Weather-Informed Probabilistic Forecasting and Scenario Generation in Power Systems

Hanyu Zhang, Reza Zandehshahvar, Mathieu Tanneau, Pascal Van Hentenryck
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Abstract

The integration of renewable energy sources (RES) into power grids presents significant challenges due to their intrinsic stochasticity and uncertainty, necessitating the development of new techniques for reliable and efficient forecasting. This paper proposes a method combining probabilistic forecasting and Gaussian copula for day-ahead prediction and scenario generation of load, wind, and solar power in high-dimensional contexts. By incorporating weather covariates and restoring spatio-temporal correlations, the proposed method enhances the reliability of probabilistic forecasts in RES. Extensive numerical experiments compare the effectiveness of different time series models, with performance evaluated using comprehensive metrics on a real-world and high-dimensional dataset from Midcontinent Independent System Operator (MISO). The results highlight the importance of weather information and demonstrate the efficacy of the Gaussian copula in generating realistic scenarios, with the proposed weather-informed Temporal Fusion Transformer (WI-TFT) model showing superior performance.
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电力系统中的气象信息概率预测和情景生成
由于其固有的随机性和不确定性,将可再生能源(RES)并入电网面临着巨大挑战,因此有必要开发可靠、高效的预测新技术。本文提出了一种结合概率预测和高斯协库拉的方法,用于高维背景下负荷、风能和太阳能发电的日前预测和情景生成。通过纳入天气变量和恢复时空相关性,所提出的方法提高了可再生能源中概率预测的可靠性。广泛的数值实验比较了不同时间序列模型的有效性,并在中洲独立系统运营商(MISO)的真实高维数据集上使用综合指标对性能进行了评估。结果凸显了天气信息的重要性,并证明了高斯协方差在生成真实情景方面的有效性,而提出的天气信息时空融合变换器(WI-TFT)模型则显示出更优越的性能。
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