Entry guide for multiple instruments in a single port surgical system

What is claimed is: 1. An access port for use in single port surgery, the access port comprising: a cannula used to provide minimally invasive access to a surgical site, the cannula having a first opening at a proximal end, a second opening at a distal end, and an inner wall surface between the first opening and the second opening; and an instrument guide having an outside surface that fits closely to the inner wall surface of the cannula, the instrument guide including a proximal end that fits within the first opening of the cannula and receives a plurality of surgical instruments that pass through the first opening of the cannula, a distal end that fits within the second opening of the cannula and through which the plurality of surgical instruments emerge and pass through the second opening of the cannula, and a plurality of guide channels, each of the plurality of guide channels being configured to support a corresponding single surgical instrument of the plurality of surgical instruments at one of a corresponding plurality of defined positions within the cannula, each of the plurality of guide channels being open to the outside surface of the instrument guide to place a portion of the corresponding single surgical instrument supported by each guide channel immediately adjacent the inner wall surface of the cannula. 2. The access port of claim 1 further comprising a seal that seals to the instrument guide and to the cannula such that the seal retains a pressurized insufflation fluid within the surgical site. 3. The access port of claim 1 wherein the instrument guide includes a proximal end that receives surgical instruments and an opposing distal end where the surgical instruments emerge, the instrument guide further comprising at least one insufflation channel, the insufflation channel being between two adjacent guide channels, open at the distal end, closed at the proximal end, and open along at least a portion of a length of the guide adjacent the proximal end, such that an insufflation fluid introduced into the cannula flows through the insufflation channel to the surgical site and is retained within the insufflation channel at the proximal end. 4. The access port of claim 1 wherein the instrument guide includes a proximal end that receives surgical instruments and an opposing distal end where the surgical instruments emerge, the proximal end being larger than the distal end, each of the guide channels being smoothly enlarged as each of the guide channels approaches the proximal end. 5. The access port of claim 1 wherein the instrument guide is formed from an electrically non-conductive material. 6. The access port of claim 1 wherein the instrument guide includes a flexible section to fit within a corresponding flexible section of the cannula. 7. The access port of claim 6 further comprising a plurality of cable channels and a like plurality of cables for locking the flexible sections in a curved configuration. 8. The access port of claim 6 further comprising a plurality of cable channels and a like plurality of cables to be connected to a robotic controller for controlling a curvature of the flexible sections of the cannula and the instrument guide. 9. A robotic system for use in minimally invasive surgery, the system comprising: a surgical instrument including an end effector; a first actuator coupled to the surgical instrument to control the end effector; a camera instrument; a second actuator coupled to the camera instrument to control the camera instrument; a cannula used to provide minimally invasive access to a surgical site, the cannula having a first opening at a proximal end, a second opening at a distal end, and an inner wall surface between the first opening and the second opening; and an instrument guide having an outside surface that fits closely to the inner wall surface of the cannula, the instrument guide including a proximal end that fits within the first opening of the cannula and receives the instruments through the first opening of the cannula, a distal end where the instruments emerge, emerge through the second opening of the cannula, and a plurality of guide channels, one of the plurality of guide channels being configured to support the surgical instrument at a first defined position within the cannula and another of the plurality of guide channels being configured to support the camera instrument at a second defined position within the cannula, each of the plurality of guide channels being open to the outside surface of the instrument guide to place a portion of each of the instruments supported by the guide channels immediately adjacent the inner wall surface of the cannula. 10. The robotic system of claim 9 wherein the first actuator is a servo controlled actuator. 11. The robotic system of claim 9 wherein the second actuator is a servo controlled actuator. 12. The robotic system of claim 9 further comprising a video display for displaying an image captured by the camera of a transfer of an object. 13. The robotic system of claim 9 wherein the cannula includes a flexible section. 14. The robotic system of claim 13 wherein the flexible section can be locked in a curved configuration by means of cable routed through the instrument guide. 15. The robotic system of claim 13 wherein the flexible section can be robotically controlled to achieve a desired curved configuration. 16. The robotic system of claim 9 wherein the surgical instrument is flexible. 17. The robotic system of claim 9 wherein the camera instrument is flexible. 18. An access port for use in single port surgery, the access port comprising: means for providing minimally invasive access to a surgical site through a single incision, the means for providing access having a first opening at a proximal end, a second opening at a distal end, and an inner wall surface between the first opening and the second opening; and means for supporting a plurality of surgical instruments, each of the plurality of surgical instruments being supported at a corresponding one of a like plurality of defined positions within the means for providing access, the means for supporting including a proximal end that receives the plurality of surgical instruments that pass through the first opening of the means for providing access, a distal end through which the plurality of surgical instruments emerge and pass through the second opening of the means for providing access, an outside surface immediately adjacent the inner wall surface of the means for providing access, and openings in the outside surface such that a portion of each of the surgical instruments supported by each guide channel is immediately adjacent the inner wall surface of the means for providing access. 19. The access port of claim 18 further comprising means for retaining a pressurized insufflation fluid within the surgical site. 20. The access port of claim 18 further comprising means for introducing a pressurized insufflation fluid to the surgical site. 21. A method for minimally invasive surgery using a single access port, the method comprising supporting a plurality of surgical instruments at a like plurality of defined positions within an instrument guide inserted into a single cannula, the instrument guide having an outside surface that fits closely within an inner wall of the cannula, the instrument guide including a proximal end that receives surgical instruments, a distal end where the surgical instruments emerge, and a plurality of guide channel