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引用次数: 0
摘要
随着人们对监测气候现象的兴趣日益浓厚,检测功能数据中的变化点已成为一个重要问题。观测数据通常包含振幅(y $ y $ -轴)和相位(x $ x $ -轴)变化。如果考虑不周,可能会检测不到真正的变化点,而且估计的基本平均变化函数也不正确。本文开发了一种弹性函数变化点方法,可适当考虑这些类型的变化。该方法可以检测到振幅和相位变化点,而目前文献中的方法无法检测到这些变化点,因为它们只关注振幅变化点。这种方法可以直接使用函数轻松实现,也可以通过函数主成分分析来计算,以减轻计算负担。我们将该方法及其非弹性竞争者应用于模拟数据和观测数据,以显示其在处理具有振幅和相位变化点的相位变化数据时的效率。我们使用该方法评估了 1991 年 6 月菲律宾皮纳图博火山爆发可能导致的平流层温度变化。利用流行病变化点模型,我们发现了平流层温度在皮纳图博火山爆发后的一段时间内上升的证据,大多数检测到的变化点都如预期的那样出现在热带地区。
Elastic functional changepoint detection of climate impacts from localized sources
Detecting changepoints in functional data has become an important problem as interest in monitoring of climate phenomenon has increased, where the data is functional in nature. The observed data often contains both amplitude (-axis) and phase (-axis) variability. If not accounted for properly, true changepoints may be undetected, and the estimated underlying mean change functions will be incorrect. In this article, an elastic functional changepoint method is developed which properly accounts for these types of variability. The method can detect amplitude and phase changepoints which current methods in the literature do not, as they focus solely on the amplitude changepoint. This method can easily be implemented using the functions directly or can be computed via functional principal component analysis to ease the computational burden. We apply the method and its nonelastic competitors to both simulated data and observed data to show its efficiency in handling data with phase variation with both amplitude and phase changepoints. We use the method to evaluate potential changes in stratospheric temperature due to the eruption of Mt. Pinatubo in the Philippines in June 1991. Using an epidemic changepoint model, we find evidence of a increase in stratospheric temperature during a period that contains the immediate aftermath of Mt. Pinatubo, with most detected changepoints occurring in the tropics as expected.
期刊介绍:
Environmetrics, the official journal of The International Environmetrics Society (TIES), an Association of the International Statistical Institute, is devoted to the dissemination of high-quality quantitative research in the environmental sciences.
The journal welcomes pertinent and innovative submissions from quantitative disciplines developing new statistical and mathematical techniques, methods, and theories that solve modern environmental problems. Articles must proffer substantive, new statistical or mathematical advances to answer important scientific questions in the environmental sciences, or must develop novel or enhanced statistical methodology with clear applications to environmental science. New methods should be illustrated with recent environmental data.
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