Forecasting output power of wind turbine in wind farm

The invention claimed is: 1. A method for forecasting an output power of a plurality of wind turbines in a wind farm, the method comprising: grouping a first plurality of wind turbines in the wind farm in a first group, each of the first plurality of wind turbines being within a first proximity to each other; grouping a second plurality of wind turbines in the wind farm in a second group, members of the first group not being within the second group, each of the second plurality of wind turbines being beyond the first proximity of each of the first plurality of wind turbines; receiving a first weather forecast from a first wind turbine weather forecasting model using real-time environmental data collected from first meteorological sensors located at least within a geographic location of the first plurality of wind turbines; receiving a second weather forecast from a second wind turbine weather forecasting model using real-time environmental data collected from second meteorological sensors located at least within a geographic location of the second plurality of wind turbines; for each of the plurality of wind turbines in the first group, collecting a measure of wind direction at a hub-height of at least a subset of the wind turbines; correcting the first wind turbine weather forecasting model by using the measures of wind directions to produce a corrected first weather forecasting model; for each of the plurality of wind turbines in the second group, collecting a measure of wind direction at a hub-height of at least a subset of the wind turbines; correcting the second wind turbine weather forecasting model by using the measures of wind directions to produce a corrected second weather forecasting model; obtaining a forecast value of wind information for the plurality of wind turbines in the wind farm based on the corrected first weather forecasting model and the corrected second weather forecasting model; and forecasting the output power of each of the plurality of the wind turbines based on the forecast value and a power forecasting model. 2. The method of claim 1 , wherein the wind information comprises wind direction and wind velocity, and the measure of wind direction is obtained based on at least one of: calculating the wind direction based on yaw angle of the wind turbine in the wind farm; calculating the wind direction based on wind direction at a wind tower in the wind farm; obtaining the wind direction based on fluid dynamics analysis; and obtaining the wind direction based on power curve deviation analysis. 3. The method of claim 1 , wherein the corrected first weather forecasting model is produced using a Hybridge Data Assimilation method. 4. The method of claim 3 , wherein the first wind turbine weather forecasting model and the second wind turbine weather forecasting model are different models. 5. The method of claim 1 wherein the wind turbines of the second group are spread apart from each other relative to the wind turbines of the first group which are more densely located together. 6. The method of claim 1 , further comprising selecting a subset of the real-time environmental data wherein the first weather forecast is generated by the first wind turbine weather forecasting model using the subset of the real-time environmental data. 7. The method of claim 6 , wherein selecting the subset of the real-time environmental data comprises selecting the subset of the real-time environmental data based on real-time environmental data collected from every Nth wind turbine of the wind farm, where N is an integer. 8. The method of claim 6 , wherein selecting the subset of the real-time environmental data comprises selecting the subset of the real-time environmental data comprises all real-time environmental data which is greater than a sum of an average of all real-time environmental data in the wind farm and a standard difference value r. 9. The method according to claim 1 , wherein the power forecasting model is a power curve of the wind turbine and a function related to a plurality of properties of the wind turbine, air density, and the forecast value. 10. An apparatus for forecasting output power of a wind turbine in a wind farm, the apparatus comprising: one or more computer processors; one or more computer readable storage media; and program instructions stored on the one or more computer readable storage media for executing by at least one of the one or more processors to: group a first plurality of wind turbines in the wind farm in a first group, each of the first plurality of wind turbines being within a first proximity to each other; group a second plurality of wind turbines in the wind farm in a second group, members of the first group not being within the second group, each of the second plurality of wind turbines being beyond the first proximity of each of the first plurality of wind turbines; receive a first weather forecast from a first wind turbine weather forecasting model using real-time environmental data collected from first meteorological sensors located at least within a geographic location of the first plurality of wind turbines; receive a second weather forecast from a second wind turbine weather forecasting model using real-time environmental data collected from second meteorological sensors located at least within a geographic location of the second plurality of wind turbines; for each of the plurality of wind turbines in the first group, collect a measure of wind direction at a hub-height of at least a subset of the wind turbines; correct the first wind turbine weather forecasting model by using the measures of wind directions to produce a corrected first weather forecasting model; for each of the plurality of wind turbines in the second group, collect a measure of wind direction at a hub-height of at least a subset of the wind turbines; correct the second wind turbine weather forecasting model by using the measures of wind directions to produce a corrected second weather forecasting model; obtain a forecast value of wind information for the plurality of wind turbines in the wind farm based on the corrected first weather forecasting model and the corrected second weather forecasting model; and forecast the output power of each of the plurality of the wind turbines based on the forecast value and a power forecasting model. 11. The apparatus of claim 10 , wherein wind information comprises wind direction and wind velocity, and the measure of wind direction is obtained based on at least one of: calculating the wind direction based on yaw angle of the wind turbine in the wind farm; calculating the wind direction based on wind direction at a wind tower in the wind farm; obtaining the wind direction based on fluid dynamics analysis; and obtaining the wind direction based on power curve deviation analysis. 12. The apparatus of claim 10 , wherein the corrected first weather forecasting model is produced using a Hybridge Data Assimilation method. 13. The apparatus of claim 12 , wherein the first wind turbine weather forecasting model and the second wind turbine weather forecasting model are different models. 14. The apparatus of claim 10 , wherein the wind turbines of the second group are spread apart from each other relative to the wind turbines of the first group which are more densely located together. 15. The apparatus of claim 10 , the program instructions stored on the one or more computer readable storage media for further executing by the at least one of the one or more processors to: select a subset of the real-time environmental data wherein the firs