Vehicle speed control system and method with external force compensation

The invention claimed is: 1. A method of operating a speed control system of a vehicle, comprising: detecting an external force acting on the vehicle wherein the external force has a accelerating or decelerating effect on the vehicle; automatically adjusting a rate of change of at least one component of a net torque being applied to one or more wheels of the vehicle to compensate for the accelerating or decelerating effect of the external force on the vehicle, wherein the adjusting step comprises applying a predetermined gain to at least one component of the net torque being applied to one or more wheels of the vehicle, thereby increasing or decreasing the rate at which the at least one component of the net torque is changed, the method further comprising receiving a command to change a set-speed of the speed control system from a first set-speed to a target set-speed that is lower than the first set-speed, the adjusting step comprising adjusting the rate of change of said at least one component of the net torque to decelerate the vehicle to the target set-speed, wherein, where the external force has a decelerating effect as a result of the vehicle ascending a gradient, and if the received command to change the set-speed would result in a rate of change of at least one component of the net torque being applied such that the net torque would be insufficient to maintain vehicle progress up the gradient, the method further comprises decreasing the rate of change of at least one component of the net torque being applied to prevent movement of the vehicle down the gradient. 2. The method of claim 1 , further comprising activating a hill hold assistance system of the vehicle configured to maintain the vehicle stationary on the gradient until sufficient net torque has been generated to prevent movement down the gradient or to resume motion of the vehicle up the gradient. 3. The method of claim 1 , wherein the adjusting step comprises adjusting the rate of change of at least one component of the net torque being applied to accelerate or decelerate the vehicle to the target set-speed in accordance with a predetermined acceleration profile, and wherein said acceleration profile comprises an acceleration corridor comprising a range between a desired acceleration and a maximum desired acceleration. 4. The method of claim 1 , wherein the detecting step comprises one of: comparing the longitudinal acceleration of the vehicle to a predetermined acceleration profile and detecting that an external force is acting on the vehicle when the longitudinal acceleration of the vehicle diverges from the predetermined acceleration profile; evaluating one or more operational parameters of the vehicle, and detecting that an external force is acting on the vehicle based on that evaluation; and detecting that the vehicle is traversing a terrain that will cause an external force to be applied to the vehicle. 5. The method of claim 1 , wherein the adjustment to the rate of change of at least one component of the net torque being applied is dependent upon the magnitude of the force acting on the vehicle. 6. The method of claim 1 , wherein the component of the net torque comprises one or more of a retarding torque and a drive torque being applied to one or more wheels. 7. The method of claim 6 , wherein the adjusting step further comprises adjusting the rate at which one or both of the retarding torque and drive torque applied to one or more wheels of the vehicle is reduced or increased. 8. A system for controlling the speed of a vehicle, comprising: an electronic control unit (ECU), the ECU configured to: detect an external force acting on the vehicle wherein the external force has an accelerating or decelerating effect on the vehicle; and automatically adjust a rate of change of at least one component of a net torque being applied to one or more wheels of the vehicle to compensate for the accelerating or decelerating effect of the external force on the vehicle; wherein the ECU is configured to adjust the rate of change of at least one component of the net torque being applied by applying a predetermined gain to at least one component of the net torque being applied, thereby increasing or decreasing the rate at which the at least one component of the net torque is changed, the ECU being further configured to receive a command to change a set-speed of the system from a first set-speed to a target set-speed that is lower than the first set-speed, and wherein the ECU is configured to adjust the rate of change of at least one component of the net torque being applied to one or more wheels of the vehicle by adjusting the rate of change of said at least one component of the net torque to decelerate the vehicle to the target set-speed, wherein when the external force has a decelerating effect on the vehicle as a result of the vehicle ascending a gradient, the ECU is configured to determine if the received command to change the set-speed would result in a rate of change of at least one component of the net torque being such that the net torque would be insufficient to maintain vehicle progress up the gradient, and in response thereto the ECU is further configured to decrease the rate of change of at least one component of the net torque to prevent movement down the gradient. 9. The system of claim 8 , wherein the ECU is further configured to activate a hill hold assistance system of the vehicle to maintain the vehicle stationary on the gradient until sufficient net torque has been generated to prevent movement down the gradient or to resume motion of the vehicle up the gradient. 10. The system of claim 8 , wherein the ECU is configured to detect the external force acting on the vehicle in response to receiving the command to change the set-speed of the system. 11. The system of claim 8 , wherein the ECU is configured to adjust the rate of change of at least one component of the net torque being applied to one or more wheels of the vehicle in accordance with a predetermined acceleration profile, and wherein said acceleration profile comprises an acceleration corridor comprising a range between a desired acceleration and a maximum desired acceleration. 12. The system of claim 8 , wherein the ECU is configured to detect the external force acting on the vehicle by: comparing the longitudinal acceleration of the vehicle to a predetermined acceleration profile and detecting that an external force is acting on the vehicle when the longitudinal acceleration of the vehicle diverges from the predetermined acceleration profile; or evaluating one or more operational parameters of the vehicle, and detecting that an external force is acting on the vehicle based on that evaluation; or detecting that the vehicle is traversing a terrain that will cause an external force to be applied to the vehicle. 13. The system of claim 8 , wherein the ECU is configured to adjust the rate of change of at least one component of the net torque being applied depending upon the magnitude of the force acting on the vehicle. 14. The system of claim 8 , wherein the component of the net torque comprises one or more of a retarding torque and a drive torque being applied to one or more wheels, and wherein the ECU is configured to adjust the rate of change of at least one component of the net torque being applied by adjusting the rate at which one or both of the retarding torque and drive torque applied to one or more wheels is reduced or increased. 15. A vehicle comprising the system as recited in claim 8 . 16. A carrier medium carrying a computer-readable code for contr