Vehicle control system and method

The invention claimed is: 1. A control system for a motor vehicle, the system being configured to operate in a selected one of a plurality of terrain control modes of at least one subsystem of the vehicle, and the system comprising: means for detecting a positive driver-requested steering angle of the vehicle; means for inducing a turning moment on the vehicle; means for receiving a terrain condition signal indicative of the nature of the terrain over which the vehicle is travelling; and a subsystem controller for initiating control of at least one subsystem in the selected one of the plurality of subsystem terrain control modes, each of which corresponds to one or more of the different terrain conditions, the terrain condition signal being indicative of the selected terrain control mode, wherein the system is configured to cause an initial change in turning moment and to adjust a net turning moment on the vehicle automatically in response to the positive driver-requested steering angle in dependence at least in part on the terrain condition signal. 2. A control system according to claim 1 wherein the amount by which the turning moment is adjusted may be arranged to increase as a function of time. 3. A control system according to claim 2 wherein the rate of increase of the amount by which the turning moment is adjusted is determined in dependence on the terrain condition signal. 4. A control system according to claim 1 configured to adjust the net turning moment on the vehicle so as to increase a rate of turn of the vehicle in a direction corresponding to the positive driver-requested steering angle in dependence on the terrain condition signal. 5. A control system according to claim 4 configured to adjust the net turning moment on a vehicle to increase a rate of turn when the terrain condition signal corresponds to one of a first set of one or more terrain conditions. 6. A control system according to claim 5 configured to adjust the net turning moment on a vehicle so as to decrease a rate of turn of a vehicle in a direction corresponding to the positive driver-requested steering angle in dependence on the terrain condition signal. 7. A control system according to claim 6 configured to adjust the net turning moment on a vehicle to decrease a rate of turn when the terrain condition signal corresponds to one of a second set of one or more terrain conditions. 8. A control system according to claim 7 wherein the second set of one or more terrain conditions are different from the first. 9. A control system according to claim 1 configured to adjust the net turning moment on a vehicle in response to the positive driver-requested steering angle in dependence at least in part on the terrain condition signal, at least in part by adjusting a steerable road wheel angle. 10. A control system according to claim 1 configured to adjust the net turning moment on a vehicle in response to the positive driver-requested steering angle in dependence at least in part on the terrain condition signal, at least in part by torque vectoring. 11. A control system according to claim 10 configured wherein torque vectoring is accomplished by varying the amount of torque applied to one or more wheels of a vehicle in order to induce a turning moment. 12. A control system according to claim 11 configured wherein torque vectoring may be accomplished at least in part by brake torque vectoring. 13. A control system according to claim 11 configured wherein torque vectoring may be accomplished at least in part by powertrain torque vectoring. 14. A system according to claim 1 operable in a manual terrain control mode selection condition in which a user may select a required system terrain control mode by means of user-operable terrain mode selection input means. 15. A control system according to claim 1 operable in an automatic terrain mode selection condition in which the system is configured to select automatically an appropriate system terrain control mode. 16. A control system according to claim 15 where the system comprises evaluation means for evaluating one or more terrain condition indicators to determine the extent to which each of the subsystem terrain control modes is appropriate, the system being configured in the automatic terrain mode selection condition automatically to control the subsystem controller to initiate control of one or more subsystems in the subsystem terrain control mode which is most appropriate. 17. A control system according to claim 1 wherein the terrain control modes are control modes of at least one vehicle subsystem selected from amongst an engine management system, a transmission system, a steering system, a brakes system and a suspension system. 18. A control system according to claim 17 wherein the terrain control modes are control modes of at least two vehicle subsystems selected from amongst an engine management system, a transmission system, a steering system, a brakes system and a suspension system. 19. A control system according claim 1 wherein in each terrain control mode the system is configured to cause each of the one or more vehicle subsystems to be operated in a subsystem configuration mode appropriate to the terrain condition. 20. A control system according to claim 19 wherein the terrain control modes include control modes of a suspension system and the plurality of subsystem configuration modes comprise a plurality of ride heights. 21. A control system according to claim 19 wherein the terrain control modes include control modes of a fluid suspension system in which fluid interconnection can be made between suspensions for wheels on opposite sides of the vehicle, and wherein said plurality of subsystem configuration modes provide different levels of said interconnection. 22. A control system according to claim 19 wherein the terrain control modes include control modes of a steering system which can provide steering assistance, and wherein said plurality of subsystem configuration modes provide different levels of said steering assistance. 23. A control system according to claim 19 wherein the terrain control modes include control modes of a brakes system which can provide braking assistance, and said plurality of subsystem configuration modes provide different levels of said braking assistance. 24. A control system according to claim 19 wherein the terrain control modes include control modes of a brake control system which can provide an anti-lock function to control wheel slip, and said plurality of subsystem configuration modes allow different levels of said wheel slip. 25. A control system according to claim 19 wherein the terrain control modes include control modes of a traction control system which is arranged to control wheel spin, and said plurality of subsystem configuration modes allow different levels of said wheel spin. 26. A control system according to claim 19 wherein the terrain control modes include control modes of a powertrain system which includes a powertrain control means and an accelerator or throttle pedal, the subsystem configuration modes providing different levels of responsiveness of the powertrain control means to movement of the accelerator or throttle pedal. 27. A control system according to claim 19 wherein the terrain control modes include control modes of a transmission system operable in a plurality of transmission rat