Add to ORKGWe introduce a computational framework to forecast cloud index (CI)fields for up to one hour on a spatial domain that covers a city. Such intra-hour CI forecasts are important to produce solar power forecasts of utility scale solar power and distributed rooftop solar. Our method combines a 2D advection model with cloud motion vectors (CMVs)derived from a mesoscale numerical weather prediction (NWP)model and sparse optical flow acting on successive, geostationary satellite images. We use ensemble data assimilation to combine these sources of cloud motion information based on the uncertainty of each data source. Our technique produces forecasts that have similar or lower root mean square error than reference techniques that use only optical f...
International audienceSwift variations in the cloud cover may cause significant power output fluctua...
International audienceAccurate forecasting of Global Horizontal Irradiance (GHI) is essential for th...
IEEE Swift variations in the cloud cover may cause significant power output fluctuations in solar po...
This paper has been submitted to Solar Energy. Abstract: We introduce a computational framework to...
This contains the data used in the paper: "Intra-hour cloud index forecasting with data assimilation...
International audienceAs an intermittent energy source, the injection of solar power into electricit...
International audienceMany research and societal applications such as surface solar irradiance asses...
Methods for cloud characterization for solar forecasting using sky imagery are presented. Sky images...
International audienceProbabilistic solar forecasting is an issue of growing relevance for the integ...
The cloud index is a key parameter of the Heliosat method. This method is widely used to calculate s...
To effectively manage the growing density of solar power installations, grid operators are increasin...
Solar energy production is affected by the attenuation of incoming irradiance from underlying clouds...
International audienceSwift variations in the cloud cover may cause significant power output fluctua...
International audienceAccurate forecasting of Global Horizontal Irradiance (GHI) is essential for th...
IEEE Swift variations in the cloud cover may cause significant power output fluctuations in solar po...
This paper has been submitted to Solar Energy. Abstract: We introduce a computational framework to...
This contains the data used in the paper: "Intra-hour cloud index forecasting with data assimilation...
International audienceAs an intermittent energy source, the injection of solar power into electricit...
International audienceMany research and societal applications such as surface solar irradiance asses...
Methods for cloud characterization for solar forecasting using sky imagery are presented. Sky images...
International audienceProbabilistic solar forecasting is an issue of growing relevance for the integ...
The cloud index is a key parameter of the Heliosat method. This method is widely used to calculate s...
To effectively manage the growing density of solar power installations, grid operators are increasin...
Solar energy production is affected by the attenuation of incoming irradiance from underlying clouds...
International audienceSwift variations in the cloud cover may cause significant power output fluctua...
International audienceAccurate forecasting of Global Horizontal Irradiance (GHI) is essential for th...
IEEE Swift variations in the cloud cover may cause significant power output fluctuations in solar po...