Systems and methods for a control station for robotic interventional procedures using a plurality of elongated medical devices

We claim: 1. An input system for controlling a catheter-based procedure system that includes a robotic drive, the input system comprising: a body comprising a top surface and a front surface and; a first control disposed on the front surface and configured to instruct the robotic drive to axially move a first elongated medical device in response to manipulation of the first control by a user; and a second control disposed on the top surface and configured to instruct the robotic drive to rotate the first elongated medical device in response to manipulation of the second control by the user, wherein the first control and the second control are disposed to allow manipulation of the first control by an index finger of the user and manipulation of the second control by a thumb of the user. 2. An input system according to claim 1 , further comprising a third control coupled to the body, wherein the first control and the second control are configured to instruct the robotic drive only if the third control is manipulated by the user. 3. An input system according to claim 2 , wherein the first control is configured to instruct the robotic drive to axially move the first elongated medical device at a constant speed in response to manipulation of the first control by a user, and wherein the second control is configured to instruct the robotic drive to rotate the first elongated medical device by a discrete angle in response to manipulation of the second control by the user. 4. An input system according to claim 1 , further comprising a third control coupled to the body and configured to map the first control and the second control to a second elongated medical device, wherein mapping the first control and the second control to the second elongated medical device results in configuration of the first control to instruct the robotic drive to axially move the second elongated medical device in response to manipulation of the first control by the user, and configuration of the second control to instruct the robotic drive to rotate the second elongated medical device in response to manipulation of the second control by the user. 5. An input system according to claim 4 , further comprising a fourth control coupled to the body, wherein the first control and the second control are configured to instruct the robotic drive only if the fourth control is manipulated by the user. 6. An input system according to claim 5 , further comprising a fifth control coupled to the body and configured to map the third control and the fourth control to a third elongated medical device, wherein mapping the third control and the fourth control to the third elongated medical device configures the third control to instruct the robotic drive to axially move the third elongated medical device in response to manipulation of the third control by the user and configures the fourth control to instruct the robotic drive to rotate the third elongated medical device in response to manipulation of the fourth control by the user. 7. An input system according to claim 1 , further comprising a third control coupled to the body, wherein the first control and the second control are configured to instruct the robotic drive only if the third control is manipulated by the user. 8. An input system according to claim 1 , wherein the first control is configured to instruct the robotic drive to axially move the first elongated medical device a continuous speed in response to manipulation of the first control by a user, and wherein the second control is configured to instruct the robotic drive to rotate the first elongated medical device by a discrete angle in response to manipulation of the second control by the user. 9. An input system according to claim 1 , further comprising: a third control disposed on the front surface and configured to instruct the robotic drive to axially move a second elongated medical device in response to manipulation of the third control by a second index finger of a second hand of the user. 10. An input system according to claim 9 , further comprising: a fourth control coupled to the body and configured to map the first control and the second control to a selected one of two or more elongated medical devices; and a fifth control coupled to the body and configured to map the third control to a second selected one of two or more elongated medical devices. 11. An input system according to claim 10 , wherein the fourth control is configured to map the first control and the second control to the selected one of two or more elongated medical devices only while the fourth control is manipulated by the user, and wherein the fifth control is configured to map the third control to the second selected one of two or more elongated medical devices only while the fifth control is manipulated by the user. 12. A method for an input system for controlling a catheter-based procedure system that includes a robotic drive, the method comprising: receiving a first manipulation by an index finger of a first hand of a user of a first control coupled to a front surface of a body of the input system; receiving a second manipulation by a thumb of the first hand of the user of a second control coupled to a top surface of the body of the input system; responsive to the first manipulation, instructing the robotic drive to axially move a first elongated medical device; and responsive to the second manipulation, instructing the robotic drive to rotate the first elongated medical device, wherein the first manipulation and the second manipulation occur simultaneously. 13. A method for an input system according to claim 12 , further comprising: receiving a third manipulation of a third control coupled to the body, wherein the robotic drive is instructed only if the third manipulation is received simultaneously with the first manipulation and the second manipulation. 14. A method for an input system according to claim 13 , wherein the first control is configured to instruct the robotic drive to axially move the first elongated medical device a continuous speed responsive to manipulation of the first control by a user, and wherein the second control is configured to instruct the robotic drive to rotate the first elongated medical device by a discrete angle responsive to manipulation of the second control by the user. 15. A method for an input system according to claim 12 , further comprising: receiving a third manipulation of a third control coupled to the body; and responsive to the third manipulation, mapping the first control and the second control to a second elongated medical device. 16. A method for an input system according to claim 15 , further comprising receiving a fourth manipulation of a fourth control coupled to the body, wherein the robotic drive is instructed only if the fourth manipulation is received simultaneously with the first manipulation and the second manipulation. 17. A method for an input system according to claim 15 , wherein the first control and the second control are mapped to the second elongated medical device only while the third control is manipulated by the user. 18. A method for an input system according to claim 12 , further comprising: receiving a third manipulation by an index finger of a second hand of the user of a third control coupled to the front surface of the input system; receiving a fourth manipulation by a thumb of the second hand of the user of a fourth control coupled to the top surface of the input system; responsive to the third manipulation, in