Wind turbine including sensor assembly and method of operating such

What is claimed is: 1. A wind turbine comprising: a hub configured to rotate about an axis at a first rotation speed; at least one blade coupled to said hub; and a sensor assembly configured to detect at least one characteristic of wind flowing through said wind turbine, wherein said sensor assembly is mounted to said hub, said sensor assembly comprising: a laser device configured to emit a laser beam; at least one optical element configured to direct the laser beam; and a non-motorized mechanism configured to rotate said at least one optical element at a second rotation speed when said hub rotates at the first rotation speed, wherein the second rotation speed is greater than the first rotation speed; and a controller configured to regulate at least one operating parameter of said wind turbine based on the at least one characteristic of wind. 2. The wind turbine in accordance with claim 1 , wherein said non-motorized mechanism comprises at least one first gear coupled to said hub and at least one second gear coupled to said at least one optical element. 3. The wind turbine in accordance with claim 2 , wherein said at least one first gear comprises a plurality of planetary gears such that said non-motorized mechanism forms a planetary gear system. 4. The wind turbine in accordance with claim 1 , wherein said hub defines a cavity configured to receive said sensor assembly, and wherein said sensor assembly is disposed at least partially within the cavity. 5. The wind turbine in accordance with claim 1 , wherein said non-motorized mechanism is coupled to said laser device and is configured to rotate said laser device at the second rotation speed when said hub rotates at the first rotation speed. 6. The wind turbine in accordance with claim 1 , wherein said laser device is coupled to said hub and configured to rotate at the first rotation speed when the hub rotates at the first rotation speed. 7. The wind turbine in accordance with claim 1 , wherein said laser device is configured to emit no more than two laser beams. 8. A sensor assembly configured to detect at least one characteristic of wind that flows through a wind turbine, said sensor assembly comprising: a laser device configured to emit a laser beam; at least one optical element configured to direct the laser beam; a mount configured to couple to a hub of the wind turbine; and a non-motorized mechanism positioned between the hub and said at least one optical element and configured to rotate said at least one optical element at a second rotation speed when the hub rotates at a first rotation speed, wherein the second rotation speed is greater than the first rotation speed. 9. The sensor assembly in accordance with claim 8 , wherein said non-motorized mechanism comprises at least one first gear coupled to the hub and at least one second gear coupled to said at least one optical element. 10. The sensor assembly in accordance with claim 9 , wherein said non-motorized mechanism comprises a planetary gear system. 11. The sensor assembly in accordance with claim 8 , wherein the hub defines a cavity, and wherein said sensor assembly is disposed at least partially within the cavity. 12. The sensor assembly in accordance with claim 8 , wherein said non-motorized mechanism is coupled to said laser device and is configured to rotate said laser device at the second rotation speed when the hub rotates at the first rotation speed. 13. The sensor assembly in accordance with claim 8 , wherein said laser device is coupled to the hub and is configured to rotate at the first rotation speed. 14. The sensor assembly in accordance with claim 8 , wherein said laser device is configured to emit no more than two laser beams. 15. A method of operating a wind turbine, said method comprising: rotating a hub about an axis at a first rotation speed; rotating at least one blade coupled to the hub at the first rotation speed; emitting, using a laser device of a sensor assembly, a laser beam; directing the laser beam using at least one optical element; rotating, using a non-motorized mechanism, the at least one optical element at a second rotation speed when the hub rotates at the first rotation speed, wherein the second rotation speed is greater than the first rotation speed; receiving, using the sensor assembly, the laser beam after the laser beam interacts with an object; determining, using the sensor assembly, at least one characteristic of wind flowing through the wind turbine; and regulating at least one operating parameter of the wind turbine based on the at least one characteristic of wind determined using the sensor assembly. 16. The method in accordance with claim 15 , wherein rotating the at least one optical element comprises: rotating at least one first gear coupled to the hub at the first rotation speed; and rotating at least one second gear coupled to the at least one optical element at the second rotation speed. 17. The method in accordance with claim 16 , wherein the non-motorized mechanism includes a planetary gear system, and wherein rotating the at least one first gear comprises rotating a plurality of planetary gears. 18. The method in accordance with claim 15 , wherein directing the laser beam comprises directing the laser beam using at least one optical element disposed within a cavity defined by the hub. 19. The method in accordance with claim 15 further comprising rotating the laser device at the second rotation speed when the hub rotates at the first rotation speed. 20. The method in accordance with claim 15 further comprising rotating the laser device at the first rotation speed when the hub rotates at the first rotation speed.