Method for controlling a parking brake system

The invention claimed is: 1. A method of controlling a brake system, the method comprising: measuring voltage of a motor; measuring current of the motor; estimating a rotational angle of the motor using the measured voltage and the measured current; estimating a speed of the motor using the measured voltage and the measured current; estimating a current draw of the motor using the measured voltage and the measured current; estimating a brake force with the estimated rotational angle of the motor; correcting the estimated rotational angle of the motor with the measured current; correcting the estimated speed of the motor with the measured current; correcting the estimated current draw of the motor with the measured current; correcting the estimated brake force with the corrected estimated rotational angle of the motor, the corrected speed of the motor, and the corrected current draw of the motor; and determining creation of a brake apply with the corrected brake force. 2. The method of claim 1 , wherein the creation of the brake apply includes rotating a spindle about an axis with the motor in a first direction so that a nut is moved along an axis in a first direction so that the nut moves one or more brake pads against a braking surface to create the brake force, and wherein during the creation of the brake apply, a position of the spindle is estimated using the measured voltage and the measured current, and/or the brake force is estimated based on the measured current and the measured voltage. 3. The method of claim 2 , wherein releasing of the brake apply includes rotating the spindle about the axis with the motor so that the nut is moved along the axis so that the one or more brake pads move away from the braking surface to release the brake force, and wherein during the releasing of the brake apply, a position of the spindle is estimated using the measured voltage and the measured current, and/or the brake force is estimated based on the measured current and the measured voltage. 4. The method of claim 1 , wherein the creation of the brake apply includes rotating a nut about an axis with the motor in a first direction so that a spindle moves along an axis in a first direction and moves one or more brake shoes against a braking surface to create the brake force, and wherein during the creation of the brake apply, a position of the spindle is estimated using the measured voltage and the measured current, and/or the brake force is estimated, based on the measured current and the measured voltage. 5. The method of claim 1 , wherein release of the brake apply includes: rotating a nut about an axis with the motor so that a spindle moves along the axis and moves one or more brake shoes away from a braking surface to release the brake force, and wherein during the release of the brake apply, a position of the spindle is estimated using the measured voltage and the measured current, and/or the brake force is estimated based on the measured current and the measured voltage. 6. The method of claim 1 , wherein the step of estimating the current draw of the motor includes a step of calculating degradation of the brake system, and wherein the step of calculating degradation includes considering one or more parameters that are lumped into a spindle factor, the one or more parameters including: spindle friction, effective spindle diameter, spindle lead, gear efficiency, and spindle flank angle. 7. The method of claim 1 , wherein the step of measuring the current includes calculating a change of current in the brake system. 8. The method of claim 7 , wherein the step of calculating the change of current includes subtracting a harness voltage drop from a measured control module voltage. 9. The method of claim 1 , wherein the estimating steps include a step of linearizing a non-linear state space formation using feedback linearization about an operating load of the brake system to determine a verified position of the motor, a verified motor speed, and a verified current draw of the motor, motor current, and/or to determine a verified brake force, and wherein the step of linearizing the non-linear state space formation using feedback linearization includes a step of estimating motor load torque based on the estimated brake force and linearization model. 10. The method of claim 1 , wherein the creation of the brake apply is verified with the corrected brake force. 11. The method of claim 1 , wherein the estimated rotational angle of the motor, the estimated speed of the motor, and the estimated current draw of the motor are compared to a subsequently estimated rotational angle of the motor, a subsequently estimated speed of the motor, and a subsequently estimated current draw of the motor to determine an error correction to update the brake system. 12. The method of claim 11 , wherein release of the brake apply is verified with the corrected rotational angle of the motor. 13. A method of controlling a parking brake system, the method comprising: measuring a voltage and measuring a current of the parking brake system during creation of a parking brake apply and during release of the parking brake apply; estimating a position of a motor and/or a position of a spindle with the measured voltage and the measured current; estimating a parking brake force with the estimated position of the motor and/or the estimated position of the spindle; correcting the estimated position of the motor and/or correcting the estimated position of the spindle by using the measured current; determining the creation of the parking brake apply with a corrected parking brake force; and determining the release of the parking brake apply with the corrected estimated position of the motor and/or spindle. 14. The method of claim 13 , wherein the position of the spindle changes when one or more brake pads are moved by the spindle against a braking surface to create the parking brake apply, and moved away from the braking surface to release the parking brake apply, and wherein the method includes steps of: rotating the spindle about an axis with the motor in a first direction so that a nut moves the one or more brake pads against the braking surface to create the parking brake apply, and rotating the spindle about the axis with the motor in a second direction so that the one or more brake pads move away from the braking surface to release the parking brake apply. 15. The method of claim 13 , wherein the method includes a step of estimating a current draw of the motor using the measured voltage and the measured current; wherein the step of estimating the current draw of the motor includes a step of calculating degradation of the parking brake system, and wherein the step of calculating degradation includes considering one or more parameters that are lumped into a spindle factor, the one or more factors including: gear efficiency, spindle friction, effective spindle diameter, spindle lead, and spindle flank angle. 16. The method of claim 13 , wherein the step of measuring the current includes calculating a change of current in the parking brake system, and wherein the step of calculating the change of current includes subtracting a harness voltage drop from a measured control module voltage. 17. The method of claim 13 , wherein the release of the parking brake apply is verified using the corrected position of the spindle. 18. The method of claim 13 , wherein a step of estimating a current draw of the motor occurs before a step of estimating a speed of the motor, which occur