Interlocking system and method for joysticks in a catheter procedure system

What is claimed is: 1. An interlocking system for a joystick in a catheter procedure system, the interlocking system comprising: a joystick configured to generate a first voltage output signal based on a linear activation of the joystick and a second voltage output signal based on a rotational activation of the joystick; a joystick cover disposed over the joystick and comprising an upper portion having an electrode plating on an inner surface of the upper portion and a lower portion having an inner surface; a capacitive touch detection circuit coupled to the electrode plating of the upper portion of the joystick cover, the capacitive touch detection circuit mounted on the inner surface of the lower portion of the joystick cover and configured to detect a proximal change in capacitance in the electrode plating of the upper portion of the joystick cover and to generate a touch output signal to indicate whether a change in capacitance has been detected; and a signal enable circuit coupled to the joystick and the capacitive touch detection circuit, the signal enable circuit configured to generate a linear enable voltage output signal and a rotational enable voltage output signal based on whether a change in capacitance has been detected. 2. An interlocking system according to claim 1 , wherein the joystick is an analog joystick. 3. An interlocking system according to claim 1 , wherein the capacitive touch detection circuit is coupled to the electrode plating of the upper portion of the joystick cover using a conductor mounted to the joystick cover using a conductive epoxy. 4. An interlocking system according to claim 1 , wherein the signal enable circuit is coupled to the capacitive touch detection circuit using a communication link configured to provide a supply voltage to the capacitive touch detection circuit. 5. An interlocking system according to claim 4 , wherein the communication link is further configured to provide a ground voltage to the capacitive touch detection circuit. 6. An interlocking system according to claim 1 , wherein the signal enable circuit receives a zero velocity reference voltage input. 7. An interlocking system according to claim 6 , wherein the linear enable voltage output signal is equal to the zero velocity reference voltage when a change in capacitance is not detected by the capacitive touch detection circuit. 8. An interlocking system according to claim 6 , wherein the rotational enable voltage output signal is equal to the zero velocity reference voltage when a change in capacitance is not detected by the capacitive touch detection circuit. 9. An interlocking system according to claim 1 , wherein the linear enable voltage output signal is equal to the first voltage output signal when a change in capacitance is detected by the capacitive touch detection circuit. 10. An interlocking system according to claim 1 , wherein the rotational enable voltage output signal is equal to the second voltage output signal when a change in capacitance is detected by the capacitive touch detection circuit. 11. An interlocking system according to claim 1 , further comprising a joystick actuated detection circuit coupled to the joystick and the signal enable circuit, the joystick actuated enable circuit configured to detect whether the joystick is in an actuated state and to generate a joystick actuated output signal. 12. An interlocking system according to claim 11 , wherein the signal enable circuit generates a control signal for an imaging system based on the touch output signal and the joystick actuated output signal. 13. An interlocking system according to claim 12 , wherein the joystick is used to control a percutaneous device in the catheter procedure system and the control signal causes the imaging system to begin acquiring images before actuation of the percutaneous device. 14. An interlocking system according to claim 1 , wherein the capacitive touch detection circuit is mounted on the inner surface of the lower portion of the joystick cover. 15. An interlocking system according to claim 1 , wherein the capacitive touch detection circuit is mounted on the inner surface of the lower portion of the joystick cover. 16. A catheter procedure system comprising: a bedside system comprising a percutaneous device and at least one drive mechanism coupled to the percutaneous device; and a workstation coupled to the bedside system, the workstation comprising: a joystick configured to generate a first voltage output signal based on a linear activation of the joystick and a second voltage output signal based on a rotational activation of the joystick; a joystick cover disposed over the joystick and comprising an upper portion having an electrode plating on an inner surface of the upper portion and a lower portion having an inner surface; a capacitive touch detection circuit coupled to the electrode plating of the upper portion of the joystick cover, the capacitive touch detection circuit mounted on the inner surface of the lower portion of the joystick cover and configured to detect a proximal change in capacitance in the electrode plating of the upper portion of the joystick cover and to generate a touch output signal to indicate whether a change in capacitance has been detected; and a signal enable circuit coupled to the joystick and the capacitive touch detection circuit, the signal enable circuit configured to generate a linear enable voltage output signal and a rotational enable voltage output signal based on whether a change in capacitance has been detected. 17. A catheter procedure system according to claim 16 , wherein the signal enable circuit receives a zero velocity reference voltage input. 18. A catheter procedure system according to claim 17 , wherein the linear enable voltage output signal is equal to the zero velocity reference voltage when a change in capacitance is not detected by the capacitive touch detection circuit. 19. A catheter procedure system according to claim 17 , wherein the rotational enable voltage output signal is equal to the zero velocity reference voltage when a change in capacitance is not detected by the capacitive touch detection circuit. 20. A catheter procedure system according to claim 16 , wherein the linear enable voltage output signal is equal to the first voltage output signal when a change in capacitance is detected by the capacitive touch detection circuit. 21. A catheter procedure system according to claim 16 , wherein the rotational enable voltage output signal is equal to the second voltage output signal when a change in capacitance is detected by the capacitive touch detection circuit. 22. A catheter procedure system according to claim 16 , wherein the workstation further comprises a joystick actuated detection circuit coupled to the joystick and the signal enable circuit, the joystick actuated enable circuit configured to detect whether the joystick is in an actuated state and to generate a joystick actuated output signal. 23. A catheter procedure system according to claim 22 , wherein the signal enable circuit generates a control signal for an imaging system based on the touch output signal and the joystick actuated output signal. 24. A catheter procedure system according to claim 23 , wherein the joystick is used to control the percutaneous device and the control signal causes the imaging system to begin acquiring images before actuation of the percutaneous device.