Controller and system for utility vehicle

What is claimed is: 1. A vehicle, comprising: a pump including a swashplate tiltable about a swashplate tilt axis, wherein rotation of the swashplate changes a title angle of the swashplate and effects a change in volumetric displacement of the pump; a controller operatively coupled to the swashplate to effect rotation of the swashplate, the controller comprising a processor and memory; a first input for receiving a user-controlled speed control signal; a second input for receiving user-selected operating modes of the vehicle; an output for providing a vehicle speed setpoint to effect rotation of the swashplate in order to control a speed of the vehicle; and logic stored in the memory and executable by the processor, the logic configured to generate the vehicle speed setpoint based on the user-selected speed control signal, and change at least one of the user-controlled speed control signal or the vehicle speed setpoint based on the user-selected operating modes of the vehicle; the vehicle further comprising: a first driven wheel arranged on a first side of the vehicle; a second driven wheel arranged on a second side of the vehicle; at least one steerable wheel; at least one steering attitude sensor coupled to the at least one steerable wheel and to the controller, the attitude sensor operative to communicate a steering attitude of the at least one wheel to the controller; and at least one steering actuator operatively coupled to the at least one steerable wheel and to the controller, logic configured to command the at least one steering actuator to turn the at least one steerable wheel based on a speed differential between the at least two driven wheels and data provided by the steering attitude sensor. 2. The vehicle according to claim 1 , wherein the logic further includes logic configured to account for at least one of the user-controlled speed setpoint or the vehicle speed reference. 3. The vehicle according to claim 1 , further comprising a speed input device operatively coupled to the first input, the speed input device operative to generate a signal corresponding to a displacement of the speed input device. 4. The vehicle according to claim 3 , wherein the speed input device comprises one of a foot-operated pedal or a hand-operated lever. 5. The vehicle according to claim 1 , further comprising a mode control input device operatively coupled to the second input, the mode control input device operative to generate signals corresponding to the operating modes of the vehicle. 6. The vehicle according to claim 5 , wherein the mode control device comprises one of a selector switch, a push button or an operator interface. 7. The vehicle according to claim 1 , wherein the controller is configured to effect rotation of the swashplate through application of fluid power to the swashplate. 8. The vehicle according to claim 1 , further comprising logic configured to automatically control a wheel speed of the vehicle independent of the user-controlled speed setpoint. 9. The vehicle according to claim 8 , wherein the logic configured to automatically control wheel speed of the vehicle includes logic configured to detect a turning or braking operation of the vehicle; control a wheel speed of the vehicle based on the user-controlled speed setpoint during a turning or braking operation; and control a wheel speed of the vehicle independent of the user-controlled speed setpoint absent a turning and braking operation. 10. The vehicle according to claim 1 , wherein the at least one steerable wheel comprises a plurality of steerable wheels, each wheel operatively coupled to a respective steering actuator and attitude sensor. 11. The vehicle according to claim 1 , further comprising a hydrostatic transmission. 12. A vehicle controller for operating a vehicle including a pump having a swashplate tiltable about a swashplate tilt axis, wherein rotation of the swashplate changes the tilt angle and effects a change in volumetric displacement of the pump, the controller comprising: a processor and memory; a first input for receiving a user-controlled speed control signal; a second input for receiving user-selected operating modes of the vehicle; an output for providing a vehicle speed setpoint to effect rotation of the swashplate in order to control a speed of the vehicle; logic stored in the memory and executable by the processor, the logic configured to generate the vehicle speed setpoint based on the user controlled speed control signal, and alter a resolution of at least one of the user-controlled speed control signal or the vehicle speed setpoint based on the user-selected operating modes of the vehicle; and logic configured to command at least one steering actuator to turn at least one steerable wheel based on a speed differential between at least two driven wheels and data provided by a steering attitude sensor. 13. The controller according to claim 12 , further comprising logic configured to automatically control a wheel speed of the vehicle independent of the user command. 14. The controller according to claim 13 , wherein the logic configured to automatically control wheel speed of the vehicle includes logic configured to detect a turning or braking operation of the vehicle; control a wheel speed of the vehicle based on the user-controlled speed setpoint during a turning or braking operation; and control a wheel speed of the vehicle independent of the user-controlled speed setpoint absent a turning and braking operation.