Abstract: A vehicle drive apparatus independently controls drive forces for a front-right drive wheel, a front-left drive wheel, a rear-right drive wheel, and a rear-left drive wheel using a front-right electric motor, a front-left electric motor, a rear-right electric motor, and a rear-left electric motor, respectively. The drive forces for the drive wheels of a vehicle incorporating the vehicle drive apparatus are determined based on the target moments in the yaw and roll directions of the vehicle, the total drive for the drive wheels, and the drive reaction forces at the drive wheels. Thus, the performance desired by the driver can be achieved, and the drivability therefore improves accordingly.

Abstract: A braking force control device includes: a brake control device that controls a mechanical brake braking torque by operating electric actuators so as to achieve a requested brake braking torque; a motor control device that controls a motor torque by operating motors so as to achieve the requested motor torque; a requested braking torque calculation device that calculates the requested braking torques of wheels; a battery requested electric power calculation device that finds a battery requested electric power based on target amounts of electricity charged in batteries; and an individual braking torque calculation device that finds the requested motor torque and the requested brake braking torque that cause the requested braking torque to be generated based on the battery requested electric power and the requested braking torque.

Abstract: An object of the present invention is to achieve a braking-driving force and a yaw moment required for a vehicle to a possible extent within a range of braking-driving forces which the front and rear wheels can generate, when a target braking-driving force and a target yaw moment of the vehicle cannot be achieved by means of braking-driving forces that can be generated by the individual wheels. A target braking-driving force Fvn and a target yaw moment Mvn of the entire vehicle are calculated, and when the target braking-driving force Fvn and the target yaw moment Mvn cannot be achieved by means of the braking-driving forces of the front wheels, a target braking-driving force Fvft and a target yaw moment Mvft of the front wheels are adjusted such that the magnitudes of the braking-driving force and yaw moment of the vehicle produced by means of the braking-driving forces of the front wheels become the maximum at a ratio between Fvn and Mvn.

Abstract: According to the present invention, when a target braking/driving force and a vehicle target yaw moment required to a vehicle cannot be achieved through a control of a braking/driving forces of wheels, in a rectangular coordinate of the braking/driving force and the yaw moment, a polygon indicating the maximum range of the braking/driving force and the yaw moment attainable by the braking/driving forces of the wheels, and an ellipse that crosses each side of the polygon and has a major axis and a minor axis aligning with the coordinate axis of the rectangular coordinate are set, for example.

Abstract: When either one of a vehicle target braking/driving force and a target yaw moment cannot be achieved by a braking/driving forces of wheels, a distribution ratio is calculated to be a small value as a value indicating an acceleration or deceleration operation by a driver increases, and to be a great value as a value indicating a steering operation by a driver increases, for example. A straight line closest to a point of the target braking/driving force and the target yaw moment is specified, among sides of a quadrangle or hexagon indicating a range of the braking/driving force and yaw moment attainable by the braking/driving forces of the wheels in a rectangular coordinate of the braking/driving force and the vehicle yaw moment.

Abstract: In a braking/driving force control apparatus according to the present invention, a vehicle target braking/driving force Fvn and a vehicle target yaw moment Mvn through the control of braking/driving forces of wheels are calculated (Step 20), and when the target braking/driving force Fvn and the target yaw moment Mvn cannot be achieved through the control of the braking/driving forces of the wheels (Step 40), it is determined which one of the braking/driving force and the yaw moment should take priority on the basis of the target braking/driving force Fvn and the target yaw moment Mvn. When it is determined that the braking/driving force should take priority, the braking/driving forces of the wheels are controlled so as to attain the target braking/driving force Fvn as much as possible, and when it is determined that the yaw moment should take priority, the braking/driving forces of the wheels are controlled so as to attain the target yaw moment Mvn as much as possible (Steps 60 to 220).

Abstract: In a braking/driving force control apparatus, a vehicle target braking/driving force and a vehicle target yaw moment through the control of braking/driving forces of wheels are calculated, and when the target braking/driving force and the target yaw moment cannot be achieved through the control of the braking/driving forces of the wheels, the vehicle target braking/driving force after the modification and the vehicle target yaw moment after the modification are calculated such that, within the range where the ratio of the vehicle target braking/driving force after the modification and the vehicle target yaw moment after the modification coincides with the ratio of the target braking/driving force and the target yaw moment, the vehicle braking/driving force and the vehicle yaw moment by the target braking/driving forces of the wheels take the greatest values.