Surgical instrument manipulator aspects

What is claimed is: 1. A manipulator comprising: means for inserting a surgical instrument along an insertion axis, wherein a remote center of manipulation is defined on the insertion axis; means for changing a pitch orientation of the surgical instrument around a pitch axis that intersects the remote center of manipulation; means for changing a yaw orientation of the surgical instrument around a yaw axis that intersects the remote center of manipulation, wherein the yaw axis is orthogonal to the pitch axis; and means for changing an orientation of the surgical instrument around a conical sweep axis that intersects the remote center of manipulation, wherein the conical sweep axis is transverse to the pitch axis and is offset from the yaw axis. 2. The manipulator of claim 1 , wherein the means for changing the orientation of the surgical instrument around the conical sweep axis is between the means for inserting the surgical instrument along an insertion axis and the means for changing the pitch orientation of the surgical instrument around the pitch axis. 3. The manipulator of claim 1 , further comprising means for supporting the manipulator, wherein the means for changing the orientation of the surgical instrument around the conical sweep axis is between the means for changing the yaw orientation of the surgical instrument around the yaw axis and the means for supporting the manipulator. 4. The manipulator of claim 1 , further comprising: means for changing an orientation of the surgical instrument around a second conical sweep axis that intersects the remote center of manipulation, wherein the second conical sweep axis is transverse to the pitch axis and is offset from the yaw axis. 5. The manipulator of claim 4 , further comprising means for supporting the manipulator, wherein: the means for changing the orientation of the surgical instrument around the conical sweep axis is between the means for inserting the surgical instrument along an insertion axis and the means for changing the pitch orientation of the surgical instrument around the pitch axis; and the means for changing the orientation of the surgical instrument around the second conical sweep axis is between the means for changing the yaw orientation of the surgical instrument around the yaw axis and the means for supporting the manipulator. 6. The manipulator of claim 4 , further comprising: means for reorienting the means for changing the pitch orientation of the surgical instrument around a reorientation axis. 7. The manipulator of claim 1 , wherein the means for changing the orientation of the surgical instrument around the conical sweep axis is under surgeon control as part of a teleoperation function. 8. The manipulator of claim 1 , wherein the means for changing the orientation of the surgical instrument around the conical sweep axis occurs automatically in response to a surgeon's control input or to provide collision avoidance. 9. The manipulator of claim 1 , further comprising: means for reorienting the means for changing the pitch orientation of the surgical instrument around a reorientation axis. 10. The manipulator of claim 1 , further comprising means for setting up and fixing the remote center of manipulation at a fixed position. 11. The manipulator of claim 1 , wherein the means for changing the orientation of the surgical instrument around a conical sweep axis is configured to provide a degree of freedom that is redundant with at least one of the means for changing the pitch orientation of the surgical instrument and the means for changing the yaw orientation of the surgical instrument. 12. A manipulator comprising: means for inserting a surgical instrument along an insertion axis, wherein a remote center of manipulation is defined on the insertion axis; means for changing a yaw orientation of the surgical instrument around a yaw axis that intersects the remote center of manipulation; means for changing a pitch orientation of the surgical instrument around a pitch axis that intersects the remote center of manipulation, wherein the pitch axis is transverse to the yaw axis; and means for reorienting the means for changing the pitch orientation of the surgical instrument around a reorientation axis so that the pitch axis remains intersected with the remote center of manipulation and the remote center of manipulation remains in a fixed position. 13. The manipulator of claim 12 , further comprising means for changing an orientation of the surgical instrument around a conical sweep axis that intersects the remote center of manipulation, wherein the conical sweep axis is orthogonal to the pitch axis and is offset from the yaw axis. 14. The manipulator of claim 13 , wherein the means for changing the orientation of the surgical instrument around the conical sweep axis is between the means for inserting the surgical instrument along an insertion axis and the means for changing the orientation of the surgical instrument around the pitch axis. 15. The manipulator of claim 13 , further comprising means for supporting the manipulator, wherein the means for changing the orientation of the surgical instrument around the conical sweep axis is between the means for changing the orientation of the surgical instrument around the yaw axis and the means for supporting the manipulator. 16. The manipulator of claim 13 , wherein the means for changing the orientation of the surgical instrument around the conical sweep axis is between the means for changing the orientation of the surgical instrument around the yaw axis and the means for reorienting the means for changing the pitch orientation of the surgical instrument around the reorientation axis. 17. The manipulator of claim 12 , further comprising means for setting up and holding the remote center of manipulation at a fixed position. 18. The manipulator or claim 12 , wherein the means for reorienting is configured to provide a degree of freedom that is redundant with at least one of the means for changing the yaw orientation of the surgical instrument and the means for changing the pitch orientation of the surgical instrument.