Steer-by-wire systems and methods providing tire force buildup compensation

The invention claimed is: 1. A steer-by-wire system for a vehicle, comprising: a steering wheel system comprising a steering wheel by which a vehicle operator steers one or more wheels of the vehicle, an angle sensor or mechanism coupled or applied to the steering wheel and adapted to determine a directed angular magnitude of the steering wheel itself and provide a corresponding control signal indicative of a vehicle operator steering intention, and an angular rate sensor or mechanism coupled or applied to the steering wheel and adapted to determine a directed angular rate of the steering wheel itself and provide a corresponding control signal offset also indicative of the vehicle operator steering intention; and a steering actuator system comprising a wheel angle actuator coupled to the one or more wheels of the vehicle and adapted to receive the control signal and control signal offset from the steering wheel system and turn the one or more wheels responsive to the control signal and control signal offset, thereby affecting a responsiveness of the one or more wheels to a vehicle operator request at the steering wheel as obtained from the directed angular magnitude of the steering wheel and the directed angular rate of the steering wheel. 2. The steer-by-wire system of claim 1 , wherein the steering wheel system further comprises an angular rate filter/tuner adapted to receive an angular rate input from the angular rate sensor or mechanism and derive an angular offset output corresponding to the control signal offset from the angular rate input. 3. The steer-by-wire system of claim 2 , wherein the angular rate filter/tuner comprises a tunable feedforward filter. 4. The steer-by-wire system of claim 1 , wherein the steering actuator system further comprises a wheel camber actuator coupled to one or more wheels of the vehicle and adapted to receive the control signal and control signal offset from the steering wheel system and camber the one or more wheels responsive to the control signal and control signal offset. 5. The steer-by-wire system of claim 2 , wherein the angular rate filter/tuner is further adapted to modify the control signal offset based on a selected driving mode of the vehicle. 6. A computer-readable medium having instructions stored thereon that, when executed by a processor, cause the processor to perform the steps comprising: receiving a directed angular magnitude of a steering wheel of a vehicle by which a vehicle operator steers one or more wheels of the vehicle determined using an angle sensor or mechanism coupled or applied to the steering wheel itself and providing a corresponding control signal indicative of a vehicle operator steering intention; receiving a directed angular rate of the steering wheel determined using an angular rate sensor or mechanism coupled or applied to the steering wheel itself and providing a corresponding control signal offset also indicative of the vehicle operator steering intention; and actuating a wheel angle actuator coupled to the one or more wheels of the vehicle using the control signal and control signal offset to turn the one or more wheels responsive to the control signal and control signal offset, thereby affecting a responsiveness of the one or more wheels to a vehicle operator request at the steering wheel as obtained from the directed angular magnitude of the steering wheel and the directed angular rate of the steering wheel. 7. The computer-readable medium of claim 6 , wherein the instructions comprise an angular rate filter/tuner algorithm adapted to receive an angular rate input from the angular rate sensor or mechanism and derive an angular offset output corresponding to the control signal offset from the angular rate input. 8. The computer-readable medium of claim 7 , wherein the angular rate filter/tuner algorithm comprises a tunable feedforward filter algorithm. 9. The computer-readable medium of claim 6 , wherein the steps further comprise: actuating a wheel camber actuator coupled to the one or more wheels using the control signal and control signal offset to camber the one or more wheels responsive to the control signal and control signal offset. 10. The computer-readable medium of claim 7 , wherein the angular rate filter/tuner algorithm is further adapted to modify the control signal offset based on a selected driving mode of the vehicle. 11. A steer-by-wire method for a vehicle, comprising: receiving a directed magnitude parameter of a steering control of the vehicle by which a vehicle operator steers one or more wheels of the vehicle determined using a magnitude parameter sensor or mechanism coupled or applied to the steering control itself and providing a corresponding control signal indicative of a vehicle operator steering intention; receiving a directed rate parameter of the steering control determined using a rate parameter sensor or mechanism coupled or applied to the steering control itself and providing a corresponding control signal offset also indicative of the vehicle operator steering intention; and actuating a wheel angle actuator coupled to the one or more wheels of the vehicle using the control signal and control signal offset to turn the one or more wheels responsive to the control signal and control signal offset, thereby affecting a responsiveness of the one or more wheels to a vehicle operator request at the steering control as obtained from the directed magnitude parameter of the steering control and the directed rate parameter of the steering control. 12. The steer-by-wire method of claim 11 , further comprising, using a rate parameter filter/tuner algorithm, receiving rate parameter input from the rate parameter sensor or mechanism and deriving rate parameter offset output corresponding to the control signal offset from the rate parameter input. 13. The steer-by-wire method of claim 12 , wherein the rate parameter filter/tuner algorithm comprises a tunable feedforward filter algorithm. 14. The steer-by-wire method of claim 11 , further comprising: actuating a wheel camber actuator coupled to the one or more wheels using the control signal and control signal offset to camber the one or more wheels responsive to the control signal and control signal offset. 15. The steer-by-wire method of claim 12 , wherein the rate parameter filter/tuner algorithm is further adapted to modify the control signal offset based on a selected driving mode of the vehicle. 16. The steer-by-wire method of claim 11 , wherein the magnitude parameter is one of an angular magnitude parameter and a linear magnitude parameter. 17. The steer-by-wire method of claim 11 , wherein the rate parameter is one of an angular rate parameter and a linear rate parameter. 18. The steer-by-wire system of claim 1 , wherein the directed angular rate of the steering wheel is applied by the vehicle operator. 19. The computer-readable medium of claim 6 , wherein the directed angular rate of the steering wheel is applied by the vehicle operator. 20. The steer-by-wire method of claim 11 , wherein the directed rate parameter of the steering control is applied by the vehicle operator.