Vehicle control system and controlling method thereof

What is claimed is: 1. A vehicle control system, comprising: a plurality of sensors configured to measure a wheel speed, a steering angle, a yaw rate, and an acceleration value; and a controller configured to estimate a state of a vehicle based on the wheel speed, the steering angle, the yaw rate, and the acceleration value and updating a front and rear wheel stiffness of the vehicle when it is determined that the vehicle is running on an asymmetric friction surface from the estimated state of the vehicle, wherein the controller is configured to determine that the vehicle is turning when the wheel speed is larger than a threshold value, and at least one of the steering angle, the yaw rate, and the acceleration value is larger than a corresponding threshold value of the steering angle, the yaw rate, or the acceleration value. 2. The vehicle control system of claim 1 , wherein the controller is configured to estimate a vehicle speed from the wheel speed of each wheel, and calculate a longitudinal slip amount of each of the wheels based on the estimated vehicle speed when it is determined that the vehicle is turning. 3. The vehicle control system of claim 2 , wherein the controller is configured to further calculate a driving force and a vertical force of each of the wheels, and calculates a friction coefficient of each wheel based on the driving force, the vertical force, and the longitudinal slip amount of each of the wheels. 4. The vehicle control system of claim 3 , wherein the controller is configured to determine as the vehicle is on a high friction road surface when the calculated friction coefficient of each wheel is larger than the friction coefficient individually determined for each of the wheels, and determine that the vehicle is on the asymmetric frictional road based on a judgment result of the high friction road surface of a left front wheel and a left rear wheel of the vehicle and a judgment result of the high friction road surface of a right front wheel and a right rear wheel. 5. The vehicle control system of claim 4 , wherein the controller is configured to update a roll moment of the vehicle and a roll moment front-rear wheel distribution ratio and calculate the front and rear wheel roll stiffness based on the updated roll moment and the roll moment front-rear wheel distribution ratio when the vehicle is judged to be on the asymmetric frictional road surface. 6. The vehicle control system of claim 5 , wherein the controller is configured to reduce the roll moment and the roll moment front-rear wheel distribution ratio when updating the roll moment and the roll moment front-rear wheel distribution ratio. 7. The vehicle control system of claim 6 , wherein when updating the roll moment and the roll moment front-rear wheel distribution ratio, the controller is configured to once again reduce the roll moment and the roll moment front-rear wheel distribution ratio as the vehicle speed of the vehicle increases. 8. A controlling method of a vehicle control system, comprising: measuring, by a plurality of vehicle sensors, a wheel speed, a steering angle, a yaw rate, and an acceleration value of a vehicle; estimating, by a controller, a state of the vehicle based on the measured wheel speed, the steeling angle, the yaw rate, and the acceleration value; and updating, by the controller, the front wheel and rear wheel roll stiffness of the vehicle when it is determined the vehicle is running on an asymmetric friction road surface from the estimated state of the vehicle, wherein estimating the state of the vehicle further comprises: determining the vehicle is turning when the measured wheel speed is lamer than a threshold value, and at least one of the measured steering angle, the yaw rate, and the acceleration value is larger than a corresponding threshold value of the steering angle, the yaw rate, or the acceleration value. 9. The controlling method of claim 8 , wherein determining the vehicle is turning further comprises: estimating the vehicle speed from the wheel speed of each wheel, and calculating a longitudinal slip amount of each of the wheels based on the estimated vehicle speed when it is determined that the vehicle is turning. 10. The controlling method of claim 9 , further comprising: calculating a driving force and a vertical force of each of the wheels; and calculating a friction coefficient of each wheel based on the driving force, the vertical force, and the longitudinal slip amount of each of the wheels. 11. The controlling method of claim 10 , wherein determining the vehicle is running on the asymmetric friction road surface further comprises: determining as a high friction road surface when the calculated friction coefficient of each wheel is larger than the critical friction coefficient individually determined for each of the wheels, and determining as an asymmetric frictional road based on the judgment result of a high friction road surface of the left front wheel and the left rear wheel of the vehicle and a judgment result of the high friction road surface of the right front wheel and the right rear wheel. 12. The controlling method of claim 11 , wherein updating the front wheel and rear wheel roll stiffness of the vehicle further comprises: updating a roll moment of the vehicle and the roll moment front-rear wheel distribution ratio and calculating the front and rear wheel roll stiffness based on the updated roll moment and the roll moment front-rear wheel distribution ratio when the vehicle is judged to be on the asymmetric frictional road surface. 13. The controlling method of claim 12 , wherein updating the front wheel and rear wheel roll stiffness of the vehicle further comprises: reducing the roll moment and the roll moment front-rear wheel distribution ratio when updating the roll moment and the roll moment front-rear wheel distribution ratio. 14. The controlling method of claim 13 , wherein updating the front wheel and rear wheel roll stiffness of the vehicle further comprises: further reducing the roll moment and the roll moment front-rear wheel distribution ratio as the vehicle speed of the vehicle increases when updating the roll moment and the roll moment front-rear wheel distribution ratio.