High-Dimensional Covariance Estimation From a Small Number of Samples

IF 4.4 2区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES Journal of Advances in Modeling Earth Systems Pub Date : 2024-08-30 DOI:10.1029/2024MS004417
David Vishny, Matthias Morzfeld, Kyle Gwirtz, Eviatar Bach, Oliver R. A. Dunbar, Daniel Hodyss
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Abstract

We synthesize knowledge from numerical weather prediction, inverse theory, and statistics to address the problem of estimating a high-dimensional covariance matrix from a small number of samples. This problem is fundamental in statistics, machine learning/artificial intelligence, and in modern Earth science. We create several new adaptive methods for high-dimensional covariance estimation, but one method, which we call Noise-Informed Covariance Estimation (NICE), stands out because it has three important properties: (a) NICE is conceptually simple and computationally efficient; (b) NICE guarantees symmetric positive semi-definite covariance estimates; and (c) NICE is largely tuning-free. We illustrate the use of NICE on a large set of Earth science–inspired numerical examples, including cycling data assimilation, inversion of geophysical field data, and training of feed-forward neural networks with time-averaged data from a chaotic dynamical system. Our theory, heuristics and numerical tests suggest that NICE may indeed be a viable option for high-dimensional covariance estimation in many Earth science problems.

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从少量样本中进行高维协方差估计
我们综合了数值天气预报、逆理论和统计学的知识,以解决从少量样本中估计高维协方差矩阵的问题。这个问题是统计学、机器学习/人工智能和现代地球科学的基础。我们为高维协方差估计创建了几种新的自适应方法,但其中一种我们称为噪声信息协方差估计(NICE)的方法脱颖而出,因为它具有三个重要特性:(a)NICE 概念简单,计算效率高;(b)NICE 保证对称正半有限协方差估计;(c)NICE 基本上无需调整。我们在大量受地球科学启发的数值示例中说明了 NICE 的使用,包括循环数据同化、地球物理场数据反演以及利用混沌动力系统的时均数据训练前馈神经网络。我们的理论、启发式方法和数值测试表明,NICE 可能确实是许多地球科学问题中进行高维协方差估计的可行选择。
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来源期刊
Journal of Advances in Modeling Earth Systems
Journal of Advances in Modeling Earth Systems METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
11.40
自引率
11.80%
发文量
241
审稿时长
>12 weeks
期刊介绍: The Journal of Advances in Modeling Earth Systems (JAMES) is committed to advancing the science of Earth systems modeling by offering high-quality scientific research through online availability and open access licensing. JAMES invites authors and readers from the international Earth systems modeling community. Open access. Articles are available free of charge for everyone with Internet access to view and download. Formal peer review. Supplemental material, such as code samples, images, and visualizations, is published at no additional charge. No additional charge for color figures. Modest page charges to cover production costs. Articles published in high-quality full text PDF, HTML, and XML. Internal and external reference linking, DOI registration, and forward linking via CrossRef.
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