Correcting blade pitch in a wind turbine

The invention claimed is: 1. A method of correcting blade pitch in a wind turbine having a tower and a plurality of rotor blades, the method comprising: receiving sensor output data from one or more wind turbine sensors, the sensor output data including data indicative of excitation of the tower for a plurality of different pitch angles of a particular one of the plurality of rotor blades; determining a corrected pitch reference of the particular one of the plurality of rotor blades, the corrected pitch reference corresponding to a minimum tower excitation based on the received sensor output data; and, sending the corrected pitch reference to a pitch actuator system of the particular one of the plurality of rotor blades; wherein the wind turbine is operated at each of the plurality of different pitch angles of the particular one of the plurality of rotor blades for a predetermined period to receive the sensor output data for the plurality of different pitch angles of the particular one of the plurality of rotor blades, and wherein for each of the plurality of different pitch angles, the method further comprises: calculating a mean operating condition of the wind turbine for each of a plurality of time intervals within the predetermined period using the sensor output data; and, selecting a particular one of the plurality of time intervals in which the mean operating condition is within a predetermined tolerance, wherein the corrected pitch reference is determined based on the sensor output data of the selected particular one of the plurality of time intervals for each of the plurality of different pitch angles. 2. The method of claim 1 , wherein the received sensor output data corresponds to a pitch angle of the remaining plurality of rotor blades being constant. 3. The method of claim 1 , wherein determining the corrected pitch reference comprises: determining a pitch offset from a current pitch reference to the pitch angle corresponding to the minimum tower excitation; and, determining the corrected pitch reference to be the current pitch reference shifted by the determined pitch offset. 4. The method of claim 3 , wherein the sensor output data for the plurality of different pitch angles comprises sensor output data for the current pitch reference. 5. The method of claim 1 , wherein determining the corrected pitch reference comprises: determining a component of tower excitation in a particular direction from the received sensor output data; and, determining the corrected pitch reference based on the component of tower excitation. 6. The method of claim 5 , wherein determining the corrected pitch reference based on the component of tower excitation comprises: filtering the component of tower excitation for each of the plurality of different pitch angles to determine fatigue content of the tower excitation for each of the plurality of different pitch angles; and, determining the corrected pitch reference as the pitch angle corresponding to a minimum value of fatigue content. 7. The method of claim 5 , wherein the particular direction of the component of tower excitation is a fore-aft direction of the wind turbine tower. 8. The method of claim 1 , wherein the mean operating condition is calculated based on at least one of: average wind speed; air density; and, rotor speed. 9. The method of claim 1 , wherein, while the particular one of the plurality of rotor blades is maintained at the corrected pitch reference, the method is repeated to determine another corrected pitch reference for another of the plurality of rotor blades. 10. The method of claim 9 , comprising performing the method successively for each of the rotor blades until the corrected pitch reference for each of the blades converges to within a prescribed tolerance. 11. The method of claim 1 , wherein the one or more wind turbine sensors comprises one or more accelerometers mounted to or in the wind turbine. 12. A wind turbine comprising: a tower; a plurality of rotor blades; one or more wind turbine sensors on the wind turbine; and a controller operatively coupled to the one or more wind turbine sensors, the controller being configured to: receive sensor output data from the one or more wind turbine sensors, the sensor output data including data indicative of excitation of the tower for a plurality of different pitch angles of a particular one of the plurality of rotor blades; determine a corrected pitch reference of the particular one of the plurality of rotor blades corresponding to a minimum tower excitation based on the received sensor output data; and, send the corrected pitch reference to a pitch actuator system of the particular one of the plurality of rotor blades; wherein the wind turbine is operated at each of the plurality of different pitch angles of the particular one of the plurality of rotor blades for a predetermined period to receive the sensor output data for the plurality of different pitch angles of the particular one of the plurality of rotor blades, and wherein for each of the plurality of different pitch angles: calculate a mean operating condition of the wind turbine for each of a plurality of time intervals within the predetermined period using the sensor output data; and select a particular one of the plurality of time intervals in which the mean operating condition is within a predetermined tolerance, wherein the corrected pitch reference is determined based on the sensor output data of the selected particular one of the plurality of time intervals for each of the plurality of different pitch angles.