DORIS Starec ground antenna characterization and impact on positioning

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• 作者：C. Tourain^a ; ^{cedric.tourain@cnes.fr} ; G. Moreaux^b ; ¹ ; ^{gmoreaux@cls.fr} ; A. Auriol^a ; ² ; ^{albert.auriol@cnes.fr} ; J. Saunier^c ; ³ ; ^{jerome.saunier@ign.fr}
• 关键词：Antenna ; Phase center ; Phase law ; Error budget ; International Terrestrial Reference Frame (ITRF) ; Scale factor
• 刊名：Advances in Space Research
• 出版年：2016
• 出版时间：15 December 2016
• 年：2016
• 卷：58
• 期：12
• 页码：2707-2716
• 全文大小：3349 K
• 卷排序：58

文摘

In a geodetic radio frequency observing system the phase center offsets and phase center variations of ground antennae are a fundamental component of mathematical models of the system observables. In this paper we describe work aimed at improving the DORIS Starec ground antenna phase center definition model. Seven antennas were analyzed in the Compact Antenna Test Range (CATR), a dedicated CNES facility. With respect to the manufacturer specified phase center offset, the measured antennae varied between −6 mm and +4 mm due to manufacturing variations. To solve this problem, discussions were held with the manufacturer, leading to an improvement of the manufacturing process. This work results in a reduction in the scatter to ±1 mm. The phase center position has been kept unchanged and associated phase law has been updated and provided to users of the International DORIS Service (IDS). This phase law is applicable to all Starec antennas (before and after manufacturing process consolidation) and is azimuth independent. An error budget taking into account these updated characteristics has been established for the antenna alone: ±2 mm on the horizontal plane and ±3 mm on the up component, maximum error values for antennas named type C (Saunier et al., 2016) produced with consolidated manufacturing process. Finally the impact of this updated characterization on positioning results has been analyzed and shows a scale offset only of the order of +12 mm for the Terrestrial Reference Frame.