Method for determining relative motion with the aid of an HDR camera

What is claimed is: 1. A method for detecting a motion of an object using an image recording system which includes an image sensor, comprising: performing a first reset and a second reset at a first time interval during an exposure of the image sensor; measuring a first extent of a first region of constant brightness from an image of an object detected by the image sensor; and ascertaining the motion of the object at a first point in time from a relationship between (i) the measured first extent and (ii) the first time interval between the first and second resets; wherein the motion of the object is ascertained from a single image; performing at least one third reset at an additional time interval during the exposure of the image sensor; measuring a second extent of a second region of constant brightness from the image of the object; and ascertaining the motion of the object at an additional point in time from a relationship between (i) the measured second extent and (ii) the additional time interval between the second reset and the third reset; wherein a change in the motion of the object is determined based on the motion of the object at the first point in time and the motion of the object at the additional point in time. 2. A method for detecting a motion of an object using an image recording system which includes an image sensor, comprising: performing a first reset and a second reset at a first time interval during an exposure of the image sensor; measuring a first extent of a first region of constant brightness from an image of an object detected by the image sensor; and ascertaining the motion of the object at a first point in time from a relationship between (i) the measured first extent and (ii) the first time interval between the first and second resets; wherein the motion of the object is ascertained from a single image; performing at least one third reset at an additional time interval during the exposure of the image sensor; measuring a second extent of a second region of constant brightness from the image of the object; ascertaining the motion of the object at an additional point in time from a relationship between (i) the measured second extent and (ii) the additional time interval between the second reset and the third reset; and verifying the motion of the object. 3. The method as recited in claim 1 , wherein a main direction of a motion blur is ascertained. 4. The method as recited in claim 1 , wherein the object is a headlight of a vehicle. 5. A device for detecting a motion of an object, comprising: an image recording system which includes at least one image sensor having a characteristics curve which has break points; wherein the image recording system measures an extent of a region of constant brightness from an image of an object detected by the image sensor; and wherein the image recording system ascertains a motion of the object at a first point in time from a relationship between (i) the measured extent and (ii) time intervals between the break points; wherein the motion of the object is ascertained from a single image; wherein the image recording system measures a second extent of a second region of constant brightness from the image of the object; and wherein the image recording system ascertains the motion of the object at an additional point in time from a relationship between (i) the measured second extent and (ii) the additional time interval between additional break points; wherein a change in the motion of the object is determined based on the motion of the object at the first point in time and the motion of the object at the additional point in time. 6. The device as recited in claim 5 , wherein the characteristics curve has at least two break points. 7. The device as recited in claim 6 , wherein the image recording system includes a high-dynamic-range camera.