초록 ▼

A method for ascertaining and compensating for a misalignment angle of a radar sensor of a vehicle, includes generating a first set of data which contains information about a measured alignment of the radar sensor with respect to an instantaneous movement of the vehicle; generating a second set of d

A method for ascertaining and compensating for a misalignment angle of a radar sensor of a vehicle, includes generating a first set of data which contains information about a measured alignment of the radar sensor with respect to an instantaneous movement of the vehicle; generating a second set of data which contains information about a measured alignment of the reference axes defined at the vehicle with respect to the instantaneous movement of the vehicle; ascertaining a misalignment angle by comparing the generated first set of data to the generated second set of data; compensating for the ascertained misalignment angle by changing an emission direction of the main lobe of the antenna characteristic as a function of the ascertained misalignment angle.

대표청구항 ▼

1. A method for ascertaining and compensating for a misalignment angle of a radar sensor of a vehicle, the method comprising: generating a first set of data which contains information about an instantaneous movement of the vehicle with respect to an alignment of the radar sensor;generating a second

1. A method for ascertaining and compensating for a misalignment angle of a radar sensor of a vehicle, the method comprising: generating a first set of data which contains information about an instantaneous movement of the vehicle with respect to an alignment of the radar sensor;generating a second set of data which contains information about the instantaneous movement of the vehicle with respect to an alignment of at least one defined reference axis of the vehicle;ascertaining, by processing circuitry, a misalignment angle by comparing the generated first set of data to the generated second set of data; andcompensating, by the processing circuitry, for the ascertained misalignment angle by changing an emission direction of a main lobe of an antenna arrangement of the radar sensor as a function of the ascertained misalignment angle. 2. The method of claim 1, wherein at least one of: the first set of data contains information about an acceleration along the emission direction of the main lobe of the radar sensor and along a second direction that is defined relative to the radar sensor and that is different from the emission direction; andthe second set of data contains information about accelerations at least along the at least one defined reference axis. 3. The method of claim 1, wherein at least one of: the second data contains data concerning at least two of reference axes that are perpendicular to each other; andthe first set of data contains information about two directions that are perpendicular to each other. 4. The method of claim 3, wherein: the comparison includes a first comparison between an acceleration along the emission direction of the main lobe of the radar sensor and an acceleration along a first one of the at least one reference axis, and a second comparison between an acceleration along a second direction defined relative to the radar sensor and an acceleration along a second one of the at least one reference axis;the second reference axis is different than the first reference axis; andthe ascertainment of the misalignment angle is based on both comparisons. 5. The method of claim 1, wherein a first of the at least one reference axis is defined along a longitudinal axis of the vehicle. 6. The method of claim 5, wherein a second of the at least one reference axis is a transverse axis of the vehicle. 7. The method of claim 1, wherein the changing of the emission direction of the main lobe of the radar sensor is performed via electronic beam steering. 8. The method of claim 1, further comprising: comparing the ascertained misalignment angle to a predetermined threshold; andtriggering an emergency action responsive to a determination that the predefined threshold is exceeded. 9. The method of claim 8, wherein the triggered emergency action includes at least one of transmitting a warning signal and deactivating the radar sensor. 10. The method of claim 1, further comprising: receiving radar signals at individual antennas of the antenna arrangement of the radar sensor, wherein the individual antennas are spaced apart from each other;shifting a phases of the received radar signals by phase shifts, wherein each one of the respective phase shifts is a function of the ascertained misalignment angle and of the respective placement of the respective individual antenna at which the radar signal was received; andgenerating position data which contain information about the position of an object situated about the vehicle based on the phase-shifted radar signals. 11. A radar sensor arrangement for a vehicle, the radar sensor arrangement comprising: a radar sensor that includes an antenna arrangement;a measuring device configured to: generate a first set of data, which contains information about an instantaneous movement of the vehicle with respect to an alignment of the radar sensor; andgenerate a second set of data which contains information about the instantaneous movement of the vehicle with respect to an alignment of at least one defined reference axis of the vehicle; andprocessing circuitry configured to: ascertain a misalignment angle by comparing the generated first set of data to the generated second set of data; andcompensate for the ascertained misalignment angle by changing an emission direction of a main lobe of the antenna arrangement as a function of the ascertained misalignment angle. 12. The radar sensor arrangement of claim 11, wherein the antenna arrangement is a phased-array antenna. 13. The radar sensor arrangement of claim 11, wherein the vehicle is a motor vehicle which includes an electronic stability program (ESP) whose acceleration sensors are configured to measure accelerations of the motor vehicle along the at least one defined reference axis to generate the second set of data. 14. A method for ascertaining and compensating for a misalignment angle of a radar sensor of a vehicle, the method comprising: obtaining, by processing circuitry and from a sensor arrangement, a first sensed acceleration in a direction of a main lobe of an antenna arrangement of the radar sensor;obtaining, by the processing circuitry and from the sensor arrangement, a second sensed acceleration along a longitudinal axis of the vehicle;determining, by the processing circuitry, a difference between the accelerations;determining, by the processing circuitry and based on the determined difference, a misalignment angle; andchanging, by the processing circuitry and based on the determined misalignment angle, at least one of (a) the direction of the main lobe of the antenna arrangement, and (b) a radar signal obtained via from the antenna arrangement. 15. The method of claim 14, wherein the radar signal is changed in the changing step, and the change is of a phase of the radar signal. 16. The method of claim 14, wherein the radar signal is changed in the changing step, and the change is of an amplitude of the radar signal. 17. The method of claim 14, wherein the direction of the main lobe of the antenna arrangement is changed in the changing step. 18. The method of claim 14, further comprising: obtaining, by the processing circuitry and from the sensor arrangement, a third sensed acceleration at a location of the radar sensor and in a direction that is (a) perpendicular to the main lobe of the antenna arrangement of the radar sensor and (b) vertical with respect to the vehicle;obtaining, by the processing circuitry and from the sensor arrangement, a fourth sensed acceleration at a location that is at a distance from the radar sensor and along an axis that is (a) perpendicular to the longitudinal axis of the vehicle and (b) vertical with respect to the vehicle; anddetermining, by the processing circuitry, a difference between the third and fourth accelerations, wherein the determination of the misalignment angle is further based on the difference between the third and fourth accelerations.