Method for executing an at least semi-autonomous parking process of a vehicle and parking assistance system for a vehicle

The invention claimed is: 1. A method for executing an at least semi-autonomous parking process of a vehicle using a parking assistance system, the method comprising: sensing ambient conditions of the vehicle as the vehicle travels past a potential parking space using and ultra-sonic sensor; and determining one parking path, using a control and evaluation unit, as a function of the ambient conditions, of the parking space, and at least one of: a lock angle of a steering wheel of the vehicle, a length of the vehicle, a width of the vehicle, a height of the vehicle, and a ground clearance of the vehicle, wherein the ambient conditions comprise at least one obstacle which is external to the parking space and does not directly bound the parking space, and wherein the at least one obstacle is detected as near to the vehicle and is taken into account in the determination of the parking path using the control and evaluation unit, wherein a first manoeuvre is executed with an autonomous steering intervention determined using the control and evaluation unit in terms of a corresponding profile as a function of the obstacle, and wherein a second manoeuvre is executed with the autonomous steering intervention determined using the control and evaluation unit in terms of a corresponding profile as a function of the obstacle and the first manoeuvre. 2. The method according to claim 1 , wherein a plurality of additional manoeuvers are executed to complete the parking process. 3. The method according to claim 1 , wherein reverse parking is executed as the parking process. 4. The method according to claim 1 , wherein the vehicle is parked into a transverse parking space. 5. The method according to claim 4 , wherein a carriageway which adjoins the parking space is bounded in a driving direction by at least one first obstacle and is bounded on a longitudinal side of the vehicle facing away from the parking space by at least one second obstacle. 6. The method according to claim 5 , wherein a first distance of the at least one first obstacle from a lateral boundary of the parking space which faces the at least one first obstacle is less than or equal to 1.5 times a length of the vehicle. 7. The method according to claim 6 , wherein a second distance of the at least one second obstacle from a boundary which faces the at least one second obstacle and separates the parking space from the carriageway is less than 1.5 times the length of the vehicle. 8. The method according to claim 6 , wherein, before the parking process starts, the vehicle is positioned with the vehicle's longitudinal direction at an angle which is larger than 40° and smaller than 130° , with respect to a longitudinal direction of the parking space, and wherein the parking process is executed in three manoeuvres comprising the first manoeuvre, the second manoeuvre, and a third manoeuvre. 9. The method according to claim 8 , wherein the third manoeuvre is executed with the autonomous steering intervention, wherein during the second manoeuvre, steerable wheels of the vehicle are locked in a first direction, and during the third manoeuvre, the steerable wheels are locked in a second direction which is opposed to the first direction. 10. The method according to claim 1 , wherein the parking path is determined so that the parking process is executed in a collision-free fashion in three manoeuvres which are executed with the autonomous steering intervention, and wherein the parking process is not started if a collision-free parking path cannot be determined. 11. The method according to claim 7 , wherein, before the parking process starts, the vehicle is positioned with the vehicle's longitudinal direction at an angle which is larger than 40° and smaller than 130° , with respect to a longitudinal direction of the parking space, wherein before the parking process starts a maximum possible veering out distance during the parking process is determined as a function of a distance between two obstacles of the vehicle which are detected near the vehicle on and on opposite sides of the vehicle. 12. The method according to claim 11 , wherein in a first manoeuvre of the parking process an arcuate path is travelled along and a curvature of the arcuate path is determined as a function of the maximum possible veering out distance. 13. The method according to claim 12 , wherein a length of the first manoeuvre of the parking process and a length of the second manoeuvre of the parking process are determined as a function of the maximum possible veering out distance. 14. A parking assistance system for executing an at least semi-autonomous parking process of a vehicle, comprising: an ultra-sonic sensor for sensing ambient conditions of the vehicle as the vehicle travels past a potential parking space, wherein the ambient conditions comprise at least one obstacle which is external to the parking space, does not directly bound the parking space, and is detected as being near the vehicle; and a control and evaluation unit for determining one parking path at least as a function of the at least one obstacle, of the parking space, and at least one of: a lock angle of a steering wheel of the vehicle, a length of the vehicle, a width of the vehicle, a height of the vehicle, and a ground clearance of the vehicle, wherein a first manoeuvre is executed with an autonomous steering intervention, by the parking assistance system, onto a steering device of the vehicle is determined in terms of a corresponding profile as a function of the at least one obstacle, and wherein a second manoeuvre is executed with the autonomous steering intervention by the parking assistance system, onto the steering device of the vehicle is determined in terms of a corresponding profile as a function of the at least one obstacle and the first manoeuvre. 15. The parking assistance system according to claim 14 , wherein a plurality of additional manoeuvers are executed to complete the parking process. 16. A method for executing an at least semi-autonomous parking process of a vehicle using a parking assistance system, the method comprising: sensing ambient conditions of the vehicle as the vehicle travels past a potential parking space using and ultra-sonic sensor; and determining one parking path without human input from a driver, using a control and evaluation unit, as a function of the ambient conditions, of the parking space, and at least one of: a lock angle of a steering wheel of the vehicle, a length of the vehicle, a width of the vehicle, a height of the vehicle, and a ground clearance of the vehicle, wherein the ambient conditions comprise at least one obstacle which is external to the parking space and does not directly bound the parking space, and wherein the at least one obstacle is detected as near to the vehicle and is taken into account in the determination of the parking path using the control and evaluation unit, wherein a first manoeuvre is executed with an autonomous steering intervention determined using the control and evaluation unit in terms of a corresponding profile as a function of the obstacle, and wherein a second manoeuvre is executed with the autonomous steering intervention determined using the control and evaluation unit in terms of a corresponding profile as a function of the obstacle and the first manoeuvre. 17. The method according to claim 16 , wherein a plurality of additional manoeuvers are executed to complete the parking process.