%0 Report %1 Pelland2013Photovoltaic %A Pelland, Sophie %A Remund, Jan %A Kleissl, Jan %A Oozeki, Takashi %A De Brabandere, Karel %D 2013 %K solar energy review renewables nwp %N IEA‐PVPS T14‐01: 2013 %T Photovoltaic and Solar Forecasting: State of the Art %U http://www.worldcat.org/isbn/9783906042138 %X The field of solar and photovoltaic (PV) forecasting is rapidly evolving. The current report provides a snapshot of the state of the art of this dynamic research area, focusing on solar and PV forecasts for time horizons ranging from a few minutes ahead to several days ahead. Diverse resources are used to generate solar and PV forecasts, ranging from measured weather and PV system data to satellite and sky imagery observations of clouds, to numerical weather prediction (NWP) models which form the basis of modern weather forecasting. The usefulness of these resources varies depending on the forecast horizon considered: very short‐term forecasts (0 to 6 hours ahead) perform best when they make use of measured data, while numerical weather prediction models become essential for forecast horizons beyond approximately six hours. The best approaches make use of both data and NWP models. Examples of this strategy include the use of NWP model outputs in stochastic learning models, or the use of measured data for post‐processing NWP models to correct systematic deviations between NWP model outputs and measured data. Benchmarking efforts have been conducted to compare the accuracy of various solar and PV forecast models against common datasets. Such benchmarking is critical to assessing forecast accuracy, since this accuracy depends on numerous factors, such as local climate, forecast horizon and whether forecasts apply to a single point or cover a wide geographic area. In the latter case, which is often the main interest of electric system operators, higher accuracies can be achieved since random errors at distant locations tend to be largely uncorrelated and to partially cancel out. %@ 978‐3‐906042‐13‐8

@techreport{Pelland2013Photovoltaic, abstract = {The field of solar and photovoltaic (PV) forecasting is rapidly evolving. The current report provides a snapshot of the state of the art of this dynamic research area, focusing on solar and PV forecasts for time horizons ranging from a few minutes ahead to several days ahead. Diverse resources are used to generate solar and PV forecasts, ranging from measured weather and PV system data to satellite and sky imagery observations of clouds, to numerical weather prediction (NWP) models which form the basis of modern weather forecasting. The usefulness of these resources varies depending on the forecast horizon considered: very short‐term forecasts (0 to 6 hours ahead) perform best when they make use of measured data, while numerical weather prediction models become essential for forecast horizons beyond approximately six hours. The best approaches make use of both data and NWP models. Examples of this strategy include the use of NWP model outputs in stochastic learning models, or the use of measured data for post‐processing NWP models to correct systematic deviations between NWP model outputs and measured data. Benchmarking efforts have been conducted to compare the accuracy of various solar and PV forecast models against common datasets. Such benchmarking is critical to assessing forecast accuracy, since this accuracy depends on numerous factors, such as local climate, forecast horizon and whether forecasts apply to a single point or cover a wide geographic area. In the latter case, which is often the main interest of electric system operators, higher accuracies can be achieved since random errors at distant locations tend to be largely uncorrelated and to partially cancel out.}, added-at = {2018-06-18T21:23:34.000+0200}, author = {Pelland, Sophie and Remund, Jan and Kleissl, Jan and Oozeki, Takashi and De Brabandere, Karel}, biburl = {https://www.bibsonomy.org/bibtex/2b15f9b06f9400e719ce93f257f9f2aba/pbett}, citeulike-article-id = {14017421}, citeulike-attachment-1 = {Photovoltaic_and_Solar_Forecasting_State_of_the_Art_REPORT_PVPS__T14_01_2013.pdf; /pdf/user/pbett/article/14017421/1065007/Photovoltaic_and_Solar_Forecasting_State_of_the_Art_REPORT_PVPS__T14_01_2013.pdf; c4311cdae1f9260871f9e7bee178c309e0ccd6f0}, citeulike-linkout-0 = {http://www.worldcat.org/isbn/9783906042138}, file = {Photovoltaic_and_Solar_Forecasting_State_of_the_Art_REPORT_PVPS__T14_01_2013.pdf}, institution = {International Energy Agency Photovoltaic Power Systems Programme}, interhash = {37b446f08e19746c3c3b5a74dc057a6a}, intrahash = {b15f9b06f9400e719ce93f257f9f2aba}, isbn = {978‐3‐906042‐13‐8}, keywords = {solar energy review renewables nwp}, month = oct, number = {IEA‐PVPS T14‐01: 2013}, posted-at = {2016-04-21 08:02:03}, priority = {2}, timestamp = {2018-06-22T18:36:26.000+0200}, title = {Photovoltaic and Solar Forecasting: State of the Art}, url = {http://www.worldcat.org/isbn/9783906042138}, year = 2013 }