Producción CyT
Artículo
Autoría
Orte, Facundo
;
Lusi, Anabela
;
Carmona, Facundo
;
D'Elia, Raul
;
Faraminan, Adan
;
Wolfram, Elian
Fecha
2021
Editorial y Lugar de Edición
Institute of Electrical and Electronics Engineers Inc.
Revista
2021 19th Workshop on Information Processing and Control, RPIC 2021
Institute of Electrical and Electronics Engineers Inc.
Resumen
Información suministrada por el agente en
SIGEVA
Accurate information of solar radiation from satellites is crucial for many applications, mainly in regions with lack of ground-based measurements. In this sense, comparison with ground-based measurement is necessary to ensure the reliability of the information. In this work, the daily global solar irradiation data from NASA´s Prediction of Worldwide Energy Resources (NASA-POWER; power.larc.nasa.gov) were compared with ground-based measurements in the 8 stations of the Saver-Net solar irr...
Accurate information of solar radiation from satellites is crucial for many applications, mainly in regions with lack of ground-based measurements. In this sense, comparison with ground-based measurement is necessary to ensure the reliability of the information. In this work, the daily global solar irradiation data from NASA´s Prediction of Worldwide Energy Resources (NASA-POWER; power.larc.nasa.gov) were compared with ground-based measurements in the 8 stations of the Saver-Net solar irradiance network (http://www.savernet-satreps.org/en) installed in the south of South America. A linear regression analysis was performed to analyze the agreement between satellite data and ground-based measurements. The coefficient of determination shows very good correspondence with a mean value of 0.95. The mean absolute error (0.63 kWh/m2/d) and the root mean squared error (0.48 kWh/m2/d) reflect a low difference.
Ver más
Ver menos
Palabras Clave
SAVER-NETNASA-POWER DATADAILY GLOBAL SOLAR IRRADIATIONVALIDATION