Calibration of a Six-Axis Robot for GNSS Antenna Phase Center Estimation

Willi Daniel; Guillaume Sebastien

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Calibration of a Six-Axis Robot for GNSS Antenna Phase Center Estimation

机译：用于GNSS天线相位中心估计的六轴机器人的校准

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We show that the scatter of the coordinates of the tool of an uncalibrated KUKA model AGILUS KR 6 R900 sixx lies between 0.5 and 0.7 mm if the same point is approached several times with different tool orientations. To use the robot for global navigation satellite system (GNSS) antenna calibration, the standard deviation of the coordinates must lie below 0.1 mm. We developed a calibration procedure based on the optical microtriangulation system QDaedalus and a kinematic model of the robot. The proposed calibration is easy to carry out and highly automatic. Several measurement campaigns including a validation demonstrated that the calibration reduces the standard deviation of the coordinates to below 0.1 mm, making the robot suitable for use in GNSS antenna calibrations.

机译：我们显示，如果同一点以不同的刀具方向多次接近，则未经校准的KUKA模型AGILUS KR 6 R900 sixx的刀具坐标的分散度介于0.5到0.7 mm之间。要将机器人用于全球导航卫星系统（GNSS）天线校准，坐标的标准偏差必须小于0.1 mm。我们基于光学微三角测量系统QDaedalus和机器人的运动学模型开发了校准程序。提出的校准易于执行且高度自动化。包括验证在内的多项测量活动表明，该校准可将坐标的标准偏差减小到0.1 mm以下，从而使该机器人适用于GNSS天线校准。

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《Journal of surveying engineering》 |2019年第4期|04019016.1-04019016.11|共11页
作者
Willi Daniel; Guillaume Sebastien;
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Swiss Fed Inst Technol Inst Geodesy & Photogrammetry CH-8093 Zurich Switzerland;

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1. Quantifying errors in GNSS antenna calibrations: Towards in situ phase center corrections [J] . Bergstrand Sten, Jarlemark Per, Herbertsson Magnus Journal of Geodesy . 2020,第10期

机译：量化GNSS天线校准中的错误：朝向原位相位校正
2. GNSS antenna phase center variation calibration for attitude determination on short baselines [J] . Willi Daniel, Meindl Michael, Xu Hui, Navigation . 2018,第4期

机译：GNSS天线相位中心变化校准，用于确定短基线上的姿态
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机译：GNSS贴片天线的改进相位中心估计
4. Absolute GNSS Antenna Phase Center Calibration with a Robot [C] . Daniel Willi, Donovan Koch, Michael Meindl, International Technical Meeting of the Satellite Division of The Institute of Navigation . 2018

机译：绝对GNSS天线相位中心校准机器人
5. Kinematic calibration of six-axis serial robots using the relative measurement concept. [D] . Simpson, Nicholas W. 2004

机译：使用相对测量概念对六轴串行机器人进行运动学校准。
6. Precise Calibration of a GNSS Antenna Array for Adaptive Beamforming Applications [O] . Saeed Daneshmand, Negin Sokhandan, Mohammad Zaeri-Amirani, 2014

机译：用于自适应波束形成应用的GNSS天线阵列的精确校准
7. Phase calibration and attitude determination of a 2 by 2 phased array GNSS antenna. [O] . Tabatabaei Balaei Asghar Surveying Spatial Information Systems Faculty of Engineering UNSW, Li Min Surveying Spatial Information Systems Faculty of Engineering UNSW, Dempster Andrew Surveying Spatial Information Systems Faculty of Engineering UNSW 100

机译：2×2相控阵GNss天线的相位校准和姿态确定。
8. In-situ GPS Antenna Phase Center Calibration [R] . Hurst, K., Sever, Y. 1998

机译：现场Gps天线相位中心校准

Calibration of a Six-Axis Robot for GNSS Antenna Phase Center Estimation

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