Method for estimating coefficient of friction of a hydraulic brake system

The invention claimed is: 1. A method for estimating a coefficient of friction of a hydraulic brake system with axle-individual pressure buildup of a motor vehicle, comprising the following steps: a) setting a braking torque to a wheel of a first axle or to a first axle of the motor vehicle via an actuator system which has a higher actuating precision than the hydraulic brake system; b) measuring a deceleration of the wheel or of the axle of the motor vehicle caused by the braking torque; c) determining a transmission conduct between the braking torque and the deceleration of the wheel or of the axle or of the motor vehicle; d) applying a target braking torque to the wheel or to the axle of the motor vehicle via the hydraulic system; e) measuring the deceleration of the wheel or of the axle or of the motor vehicle caused by the braking torque; f) estimating an actual braking torque by means of the inverse of the transmission conduct between the braking torque and the deceleration of the wheel or of the axle of the motor vehicle; g) calculating the coefficient of friction of between a pad and a brake disk the hydraulic brake system with an axle-individual pressure buildup for the first axle of the motor vehicle. 2. The method according to claim 1 , which in addition comprises the determination of the coefficient of friction of the hydraulic brake system with a second axle-individual pressure buildup for at least one other axle of the motor vehicle. 3. The method according to claim 2 , wherein the determination of the coefficient of friction for at least one other axle of the motor vehicle comprises at least the following steps: h1) setting a second braking torque to another wheel or to another axle of the motor vehicle via an actuator system which has a higher actuating precision than the hydraulic brake system; i1) measuring a second deceleration of the other wheel or axle of the motor vehicle caused by the second braking torque; j1) determining a second transmission conduct between the second braking torque and the second deceleration of the other wheel or axle of the motor vehicle; k1) applying a second target braking torque to the other wheel or axle of the motor vehicle via the hydraulic brake system; l1) measuring the second deceleration of the other wheel, or axle, or of the motor vehicle caused by the second braking torque; m1) estimating a second actual braking torque by means of the inverse of the second transmission conduct determined in step j1) between the second braking torque and the second deceleration of the other wheel or axle or motor vehicle; n1) calculating a second coefficient of friction between a second pad and a second brake disk of the hydraulic brake system with a second axle-individual pressure buildup for the other axle of the motor vehicle. 4. The method according to claim 3 , wherein the coefficient of friction is calculated from the actual braking pressure of the hydraulic brake system as follows: coefficient of friction=actual braking torque/braking pressure. 5. The method according to claim 2 , wherein the motor vehicle is provided with two axles and the other axle is the second axle of the motor vehicle and the determination of the coefficient of friction comprises the following steps: h2) applying the target braking torque with a predetermined distribution conduct to both axles of the motor vehicle via the hydraulic brake system; i2) measuring a deceleration of the second axle of the motor vehicle caused by the braking torque; j2) estimating a second actual braking torque of the second axle with the inverse of the transmission conduct between the braking torque and the deceleration of the wheel of the first axle, or of the first axle, or of the vehicle, as well with the coefficient of friction of the first axle calculated in step g) and the predetermined distribution conduct of the applied target braking torque, k2) determining a second coefficient of friction between a second pad and a second brake disk of the hydraulic brake system with axle-individual pressure buildup for the second axle of the motor vehicle. 6. The method according to claim 1 , wherein the friction coefficient is calculated from the target braking torque and the actual braking torque and a nominal coefficient of friction as follows: coefficient of friction=actual braking torque/target braking torque*nominal coefficient of friction. 7. A method for setting a target braking torque of a hydraulic brake system with axle-individual pressure buildup of a motor vehicle to achieve a desired actual braking torque at an axle of the motor vehicle, comprising the following steps: a) adjusting a braking torque at a wheel of the axle or at the axle of the motor vehicle via an actuator system which has a higher actuating precision than the hydraulic brake system, b) measuring a deceleration of the wheel or of the axle or of the motor vehicle which is caused by the braking torque; c) determining a transmission conduct between the braking torque and the deceleration of the wheel or of the axle of the motor vehicle, d) applying a target braking torque to the wheel or the axle of the motor vehicle via the hydraulic brake system; e) measuring the deceleration of the wheel or of the axle or of the motor vehicle which is caused by the braking torque; f) estimating an actual braking torque by means of the inverse of the transmission conduct determined in step c) between the braking torque of the wheel or of the axle or of the motor vehicle; g) calculating a ratio between the target braking torque and the actual braking torque of the hydraulic braking system for the axle; h) multiplying the target braking torque of the hydraulic braking system for the axle by a factor obtained in order to obtain the target braking torque corresponding to the actual braking torque.