Method and device for detecting a position of a vehicle on a lane

What is claimed is: 1. A method for detecting a position of a vehicle on a lane, the method comprising: reading in one first image of a first camera having a first optical axis and of at least one second image of at least one second camera having a second optical axis, the first camera and the second camera being oriented so that the first optical axis and the second optical axis intersect outside of the detection angle of the first camera and/or the second camera, wherein the first image and at least the second image each enclose a viewing angle which deviates by an angle of 90 degrees maximum from a driving direction of the vehicle; determining at least one interlinked image gradient in the first image and at least one additional interlinked image gradient in the at least second image; assigning the at least one interlinked image gradient to a roadway boundary object and the at least one additional interlinked image gradient to the roadway boundary object and/or to an additional roadway boundary object; and ascertaining a relative position of the vehicle to the roadway boundary object and/or the additional roadway boundary object to detect the position of the vehicle on the lane. 2. The method of claim 1 , further comprising: classifying the at least one interlinked image gradient and the at least one additional interlinked image gradient using image sections along the interlinked image gradients and selecting at least one classified interlinked image gradient, which represents the interlinked image gradient which is usable for a line trend estimate of the lane. 3. The method of claim 2 , wherein in the classifying, one quality value is assigned to the at least one interlinked image gradient and the at least one additional interlinked image gradient each, the quality value representing an accuracy and/or an expected variance of the at least one interlinked image gradient as a boundary of the lane. 4. The method of claim 1 , wherein in the reading in, the image and the at least second image are calibrated intrinsically and/or extrinsically. 5. The method of claim 1 , wherein in the reading in, the first image and the at least second image have an overlapping subarea. 6. The method of claim 1 , wherein in the reading in, at least one additional image of at least a third camera is read in, the optical axis of the at least third camera deviating from the optical axis of the first camera and from the optical axis of the at least second camera). 7. The method of claim 1 , further comprising: creating a line trend model as a boundary of the lane using the roadway boundary object and/or the additional roadway boundary object, the line trend model describing the course of the lane and/or a future course of the lane. 8. A device for detecting a position of a vehicle on a lane, comprising: a reading arrangement to read in one first image of a first camera having a first optical axis and of at least one second image of at least one second camera having a second optical axis, the first camera and the second camera being oriented so that the first optical axis and the second optical axis intersect outside of the detection angle of the first camera and/or the second camera, wherein the first image and at least the second image each enclose a viewing angle which deviates by an angle of 90 degrees maximum from a driving direction of the vehicle; a determining arrangement to determine at least one interlinked image gradient in the first image and at least one additional interlinked image gradient in the at least second image; an assigning arrangement to assign the at least one interlinked image gradient to a roadway boundary object and the at least one additional interlinked image gradient to the roadway boundary object and/or to an additional roadway boundary object; and an ascertaining arrangement to ascertain a relative position of the vehicle to the roadway boundary object and/or the additional roadway boundary object to detect the position of the vehicle on the lane. 9. A computer readable medium having a computer program, which is executable by a processor, comprising: a program code arrangement having program code for detecting a position of a vehicle on a lane, by performing the following: reading in one first image of a first camera having a first optical axis and of at least one second image of at least one second camera having a second optical axis, the first camera and the second camera being oriented so that the first optical axis and the second optical axis intersect outside of the detection angle of the first camera and/or the second camera, wherein the first image and at least the second image each enclose a viewing angle which deviates by an angle of 90 degrees maximum from a driving direction of the vehicle; determining at least one interlinked image gradient in the first image and at least one additional interlinked image gradient in the at least second image; assigning the at least one interlinked image gradient to a roadway boundary object and the at least one additional interlinked image gradient to the roadway boundary object and/or to an additional roadway boundary object; and ascertaining a relative position of the vehicle to the roadway boundary object and/or the additional roadway boundary object to detect the position of the vehicle on the lane. 10. A lane detection system for detecting a position of a vehicle on a lane, comprising: a first camera having a first optical axis; at least one second camera having a second optical axis, the first camera and the second camera being oriented so that the first optical axis and the second optical axis intersect outside of the detection angle of the first camera and/or the second camera, and the first camera and the at least second camera being configured to each enclose a viewing angle which deviates by an angle of 90 degrees maximum from a driving direction of the vehicle; and a device for detecting a position of a vehicle on a lane, including: a reading arrangement to read in the first image of the first camera having the first optical axis and of the at least one second image of the at least one second camera having the second optical axis; a determining arrangement to determine at least one interlinked image gradient in the first image and at least one additional interlinked image gradient in the at least second image; an assigning arrangement to assign the at least one interlinked image gradient to a roadway boundary object and the at least one additional interlinked image gradient to the roadway boundary object and/or to an additional roadway boundary object; and an ascertaining arrangement to ascertain a relative position of the vehicle to the roadway boundary object and/or the additional roadway boundary object to detect the position of the vehicle on the lane.