Forecasting changes in solar wind properties accurately is crucial for predicting space weather, as it significantly impacts the majority of space operations and the telecommunication system. To meet this challenge, we introduce an architecture that combines U-Net’s capabilities for segmenting coronal holes from high-resolution sun images with the predictive abilities of Long Short-Term Memory (LSTM) and ConvLSTM models. This architecture predicts solar wind density using sun surface images obtained from the AIA 193 Å dataset (provided by NASA) and historical electron and proton density data from the OMNI and ELM2 datasets (also provided by NASA), covering the entire year 2012. Our findings demonstrate the system’s ability to generate reliable coronal hole segmentation maps and achieve good accuracy in forecasting solar wind density.
Dettaglio pubblicazione
2023, Proceedings of the 8th International Conference of Yearly Reports on Informatics, Mathematics, and Engineering. (ICYRIME 2023), Naples, July 28-31, 2023., Pages 32-38 (volume: 3684)
Solar Wind Density Forecasting with U-Net and LSTM-based Neural Networks (04b Atto di convegno in volume)
Iacobelli E., Fiani F., Napoli C.
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