Method and system for controlling vehicle with four-wheel drive and vehicle

What is claimed is: 1 . A method for controlling a vehicle with four-wheel drive, comprising: acquiring a vehicle condition information parameter by a vehicle condition information collector; obtaining a radius of turning circle to be reduced from a driver by a turning circle receiver; obtaining a controlling yaw moment corresponding to the radius of turning circle to be reduced according to the vehicle condition information parameter and the radius of turning circle to be reduced by a turning circle controller; and distributing the controlling yaw moment to four wheels of the vehicle according to an intensity level of the radius of turning circle to be reduced and the vehicle condition information parameter by the turning circle controller, such that the vehicle turns circle. 2 . The method of claim 1 , wherein the vehicle comprises four electric motors, the four electric motors correspond to the four wheels respectively, and each electric motor is configured to drive or brake back the corresponding wheel. 3 . The method of claim 1 , wherein the four wheels comprises a front inner wheel, a front outer wheel, a rear inner wheel and a rear outer wheel, the intensity level of the radius of turning circle to be reduced comprises a first intensity level, a second intensity level and a third intensity level, the radius of turning circle to be reduced in the first intensity level is less than the radius of turning circle to be reduced in the second intensity level, and the radius of turning circle to be reduced in the second intensity level is less than the radius of turning circle to be reduced in the third intensity level; the step of distributing the controlling yaw moment to four wheels of the vehicle according to an intensity level of the radius of turning circle to be reduced and the vehicle condition information parameter by the turning circle controller comprises: distributing the controlling yaw moment to the rear inner wheel and the rear outer wheel when the intensity level of the radius of turning circle to be reduced is the first intensity level; distributing the controlling yaw moment to the four wheels according to a first predetermined strategy when the intensity level of the radius of turning circle to be reduced is the second intensity level, the first predetermined strategy is mainly controlling the rear wheels and auxiliarily controlling the front wheels; and distributing the controlling yaw moment to the four wheels according to a second predetermined strategy when the intensity level of the radius of turning circle to be reduced is the third intensity level, the second predetermined strategy is that a controlling yaw moment distributed to the rear wheels is the same as that distributed to the front wheels. 4 . The method of claim 3 , wherein the step of distributing the controlling yaw moment to the rear inner wheel and the rear outer wheel when the intensity level of the radius of turning circle to be reduced is the first intensity level comprises: keeping motor torque of the electric motors corresponding to the front inner wheel and the front outer wheel to be constant; distributing half of the controlling yaw moment to the rear inner wheel in a reverse direction; and distributing half of the controlling yaw moment to the rear outer wheel in a positive direction. 5 . The method of claim 3 , wherein the step of distributing the controlling yaw moment to the four wheels according to a first predetermined strategy when the intensity level of the radius of turning circle to be reduced is the second intensity level, comprises: determining a first motor torque corresponding to the rear inner wheel when distributing half of the controlling yaw moment to the rear inner wheel in the reverse direction; determining a second motor torque corresponding to the rear outer wheel when distributing half of the controlling yaw moment to the rear outer wheel in the positive direction; and distributing the controlling yaw moment to the four wheels according to the first motor torque, the second motor torque, a first maximum peak motor torque corresponding to the rear inner wheel-, and a second maximum peak motor torque corresponding to the rear outer wheel. 6 . The method of claim 5 , wherein the step of distributing the controlling yaw moment to the four wheels according to the first motor torque, the second motor torque, a first maximum peak motor torque corresponding to the rear inner wheel-, and a second maximum peak motor torque corresponding to the rear outer wheel comprises: when an absolute value of the first motor torque is less than or equal to the first maximum peak motor torque and an absolute value of the second motor torque is less than or equal to the second maximum peak motor torque, keeping motor torque of the electric motors corresponding to the front inner wheel and the front outer wheel to be constant; distributing half of the controlling yaw moment to the rear inner wheel in the reverse direction; and distributing half of the controlling yaw moment to the rear outer wheel in the positive direction. 7 . The method of claim 5 , wherein the step of distributing the controlling yaw moment to the four wheels according to the first motor torque, the second motor torque, a first maximum peak motor torque corresponding to the rear inner wheel, and a second maximum peak motor torque corresponding to the rear outer wheel comprises: when an absolute value of the first motor torque is larger than the first maximum peak motor torque and an absolute value of the second motor torque is less than or equal to the second maximum peak motor torque, distributing a first predetermined value of the controlling yaw moment to the front inner wheel in the reverse direction; distributing a second predetermined value of the controlling yaw moment to the rear inner wheel in the reverse direction; distributing the first predetermined value of the controlling yaw moment to the front outer wheel in the positive direction; and distributing the second predetermined value of the controlling yaw moment to the rear outer wheel in the positive direction; wherein the first predetermined value is (1−k 3 )/2, and the second predetermined value is k 3 /2, in which, k 3 is less than 1 and is obtained according to the first maximum peak motor torque, a transmission ration and a transmission efficiency. 8 . The method of claim 5 , wherein the step of distributing the controlling yaw moment to the four wheels according to the first motor torque, the second motor torque, a first maximum peak motor torque corresponding to the rear inner wheel, and a second maximum peak motor torque corresponding to the rear outer wheel comprises: when an absolute value of the first motor torque is less than or equal to the first maximum peak motor torque and an absolute value of the second motor torque is larger than the second maximum peak motor torque, distributing a third predetermined value of the controlling yaw moment to the front inner wheel in the reverse direction; distributing a fourth predetermined value of the controlling yaw moment to the rear inner wheel in the reverse direction; distributing the third predetermined of the controlling yaw moment to the front outer wheel in the positive direction; and distributing the fourth predetermined value of the controlling yaw moment to the rear outer wheel in the positive direction; wherein the third predetermined value is (1−k 4 )/2, the fourth predetermined value is k 4 /2, in which, k 4 is less than 1 and is obtained according to the second maximum peak motor torque, the transmission rate and the transmission efficiency. 9 . The method of claim 5 , wherein the ste