Vehicle control system and method for controlling a vehicle

The invention claimed is: 1. A vehicle control system for at least one vehicle subsystem of a vehicle, the vehicle control system comprising: a subsystem controller for initiating control of one or more vehicle subsystems in a selected one of a plurality of subsystem control modes, each of which corresponds to one or more different terrain types for the vehicle, and at least one sensor that outputs at least one signal indicative of the terrain in which the vehicle is travelling, wherein the at least one signal is a signal other than a signal generated in response to a user input; a processor configured to: receive the at least one signal from the at least one sensor and to evaluate the at least one signal; determine, for each of said subsystem control modes corresponding to one or more different terrain types, the extent to which that subsystem control mode is appropriate for the terrain in which the vehicle is travelling on the basis of the at least one signal and without reliance on a user input; and automatically provide an output indicative of the subsystem control mode that is determined to be the most appropriate, wherein in an automatic response mode, the subsystem controller automatically configures each vehicle subsystem in said subsystem control mode determined to be the most appropriate in response to said output indicative of the determined subsystem control mode that is determined to be the most appropriate, and wherein the subsystem controller is configured to suspend a change of subsystem control mode when a predetermined vehicle condition is satisfied. 2. The vehicle control system as claimed in claim 1 , wherein the subsystem controller is configured to suspend a change of subsystem control mode when the vehicle is travelling in reverse. 3. The vehicle control system as claimed in claim 1 , wherein the subsystem controller is configured to suspend a change of subsystem control mode until the vehicle is determined to have travelled a predetermined distance in a forward direction after it has travelled in a reverse direction. 4. The vehicle control system as claimed in claim 1 , wherein the subsystem controller is configured to suspend a change of subsystem control mode when the vehicle transmission is in a park mode. 5. The vehicle control system as claimed in claim 1 , wherein the subsystem controller is configured to suspend a change of subsystem control mode when the vehicle is travelling below a threshold speed. 6. The vehicle control system as claimed in claim 1 , wherein the subsystem controller is configured to suspend a change of subsystem control mode when the vehicle is changing gear. 7. The vehicle control system as claimed in claim 1 , wherein the subsystem controller is configured to suspend a change of subsystem control mode when the vehicle is braking with zero throttle being applied. 8. The vehicle control system as claimed in claim 1 , wherein the subsystem controller is configured to suspend a change of subsystem control mode when active vehicle braking is taking place. 9. A vehicle control system for at least one vehicle subsystem of a vehicle, the vehicle control system comprising: a subsystem controller for initiating control of one or more vehicle subsystems in a selected one of a plurality of subsystem control modes, each of which corresponds to one or more different terrain types for the vehicle; and a processor configured to: receive and evaluate at least one signal indicative of the terrain in which the vehicle is travelling; determine the extent to which each of the subsystem control modes is appropriate for the terrain in which the vehicle is travelling; and provide an output indicative of the subsystem control mode that is most appropriate, wherein the processor is further configured to: evaluate a plurality of drive condition indicators to determine the probability that each of the subsystem control modes is appropriate, and wherein the output provided by the processor is indicative of the subsystem control mode with the highest probability, calculate, for each of the control modes, a difference value between the probability for the current control mode and the probability for another control mode, integrate each of the difference values with respect to time to calculate an integrated difference value for each of the other control modes, compare each of the integrated difference values with a threshold for change, and initiate a change in the selected subsystem control mode when the integrated difference value for one of the control modes exceeds the threshold for change, wherein the processor is configured to pause integration of the difference values in dependence on a predetermined vehicle condition being satisfied. 10. The vehicle control system as claimed in claim 9 , wherein the processor is configured to pause integration of the difference values when the vehicle is travelling in reverse. 11. The vehicle control system as claimed in claim 9 , wherein the processor is configured to pause integration of the difference values until the vehicle is determined to have travelled a predetermined distance in a forward direction after it has travelled in a reverse direction. 12. The vehicle control system as claimed in claim 9 , wherein the processor is configured to pause integration of the difference values when the vehicle transmission is in a park mode. 13. The vehicle control system as claimed in claim 9 , wherein the processor is configured to pause integration of the difference values when the vehicle is travelling below a threshold speed. 14. The vehicle control system as claimed in claim 9 , wherein the processor is configured to pause integration of the difference values when the vehicle is changing gear. 15. The vehicle control system as claimed in claim 9 , wherein the processor is configured to pause integration of the difference values when the vehicle is braking with zero throttle being applied. 16. The vehicle control system as claimed in claim 9 , wherein the processor is configured to pause integration of the difference values when active vehicle braking is taking place. 17. The vehicle control system as claimed in claim 1 , wherein the at least one vehicle subsystem includes ones or more of: an engine management system, a steering controller, a brakes controller and a suspension controller. 18. A method of controlling at least one vehicle subsystem of a vehicle, the method comprising: initiating control of each of the one or more vehicle subsystems in a selected one of a plurality of different subsystem control modes, each of which corresponds to one or more different terrain types for the vehicle; receiving, from at least one sensor, at least one signal indicative of the terrain in which the vehicle is travelling, wherein the at least one signal is a signal other than a signal generated in response to a user input; evaluating the at least one signal to determine, for each of said subsystem control modes corresponding to one or more different terrain types, the extent to which that subsystem control mode is appropriate for the terrain in which the vehicle is travelling on the basis of the at least one signal and without reliance on a user input; providing an output indicative of the control mode which is determined to be the most appropriate; and in an automatic response mode, automatically configuring each said vehicle subsystem in the subsystem control mode determined to be the most appropriate in response to said output indicative of the determined control mode which is determined to be