Interlocking system and method for joysticks in a catheter procedure system

What is claimed is: 1. A user interface for a robotic medical system, the user interface comprising: an interlocking system including an input device configured to control a percutaneous device based on a physical activation of the input device; the interlocking system including a capacitive touch detection circuit operatively coupled to a cover of the input device detecting when a user is touching the cover, the interlocking system being configured to detect operation of the input device by the user, wherein the interlocking system is configured to prevent movement of the percutaneous device when the user is not touching the cover of the input device. 2. The user interface according to claim 1 , wherein the interlocking system is configured to allow movement of the percutaneous device based on activation of the input device when the operation of the input device by the user is detected. 3. The user interface according to claim 1 , wherein the input device is an analog joystick. 4. The user interface according to claim 1 , wherein: the input device cover being disposed over the input device and comprising a first portion having an electrode plating on the first portion; the capacitive touch detection circuit operatively coupled to the input device cover, and configured to detect a proximal change in capacitance in the electrode plating of the first portion of the input device cover and to generate a touch output signal to indicate whether the change in capacitance has been detected; and a signal enable circuit coupled to the input device and the capacitive touch detection circuit, the signal enable circuit configured to generate an enable voltage output based on whether a change in capacitance has been detected. 5. The user interface according to claim 4 , wherein the capacitive touch detection circuit is positioned intermediate the first portion of the cover and the input device. 6. The user interface according to claim 5 , wherein the capacitive touch detection circuit is coupled to the electrode plating of the first portion of the input device cover using a conductor mounted to the input device cover using a conductive adhesive. 7. A catheter procedure system comprising: a bedside system comprising at least one drive mechanism configured to control a percutaneous device; and an interlocking system coupled to the bedside system, the interlocking system including an input device configured to control the percutaneous device, via the bedside system, based on a physical activation of the input device; the interlocking system including a capacitive touch detection circuit operatively coupled to a cover of the input device detecting when a user is touching the cover, the interlocking system being configured to detect operation of the input device by a user, wherein the interlocking system is configured to prevent movement of the percutaneous device when the user is not touching the cover of the input device. 8. The catheter procedure system according to claim 7 , wherein the interlocking system is configured to allow movement of the percutaneous device based on activation of the input device when the operation of the input device by the user is detected. 9. The catheter procedure system according to claim 7 , wherein the input device is an analog joystick. 10. The catheter procedure system according to claim 7 , wherein the cover of the input device being disposed over the input device and comprising a first portion having an electrode plating on the first portion; the capacitive touch detection circuit operatively coupled to the input device cover, and configured to detect a proximal change in capacitance in the electrode plating of the first portion of the input device cover and to generate a touch output signal to indicate whether the change in capacitance has been detected; and a signal enable circuit coupled to the input device and the capacitive touch detection circuit, the signal enable circuit configured to generate an enable voltage output based on whether the change in capacitance has been detected. 11. The catheter procedure system according to claim 10 , wherein the capacitive touch detection circuit is positioned intermediate the first portion of the cover and the input device. 12. The catheter procedure system according to claim 11 , wherein the capacitive touch detection circuit is coupled to the electrode plating of the first portion of the input device cover using a conductor mounted to the input device cover using a conductive adhesive. 13. A method of controlling a robotic medical system comprising an interlocking system having a capacitive detection circuit and an input device, the interlocking system configured to control a percutaneous device based on a physical activation of the input device, the method comprising: receiving a command for an actuating movement of the percutaneous device based on the physical activation of the input device by a user; determining whether the physical activation of the input device is detected by the interlocking system; and preventing movement of the percutaneous device by the interlocking system when the interlocking system determines that the user is not touching a cover of the input device. 14. The method according to claim 13 , further comprising: allowing movement of the percutaneous device by the interlocking system when the interlocking system determines operation of the input device by the user is detected. 15. The method according to claim 13 , wherein the input device is an analog joystick. 16. The method according to claim 13 , wherein the cover of the input device being disposed over the input device and comprising a first portion having an electrode plating on the first portion; the capacitive touch detection circuit operatively coupled to the cover of the input device, and configured to detect a proximal change in capacitance in the electrode plating of the first portion of the input device cover and to generate a touch output signal to indicate whether the change in capacitance has been detected; and a signal enable circuit coupled to the input device and the capacitive touch detection circuit, the signal enable circuit configured to generate an enable voltage output based on whether the change in capacitance has been detected. 17. The method according to claim 16 , wherein the capacitive touch detection circuit is positioned intermediate the first portion of the cover and the input device. 18. The method according to claim 17 , wherein the capacitive touch detection circuit is coupled to the electrode plating of the first portion of the input device cover using a conductor mounted to the input device cover using a conductive adhesive.