Experimental study of the field methodology for assessing the accuracy of GNSS measurements

Geodesy and cartography Pub Date : 2023-11-20 DOI:10.22389/0016-7126-2023-1000-10-12-21

V. Kaftan, V. Tatarinov, R.V. Shevchuk, A. Manevich, A.V. Kaftan

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Abstract

The authors propose a field control of GNSS equipment precision characteristics methodology for recording sub-centimeter movements of the Earth`s surface at geodynamic observations of tectonically moderate areas activity. The factors influencing the accuracy of GNSS measurements are analyzed. The theoretical aspects of developing measuring equipment field control methods are presented. Testing of the devices was carried out in the course of surveys on the Nizhne-Kanskiy massif geodynamic range in Krasnoyarsk krai in 2020–2022. The experiment was made with two-system GNSS facilities of geodesic class (5 to 6 sets). The results show that the proposed methodology of the used tools accuracy characteristics field control enables detecting incorrect nominal parameters of measuring instruments. In this case the parameters of the receivers` antennas are well coordinated with each other. The exactness of control characteristics in plan is at the level of 1,3–2,5 mm, in height – 2,5 mm. It was revealed that the height of the actual phase center of Grant_G3T and MarAnt+ antennas differ from the manufacturer`s declared passport data

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评估全球导航卫星系统测量精确度的实地方法实验研究

作者提出了一种实地控制全球导航卫星系统设备精度特性的方法，用于在对构造适中地区活动进行地球动力观测时记录地球表面亚厘米级的运动。分析了影响全球导航卫星系统测量精度的因素。介绍了开发测量设备现场控制方法的理论方面。在 2020-2022 年对克拉斯诺亚尔斯克边疆区下-坎斯克地块地球动力范围进行勘测的过程中对设备进行了测试。实验使用了测地类双系统全球导航卫星系统设施（5 至 6 套）。结果表明，所建议的使用工具精度特征现场控制方法能够检测出测量仪器的错误标称参数。在这种情况下，接收器天线的参数彼此协调良好。平面控制特征的精确度为 1.3-2.5 毫米，高度为 2.5 毫米。结果表明，Grant_G3T 和 MarAnt+ 天线的实际相位中心高度与制造商公布的护照数据不同

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Geodesy and cartography

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