Multivariate probabilistic CRPS learning with an application to day-ahead electricity prices

IF 6.9 2区经济学 Q1 ECONOMICS International Journal of Forecasting Pub Date : 2024-02-14 DOI:10.1016/j.ijforecast.2024.01.005

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Abstract

This paper presents a new method for combining (or aggregating or ensembling) multivariate probabilistic forecasts, considering dependencies between quantiles and marginals through a smoothing procedure that allows for online learning. We discuss two smoothing methods: dimensionality reduction using Basis matrices and penalized smoothing. The new online learning algorithm generalizes the standard CRPS learning framework into multivariate dimensions. It is based on Bernstein Online Aggregation (BOA) and yields optimal asymptotic learning properties. The procedure uses horizontal aggregation, i.e., aggregation across quantiles. We provide an in-depth discussion on possible extensions of the algorithm and several nested cases related to the existing literature on online forecast combination. We apply the proposed methodology to forecasting day-ahead electricity prices, which are 24-dimensional distributional forecasts. The proposed method yields significant improvements over uniform combination in terms of continuous ranked probability score (CRPS). We discuss the temporal evolution of the weights and hyperparameters and present the results of reduced versions of the preferred model. A fast C＋＋implementation of the proposed algorithm is provided in the open-source R-Package profoc on CRAN.

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多元概率 CRPS 学习在日前电价中的应用

本文提出了一种组合（或聚合或集合）多变量概率预测的新方法，通过允许在线学习的平滑程序，考虑量值和边际值之间的依赖关系。我们讨论了两种平滑方法：使用基矩阵降维和惩罚平滑。新的在线学习算法将标准的 CRPS 学习框架推广到多变量维度。该算法以伯恩斯坦在线聚合（BOA）为基础，可获得最佳渐近学习特性。该程序使用水平聚合，即跨量化聚合。我们深入讨论了算法的可能扩展以及与现有在线预测组合文献相关的几个嵌套案例。我们将提出的方法应用于 24 维分布预测的日前电价预测。就连续排序概率得分（CRPS）而言，所提出的方法比统一组合方法有显著改进。我们讨论了权重和超参数的时间演化，并展示了首选模型缩减版本的结果。在 CRAN 上的开源软件包中提供了所提算法的快速 C＋＋实现。

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来源期刊

International Journal of Forecasting Multiple-

CiteScore

17.10

自引率

11.40%

发文量

189

审稿时长

77 days

期刊介绍： The International Journal of Forecasting is a leading journal in its field that publishes high quality refereed papers. It aims to bridge the gap between theory and practice, making forecasting useful and relevant for decision and policy makers. The journal places strong emphasis on empirical studies, evaluation activities, implementation research, and improving the practice of forecasting. It welcomes various points of view and encourages debate to find solutions to field-related problems. The journal is the official publication of the International Institute of Forecasters (IIF) and is indexed in Sociological Abstracts, Journal of Economic Literature, Statistical Theory and Method Abstracts, INSPEC, Current Contents, UMI Data Courier, RePEc, Academic Journal Guide, CIS, IAOR, and Social Sciences Citation Index.

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