Remote control method and terminal

What is claimed is: 1. A method of controlling positioning of a payload, the payload being supported by a carrier on an unmanned aerial vehicle (UAV) or on a living subject, the payload being movable relative to the UAV or the living subject via the carrier about a plurality of axes of rotation, the carrier comprising a plurality of frame components and a plurality of actuators, the plurality of frame components being connected to one another to form a multi-axis gimbal, said method comprising: receiving, at a receiver positioned on the carrier or the UAV, a signal from a terminal that is remote to (i) the UAV or the living subject, (ii) the carrier, and (iii) the payload, wherein the signal from the terminal is generated based on a user input to the terminal indicative of a mode selection from a plurality of modes having a different number of user controllable axes of rotation of the carrier, said plurality of modes including a single-axis user controllable mode and a multi-axis user controllable mode; calculating, with aid of one or more processors, an angle or speed by which the payload is to be rotated about at least one axis of rotation based on (1) a user-generated movement on the terminal and (2) the mode selection; generating a command signal to move the payload, based on the calculation; and moving the payload about the at least one axis of rotation via movement of one or more frame components driven by one or more actuators of the carrier in response to the command signal. 2. The method of claim 1 , wherein the carrier is on the UAV, and wherein the payload is moved relative to the UAV. 3. The method of claim 2 , wherein the user-generated movement includes rotating the terminal about its roll, pitch, or yaw axis. 4. The method of claim 3 , wherein rotating the terminal about a given axis results in rotation of the payload about a corresponding axis of the payload. 5. The method of claim 1 , wherein the terminal is a handheld terminal. 6. The method of claim 1 , wherein the terminal has a screen that serves as an image display device. 7. The method of claim 1 , wherein the payload is an image capturing device. 8. The method of claim 1 , wherein the gimbal comprises at least three frame components that are configured to pivot about three axes which are orthogonal to one another, and wherein the payload is movable via the carrier about the three axes, at least two of which remain orthogonal to one another throughout movement of the payload. 9. The method of claim 1 , wherein the user-generated movement includes user finger movement on the terminal. 10. The method of claim 1 , wherein the command signal is generated based on an attitude of the payload. 11. A carrier for positioning a payload, said carrier comprising: a plurality of frame components configured to be attached to an unmanned aerial vehicle (UAV) or a living subject, said plurality of frame components further being configured to support a payload, wherein the payload is movable relative to the UAV or the living subject via actuation of the plurality of frame components about a plurality of axes of rotation, wherein the plurality of frame components are connected to one another to form a multi-axis gimbal; and one or more actuators configured to respond to a command signal to actuate one or more frame components to effect movement of the payload relative to the UAV or the living subject about at least one axis of rotation at an angle or speed calculated based on a signal from a terminal, wherein the terminal (1) is remote relative to (i) the UAV or the living subject, (ii) the frame assembly, and (iii) the payload, (2) obtains a user input indicative of a mode selection from a plurality of modes having a different number of user controllable axes of rotation of the carrier, said plurality of modes including a single-axis user controllable mode and a multi-axis user controllable mode, and (3) generates the signal based on the mode selection and a user-generated movement on the terminal. 12. The carrier of claim 11 , wherein the single-axis user controllable mode controls rotation about a pitch axis only. 13. The carrier of claim 11 , wherein the multi-axis user controllable mode controls rotation about a pitch axis and a yaw axis. 14. The carrier of claim 11 , wherein the user-generated movement includes rotating the terminal about its roll, pitch, or yaw axis. 15. The carrier of claim 14 , wherein rotating the terminal about a given axis results in rotation of the payload about a corresponding axis of the payload. 16. The carrier of claim 11 , wherein the payload is an image capturing device. 17. The carrier of claim 11 , wherein the gimbal comprises at least three frame components that are configured to pivot about three axes which are orthogonal to one another, and wherein the payload is movable via the carrier about the three axes, at least two of which remain orthogonal to one another throughout movement of the payload. 18. A remote terminal configured to control positioning of a payload supported by a carrier that is configured to be attached to an unmanned aerial vehicle (UAV) or a living subject, said terminal comprising: (a) a device that receives a user input indicative of a mode selection from a plurality of modes having a different number of user controllable axes of rotation provided by the carrier, said plurality of modes including a single-axis user controllable mode and a multi-axis user controllable mode; and one or more processors that generates a signal based on the mode selected; and (b) a communication unit that transmits the signal to the carrier or the UAV, wherein the carrier comprises (1) a plurality of frame components configured to support the payload, wherein the payload is movable relative to the UAV or the living subject via actuation of the plurality of frame components about a plurality of axes of rotation, wherein the plurality of frame components are connected to one another to form a multi-axis gimbal; and (2) one or more actuators configured to respond to a command signal to actuate one or more frame components to effect movement of the payload relative to the UAV or the living subject about at least one axis of rotation at an angle or speed calculated based on (1) the signal transmitted by the communication unit and (2) a user-generated movement on the terminal. 19. The remote terminal of claim 18 , wherein the carrier is on the UAV, and wherein the payload is movable relative to the UAV. 20. The remote terminal of claim 18 , wherein the user-generated movement includes rotating the terminal about its roll, pitch, or yaw axis. 21. The remote terminal of claim 20 , wherein rotating the terminal about a given axis results in rotation of the payload about a corresponding axis of the payload. 22. The remote terminal of claim 18 , wherein the remote terminal is a handheld terminal. 23. The remote terminal of claim 18 , further comprising a screen that serves as an image display device. 24. The remote terminal of claim 18 , wherein the payload is an image capturing device. 25. The remote terminal of claim 18 , wherein the gimbal comprises at least three frame components that are configured to pivot about three axes which are orthogonal to one another, and wherein the payload is movable via the carrier about the three axes, two of which remain orthogonal to one another throughout movement of the payload. 26