Control system and method of controlling a driveline

The invention claimed is: 1. A control system configured to control a driveline of a motor vehicle to operate in a first configuration in which the driveline is configured such that a first group of one or more wheels and in addition a second group of one or more wheels are arranged to be driven or a second configuration in which the first group of one or more wheels and not the second group of one or more wheels are arranged to be driven, the control system comprising: receiver means operable to receive a location signal indicative of a location of the vehicle; means to determine a predicted path of travel of the vehicle using the location signal; means to predict an amount of lateral acceleration that will be experienced by the vehicle in dependence at least in part on the predicted path of travel of the vehicle; a comparator operable to compare the predicted amount of lateral acceleration with a threshold lateral acceleration value; and a controller operable to cause the driveline to operate in either the first or the second configuration in dependence at least in part on whether the predicted amount of lateral acceleration exceeds the threshold lateral acceleration value, wherein the threshold lateral acceleration value is determined at least in part in dependence on one or more of vehicle speed, one or more characteristics of a road wheel of the vehicle and data in respect of one or more environmental conditions. 2. The control system according to claim 1 , wherein if the predicted amount of lateral acceleration exceeds the threshold lateral acceleration value the controller causes the driveline to operate in the first configuration and if the predicted amount of lateral acceleration is below the threshold lateral acceleration value the controller causes the driveline to operate in the second configuration. 3. The control system according to claim 2 , wherein the control system is configured to cause the driveline to operate in a predetermined one of the first configuration or the second configuration in dependence at least in part on whether a bend is detected having a radius of curvature less than a predetermined value. 4. The control system according to claim 1 , wherein the control system is configured to determine whether a bend exists in the predicted path of travel of the vehicle, the control system being configured to cause the driveline to operate in a predetermined one of the first configuration or the second configuration in dependence at least in part on whether the bend exists in the predicted path of travel of the vehicle. 5. The control system according to claim 1 , wherein the control system is configured to set a predetermined amount of locking torque between at least one wheel of the first group and at least one wheel of the second group in dependence at least in part on the predicted amount of lateral acceleration. 6. The control system according to claim 1 , wherein the first group of one or more wheels or the second group of one or more wheels comprises a plurality of wheels, the control system being configured to set a predetermined amount of locking torque between at least a pair of wheels of the plurality of wheels of the first group or at least a pair of wheels of the plurality of wheels of the second group in dependence at least in part on the predicted amount of lateral acceleration. 7. The control system according to claim 1 , wherein the control system is configured to cause the driveline to operate in a configuration selected at least in part in further dependence on a signal indicative of a selected driving mode in which the vehicle is operating, the driving mode being selected from a plurality of driving modes. 8. The control system according to claim 1 , wherein the control system is configured to cause the driveline to operate in the first configuration if the location signal indicates the vehicle is operating off-road or configured to cause the driveline to operate in the second configuration if the location signal indicates the vehicle is operating on-road. 9. The control system according to claim 7 , wherein the signal indicative of the selected driving mode in which the vehicle is operating corresponds to a state of a manual driving mode selector input device or the signal indicative of the selected driving mode is selected automatically by automatic driving mode selection means. 10. The control system according claim 7 , having a subsystem controller for initiating control of at least one vehicle subsystem in a selected one of a plurality of subsystem configuration modes, the subsystem configuration mode being selected in dependence on the selected driving mode. 11. The control system according to claim 10 , wherein the driving modes correspond to respective different driving conditions for the vehicle. 12. The control system according to claim 11 , wherein in each driving mode the control system is configured to cause the at least one vehicle subsystem to be operated in a subsystem configuration mode appropriate to the driving condition. 13. The control system according to claim 7 , wherein each driving mode has a corresponding subsystem configuration mode 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. 14. The control system according to claim 10 , wherein the subsystem configuration modes of at least one driving mode are selected from among: a subsystem configuration mode of a suspension system, the plurality of subsystem configuration modes of the suspension system comprising a plurality of ride heights; a subsystem configuration mode of a fluid suspension system in which fluid interconnection can be made between suspensions for wheels on opposite sides of the vehicle, the plurality of subsystem configuration modes of the fluid suspension system providing different levels of said interconnection; a subsystem configuration mode of a steering system which can provide steering assistance, the plurality of subsystem configuration modes of the steering system providing different levels of said steering assistance; a subsystem configuration mode of a brakes system which can provide braking assistance, the plurality of subsystem configuration modes of the brakes system providing different levels of said braking assistance; a subsystem configuration mode of a brake control system which can provide an anti-lock function to control wheel slip, the plurality of subsystem configuration modes of the brake control system allowing different levels of said wheel slip; a subsystem configuration mode of a powertrain system which includes a powertrain control means and an accelerator or throttle pedal, the plurality of subsystem configuration modes of the powertrain system providing different levels of responsiveness of the powertrain control means to movement of the accelerator or throttle pedal; a subsystem configuration mode of a traction control system which is arranged to control wheel spin, the plurality of subsystem configuration modes of the traction control system allowing different levels of said wheel spin; a subsystem configuration mode of a yaw control system which is arranged to control vehicle yaw, the plurality of subsystem configuration modes of the yaw control system allowing different levels of divergence of said vehicle yaw from an expected yaw; a subsystem configuration mode of a range change transmission, the plurality of subsystem configuration modes of the range change transmission including a high range mode and a low range mode of said transmission; and a subsyste