Multi-user medical robotic system for collaboration or training in minimally invasive surgical procedures

We claim: 1. A surgeon training medical robotic system comprising: a first slave robotic mechanism configured to manipulate a first surgery-related device according to a first slave command; a first trainee master control station operated by a first trainee, the first trainee master control station configured to generate a first trainee command indicative of a first desired position for the first surgery-related device according to a first trainee input; a second trainee master control station operated by a second trainee, the second trainee master control station configured to generate a second trainee command indicative of a second desired position for the first surgery-related device according to a second trainee input; and a mentor master control station operated by a mentor, the mentor master control station configured to: facilitate the mentor to define routing information; generate the first slave command by associating at least one of the first and the second trainee master control stations with the first robotic slave robotic mechanism according to the routing information, and by using a first sensed position of the first surgery-related device, and provide the first slave command to the first slave robotic mechanism. 2. The surgeon training robotic medical system according to claim 1 , wherein the mentor master control station is further configured to over-ride the first slave command generated by associating at least one of the first and the second trainee master control stations with the first robotic slave robotic mechanism according to the routing information, and generate the first slave command by using a mentor command indicative of a mentor desired position for the first surgery-related device, and by using the first sensed position of the first surgery-related device. 3. The surgeon training robotic medical system according to claim 1 , further comprising: a slave cart having a plurality of slave robotic mechanisms including the first slave robotic mechanism and another slave robotic mechanism configured to manipulate an endoscope according to an endoscope positioning command, wherein images captured by the endoscope are concurrently provided to said first trainee master control station, said second trainee master control station, and said mentor master control station for viewing by their respective operators. 4. The surgeon training robotic medical system according to claim 1 , further comprising: an audio system configured for audio communication between the first trainee, the second trainee, and the mentor. 5. The surgeon training robotic medical system according to claim 1 , wherein the mentor master control station is configured with a routing table, and the routing information is provided in the routing table. 6. The surgeon training robotic medical system according to claim 1 , wherein the mentor master control station includes a display configured with a user interface to facilitate defining of the routing information by the mentor operator. 7. The surgeon training robotic medical system according to claim 6 , wherein the display includes a display screen displaying a plurality of icons indicating the routing information to the mentor operator. 8. The surgeon training robotic medical system according to claim 6 , wherein the display includes a plurality of light-emitting-diodes indicating the routing information to the mentor operator. 9. The surgeon training robotic medical system according to claim 1 , wherein the mentor master control station includes a manipulator and the mentor master control station is configured such that the routing information may be defined by the mentor operator using the manipulator. 10. The surgeon training robotic medical system according to claim 1 , wherein the mentor master control station includes a foot pedal and the mentor master control station is configured such that the routing information may be defined by the mentor operator using the foot pedal. 11. The surgeon training robotic medical system according to claim 1 , wherein the mentor master control station is provided with shared command information, and the mentor master control station is configured to generate the first slave command by using the shared command information. 12. The surgeon training robotic medical system according to claim 11 , wherein the mentor master control station is configured with a shared command filter, and the shared command information is provided as parameters for the shared command filter.