System and method for controlling a wind turbine

What is claimed is: 1. A computer-implemented method for controlling a wind turbine, the wind turbine including a rotor, a plurality of rotor blades coupled to the rotor, and a blade pitch control system coupled to each rotor blade of the plurality of rotor blades, said method comprising: determining at least one pitch position for at least one first rotor blade of the plurality of rotor blades; determining whether there is a malfunction of a portion of the blade pitch control system associated with the at least one first rotor blade; predicting a rotor imbalance using a model of at least a portion of the wind turbine, wherein the rotor imbalance comprises a non-zero resultant moment of the plurality of rotor blades; comparing the predicted rotor imbalance with a predetermined threshold value; and one of: regulating at least one pitch position for at least one second rotor blade of the plurality of rotor blades such that the predicted rotor imbalance is restored to a value below the predetermined threshold value; and regulating at least one pitch position for at least one second rotor blade of the plurality of rotor blades such that the predicted rotor imbalance does not exceed the predetermined threshold value. 2. The method in accordance with claim 1 , wherein regulating at least one pitch position for at least one second rotor blade comprises positioning the at least one second rotor blade in a feathered parking position. 3. The method in accordance with claim 2 , wherein positioning the at least one second rotor blade in a feathered parking position comprises removing the wind turbine from service. 4. The method in accordance with claim 1 further comprising determining real-time values of at least one determined characteristic associated with at least one of the wind turbine and wind proximate to the wind turbine, wherein the at least one determined characteristic includes at least one of: a measured real-time pitch angle of each rotor blade of the plurality of rotor blades; a calculated real-time tip speed ratio of each rotor blade of the plurality of rotor blades; a calculated real-time effective wind velocity proximate to the wind turbine; a measured real-time rotor speed; and a measured real-time rotor position. 5. The method in accordance with claim 1 , wherein regulating at least one pitch position for at least one second rotor blade comprises determining a pitch reference trajectory over a determined time interval for the at least one second rotor blade until the at least one second rotor blade is disposed in a feathered parking position. 6. The method in accordance with claim 1 , wherein regulating at least one pitch position for at least one second rotor blade comprises regulating a rate of change of pitch position. 7. The method in accordance with claim 1 further comprising determining real-time values of at least one determined characteristic associated with at least one of the wind turbine and wind proximate to the wind turbine, wherein the at least one determined characteristic includes at least one of: a length for each rotor blade of the plurality of rotor blades; a calculated real-time effective wind velocity proximate to the wind turbine; a real-time density of air proximate to the wind turbine; a calculated real-time tip speed ratio for each rotor blade of the plurality of rotor blades; and a measured real-time pitch angle of each rotor blade of the plurality of rotor blades. 8. The method in accordance with claim 7 further comprising determining aerodynamic thrust, aerodynamic torque, and partial derivatives of the aerodynamic torque and the aerodynamic thrust based on the real-time values of at least one determined characteristic. 9. The method in accordance with claim 8 further comprising determining at least one of hub flange resultant moments and yaw bearing nodding moments at least partially as a function of the determined aerodynamic thrust. 10. The method in accordance with claim 1 , wherein determining whether there is a malfunction of a portion of the blade pitch control system comprises determining whether the at least one pitch position exceeds a predetermined pitch position parameter. 11. The method in accordance with claim 10 further comprising initiating a shutdown sequence prior to determining whether the at least one pitch position exceeds a predetermined pitch position parameter. 12. A system for controlling a wind turbine, the wind turbine including a rotor and a plurality of rotor blades coupled to the rotor, said system comprising: a blade pitch control system coupled to the plurality of rotor blades, said blade pitch control system configured to: position the plurality of rotor blades based on a commanded pitch angle; and determine whether there is a malfunction of a portion of said blade pitch control system associated with at least one first rotor blade of the plurality of rotor blades; predict a rotor imbalance using a model of at least a portion of the wind turbine, wherein the rotor imbalance comprises a non-zero resultant moment of the plurality of rotor blades; compare the predicted rotor imbalance with a predetermined threshold value; and one of: a first model-based imbalance control sub-system coupled to said blade pitch control system, said first model-based imbalance control sub-system comprising at least one first processor configured to regulate at least one pitch position for at least one second rotor blade of the plurality of rotor blades such that the predicted rotor imbalance is restored to a value below the predetermined threshold value; and a second model-based imbalance control sub-system coupled to said blade pitch control system, said second model-based imbalance control sub-system comprising at least one second processor configured to regulate at least one pitch position for at least one second rotor blade of the plurality of rotor blades such that the predicted rotor imbalance does not exceed a predetermined threshold value. 13. The system in accordance with claim 12 , wherein said first and second imbalance control systems are further configured to position said at least one second rotor blade in a feathered parking position. 14. The system in accordance with claim 12 , wherein said system is further configured to facilitate removing the wind turbine from service. 15. The system in accordance with claim 12 , wherein said first and second imbalance control systems are further configured to determine real-time values of at least one determined characteristic associated with at least one of the wind turbine and wind proximate to the wind turbine, wherein the at least one determined characteristic includes at least one of: a measured real-time pitch angle of said each rotor blade of the plurality of rotor blades; a calculated real-time tip speed ratio of said each rotor blade of the plurality of rotor blades; a calculated real-time effective wind velocity proximate to the wind turbine; a measured real-time rotor speed; and a measured real-time rotor position. 16. The system in accordance with claim 12 , wherein said first and second imbalance control systems are further configured to determine a pitch reference trajectory over a determined time interval for the at least one second rotor blade of the plurality of rotor blades until the at least one second rotor blade is disposed in a feathered parking position. 17. The system in accordance with claim 12 , wherein said first and second imbalance control systems are further configured to regulate a rate of change of pitch a