Method, antenna array, radar system and vehicle

What is claimed is: 1. A method for detecting at least two objects, comprising: sending out a first radio signal using a first sending device, the first sending device and first antenna elements of a first receiving device being situated in a same horizontal plane as each other; receiving the first radio signal using the first antenna elements; receiving the first radio signal using second antenna elements that are part of a second receiving device, wherein the second antenna elements are arranged at different horizontal positions than each other and each of the second antenna elements is arranged at a different vertical position than a vertical position of the horizontal plane; and calculating (a) a first azimuth angle and a first elevation angle of a first object situated in front of the first antenna elements and the second antenna elements and (b) a second azimuth angle and a second elevation angle of a second object situated in front of the first antenna elements and the second antenna elements, wherein: the calculating includes assigning the first azimuth angle and the first elevation angle to the first object and assigning the second azimuth angle and the second elevation angle to the second object; and the calculating includes calculating each of the first and second azimuth angles and each of the first and second elevation angles from both a first output signal obtained from the first receiving device and generated by the first receiving device based on the receipt of the first radio signal by the first antenna elements and a second output signal obtained from the second receiving device and generated by the second receiving device based on the receipt of the first radio signal by the second antenna elements. 2. The method as recited in claim 1 , wherein the calculation of each of the first and second azimuth angles and of the first and second elevation angles is based on a maximum probability function that correlates azimuth and elevation angles to combinations of output signals of the first and second receiving devices. 3. The method as recited in claim 2 , wherein the calculating of the first and second azimuth angles includes calculating first values of the first and second azimuth values and subsequently using angles of elevation to carry out a correction on the first values of the first and second azimuth angles to obtain corrected values of the first and second azimuth angles. 4. The method as recited in claim 1 , further comprising sending at least one second radio signal using a second sending device and receiving the second radio signal using the first antenna elements and the second antenna elements, wherein the calculating of the first and second azimuth angles and the first and second elevation angles is further based on the receipt of the second radio signal by the first and second antenna elements. 5. An antenna array system for detecting at least two objects, the antenna array system comprising: a first receiving device that includes first antenna elements situated in a same horizontal plane as each other, wherein the first receiving device is configured to provide a first output signal based on receipt by the first antenna elements of a first radio signal; a second receiving device that includes second antenna elements that are arranged at different horizontal positions than each other and that are each arranged at a different vertical position than a vertical position of the horizontal plane, wherein the second receiving device is configured to provide a second output signal based on receipt of the first radio signal by the second antenna elements; and a processing device, wherein: the processing device is configured to: calculate (a) a first azimuth angle and a first elevation angle of a first object located in front of the first antenna elements and the second antenna elements and (b) a second azimuth angle and a second elevation angle of a second object located in front of the first antenna elements and the second antenna elements; assign the first azimuth angle and the first elevation angle to the first object; and assign the second azimuth angle and the second elevation angle to the second object; and the calculation includes calculating each of the first and second azimuth angles and each of the first and second elevation angles from both a first output signal obtained from the first receiving device and generated by the first receiving device based on the receipt of the first radio signal by the first antenna elements and a second output signal obtained from the second receiving device and generated by the second receiving device based on the receipt of the first radio signal by the second antenna elements. 6. The antenna array as recited in claim 5 , wherein vertical positions of the second antenna elements differ from each other. 7. The antenna array as recited in claim 5 , wherein at least one of the second antenna elements is situated at a same horizontal position as that of a corresponding one of first antenna elements. 8. The antenna array as recited in claim 5 , further comprising a first sending device for sending out the first radio signal and situated in the horizontal plane. 9. The antenna array as recited in claim 8 , further comprising at least one second sending device for sending out a second radio signal, wherein: the second sending device is situated in the horizontal plane; the first antenna elements and the second antenna elements are configured to receive the second radio signal; and the processing device is configured to calculate the first and second azimuth angles and the first and second elevation angles of elevation further based on receipt of the second radio signal by the first and second antenna elements. 10. The antenna array as recited in claim 5 , wherein the processing device is configured to calculate the first and second azimuth angles and the first and second elevation angles based on a maximum probability function that correlates azimuth and elevation angles to combinations of output signals of the first and second receiving devices. 11. The antenna array as recited in claim 10 , wherein the calculation includes calculating first values of the first and second azimuth values and subsequently using angles of elevation to correct the first values of the first and second azimuth angles to obtain corrected values of the first and second azimuth angles. 12. A radar system, comprising: an antenna array for detecting at least two objects, the antenna array comprising: a first receiving device that includes first antenna elements situated in a same horizontal plane as each other, wherein the first receiving device is configured to provide a first output signal based on receipt by the first antenna elements of a first radio signal; and a second receiving device that includes second antenna elements that are arranged at different horizontal positions than each other and that are each arranged at a different vertical position than a vertical position of the horizontal plane, wherein the second receiving device is configured to provide a second output signal based on receipt of the first radio signal by the second antenna elements; a processing device, wherein: the processing device is configured to: calculate (a) a first azimuth angle and a first elevation angle of a first object located in front of the first antenna elements and the second antenna elements and (b) a second azimuth angle and a second elevation angle of a second object located in front of the first antenna elements and the second antenna elements; assign the first azimuth angle and the first elevation angle to the first object; and a