A two-step machine learning approach to statistical post-processing of weather forecasts for power generation

IF 3 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Ágnes Baran, Sándor Baran
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Abstract

By the end of 2021, the renewable energy share of the global electricity capacity reached 38.3% and the new installations are dominated by wind and solar energy, showing global increases of 12.7% and 18.5%, respectively. However, both wind and photovoltaic energy sources are highly volatile making planning difficult for grid operators, so accurate forecasts of the corresponding weather variables are essential for reliable electricity predictions. The most advanced approach in weather prediction is the ensemble method, which opens the door for probabilistic forecasting; though ensemble forecast are often underdispersive and subject to systematic bias. Hence, they require some form of statistical post-processing, where parametric models provide full predictive distributions of the weather variables at hand. We propose a general two-step machine learning-based approach to calibrating ensemble weather forecasts, where in the first step improved point forecasts are generated, which are then together with various ensemble statistics serve as input features of the neural network estimating the parameters of the predictive distribution. In two case studies based of 100m wind speed and global horizontal irradiance forecasts of the operational ensemble prediction system of the Hungarian Meteorological Service, the predictive performance of this novel method is compared with the forecast skill of the raw ensemble and the state-of-the-art parametric approaches. Both case studies confirm that at least up to 48h statistical post-processing substantially improves the predictive performance of the raw ensemble for all considered forecast horizons. The investigated variants of the proposed two-step method outperform in skill their competitors and the suggested new approach is well applicable for different weather quantities and for a fair range of predictive distributions.
对发电天气预报进行统计后处理的两步式机器学习方法
到 2021 年底,可再生能源占全球发电量的比例将达到 38.3%,新增装机主要来自风能和太阳能,全球增幅分别为 12.7% 和 18.5%。然而,风能和光伏能源都极不稳定,给电网运营商的规划工作带来了困难,因此准确预测相应的天气变量对于可靠的电力预测至关重要。天气预测中最先进的方法是集合方法,它为概率预测打开了大门;不过,集合预测往往分散性不足,并受到系统性偏差的影响。因此,它们需要某种形式的统计后处理,其中参数模型提供了当前天气变量的完整预测分布。我们提出了一种基于机器学习的两步校准集合天气预报方法,第一步是生成改进的点预报,然后将其与各种集合统计数据一起作为估计预测分布参数的神经网络的输入特征。在基于匈牙利气象局业务集合预测系统的 100 米风速和全球水平辐照度预测的两个案例研究中,将这种新方法的预测性能与原始集合的预测技能和最先进的参数方法进行了比较。这两项案例研究都证实,至少在 48 小时内,统计后处理可大幅提高原始集合对所有预报时段的预测性能。建议的两步法的研究变体在技能上优于其竞争对手,建议的新方法非常适用于不同的天气数量和相当范围的预测分布。
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来源期刊
CiteScore
16.80
自引率
4.50%
发文量
163
审稿时长
3-8 weeks
期刊介绍: The Quarterly Journal of the Royal Meteorological Society is a journal published by the Royal Meteorological Society. It aims to communicate and document new research in the atmospheric sciences and related fields. The journal is considered one of the leading publications in meteorology worldwide. It accepts articles, comprehensive review articles, and comments on published papers. It is published eight times a year, with additional special issues. The Quarterly Journal has a wide readership of scientists in the atmospheric and related fields. It is indexed and abstracted in various databases, including Advanced Polymers Abstracts, Agricultural Engineering Abstracts, CAB Abstracts, CABDirect, COMPENDEX, CSA Civil Engineering Abstracts, Earthquake Engineering Abstracts, Engineered Materials Abstracts, Science Citation Index, SCOPUS, Web of Science, and more.
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