The present paper introduces a patented method for real-time prediction and performance monitoring of photovoltaic (PV) systems. The approach integrates module temperature, irradiance, and solar angles into two physically interpretable matrices. Together, these matrices capture shading losses and production variations. The model was trained on synthetic data from a 1 MW plant with single-axis North-South trackers and then validated at a second site with similar coordinates, achieving an (R2) value of 0.988. The design of the algorithm is both transparent and lightweight, thus facilitating the generation of precise power forecasts while ensuring seamless integration into O&M platforms. This enhances fault detection and operational optimization with minimal computational effort.
Miceli, A.V., Bonomolo, M., Buscemi, A., Brano, V.L., Guarino, S., Massaro, F. (2025). A Novel ML Approach for Real-Time Prediction of PV Production: Tracking and Self-Shading Effects. In Conference Proceedings - 2025 IEEE International Conference on Environment and Electrical Engineering and 2025 IEEE Industrial and Commercial Power Systems Europe, EEEIC / I and CPS Europe 2025 (pp. 1-6). Institute of Electrical and Electronics Engineers Inc. [10.1109/eeeic/icpseurope64998.2025.11169148].
A Novel ML Approach for Real-Time Prediction of PV Production: Tracking and Self-Shading Effects
Miceli, Angela Valeria
Primo
;Bonomolo, Marina;Buscemi, Alessandro;Brano, Valerio Lo;Guarino, Stefania;Massaro, Fabio
2025-01-01
Abstract
The present paper introduces a patented method for real-time prediction and performance monitoring of photovoltaic (PV) systems. The approach integrates module temperature, irradiance, and solar angles into two physically interpretable matrices. Together, these matrices capture shading losses and production variations. The model was trained on synthetic data from a 1 MW plant with single-axis North-South trackers and then validated at a second site with similar coordinates, achieving an (R2) value of 0.988. The design of the algorithm is both transparent and lightweight, thus facilitating the generation of precise power forecasts while ensuring seamless integration into O&M platforms. This enhances fault detection and operational optimization with minimal computational effort.
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EEEIC2025_postprint.pdf
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