Litcius/Paper detail

Examining the Potential of a Random Forest Derived Cloud Mask from GOES-R Satellites to Improve Solar Irradiance Forecasting

Tyler McCandless, Pedro A. Jiménez

2020Energies28 citationsDOIOpen Access PDF

Abstract

In order for numerical weather prediction (NWP) models to correctly predict solar irradiance reaching the earth's surface for more accurate solar power forecasting, it is important to initialize the NWP model with accurate cloud information. Knowing where the clouds are located is the first step. Using data from geostationary satellites is an attractive possibility given the low latencies and high spatio-temporal resolution provided nowadays. Here, we explore the potential of utilizing the random forest machine learning method to generate the cloud mask from GOES-16 radiances. We first perform a predictor selection process to determine the optimal predictor set for the random forest predictions of the horizontal cloud fraction and then determine the appropriate threshold to generate the cloud mask prediction. The results show that the random forest method performs as well as the GOES-16 level 2 clear sky mask product with the ability to customize the threshold for under or over predicting cloud cover. Further developments to enhance the cloud mask estimations for improved short-term solar irradiance and power forecasting with the MAD-WRF NWP model are discussed.

Topics & Concepts

Numerical weather predictionSolar irradianceCloud computingCloud coverMeteorologyGeostationary orbitRandom forestEnvironmental scienceIrradianceWeather Research and Forecasting ModelCloud fractionRemote sensingComputer scienceCloud topSatelliteGeographyEngineeringArtificial intelligenceAerospace engineeringPhysicsOperating systemQuantum mechanicsSolar Radiation and PhotovoltaicsWind Energy Research and DevelopmentAtmospheric aerosols and clouds
Examining the Potential of a Random Forest Derived Cloud Mask from GOES-R Satellites to Improve Solar Irradiance Forecasting | Litcius