Enhanced Renewable Energy Forecasting using Context-Aware Conformal Prediction

Generative AI & LLMs

Published: arXiv: 2510.15780v1

Authors

Alireza Moradi Mathieu Tanneau Reza Zandehshahvar Pascal Van Hentenryck

Abstract

Accurate forecasting is critical for reliable power grid operations, particularly as the share of renewable generation, such as wind and solar, continues to grow. Given the inherent uncertainty and variability in renewable generation, probabilistic forecasts have become essential for informed operational decisions. However, such forecasts frequently suffer from calibration issues, potentially degrading decision-making performance. Building on recent advances in Conformal Predictions, this paper introduces a tailored calibration framework that constructs context-aware calibration sets using a novel weighting scheme. The proposed framework improves the quality of probabilistic forecasts at the site and fleet levels, as demonstrated by numerical experiments on large-scale datasets covering several systems in the United States. The results demonstrate that the proposed approach achieves higher forecast reliability and robustness for renewable energy applications compared to existing baselines.

Paper Summary

Problem

Describe the main problem or challenge the paper addresses. Accurate forecasting is critical for reliable power grid operations, particularly as the share of renewable generation, such as wind and solar, continues to grow. The inherent uncertainty and variability in renewable generation make probabilistic forecasts essential for informed operational decisions. However, such forecasts frequently suffer from calibration issues, potentially degrading decision-making performance.

Key Innovation

Explain what is new or unique about this work. The paper introduces a tailored calibration framework that constructs context-aware calibration sets using a novel weighting scheme. This framework improves the quality of probabilistic forecasts at the site

Practical Impact

This research has significant practical implications for the power grid industry. By improving the accuracy and reliability of renewable energy forecasts, it can help to ensure a stable and efficient power supply, which is essential for meeting the growing demand for electricity. This can also lead to cost savings and reduced greenhouse gas emissions.

Analogy / Intuitive Explanation

Imagine you're planning a road trip, and you want to know how much fuel you'll need to buy for the journey. You can use a map to estimate the distance and the fuel efficiency of your car, but you'll also need to consider factors like traffic, road conditions, and weather. In the same way, this research paper proposes a framework for predicting renewable energy output that takes into account the context of the predictions, such as weather conditions and time of day. This helps to improve the accuracy and reliability of the forecasts, which is critical for power grid operations. --- Now, I'll provide the requested information in the required format:

Paper Information

Categories:

stat.AP cs.LG

Published Date:

arXiv ID:

2510.15780v1

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