Methods for locating and tracking a tool axis

The invention claimed is: 1. A system for locating a robot link position or orientation comprising: a link; a tracking system; and a set of fiducial markers positioned on the link, wherein at least three fiducial markers from said set of fiducial markers are visible to the tracking system for a processor to define a first coordinate system of the link, the processor in communication with the tracking system; and wherein the tracking system records positions of the at least three fiducial markers during rotation of the link and said processor fits a circular model to the recorded positions and calculates at least one of a circle center or vector normal to the circular model to locate at least one of a position of the link or orientation of the link. 2. The system of claim 1 further comprising another link attached to the link comprising a second set of fiducial markers, wherein at least three secondary fiducial markers from said second set are visible to the tracking system for said processor to define a second coordinate system on the another link. 3. The system of claim 2 wherein said tracking system comprises said processor and calculates an angle between the another link and the link by computing a relative rotation between the first coordinate system and the second coordinate system about the axis of rotation. 4. A method for locating a robot link position or orientation of a robot comprising: rotating a first set of at least three fiducial markers positioned on a link of the robot, said at least three fiducial markers visible to a tracking system; recording the position of said at least three fiducial markers during the rotation with said tracking system; and fitting a circular model to the recorded position and calculating at least one of a circle center of a circle or vector normal to the circle with a processor to locate at least one of a position of the link or orientation of the link. 5. The method of claim 4 further comprising defining a first coordinate system on the link of the robot using the first set of at least three fiducial markers visible to said tracking system. 6. The method of claim 5 further comprising defining a second coordinate system on another link of the robot using a second set of at least three secondary fiducial markers positioned on the another link and visible to said tracking system. 7. The method of claim 6 further comprising calculating an angle between the another link and the link by computing a relative rotation between the first coordinate system and the second coordinate system about an axis of rotation. 8. The method of claim 6 wherein said second set of at least three secondary fiducial markers are positioned on the another link with a different geometry from said first set of fiducial markers on the link. 9. The method of claim 6 further comprising performing a calibration procedure on the robot where the tracking system measures an actual robot position and orientation compared to a programmed position and orientation based on the first set and second set of at least three fiducial markers. 10. A robotic surgical system comprising: a robot with an arm having a link and another link attached to the link; a tool having a tool axis attached to the link; a tracking system; and a set of fiducial markers positioned on the link, wherein at least three fiducial markers from said set of fiducial markers are visible to the tracking system for a processor to define a first coordinate system of the link; and wherein the processor: records the position of said at least three fiducial markers while the at least three fiducial markers rotate; fits a circular model to the recorded positions; and calculates at least one of a circle center of a circle or vector normal to the circle to locate at least one of a position of the link orientation of the link. 11. The system of claim 10 further comprising a second set of at least three secondary fiducial markers positioned on the another link. 12. The system of claim 11 wherein said second set of at least three secondary fiducial markers on the another link have a different geometry from said first set of fiducial markers on the link. 13. The system of claim 12 wherein the processor: defines a second coordinate system on the another link of the robot using said second set of at least three secondary fiducial markers visible to said tracking system. 14. The system of claim 13 further comprising calculating an angle between the another link and the link by computing a relative rotation between the first coordinate system and the second coordinate system about an axis of rotation.