System and method for controlling vehicle speed

The invention claimed is: 1. A method of operating a speed control system of a vehicle having an electronic control unit (ECU), comprising: detecting by the ECU an occurrence of at least one of a slip event and a step encounter event at a leading wheel of the vehicle; predicting by the ECU that an occurrence of said at least one of a slip event and a step encounter event will occur at a following wheel of the vehicle, wherein the prediction is based upon a combination of two or more of a speed of the vehicle, an angle of the leading wheel, an angle of a steering wheel of the vehicle, or a wheelbase distance between the leading wheel and the following wheel; and automatically controlling by the ECU at least one of vehicle speed and vehicle acceleration in response to said predicting. 2. A speed control system for a vehicle, comprising: an electronic control unit (ECU), the ECU configured to: detect an occurrence of at least one of a slip event and a step encounter event at a leading wheel of the vehicle; predict that an occurrence of said at least one of a slip event and a step encounter event will occur at a following wheel of the vehicle, wherein the ECU is configured to make the prediction based upon a combination of two or more of a speed of the vehicle, an angle of the leading wheel, an angle of a steering wheel of the vehicle, or a wheelbase distance between the leading wheel and the following wheel; and output a signal to automatically control at least one of vehicle speed and vehicle acceleration in response to said predicting. 3. The system of claim 2 , wherein detecting an occurrence of at least one of a slip event and a step encounter event by the ECU further comprises the ECU being configured to monitor vehicle related information including one or more of: wheel speed, wheel torque, and wheel articulation and to use said monitored vehicle related information to detect said occurrence. 4. The system of claim 2 , wherein the detecting, predicting, and outputting are performed by the ECU while maintaining operation of the speed control system and without deactivation of the speed control system. 5. The system of claim 2 , wherein the predicting that an occurrence of said at least one of a slip event and a step encounter event will occur at a following wheel further comprises the ECU being configured to make the prediction based upon at least one of a speed of the vehicle, an angle of the leading wheel, an angle of a steering wheel of the vehicle, and a wheelbase distance between the leading wheel and the following wheel. 6. The system of claim 2 , further comprising the ECU being configured to output a signal to control acceleration of vehicle speed from a first set-speed of the speed control system to a second set-speed of the speed control system based upon said prediction. 7. The system of claim 6 , wherein the output of a signal to control acceleration of vehicle speed comprises the ECU being configured to output a signal to either temporarily suspend acceleration of vehicle speed commanded by the speed control system or temporarily maintain current vehicle speed. 8. The system of claim 7 , wherein the ECU is configured to: predict when the occurrence of said at least one of a slip event and a step encounter event will occur at the following wheel; and output a signal to temporarily suspend acceleration of vehicle speed commanded by the speed control system and temporarily maintain current vehicle speed for a duration of time representative of the prediction of when the occurrence of said at least one of a slip event and a step encounter event will occur at the following wheel of the vehicle. 9. The system of claim 6 , wherein the output of a signal to control acceleration of vehicle speed comprises the ECU being configured to detect if the leading wheel continues to experience a slip event above a defined threshold and, in response thereto, to output a signal to temporarily reduce vehicle speed. 10. The system of claim 9 wherein temporarily reducing vehicle speed comprises the ECU being configured to output a signal to temporarily reduce vehicle speed until the detected slip event falls below a predetermined threshold. 11. The system of claim 2 , wherein the output of a signal to automatically control at least one of vehicle speed and vehicle acceleration comprises the ECU being configured to suspend intervention of the speed control system by a powertrain subsystem, a chassis management subsystem, or both the powertrain and chassis management subsystems. 12. The system of claim 2 , wherein the output of a signal to automatically control at least one of vehicle speed and vehicle acceleration comprises the ECU being configured to output a signal to control a powertrain subsystem to adjust the amount of torque applied to a leading wheel, to a following wheel, or to both a leading and following wheel, based upon the predicting that the occurrence of said at least one of a slip event and a step encounter event will occur at the following wheel of the vehicle. 13. The system of claim 12 , wherein the output of a signal to control the powertrain subsystem comprises the ECU being configured to output a signal to: reduce the amount of torque applied to the following wheel approximately when the predicted occurrence of said at least one of a slip event and a step encounter event will occur at the following wheel, increase the amount of torque applied to the leading wheel approximately when the predicted occurrence of said at least one of a slip event and a step encounter event will occur at the following wheel, or both. 14. The system of claim 13 , further comprising the ECU being configured to output a signal to temporarily reduce the amount of torque applied to the leading wheel in response to the predicting that the occurrence of said at least one of a slip event and a step encounter event will occur at the following wheel of the vehicle, and wherein the reduction of the amount of torque applied to the following wheel is equal to a reduction of the amount of torque applied to the leading wheel when the occurrence of at least one of slip event and step encounter event was detected at the leading wheel. 15. The system of claim 14 , further comprising the ECU being configured to output a signal to both reduce the amount of torque applied to the following wheel and increase the amount of torque applied to the leading wheel, and wherein the reduction of the amount of torque applied to the following wheel is equal to an increase in the amount of torque applied to the leading wheel. 16. The system of claim 2 , wherein the output of a signal to automatically control at least one of vehicle speed and vehicle acceleration in response to said predicting comprises the ECU being configured to output a signal to control a brake subsystem to apply a retarding torque to the following wheel approximately when the occurrence of said at least one of a slip event and a step encounter event at the following wheel is predicted to occur. 17. A vehicle comprising a speed control system, the speed control system comprising: an electronic control unit (ECU), the ECU configured to: detect an occurrence of at least one of a slip event and a step encounter event at a leading wheel of the vehicle; predict that an occurrence of said at least one of a slip event and a step encounter event will occur at a following wheel of the vehicle, wherein the ECU is configured to make the prediction based upon a combination of two or more of a speed of the vehicle, an angle of the leading wheel, an angle of a steerin