Vehicle control device and method

The invention claimed is: 1. A vehicle control device that controls a vehicle, the vehicle comprising: a left-right pair of steered wheels of which braking/driving forces can be controlled for each of left and right; another wheel that is provided separately from the left-right pair of steered wheels; and a steering force generation device that generates a steering force for the steered wheels and controls a steering angle of the steered wheels, wherein the vehicle control device is configured to control the steering force or steering reaction force of the steering force generation device by controlling the braking/driving forces for each of the steered wheels on the basis of a lateral force acting on the steered wheels, and the vehicle control device is also configured to control braking/driving forces to the another wheel so as to compensate excess or deficiency of a yaw moment generated by controlling the braking/driving forces of the steered wheels. 2. The vehicle control device according to claim 1 , wherein the lateral force is calculated on the basis of the steering angle of the steered wheels and a vehicle speed of the vehicle. 3. The vehicle control device according to claim 1 , wherein the lateral force is calculated on the basis of a lateral acceleration of the vehicle. 4. The vehicle control device according to claim 1 , wherein the vehicle control device controls the braking/driving forces on the basis of the lateral force and a predetermined target value of the steering force or the steering reaction force of the steering force generation device. 5. The vehicle control device according to claim 1 , wherein the vehicle control device controls the braking/driving forces such that a difference between the braking forces or driving forces of the left-right pair of steered wheels is larger as the lateral force is larger. 6. The vehicle control device according to claim 1 , wherein the vehicle comprises another wheel provided separately from the left-right pair of steered wheels, and the vehicle control device controls a steering angle of the other wheel so as to compensate excess or deficiency of a yaw moment generated by controlling the braking/driving forces of the steered wheels. 7. The vehicle control device according to claim 1 , wherein the vehicle comprises a mechanism capable of variably controlling a steering gear ratio that is a ratio of the steering angle of the left-right pair of steered wheels with respect to a steering wheel angle of a steering wheel included in the steering force generation device, and the vehicle control device controls the steering gear to control a steering angle of the steered wheels so as to compensate excess or deficiency of a yaw moment generated by controlling the braking/driving forces of the steered wheels. 8. The vehicle control device according to claim 1 , wherein the vehicle comprises a suspension that suspends the left-right pair of steered wheels independently for left and right, and the vehicle control device controls the suspension so as to suppress a change in a roll moment generated by controlling the braking/driving forces of the steered wheels. 9. The vehicle control device according to claim 1 , wherein the vehicle control device controls the braking/driving forces on the basis of a steering angular acceleration of the steered wheels. 10. The vehicle control device according to claim 1 , wherein the vehicle control device controls the braking force such that a larger braking force is distributed from a turning outer wheel to a turning inner wheel of the left-right pair of steered wheels, in a turning process of a vehicle having a negative scrub radius of the steered wheels. 11. A vehicle control method for controlling a vehicle, the vehicle comprising: providing a left-right pair of steered wheels of which braking/driving forces can be controlled for each of left and right; providing another wheel that is provided separately from the left-right pair of steered wheels; generating, using a steering force generation device, a steering force for the steered wheels and controls a steering angle of the steered wheels, wherein the steering force or a steering reaction force of the steering force generation device is controlled by controlling the braking/driving forces for each of the steered wheels on the basis of a lateral force acting on the steered wheels; and controlling, using a vehicle control device, braking/driving forces to the another wheel so as to compensate excess or deficiency of a yaw moment generated by controlling the braking/driving forces of the steered wheels. 12. The vehicle control device according to claim 1 , wherein lane departure prevention control is performed, prior to the turn of the vehicle, and the driver is imparted with information via the steering wheel torque, on the direction in which the corrective steering is performed. 13. The vehicle control device according to claim 1 , wherein lane departure prevention control is performed, and the steering wheel torque is controlled such that the vehicle is guided to the center of the lane. 14. The vehicle control method according to claim 11 , wherein lane departure prevention control is performed, prior to the turn of the vehicle, and the driver is imparted with information via the steering wheel torque, on the direction in which the corrective steering is performed. 15. The vehicle control method according to claim 11 , wherein lane departure prevention control is performed, and the steering wheel torque is controlled such that the vehicle is guided to the center of the lane.