Surgical system user interface using cooperatively-controlled robot

We claim: 1. A cooperatively controlled robot, comprising: a robotic actuator assembly comprising a tool holder and a force sensor; a control system adapted to communicate with said robotic actuator assembly and said force sensor; and an output system in communication with said control system, wherein said tool holder is configured to receive a tool to be manipulated by a user, wherein said control system is configured to receive an instruction from a user to switch from a robot control mode into a user interface control mode, wherein said force sensor is configured to measure at least one of a force and a torque applied to said tool by said user, and wherein said control system, in said user interface control mode, is configured to receive an indication of said at least one of a force and a torque applied to said tool by said user and manipulate said output system based on said indication while disabling motion of said robot. 2. A cooperatively controlled robot according to claim 1 , further comprising: a microphone in communication with said control system, wherein said instruction from a user to switch from a robot control mode into a user interface control mode comprises a verbal signal detected by said microphone. 3. A cooperatively controlled robot according to claim 1 , further comprising: a pedal in communication with said control system, wherein said instruction from a user to switch from a robot control mode into a user interface control mode comprises a push or a release of said pedal. 4. A cooperatively controlled robot according to claim 1 , further comprising: a physical button in communication with said control system, wherein said instruction from a user to switch from a robot control mode into a user interface control mode comprises a command received through said physical button. 5. A cooperatively controlled robot according to claim 1 , further comprising: a second output system in communication with said control system, wherein said instruction from a user to switch from a robot control mode into a user interface control mode comprises a command received through a user interface of said second output system. 6. A cooperatively controlled robot according to claim 1 , wherein said output system is an audio system. 7. A cooperatively controlled robot according to claim 1 , wherein said output system is a visual display system. 8. A cooperatively controlled robot according to claim 7 , wherein said control system is configured to manipulate said visual display system by changing a position of a cursor based on said indication. 9. A cooperatively controlled robot according to claim 7 , wherein said control system is configured to manipulate said visual display system by changing a velocity of a cursor based on said indication. 10. A cooperatively controlled robot according to claim 7 , wherein said visual display system is configured to display an image, and wherein said control system is configured to manipulate said image based on said indication. 11. A cooperatively controlled robot according to claim 10 , wherein said image is created using data from a patient. 12. A cooperatively controlled robot according to claim 7 , wherein said visual display system is configured to display an image, and wherein said control system is configured to manipulate said visual display system by zooming into or out of said image based on said indication. 13. A cooperatively controlled robot according to claim 1 , wherein said output system is a second robotic actuator assembly. 14. A cooperatively controlled robot according to claim 1 , wherein said output system is a microscope. 15. A cooperatively controlled robot according to claim 1 , wherein said output system is a light source. 16. A cooperatively controlled robot according to claim 1 , wherein said control system is configured to manipulate said output system by browsing through a list of parameters and selecting a parameter based on said indication. 17. A cooperatively controlled robot according to claim 1 , wherein said control system is configured to perform a button press function on a condition that said force is exerted along a predetermined axis and exceeds at least one of a predetermined duration and magnitude. 18. A cooperatively controlled robot according to claim 1 , wherein said tool is a surgical instrument. 19. A cooperatively controlled robot according to claim 1 , wherein said tool is a joystick tool. 20. A surgical system user interface for a cooperatively controlled robot, comprising: a control system adapted to communicate with a robotic actuator assembly and a force sensor; and an output system in communication with said control system, wherein said control system is configured to receive an instruction from a user to switch from a robot control mode into a user interface control mode, and wherein said control system, in said user interface control mode, is configured to receive from a force sensor an indication of at least one of a force and a torque applied to a tool by a user and manipulate said output system based on said indication while disabling motion of said robot.