Object determination using a radar sensor

What is claimed is: 1. A method for determining an object in a surroundings of a motor vehicle, comprising: scanning a far range of the surroundings using a radar sensor for scanning the far range, wherein the far range begins at a predetermined minimum distance from the radar sensor; detecting, for each of a plurality of time periods, objects in the far range based on reflections of a radar signal emitted by the radar sensor; comparing, for at least one of the plurality of time periods, to at least one corresponding threshold value, at least one of: a proportion of a number of the detected objects in the far range in at least one previous time period still detected in the at least one time period, a sum over the at least one time period and a predetermined number of previous time periods of a number of objects no longer able to be detected in the far range relative to a number of objects detected in the far range for at least one previous time period, or a change in the number of the detected objects in the far range relative to a number of detected objects in the far range for at least one previous time period; and determining a presence of a crossing object in a close range, which lies between the radar sensor and the far range, as a function of the comparing. 2. The method as recited in claim 1 , wherein only objects in the far range which are valued as relevant for the motor vehicle are detected. 3. The method as recited in claim 2 , wherein relevance of detected objects is determined based on at least one of: directions of motion of the detected objects, speeds of the detected objects, or positions of the detected objects with respect to the motor vehicle. 4. The method as recited in claim 1 , wherein the presence of the crossing object is determined in the close range if the number of objects no longer able to be detected in the far range changes at least at a predetermined speed. 5. The method as recited in claim 1 , wherein the presence of the crossing object is determined in the close range if a predetermined proportion of previously detected objects is no longer able to be detected. 6. The method as recited in claim 1 , wherein the crossing object is determined in the close range if a number of objects no longer detectable exceeds a predetermined threshold value over a predetermined number of past scans. 7. The method as recited in claim 1 , wherein the presence of the crossing object is determined if the proportion falls below the at least one corresponding threshold value. 8. The method as recited in claim 1 , wherein the presence of the crossing object is determined if the sum rises above the at least one corresponding threshold value. 9. The method as recited in claim 1 , wherein the presence of the crossing object is determined if the change in the number of detected objects in the far range rises above the at least one corresponding threshold value. 10. The method as recited in claim 1 , wherein the detecting, comparing and determining are conducted repeatedly at predetermined time intervals. 11. The method as recited in claim 1 , further comprising storing a representation of each of the detected objects in a memory. 12. A non-transitory, machine-readable medium storing program instructions, which when executed by a processor cause the processor to perform a method for determining an object in a surroundings of a motor vehicle, the method comprising: scanning a far range of the surroundings using a radar sensor for scanning the far range, wherein the far range begins at a predetermined minimum distance from the radar sensor; detecting, for each of a plurality of time periods, objects in the far range based on reflections of a radar signal emitted by the radar sensor; comparing, for at least one of the plurality of time periods, to at least one corresponding threshold value, at least one of: a proportion of a number of the detected objects in the far range in at least one previous time period still detected in the at least one time period, a sum over the at least one time period and a predetermined number of previous time periods of a number of objects no longer able to be detected in the far range relative to a number of detected objects in the far range for at least one previous time period, or a change in the number of the detected objects in the far range relative to a number of detected objects in the far range for at least one previous time period; and determining a presence of a crossing object in a close range, which lies between the radar sensor and the far range, as a function of the comparing. 13. A device for determining an object in a surroundings of a motor vehicle, comprising: a radar sensor for scanning a far range of the surroundings, wherein the far range begins at a predetermined minimum distance from the radar sensor; and a processing device configured to: detect, for each of a plurality of time periods, objects in the far range based on reflections of a radar signal emitted by the radar sensor; compare, for at least one of the plurality of time periods, to at least one corresponding threshold value, at least one of: a proportion of a number of the detected objects in the far range in at least one previous time period still detected in the at least one time period, a sum over the at least one time period and a predetermined number of previous time periods of a number of objects no longer able to be detected in the far range relative to a number of detected objects in the far range for at least one previous time period, or a change in the number of the detected objects in the far range relative to a number of detected objects in the far range for at least one previous time period; and determine a presence of a crossing object in a close range, which lies between the radar sensor and the far range, as a function of the comparing. 14. The device as recited in claim 13 , wherein the radar sensor includes a frequency modulated continuous wave radar. 15. The device as recited in claim 14 , wherein the radar sensor scans objects in the far range which begins at a minimum distance of approximately 4 meters from the radar sensor.