EURO5000校准基线下EDM-GNSS距离比较:初步结果

IF 1.2 Q4 REMOTE SENSING
K. Wezka, L. García-Asenjo, D. Próchniewicz, S. Baselga, R. Szpunar, P. Garrigues, J. Walo, Raquel Luján
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引用次数: 4

摘要

摘要在波兰的Pieniny Klippen带,作为欧洲研究项目GeoMetre的一部分,需要新的主要参考基线EURO5000,以验证折射率补偿EDM原型,并研究基于GNSS的距离的计量可追溯性。由于5 km(k=2)处的目标不确定性为1 mm,因此必须仔细准备设计、施工和验证,以满足计划于2022年5月进行的GeoMetre现场活动的高标准。这篇文章描述了EURO5000的主要特征,并介绍了初步验证的结果,其中包括通过使用当前可用的精确EDM以及遵循标准GNSS大地测量处理算法的GNSS技术获得的结果之间的第一次比较,以及UPV开发的改进的基于全球导航卫星系统的测距仪(GBDM+)方法。本贡献中提出的初步验证还允许(1)检测基线使用中的潜在问题,如潜在的地球动力学问题、大气折射或多路径限制,(2)产生一组可靠的结果,以及(3)为新EDM和GBDM+方法之间的最终现场比较铺平道路。该计量实验的结果可能有助于克服当前高精度变形监测应用的局限性,这些应用要求其刻度在几公里内与0.1 ppm以内的SI米一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EDM-GNSS distance comparison at the EURO5000 calibration baseline: preliminary results
Abstract At the Pieniny Klippen Belt in Poland, the novel primary reference baseline EURO5000 is required as part of the European Research project GeoMetre to both validate refractivity-compensated EDM prototypes and investigate the metrological traceability of GNSS-based distances. Since the aimed uncertainty is 1 mm at 5 km (k = 2), the design, construction, and validation must be carefully prepared to fulfil the high standards of the GeoMetre field campaigns which are planned to be carried out in May 2022. This contribution describes the main features of the EURO5000 and presents the results of the preliminary validation which includes a first comparison between the results obtained by using precise currently available EDMs as well as GNSS techniques following the standard GNSS geodetic processing algorithms, on the one hand, and the improved GNSS-Based Distance Meter (GBDM+) approach developed at UPV, on the other hand. The preliminary validation presented in this contribution also permits (1) to detect potential problems in the use of the baseline such as potential geodynamic problems, atmospheric refraction or multipath limitations, (2) to produce a set of reliable results, and (3) to pave the way for the final field comparisons between the novel EDMs and the GBDM+ approach. The result of this metrological experiment may significantly contribute to overcome the limitations of current high-precision deformation monitoring applications that require their scale to be consistent with the SI-metre within 0.1 ppm in several km.
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来源期刊
Journal of Applied Geodesy
Journal of Applied Geodesy REMOTE SENSING-
CiteScore
2.30
自引率
7.10%
发文量
30
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