A method and system for aligning a sensor of a radar unit mounted on a vehicle, including calculating at least one alignment measurement of the vehicle from a plurality of optical sensors, positioning a target at a predetermined distance forward of the radar unit and determining a position of the ra
A method and system for aligning a sensor of a radar unit mounted on a vehicle, including calculating at least one alignment measurement of the vehicle from a plurality of optical sensors, positioning a target at a predetermined distance forward of the radar unit and determining a position of the radar unit based on the alignment measurement and the predetermined distance of the target. The method further includes transmitting a beam extending forward from the radar unit and positioning the target and the sensor in alignment with an axis of the beam.
대표청구항▼
1. A computer implemented method for aligning a sensor of a radar unit mounted on a vehicle, comprising: calculating at least one alignment measurement from a plurality of optical sensors of an alignment system;positioning a target at a predetermined distance forward of the radar unit;determining a
1. A computer implemented method for aligning a sensor of a radar unit mounted on a vehicle, comprising: calculating at least one alignment measurement from a plurality of optical sensors of an alignment system;positioning a target at a predetermined distance forward of the radar unit;determining a position of the radar unit based on the alignment measurement and the predetermined distance of the target;transmitting a beam extending forward from the radar unit; andpositioning the target and the sensor in alignment with an axis of the beam. 2. The computer implemented method of claim 1, wherein the predetermined distance is five meters forward of the radar unit. 3. The computer implemented method of claim 1, wherein at least one alignment measurement includes a vehicle centerline and a vehicle thrust line. 4. The computer implemented method of claim 3, further including determining a position of the beam based on the vehicle centerline, the vehicle thrust line and the position of the radar unit. 5. The computer implemented method of claim 4, wherein the position is parallel to the vehicle thrust line. 6. The computer implemented method of claim 1, wherein positioning the target at the predetermined distance further includes positioning at least one optical sensor laterally spaced apart from the target. 7. The computer implemented method of claim 1, wherein calculating at least one alignment measurement further includes performing a vehicle wheel alignment thereby acquiring said alignment measurement. 8. A computer implemented method for radar alignment on a vehicle, comprising: positioning a target and at least one optical sensor forward and parallel to a front of the vehicle at a predetermined distance forward of a radar unit;calculating a position of the radar unit mounted on the vehicle based on a distance between the target and the radar unit and at least one alignment measurement;emitting a beam from the radar unit extending towards the target;positioning the target in alignment with an axis of the beam; andaiming a sensor of the radar unit towards the target. 9. The computer implemented method of claim 8, wherein at least one alignment measurement includes a vehicle centerline and a vehicle thrust line. 10. The computer implemented method of claim 9, further including calculating a radar centerline extending from the radar unit towards the target, wherein a first angle between the radar centerline and the vehicle thrust line is equal to a second angle between the vehicle centerline and the vehicle thrust line. 11. The computer implemented method of claim 10, wherein emitting the beam further includes emitting the beam along the radar centerline. 12. A computer system for aligning a sensor of a radar unit mounted on a vehicle, comprising: a wheel alignment module configured to calculate at least one alignment measurement of the vehicle;a radar position determining module configured to determine a position of the radar unit based on the alignment measurement and a predetermined distance of a target, said target located forward of the radar unit;a beam transmission module configured to transmit a beam extending forward from the radar unit; anda guidance module configured to guide the placement of the target and the sensor in alignment with the axis of the beam. 13. The computer system of claim 12, further including an input/output module for acquiring the predetermined distance of the target. 14. The computer system of claim 12, further including an aiming jig located forward and parallel to a front of the vehicle. 15. The computer system of claim 14, wherein the aiming jig includes the target and at least one optical sensor. 16. The computer system of claim 12, wherein at least one alignment measurement includes a vehicle centerline and a vehicle thrust line. 17. The computer system claim 16, wherein the beam transmission module is further configured to calculate a position of the beam based on the vehicle centerline, the vehicle thrust line and the position of the radar unit. 18. The computer system of claim 17, wherein the position is parallel to the vehicle thrust line. 19. The computer system of claim 16, wherein the radar position determining module is configured to calculate a radar centerline extending from the radar unit towards the target, wherein the radar centerline is based on the vehicle thrust line, the vehicle centerline, a distance between a center of a rear wheel axle and the radar unit and a distance between the radar unit and the target, and the beam transmission module transmits the beam along the radar centerline. 20. The computer system of claim 12, wherein the predetermined distance is at least one meter forward of the radar unit. 21. A computer implemented method for aligning a sensor of a radar unit mounted on a vehicle, comprising: calculating at least one alignment measurement from a plurality of optical sensors of an alignment system;positioning a target at a predetermined distance forward of the radar unit;determining a position of the radar unit based on the alignment measurement and the predetermined distance of the target;calculating a radar centerline extending from the radar unit towards the target, wherein a first angle between a radar centerline and a vehicle thrust line is equal to a second angle between the vehicle centerline and a vehicle thrust line;transmitting a beam extending forward from the radar unit; andpositioning the target and the sensor in alignment with an axis of the beam. 22. The computer implemented method of claim 21, wherein transmitting the beam includes emitting the beam along the radar centerline. 23. A computer implemented method for radar alignment on a vehicle, comprising: positioning a target at a predetermined distance forward of a radar unit mounted on the vehicle and at least one optical sensor forward and parallel to a front of the vehicle;calculating a position of the radar unit based on a distance between the target and the radar unit and at least one alignment measurement;calculating a radar centerline extending from the radar unit towards the target, wherein a first angle between the radar centerline and a vehicle thrust line is equal to a second angle between a vehicle centerline and the vehicle thrust line;emitting a beam from the radar unit extending towards the target;positioning the target in alignment with an axis of the beam; andaiming a sensor of the radar unit towards the target. 24. The computer implemented method of claim 23, wherein emitting the beam further includes transmitting the beam along the radar centerline. 25. A computer system for aligning a sensor of a radar unit mounted on a vehicle, comprising: a wheel alignment module configured to calculate at least one alignment measurement of the vehicle;a radar position determining module configured to determine a position of the radar unit based on the alignment measurement and a predetermined distance of a target, said target located forward of the radar unit;a radar centerline determining module, calculating a radar centerline extending from the radar unit towards the target, wherein a first angle between the radar centerline and a vehicle thrust line is equal to a second angle between a vehicle centerline and the vehicle thrust line;a beam transmission module configured to transmit a beam extending forward from the radar unit; anda guidance module configured to guide the placement of the target and the sensor in alignment with the axis of the beam. 26. The computer system of claim 25, wherein transmitting the beam includes emitting the beam along the radar centerline.
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이 특허에 인용된 특허 (9)
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