Probabilistic Solar Flare Forecasting Using Historical Magnetogram Data

Abstract

Abstract Solar flare forecasting research using machine learning (ML) has focused on high-resolution magnetogram data from the SDO/HMI era covering solar cycle 24 and the start of solar cycle 25, with some efforts looking back to SOHO/MDI for data from solar cycle 23. In this paper, we consider over four solar cycles of daily historical magnetogram data from multiple instruments. This is the first attempt to take advantage of this historical data for ML-based flare forecasting. We apply a convolutional neural network (CNN) to extract features from full-disk magnetograms together with a logistic regression model to incorporate scalar features based on magnetograms and flaring history. We use an ensemble approach to generate calibrated probabilistic forecasts of M-class or larger flares in the next 24 hr. Overall, we find that including historical data improves forecasting skill and reliability. We show that single-frame magnetograms do not contain significantly more relevant information than can be summarized in a small number of scalar features, and that flaring history has greater predictive power than our CNN-extracted features. This indicates the importance of including temporal information in flare forecasting models.