯分布的经典统计工具关注的是平均行为,在估计极值时可能导致持续的偏差,但极值理论(EVT)提供了准确表征极值的数学基础。这促使了极端事件预测极值模型的发展。本文提出了一种预测火山喷发的动态极值模型。这是受到最近引入的一种利用高频数据进行金融风险预测的启发。通过对Piton de la Fournaise火山的实例研究表明,该模型框架具有广泛的适用性和灵活性,在自然灾害预测中具有很强的应用前景。通过预测性能显示了使用evt通知阈值来识别和模拟极端事件的价值,并讨论了考虑观察到的事件范围的考虑因素。
期刊介绍:
Mathematical Geosciences (formerly Mathematical Geology) publishes original, high-quality, interdisciplinary papers in geomathematics focusing on quantitative methods and studies of the Earth, its natural resources and the environment. This international publication is the official journal of the IAMG. Mathematical Geosciences is an essential reference for researchers and practitioners of geomathematics who develop and apply quantitative models to earth science and geo-engineering problems.
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