Robotic system and method for reorienting a surgical instrument moving along a tool path

What is claimed is: 1. A robotic system for positioning an energy applicator extending from a surgical instrument, said system comprising: a surgical manipulator having a plurality of links and a plurality of actuators for moving said plurality of links to position the energy applicator with respect to target tissue; and at least one controller configured to: control operation of said surgical manipulator in a manual mode or a semi-autonomous mode; model the surgical instrument and the energy applicator as a virtual rigid body; and determine forces and torques to apply to the virtual rigid body to advance the energy applicator along a tool path in said semi-autonomous mode, wherein the energy applicator is constrained along the tool path for removing a predefined section of the target tissue; and a force/torque sensor coupled to said surgical manipulator and configured to generate an output representing forces and torques, said surgical manipulator configured to: move the energy applicator along the tool path in said semi-autonomous mode; monitor said output of said force/torque sensor as the energy applicator moves along the tool path; and reorient the surgical instrument based on said output in response to a user applying reorienting forces and torques to the surgical instrument while the energy applicator moves along the tool path, said surgical manipulator configured to reorient the surgical instrument simultaneously with moving the energy applicator along the tool path. 2. The system of claim 1 wherein said surgical manipulator is configured to reorient the surgical instrument based on said output in response to actuation of a button. 3. The system of claim 2 wherein said surgical manipulator is configured to reorient the surgical instrument until said button is released. 4. The system of claim 1 wherein said at least one controller includes a tool orientation regulator configured to control an orientation of the surgical instrument as the energy applicator moves along the tool path in said semi-autonomous mode. 5. The system of claim 4 wherein said tool orientation regulator is configured to output an orientation force to control the orientation of the surgical instrument. 6. The system of claim 5 wherein said at least one controller includes a force overrider configured to compare said orientation force to a limit value and said at least one controller is configured to transition said surgical manipulator from said semi-autonomous mode to said manual mode if said orientation force exceeds said limit value. 7. The system of claim 6 wherein said at least one controller is configured to transition said surgical manipulator from said semi-autonomous mode to said manual mode if said orientation force exceeds said limit value for a designated time period. 8. The system of claim 1 wherein said at least one controller includes a manipulator controller and a plurality of joint motor controllers, said plurality of joint motor controllers configured to control said plurality of actuators to move the energy applicator in one or more degrees of freedom. 9. A method for positioning an energy applicator extending from a surgical instrument of a robotic system, the system comprising the surgical instrument being coupled to a surgical manipulator having a plurality of links and a plurality of actuators for moving the plurality of links to position the energy applicator with respect to target tissue and at least one controller configured to control operation of the surgical manipulator in a manual mode or a semi-autonomous mode, said method comprising the steps of: modeling the surgical instrument and the energy applicator as a virtual rigid body; determining forces and torques to apply to the virtual rigid body to advance the energy applicator along a tool path in the semi-autonomous mode wherein the energy applicator is constrained along the tool path for removing a predefined section of the target tissue; moving the energy applicator along the tool path in the semi-autonomous mode; monitoring output of a force/torque sensor as the energy applicator moves along the tool path; and reorienting the surgical instrument based on the output in response to a user applying reorienting forces and torques to the surgical instrument while the energy applicator moves along the tool path, wherein reorienting the surgical instrument occurs simultaneously with moving the energy applicator along the tool path. 10. The method of claim 9 including reorienting the surgical instrument based on the output in response to actuation of a button. 11. The method of claim 10 including reorienting the surgical instrument until the button is released. 12. The method of claim 9 including controlling an orientation of the surgical instrument as the energy applicator moves along the tool path in the semi-autonomous mode. 13. The method of claim 12 including outputting an orientation force to control the orientation of the surgical instrument. 14. The method of claim 13 including comparing the orientation force to a limit value and transitioning the surgical manipulator from the semi-autonomous mode to the manual mode if the orientation force exceeds the limit value. 15. The method of claim 14 including transitioning the surgical manipulator from the semi-autonomous mode to the manual mode if the orientation force exceeds the limit value for a designated time period. 16. The method of claim 9 including controlling the plurality of actuators to move the energy applicator in one or more degrees of freedom. 17. The method of claim 9 wherein removing the predefined section of target tissue occurs so that an implant can be fitted to the patient.