Method for controlling a braking system of a motor vehicle

The invention claimed is: 1. A method for controlling a braking system of a motor vehicle comprising a plurality of wheels, at least one electric motor as a drive, a service brake and a vehicle dynamic control system, comprising: the plurality of wheels can be braked by a deceleration torque (MB) applied by the service brake and at least partially by a deceleration torque (ME) applied by the electric motor, wherein slippage which arises as a result of braking and/or of intervention by the vehicle dynamic control system is regulated at least primarily through adjustment of the deceleration torque (ME) applied by the electric motor; wherein, when necessary, a drive torque is applied to regulate slippage or to cause a locked wheel to rotate by the electric motor; wherein each of the plurality of wheels is driven by a respective electric motor or at least one axle of the motor vehicle is driven by the electric motor via a differential; wherein when there is a desire to decelerate (W), the electric motor registers and regulates an increased onset of wheel slippage via evaluated wheel speeds in relation to a limiting minimum shaft speed which is prescribed by a control unit of the vehicle dynamic control system, wherein a wheel speed and a wheel torque are registered by the electric motor and the wheel torque is regulated such that a braked wheel is operated in a slippage range prescribed by the control unit of the vehicle dynamic control system; wherein a detection and regulation of wheel slippage is carried out preventatively through the deceleration torque (ME) of the electric motor and the wheel speed such that a locking of the wheel and an increasing of the wheel slippage is detected and the wheel slippage is regulated before the braked wheel comes to a standstill; wherein the detection of the wheel slippage is carried out through a permissible minimum shaft speed and therefore increased onset of wheel slippage through the electric motor and/or by imparting a mechanical deceleration torque (MB). 2. The method according to claim 1 , wherein the electric motor indicates to the control unit of the vehicle dynamic control system a drag torque that can be distributed as via the axle, and, when the deceleration of the vehicle remains the same or the desired deceleration (W) remains the same, the control unit of the vehicle dynamic control system counteracts a reduction of the electrical deceleration torque (ME) by increasing the deceleration torque (MB) of the service brake. 3. The method according to claim 1 , wherein the electric motor indicates to the control unit of the vehicle dynamic control system a drag torque that can be distributed as, and, when the deceleration of the vehicle remains the same or the desired deceleration (W) remains the same, the control unit of the vehicle dynamic control system counteracts a reduction of the electrical deceleration torque (ME) by increasing the deceleration torque (MB) of the service brake. 4. The method according to claim 3 , wherein the detection of the wheel slippage is carried out through a permissible minimum shaft speed and therefore increased onset of wheel slippage through the electric motor and/or by imparting a mechanical deceleration torque (MB) to the wheels individually. 5. A motor vehicle, comprising: a plurality of wheels; at least one electric motor as a drive; a service brake; and a vehicle dynamic control system, wherein the plurality of wheels can be braked by a deceleration torque (MB) applied by the service brake and at least partially by a deceleration torque (ME) applied by the electric motor; wherein the motor vehicle is configured to perform the method according to claim 1 .