Method for freeing at least one locked wheel of a vehicle and propulsion system for a vehicle

The invention claimed is: 1. A method for freeing at least one locked wheel of a vehicle, the method comprising: identifying, by a system of the vehicle, a locking scenario comprising the at least one locked wheel, wherein the identifying the locking scenario comprises; detecting one or more of the vehicle's wheels rotating in place, and at least one of: detecting a wheel speed of each of the vehicle's wheels, and detecting or estimating a motion of the vehicle, wherein the respective wheel speeds of each of the vehicle's wheels are compared to the motion of the vehicle or the estimation of the motion of the vehicle, or detecting a yaw motion of the vehicle and comparing the detected yaw motion to an estimated yaw motion of the vehicle; and selecting, by the system, a wheel freeing strategy being suitable for the identified locking scenario from a group of wheel freeing strategies; and applying, by the system, the selected wheel freeing strategy. 2. The method according to claim 1 , wherein identifying the locking scenario further comprises evaluating whether the vehicle is moving. 3. The method according to claim 1 , wherein identifying the locking scenario further comprises identifying a propulsion actuator being coupled to the at least one locked wheel. 4. The method according to claim 1 , wherein selecting the wheel freeing strategy comprises detecting obstacles in surroundings of the vehicle. 5. The method according to claim 1 , wherein the wheel freeing strategy comprises at least one of: increasing a level of requested torque for the vehicle or for the at least one locked wheel, requesting torque in alternating directions for the vehicle or for the at least one locked wheel, or requesting intermittent torque for the vehicle or for the at least one locked wheel. 6. The method according to claim 1 , wherein the wheel freeing strategy comprises allowing the at least one locked wheel to be dragged by at least one remaining wheel of the vehicle that is not locked. 7. The method according to claim 1 , wherein the wheel freeing strategy comprises at least one of stopping the vehicle, displaying a message to a user of the vehicle, or sending a message to a user remote from the vehicle. 8. The method according to claim 1 , wherein the wheel freeing strategy comprises a request for a braking action to be applied to at least one non-locked wheel of the vehicle. 9. The method according to claim 1 , further comprising verifying, by the system, whether the at least one locked wheel has been unlocked. 10. The method according to claim 1 , further comprising verifying, by the system, whether the identified locking scenario is still valid. 11. A propulsion system of a vehicle having at least one wheel, the propulsion system comprising: at least one propulsion actuator being drivingly connectable to the at least one wheel; at least one wheel speed sensor being configured for detecting the rotational speed of the at least one wheel; at least one brake unit being configured for braking the at least one wheel; and a control unit being connected to the at least one propulsion actuator, the at least one wheel speed sensor and the at least one brake unit, the control unit being configured to perform operations comprising: identifying a locking scenario comprising at least one locked wheel, wherein a locked wheel is a wheel not being able to rotate even though a corresponding brake is requested to be released and a driver of the vehicle requests propulsion torque, and wherein the identifying the locking scenario comprises at least one of: detecting a wheel speed of each of the vehicle's wheels, and detecting or estimating a motion of the vehicle, wherein the respective wheel speeds of each of the vehicle's wheels are compared to the motion of the vehicle or the estimation of the motion of the vehicle, or detecting a yaw motion of the vehicle and comparing the detected yaw motion to an estimated yaw motion of the vehicle; and selecting a wheel freeing strategy being suitable for the identified locking scenario from a group of wheel freeing strategies, wherein selecting the wheel freeing strategy comprises detecting obstacles in surroundings of the vehicle; and applying the selected wheel freeing strategy. 12. The propulsion system according to claim 11 , wherein the group of wheel freeing strategies comprises at least one of: increasing a level of requested torque for the vehicle or for the at least one locked wheel only, requesting torque in alternating directions for the vehicle or for the at least one locked wheel, requesting intermittent torque for the vehicle or for the at least one locked wheel, allowing the at least one locked wheel to be dragged by at least one remaining wheel of the vehicle that is not locked, a request for a braking action to be applied to at least one non-locked wheel of the vehicle, stopping the vehicle, displaying a message to a user of the vehicle, or sending a message to a user remote from the vehicle. 13. The propulsion system according to claim 11 , wherein the operations further comprise verifying whether the at least one locked wheel has been unlocked. 14. The propulsion system according to claim 11 , wherein the operations further comprise verifying whether the identified locking scenario is still valid. 15. A method for freeing at least one locked wheel of a vehicle, wherein a locked wheel is a wheel not being able to rotate even though a corresponding brake is requested to be released and a driver of the vehicle requests propulsion torque, the method comprising: identifying, by a system of the vehicle, a locking scenario comprising the at least one locked wheel; selecting, by the system, at least one wheel freeing strategy being suitable for the identified locking scenario from a group of wheel freeing strategies, wherein the at least one wheel freeing strategy comprises a request for a braking action to be applied to at least one non-locked wheel of the vehicle; and applying, by the system, the selected at least one wheel freeing strategy. 16. The method according to claim 15 , wherein identifying the locking scenario comprises evaluating whether the vehicle is moving. 17. The method according to claim 15 , wherein identifying the locking scenario comprises detecting of one or more wheels rotating in place. 18. The method according to claim 15 , wherein identifying the locking scenario further comprises identifying a propulsion actuator being coupled to the at least one locked wheel. 19. The method according to claim 15 , wherein identifying the locking scenario further comprises detecting a yaw motion of the vehicle and comparing the detected yaw motion to an estimated yaw motion of the vehicle. 20. The method according to claim 15 , wherein identifying the locking scenario further comprises detecting a wheel speed of each of the vehicle's wheels, and detecting or estimating a motion of the vehicle, wherein the respective wheel speeds of each of the vehicle's wheels are compared to the motion of the vehicle or the estimation of the motion of the vehicle.