Systems and methods for gimbal simulation

What is claimed is: 1. A gimbal simulation system comprising: a gimbal that is physically coupled to a vehicle, wherein the gimbal is configured to carry a payload; a gimbal control system on-board the vehicle configured to (1) receive gimbal control data from a remote control system, wherein the gimbal control data is used to control the gimbal based on a first input from the remote control system, (2) receive position data describing a simulated attitude of the vehicle generated from a vehicle control system on-board the vehicle in response to a second input from the remote control system; and (3) generate simulated gimbal response data based on (i) the gimbal control data and (ii) the position data describing the simulated attitude of the vehicle, wherein the simulated gimbal response data indicates a simulated attitude of the gimbal that determines an orientation of the payload; and a transmitter configured to transmit the simulated gimbal response data to the remote control system. 2. The gimbal simulation system of claim 1 wherein the vehicle is an unmanned aerial vehicle (UAV). 3. The gimbal simulation system of claim 1 wherein the simulated gimbal response data is determined according to a gimbal mode, wherein the gimbal mode includes one of a first person view mode, a following mode, or a free gimbal mode. 4. The gimbal simulation system of claim 1 wherein the simulated gimbal response data stabilizes a pitch axis of the gimbal with respect to an environment without stabilizing a yaw axis and a roll axis, when the gimbal is operated in a first person view mode. 5. The gimbal simulation system of claim 1 wherein the simulated gimbal response data stabilizes a pitch axis and a roll axis of the gimbal with respect to an environment without stabilizing a yaw axis, when the gimbal is operated in a following mode. 6. The gimbal simulation system of claim 1 wherein the simulated gimbal response data stabilizes a pitch axis, a yaw axis, and a roll axis of the gimbal with respect to an environment, when the gimbal is operated in a free gimbal mode. 7. The gimbal simulation system of claim 1 wherein the simulated gimbal response data is determined based on a gimbal mode signal generated at the remote control system remote to the vehicle. 8. The gimbal simulation system of claim 7 wherein the gimbal mode signal is generated in response to a user input indicating a selection of a gimbal mode from the plurality of gimbal modes. 9. The gimbal simulation system of claim 1 wherein the remote control system is configured to transmit the simulated gimbal response data to a display device comprising a visual display. 10. The gimbal simulation system of claim 9 wherein the remote control system communicates with the display device via a wireless connection. 11. The gimbal simulation system of claim 9 wherein the remote control system is used to operate the vehicle and the gimbal on-board the vehicle in a real flight operation. 12. The gimbal simulation system of claim 9 wherein the visual display shows simulated gimbal state information of the vehicle. 13. The gimbal simulation system of claim 12 wherein the simulated gimbal state information includes simulated visual data generated based on the simulated attitude of the gimbal. 14. The gimbal simulation system of claim 1 wherein the simulated gimbal response data describes an orientation, and wherein the gimbal simulation system further comprises a display device that receives the simulated gimbal response data and displays a visual illustration of the gimbal in the orientation described by the simulated gimbal response data. 15. The gimbal simulation system of claim 1 wherein the remote control system is configured to control directional heading of the gimbal. 16. The gimbal simulation system of claim 1 wherein the position data is at least partially based on simulated orientation of the vehicle. 17. The gimbal simulation system of claim 1 wherein the position data is at least partially based on simulated weather data. 18. The gimbal simulation system of claim 1 wherein the position data is at least partially based on position data describing the simulated attitude of the vehicle which includes at least one of (1) rotation of the vehicle about a pitch axis, (2) rotation of the vehicle about a yaw axis, or (3) rotation of the vehicle about a roll axis. 19. A method of simulating controlling a gimbal that is physically coupled to a vehicle, said method comprising: receiving, (1) gimbal control data from a remote control system configured to communicate with a gimbal control system on-board the vehicle, wherein the gimbal control data is used to control the gimbal based on a first input at the remote control system, and (2) position data describing a simulated attitude of the vehicle generated from a vehicle control system on-board the vehicle in response to a second input from the remote control system; generating, at the gimbal control system, simulated gimbal response data based on the gimbal control data and the position data describing the simulated attitude of the vehicle, wherein the simulated gimbal response data indicates a simulated attitude of the gimbal that determines an orientation of the payload; and transmitting, to the remote control system, the simulated gimbal response data from the gimbal control system on-board the vehicle. 20. The gimbal simulation system of claim 1 wherein the gimbal adjusts arrangement based on the gimbal control data. 21. The gimbal simulation system of claim 1 wherein the gimbal control data indicates a real attitude of the gimbal. 22. The gimbal simulation system of claim 1 wherein the gimbal control data and position data of the vehicle is synchronized with each other in a time domain. 23. The gimbal simulation system of claim 1 wherein the payload is carried by the vehicle via the gimbal.