System and method for automatically adjusting an angle of a three-dimensional display within a vehicle

The invention claimed is: 1. A vehicle display assembly, comprising: an autostereoscopic display; an actuator coupled to the autostereoscopic display, wherein the actuator is configured to adjust an orientation of the autostereoscopic display relative to a first vehicle occupant and a second vehicle occupant; a sensor assembly configured to monitor a first position of a first head of the first vehicle occupant, and a second position of a second head of the second vehicle occupant; and a controller communicatively coupled to the sensor assembly and to the actuator, wherein the controller is configured to instruct the actuator to adjust the orientation of the autostereoscopic display based selectively on the first position of the first head and the second position of the second head; wherein the sensor assembly is configured to monitor a first orientation of the first head and a second orientation of the second head, the controller is configured to instruct the actuator to direct the autostereoscopic display toward the first head while the first head is directed toward the autostereoscopic display and the second head is not directed toward the autostereoscopic display, the controller is configured to instruct the actuator to direct the autostereoscopic display toward the second head while the second head is directed toward the autostereoscopic display and the first head is not directed toward the autostereoscopic display, and the controller is configured to instruct the actuator to direct the autostereoscopic display toward the first head while the first and second heads are directed toward the autostereoscopic display based on a priority. 2. The vehicle display assembly of claim 1 , wherein the autostereoscopic display comprises a plurality of pixels configured to form an image on a display surface, and a parallax barrier positioned adjacent to the display surface to separate the image into a left-eye portion and a right-eye portion, wherein the parallax barrier is fixed relative to the display surface. 3. The vehicle display assembly of claim 2 , wherein the controller is configured to instruct the actuator to adjust the orientation of the autostereoscopic display to direct the left-eye portion of the image toward a left eye of a respective vehicle occupant, and to direct the right-eye portion of the image toward a right eye of the respective vehicle occupant. 4. The vehicle display assembly of claim 1 , wherein the actuator comprises an electrical servo motor. 5. The vehicle display assembly of claim 1 , wherein the sensor assembly comprises an optical sensor. 6. The vehicle display assembly of claim 1 , wherein the actuator comprises an electroactive polymer. 7. The vehicle display assembly of claim 1 , wherein the actuator comprises a linear actuator. 8. The vehicle display assembly of claim 1 , wherein the sensor assembly comprises a capacitive sensor. 9. The vehicle display assembly of claim 1 , wherein the first vehicle occupant is a driver, and the second vehicle occupant is a passenger. 10. A vehicle display assembly, comprising: an autostereoscopic display; an actuator coupled to the autostereoscopic display, wherein the actuator is configured to rotate the autostereoscopic display about a horizontal axis and about a vertical axis relative to a first vehicle occupant and a second vehicle occupant; a sensor assembly configured to monitor a first position of a first head of the first vehicle occupant, and a second position of a second head of the second vehicle occupant; and a controller communicatively coupled to the sensor assembly and to the actuator, wherein the controller is configured to instruct the actuator to rotate the autostereoscopic display about the horizontal axis, about the vertical axis, or a combination thereof, based selectively on the first position of the first head and the second position of the second head; wherein the sensor assembly is configured to monitor a first orientation of the first head and a second orientation of the second head, the controller is configured to instruct the actuator to direct the autostereoscopic display toward the first head while the first head is directed toward the autostereoscopic display and the second head is not directed toward the autostereoscopic display, the controller is configured to instruct the actuator to direct the autostereoscopic display toward the second head while the second head is directed toward the autostereoscopic display and the first head is not directed toward the autostereoscopic display, and the controller is configured to instruct the actuator to direct the autostereoscopic display toward the first head while the first and second heads are directed toward the autostereoscopic display based on a priority. 11. The vehicle display assembly of claim 10 , wherein the autostereoscopic display comprises a plurality of pixels configured to form an image on a display surface, and a parallax barrier positioned adjacent to the display surface to separate the image into a left-eye portion and a right-eye portion, wherein the parallax barrier is fixed relative to the display surface. 12. The vehicle display assembly of claim 11 , wherein the controller is configured to instruct the actuator to rotate the autostereoscopic display about the horizontal axis, about the vertical axis, or a combination thereof, to direct the left-eye portion of the image toward a left eye of a respective vehicle occupant, and to direct the right-eye portion of the image toward a right eye of the respective vehicle occupant. 13. The vehicle display assembly of claim 10 , wherein the actuator comprises an electrical servo motor. 14. The vehicle display assembly of claim 10 , wherein the sensor assembly comprises an optical sensor. 15. The vehicle display assembly of claim 10 , wherein the actuator comprises an electroactive polymer. 16. The vehicle display assembly of claim 10 , wherein the actuator comprises a linear actuator. 17. The vehicle display assembly of claim 1 , wherein the sensor assembly comprises a capacitive sensor. 18. The vehicle display assembly of claim 10 , wherein the first vehicle occupant is a driver, and the second vehicle occupant is a passenger.