Method for controlling a cornering light and lighting device

The invention claimed is: 1. A method for controlling a predictive cornering light, the method comprising: providing a vehicle having at least one headlight comprising a pivoting element, an optical monitoring device that monitors a roadway or lane in front of the vehicle and generates roadway data, and a control unit, generating a model of a headlight light distribution using the roadway data, determining a pivoting angle by rotating the model of the headlight distribution to minimize a deviation between the model of the headlight light distribution and the roadway, actuating the pivoting element to set a headlight direction for illuminating the roadway or lane to match the pivoting angle, wherein minimizing the deviation between the model of the headlight light distribution and the roadway corresponds to minimizing a difference of at least one right-hand partial deviation between the roadway and the model and of at least one left-hand partial deviation between the roadway and the model of the headlight light distribution, wherein the model of the headlight light distribution is a section model, wherein each partial deviation between the model of the headlight light distribution and the roadway is determined by calculating at least one area between an illumination boundary in a section of the section model and a portion of a curve characterizing a roadway course or lane course corresponding to the section. 2. The method according to claim 1 , wherein the pivoting angle corresponds to a resulting rotation angle of the model of the headlight light distribution relative to a selected or initial model position. 3. The method according to claim 2 , wherein the selected or initial model position is defined as a position of the model of the headlight light distribution without pivoting. 4. The method according to claim 1 , wherein minimizing the deviation between the model of the headlight light distribution and the roadway corresponds to minimizing a sum of a plurality of partial deviations of the roadway from the model of the headlight light distribution. 5. The method according to claim 1 , wherein a first area is an area between the section of the section model and a curve characterizing a roadway course or lane course up to a point of intersection thereof and a second area arises between the section and the curve characterizing the roadway course or lane course after the point of intersection thereof up to a predefinable distance, wherein in the case of a right-hand curve the first area is defined as a right-hand partial deviation and the second area is defined as a left-hand partial deviation, and in the case of a left-hand curve the first area is defined as the left-hand partial deviation and the second area is defined as the right-hand partial deviation. 6. The method according to claim 1 , wherein a section of the section model lies in a selected or initial model position on a straight line in a direction of the vehicle longitudinal axis and extends forward from a current position of the vehicle. 7. The method according to claim 1 , wherein the section model describes a centroid position of the light distribution. 8. The method according to claim 1 , wherein the section model is a section of a length of a low-beam light range. 9. The method according to claim 1 , wherein the model of the headlight light distribution is an area model. 10. The method according to claim 9 , wherein the area model is an area s situated on a roadway plane and delimited by at least one curve. 11. The method according to claim 10 , wherein the area model is the area between a right-hand delimiting ray and between a left-hand delimiting ray up to a predefinable distance. 12. A lighting device comprising: at least one headlight with a pivoting element for controlled pivoting of the headlight for controlling a predictive cornering light in a vehicle, an optical monitoring device that monitors a roadway or lane in front of the vehicle and generates roadway data, a control unit that, uses the data of the optical monitoring device to drive the pivoting element for setting the headlight for illuminating the roadway or lane, wherein the control unit is configured to carry out the method according to claim 1 . 13. A method for controlling a predictive cornering light, the method comprising: providing a vehicle having at least one headlight comprising a pivoting element, an optical monitoring device that monitors a roadway or lane in front of the vehicle and generates roadway data, and a control unit, generating an auxiliary line using the roadway data, performing an area determination using the profile of the roadway data and an auxiliary line proceeding from the front of the vehicle, determining a point of intersection between the course of the roadway and the auxiliary line and using the point of intersection to characterize a pivoting angle, driving the headlight using the pivoting angle, wherein the area determination is effected in such a way that a predefinable ratio is achieved between a first area between the auxiliary line and the roadway course up to the point of intersection thereof and a second area between the auxiliary line and a roadway course after the point of intersection up to a predefinable distance. 14. The method according to claim 13 , wherein the pivoting angle is defined as an angle between the auxiliary line and a vehicle longitudinal direction. 15. The method according to claim 13 , wherein the area determination is effected in such a way that a ratio between the first area and the second area assumes a predefinable value. 16. The method according to claim 15 , wherein the area determination is effected in such a way that the ratio between the first area and the second area is 1:1. 17. A method for controlling a predictive cornering light, the method comprising: providing a vehicle having at least one headlight comprising a pivoting element, an optical monitoring device that monitors a roadway or lane in front of the vehicle and generates roadway data, and a control unit, generating a model of a headlight light distribution using the roadway data, determining a pivoting angle by rotating the model of the headlight distribution to minimize a deviation between the model of the headlight light distribution and the roadway, actuating the pivoting element to set a headlight direction for illuminating the roadway or lane to match the pivoting angle, wherein minimizing the deviation between the model of the headlight light distribution and the roadway corresponds to minimizing a sum of a plurality of partial deviations of the roadway from the model of the headlight light distribution, wherein the model of the headlight light distribution is a volume model, wherein determining each of the partial deviations is carried out by determining an intersection area between a roadway plane and a volume and by determining an at least one area proportion which lies on the left or on the right alongside the lane on the intersection area. 18. A method for controlling a predictive cornering light, the method comprising: providing a vehicle having at least one headlight comprising a pivoting element, an optical monitoring device that monitors a roadway or lane in front of the vehicle and generates roadway data, and a control unit, determining a first pivoting angle from the roadway data at a roadway point at a predetermined distance in front of the vehicle, determining a second pivoting angle from the first pivoting angle which depends in part on a curve rad