Method for controlling the driving of a trailer of a traction vehicle-trailer combination

The invention claimed is: 1. A method for controlling the driving of at least one drive axle on a trailer of a traction vehicle-trailer combination, comprising: determining a traction drive power for a traction vehicle; providing information representing a contact force at the drive axle of the trailer; providing information representing a sum of the contact forces at all drive axles of the traction vehicle; determining a target drive power for the drive axle of the trailer as a function of a distribution of contact forces on the trailer and on a traction vehicle, and as a function of the traction drive power for the traction vehicle; and providing drive control signals for controlling an electrical drive for the drive axle of the trailer; wherein, the drive control signals are derived from the determined target drive power; wherein, the target drive power for the drive axle of the trailer is based on a ratio of the traction drive power of the traction vehicle, the contact force at the drive axle of the trailer, and the sum of the contact forces at all drive axles of the traction vehicle. 2. A method for controlling the driving of drive axles on a trailer of a traction vehicle-trailer combination, comprising: determining an individual target drive power for each individual drive axle of the trailer as a function of a distribution of contact forces on the trailer or on the traction vehicle, or as a function of a traction drive power for the traction vehicle; and providing drive control signals for controlling an electrical drive for the drive axle of the trailer; wherein, the drive control signals are derived from the determined target drive power; wherein, the drive axles on the trailer are controlled by means of drive control signals in such a manner that a sum of the individual target drive powers for the individual drive axles is at most as large as an available electrical power, and a ratio of the individual target drive powers for the individual drive axles corresponds to a ratio of the contact forces associated with these individual drive axles. 3. The method of claim 1 , wherein drive torque control signals are derived from the drive control signals in order to control a drive torque at the drive axle of the trailer. 4. The method of claim 3 , wherein the drive torque control signals are derived as a function of wheel speeds of individual wheels of the traction vehicle or trailer. 5. The method of claim 3 , further comprising processing the drive torque control signals such that a maximum transmittable drive torque at the drive axle of the trailer is not exceeded, a maximum drive force based on a weight force of the traction vehicle is not exceeded for the trailer, or a defined threshold value for a maximum drive power or drive force for the trailer is not exceeded. 6. The method of claim 1 , further comprising: determining a wheel speed associated with the drive wheels of the drive axle of the trailer; determining a speed threshold value for limiting the wheel slippage on these drive wheels; and controlling the electrical drive of the drive axle based on the determined speed threshold value. 7. The method of claim 6 , wherein: the electrical drive of the drive axle is controlled depending on the determined speed threshold value if the wheel speed is increasing; and the drive torque at this drive axle is reduced such that a further increase of the wheel speed is avoided if the threshold speed value is reached. 8. The method of claim 1 , wherein multiple drive axles of the trailer are driven by means of the electrical drive. 9. The method of claim 2 , wherein the electrical power available is predefined.