Big air electronic control module

We claim: 1. A vehicle electronic control system, comprising: an Antilock Brake System (ABS) module electrically coupled to a brake actuator, wherein the ABS module comprises one or more of an electronic controller, programming stored on the electronic controller, a brake line, one or more valves, and one or more pumps; a shock position sensor that detects a percentage a corresponding shock is compressed; and an ABS override module electrically coupled to the shock position sensor and the ABS module, wherein the ABS override module comprises one or more of an electronic controller and programming stored on the electronic controller, wherein the ABS override module: receives a shock-extended signal from the shock position sensor indicating the shock is compressed from 0% to 10%; in response to receiving the shock-extended signal, sends a stop-ABS signal that prevents the ABS module from communicating with the brake actuator. 2. The vehicle electronic control system of claim 1 , wherein the ABS override module further receives a shock-compressed signal from the shock position sensor indicating the shock is compressed from greater than 10% to 100%. 3. The vehicle electronic control system of claim 2 , wherein the ABS override module further, in response to receiving the shock-compressed signal, allows the ABS module to communicate with the brake actuator. 4. The vehicle electronic control system of claim 1 , further comprising a wheel speed sensor electrically coupled to one or more of the ABS module and the ABS override module. 5. The vehicle electronic control system of claim 4 , wherein preventing the ABS module from communicating with the brake actuator comprises preventing the wheel speed sensor from communicating with the ABS module. 6. The vehicle electronic control system of claim 5 , wherein preventing the ABS module from communicating with the brake actuator comprises sending a dummy wheel speed to the ABS module. 7. The vehicle electronic control system of claim 1 , further comprising at least one switch electrically disposed between one or more of the ABS module, the ABS override module, and the brake actuator. 8. The vehicle electronic control system of claim 7 , wherein preventing the ABS module from communicating with the brake actuator comprises opening the switch. 9. The vehicle electronic control system of claim 7 , the vehicle further comprising a CAN bus and an ABS override bus, one or more of the switch, the ABS module, the brake actuator, and the ABS override module electrically coupled via one or more of the CAN bus and the ABS override bus. 10. The vehicle electronic control system of claim 1 , comprising four shock position sensors corresponding to four shocks, wherein the ABS override module receives the shock-extended signal from one of the four shock position sensors, from two of the four shock position sensors, from three of the four shock position sensors, or from all four of the shock position sensors. 11. The vehicle electronic control system of claim 1 , further comprising one or more of a visual and an audio indicator electrically coupled to the ABS override module, wherein the indicator indicates to a user the ABS override module is preventing the ABS module from communicating with the brake actuator. 12. The vehicle electronic control system of claim 1 , further comprising an in-air rev limiter electrically coupled to the ABS override module, wherein the ABS override module further sends an in-air rev limit signal to the in-air rev limiter that activates the in-air rev limiter. 13. The vehicle electronic control system of claim 12 , wherein the ABS override module sends the in-air rev limit signal in response to preventing the ABS module from communicating with the brake actuator. 14. The vehicle electronic control system of claim 12 , further comprising an on-ground rev limiter that sets an on-ground rev limit, wherein the on-ground rev limiter limits rotation of the motor to a range from 4000 rpm to 5000 rpm. 15. The vehicle electronic control system of claim 14 , wherein the in-air rev limit is lower than the on-ground rev limit by a range from 1000 rpm to 2000 rpm. 16. The vehicle electronic control system of claim 1 , further comprising one or more of a multi-axis yaw sensor electrically coupled to the ABS override module, and a throttle electrically coupled to the ABS override module. 17. The vehicle electronic control system of claim 16 , wherein the ABS override module receives a yaw signal from the yaw sensor indicating a current yaw of the vehicle about one or more perpendicular axes. 18. The vehicle electronic control system of claim 17 , wherein the ABS override module, in response to receiving the yaw signal from the yaw sensor, compares the current yaw of the vehicle to a desired yaw of the vehicle. 19. The vehicle electronic control system of claim 18 , wherein the ABS override module, in response to comparing the current yaw of the vehicle to a desired yaw of the vehicle, determines the current yaw is not equal to the desired yaw. 20. The vehicle electronic control system of claim 19 , wherein the ABS override module, in response to determining the current yaw is not equal to the desired yaw, sends a signal that actuates the throttle, the brake actuator, or both.