Inter-operative switching of tools in a robotic surgical system

What is claimed is: 1. A system comprising: a plurality of manipulators; and a controller configured to: detect mounting of an imaging device to a first manipulator of the plurality of manipulators; determine a first reference frame for the imaging device based on the mounting of the imaging device to the first manipulator; control a tool relative to the first reference frame by controlling a relative position and orientation of a tip of the tool relative to the imaging device in the first reference frame by correlating movement of a master input control to movement of the tool in the first reference frame; detect mounting of the imaging device to a second manipulator of the plurality of manipulators, the second manipulator being different from the first manipulator; determine a second reference frame for the imaging device based on the mounting of the imaging device to the second manipulator; and control the tool relative to the second reference frame. 2. The system of claim 1 , wherein the second reference frame is a world reference frame. 3. The system of claim 1 , wherein the first reference frame is determined based on kinematics of the first manipulator. 4. The system of claim 1 , wherein to control the tool relative to the first reference frame, the controller is configured to teleoperate the tool based on commands received from the master input control. 5. The system of claim 1 , wherein to control the relative position and orientation of the tip of the tool relative to the imaging device in the first reference frame, the controller is configured to control the tool based on a relative position and orientation of the master input control relative to a user display. 6. The system of claim 1 , wherein to control the tool relative to the second reference frame, the controller is configured to control the relative position and orientation of the tip of the tool relative to the imaging device in the second reference frame based on a relative position and orientation of the master input control relative to a user display. 7. The system of claim 1 , wherein in response to determining the second reference frame for the imaging device, the controller is configured to move the master input control so that the relative position and orientation of the master input control relative to a user display corresponds to a relative position and orientation of the tip of the tool relative to the imaging device in the second reference frame. 8. The system of claim 1 , wherein: the tool is mounted to a third manipulator of the plurality of manipulators; and control of the tool is further based on kinematics of the third manipulator. 9. The system of claim 1 , wherein: while the imaging device is mounted to the first manipulator and the tool is mounted to the second manipulator, control of the tool is further based on kinematics of the second manipulator; and while the imaging device is mounted to the second manipulator and the tool is mounted to the first manipulator, control of the tool is further based on kinematics of the first manipulator. 10. A method for controlling a system, the method comprising: detecting, by a controller of the system, mounting of an imaging device to a first manipulator of the system; determining, by the controller, a first reference frame for the imaging device based on the mounting of the imaging device to the first manipulator; controlling, by the controller, a tool relative to the first reference frame by controlling a relative position and orientation of a tip of the tool relative to the imaging device in the first reference frame by correlating movement of a master input control to movement of the tool in the first reference frame; detecting, by the controller, mounting of the imaging device to a second manipulator of the system, the second manipulator being different from the first manipulator; determining, by the controller, a second reference frame for the imaging device based on the mounting of the imaging device to the second manipulator; and controlling, by the controller, the tool relative to the second reference frame. 11. The method of claim 10 , wherein determining the first reference frame comprises determining the first reference frame further based on kinematics of the first manipulator. 12. The method of claim 10 , wherein controlling the tool relative to the first reference frame comprises controlling the tool based on a relative position and orientation of the master input control relative to a user display. 13. The method of claim 10 , wherein controlling the tool relative to the second reference frame comprises controlling the relative position and orientation of the tip of the tool relative to the imaging device in the second reference frame by correlating movement of the master input control to movement of the tool in the second reference frame. 14. The method of claim 10 , wherein controlling the tool relative to the second reference frame comprises controlling the tool based on a relative position and orientation of the master input control relative to a user display. 15. The method of claim 10 , further comprising: in response to determining the second reference frame for the imaging device, moving the master input control so that the relative position and orientation of the master input control relative to a user display corresponds to a relative position and orientation of the tip of the tool in the second reference frame for the imaging device. 16. The method of claim 10 , wherein: while the imaging device is mounted to the first manipulator and the tool is mounted to the second manipulator, controlling of the tool is further based on kinematics of the second manipulator; and while the imaging device is mounted to the second manipulator and the tool is mounted to the first manipulator, controlling of the tool is further based on kinematics of the first manipulator. 17. A non-transitory computer readable medium comprising a plurality of instructions which when executed by one or more processors associated with a system are adapted to cause the one or more processors to perform a method comprising: detecting mounting of an imaging device to a first manipulator of the system; determining a first reference frame for the imaging device based on the mounting of the imaging device to the first manipulator; controlling a tool relative to the first reference frame by controlling a relative position and orientation of a tip of the tool relative to the imaging device in the first reference frame by correlating movement of a master input control to movement of the tool in the first reference frame; detecting mounting of the imaging device to a second manipulator of the system, the second manipulator being different from the first manipulator; determining a second reference frame for the imaging device based on the mounting of the imaging device to the second manipulator; and controlling the tool relative to the second reference frame. 18. The non-transitory computer readable medium of claim 17 , wherein the method further comprises: while the imaging device is mounted to the first manipulator and the tool is mounted to the second manipulator, controlling of the tool is further based on kinematics of the second manipulator; and while the imaging device is mounted to the second manipulator and the tool is mounted to the first manipulator, controlling of the tool is further based on kinematics of the first manipulator. 19. The non-transitory computer readable medium of clai