Method and apparatus for controlling torque vectoring of xEV

What is claimed is: 1. A method for controlling torque vectoring of a vehicle, the method comprising: detecting, by a controller, vehicle speed information using speed sensors mounted in the vehicle, and estimating, by the controller, a vehicle speed of the vehicle in driving according to the detected vehicle speed information; setting, by the controller, a state of the vehicle based on the estimated vehicle speed; determining, by the controller, whether an intervention request occurs according to the set state of the vehicle; detecting, by the controller, a steering angle of the vehicle when the intervention request is rejected; and when the detected steering angle of the vehicle is within a predetermined reference angle range, determining, by the controller, the vehicle as being in a first slip state in which the vehicle slips in a longitudinal direction, and resetting, by the controller, the vehicle speed of the vehicle through controlling an output of a torque vectoring (TV) motor mounted in the vehicle. 2. The method of claim 1 , wherein the determining the state of the vehicle includes: comparing the estimated vehicle information with a predetermined reference wheel speed; determining the vehicle as being in a first state in which the state of the vehicle is stable, when the controller concludes that the estimated vehicle speed information is less than the predetermined reference wheel speed; and determining the vehicle as being in a second state in which the state of the vehicle is unstable, when the controller concludes that the estimated vehicle speed information is greater than the predetermined reference wheel speed. 3. The method of claim 1 , wherein the vehicle speed information includes at least one of front and rear wheel speeds of the vehicle, a motor speed of the vehicle, or an acceleration of the vehicle. 4. The method of claim 2 , wherein the determining whether the intervention request occurs includes: approving the intervention request, when the controller concludes that the state of the vehicle deviates from a predetermined controllable range; and rejecting the intervention request, when the controller concludes that the state of the vehicle is within the predetermined controllable range. 5. The method of claim 4 , further including, after the detecting the steering angle: when the detected steering angle of the vehicle deviates from the predetermined reference angle range, determining, by the controller, the vehicle as being in a second slip state in which the vehicle slips in a lateral direction, and performing, by the controller, traction control. 6. The method of claim 2 , wherein the resetting the vehicle speed of the vehicle includes: when a difference between the vehicle speed of the vehicle and a speed of a left rear wheel of the vehicle deviates from a reference error range, estimating the left rear wheel of the vehicle to slip; and when a difference between the vehicle speed of the vehicle and a speed of a right rear wheel of the vehicle deviates from the reference error range, estimating the right rear wheel of the vehicle to slip. 7. The method of claim 6 , wherein the resetting the vehicle speed of the vehicle further includes: when the left rear wheel of the vehicle is estimated to slip, initializing information regarding the right rear wheel of the vehicle. 8. The method of claim 6 , wherein the resetting the vehicle speed of the vehicle further includes: when the right rear wheel of the vehicle is estimated to slip, initializing information regarding the left rear wheel of the vehicle. 9. The method of claim 8 , wherein the resetting the vehicle speed of the vehicle further includes: when the vehicle is in the first state in which the state of the vehicle is stable due to a current vehicle speed reset after the initializing the information, controlling the vehicle to maintain the current vehicle speed. 10. A non-transitory computer readable recording medium including recorded thereon a program to execute the method of claim 1 . 11. An apparatus of controlling torque vectoring of a vehicle, the apparatus comprising: a vehicle control unit configured to estimate a vehicle speed of the vehicle and a state of the vehicle using speed sensors mounted in the vehicle; a motor control unit configured to receive a motor torque command from the vehicle control unit and to control a torque of a motor; and a traction control system configured to estimate the state of the vehicle and to form a request for intervention to the vehicle control unit based on the estimated state of the vehicle, wherein the vehicle control unit is configured to: determine whether an intervention request occurs according to a set state of the vehicle, and detect a steering angle of the vehicle when the intervention request is rejected; and when the detected steering angle of the vehicle is within a predetermined reference angle range, determine the vehicle as being in a first slip state in which the vehicle slips in a longitudinal direction, and reset the vehicle speed of the vehicle through controlling an output of a torque vectoring (TV) motor mounted in the vehicle. 12. The apparatus of claim 11 , wherein the vehicle control unit is configured to detect vehicle speed information using the speed sensors, to estimate the vehicle speed of the vehicle in driving based on the detected vehicle speed information, and to set the state of the vehicle based on the estimated vehicle speed to determine the set state of the vehicle. 13. The apparatus of claim 12 , wherein the vehicle control unit is configured to: compare the estimated vehicle information with a predetermined reference wheel speed; determine the vehicle as being in a first state in which the state of the vehicle is stable, when the estimated vehicle speed information is less than the predetermined reference wheel speed; and determine the vehicle as being in a second state in which the state of the vehicle is unstable, when the estimated vehicle speed information is greater than the predetermined reference wheel speed. 14. The apparatus of claim 13 , wherein the vehicle control unit is configured to approve the intervention request, when the state of the vehicle deviates from a predetermined controllable range, and to reject the intervention request, when the state of the vehicle is within the predetermined controllable range. 15. The apparatus of claim 14 , wherein the vehicle control unit is configured to determine the vehicle as being in a second slip state in which the vehicle slips in a lateral direction, and to perform traction control, when the detected steering angle of the vehicle deviates from the predetermined reference angle range. 16. The apparatus of claim 15 , wherein the vehicle control unit is configured to: estimate a left rear wheel of the vehicle to slip, when a difference between the vehicle speed of the vehicle and a speed of the left rear wheel of the vehicle deviates from a reference error range; and estimate a right rear wheel of the vehicle to slip, when a difference between the vehicle speed of the vehicle and a speed of the right rear wheel of the vehicle deviates from the reference error range. 17. The apparatus of claim 16 , wherein the vehicle control unit is configured to initialize information regarding the right rear wheel of the vehicle, when the left rear wheel of the vehicle is estimated to slip. 18. The apparatus of claim 16 , wherein the vehicle control unit is configured to initialize information regarding the left rear wheel