Method and device for ascertaining a misalignment of a radar sensor of a vehicle

What is claimed is: 1. A method for ascertaining a misalignment of a radar sensor of a vehicle, comprising: measuring distances between the radar sensor and each individual radar reflector of a first plurality of radar reflectors spaced apart from each other at each individual measuring point of a second plurality of measuring points spaced apart from each other; measuring first angles between an axis of the radar sensor along which a radar emission takes place, and the radar reflectors at each measuring point; creating a virtual map on the basis of the measured distances including measuring positions that correspond to positions of the measuring points and radar reflector positions that correspond to positions of the radar reflectors; calculating at the measuring positions second angles between the radar reflector positions and reference axes defined on the virtual map which correspond to a vehicle longitudinal axis of the vehicle; calculating differences between angles of the first angles and angles of the second angles respectively; and ascertaining a misalignment angle of the misalignment using a weighted averaging of the calculated differences. 2. The method as recited in claim 1 , wherein the first plurality of radar reflectors spaced apart from each other totals at least three. 3. The method as recited in claim 1 , wherein the second plurality of measuring points totals at least four. 4. The method as recited in claim 1 , wherein the calculation of the second angles includes the steps of: approximating a trajectory of the radar sensor through the measuring positions on the virtual map; calculating tangents to the trajectory of the radar sensor as the reference axes at each measuring position; and calculating second angles between the tangents to the trajectory of the radar sensor and the radar reflector positions at each measuring position. 5. The method as recited in claim 1 , further comprising: mechanically compensating for the misalignment in accordance with the ascertained misalignment angle. 6. The method as recited in claim 1 , further comprising: mathematically compensating for the misalignment in accordance with the ascertained misalignment angle in a control unit of the radar sensor. 7. The method as recited in claim 1 , wherein distances between each individual radar sensor of a third plurality of radar sensors and each individual radar reflector of radar reflectors are measured at each measuring point. 8. The method as recited in claim 1 , wherein the misalignment angle is ascertained using an equally weighted averaging. 9. The method as recited in claim 1 , wherein the method is continually carried out based on randomly appearing stationary targets, while the vehicle is in a driving mode, and an ascertained misalignment angle is compensated for by one of mathematical and mechanical compensation. 10. A device for ascertaining a misalignment of a radar sensor of a vehicle, comprising: a radar sensor for: measuring distances between the radar sensor and a first plurality of radar reflectors spaced apart from each other at each individual measuring point of a second plurality of measuring points spaced apart from each other; and measuring first angles between an axis of the radar sensor, along which a radar emission takes place, and the radar reflectors at each individual measuring point; and a processor unit for: creating a virtual map on the basis of the measured distances, which includes measuring positions which correspond to positions of the measuring points, and radar reflector positions which correspond to positions of the radar reflectors; calculating second angles from the virtual map between the radar reflector positions and reference axes defined on the virtual map which correspond to a vehicle longitudinal axis of the vehicle at the measuring positions; calculating differences between angles of the first angles and angles of the second angles to which the former respectively correspond; and ascertaining a misalignment angle of the misalignment using a weighted averaging of the calculated differences.