变形监测卫星网地面增强的几何方面

IF 0.7 Q4 ASTRONOMY & ASTROPHYSICS Artificial Satellites-Journal of Planetary Geodesy Pub Date : 2016-06-01 DOI:10.1515/arsa-2016-0007
Elżbieta Protaziuk
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引用次数: 4

摘要

卫星测量在许多工程测量任务中具有竞争力,然而,在许多有要求的应用中,应用这种解决方案的可能性仍然有限。广泛应用卫星技术进行位移测量的可能性与新的挑战有关;其中最重要的是对位置测定结果的准确性、可靠性和连续性的要求越来越高。解决办法之一是对卫星网络进行地面增强,其目的是提高定位精度,确保坐标的可比精度,并减少精度随时间的波动。在以下情况下,增强全球导航卫星系统的需求尤为重要:由于地形障碍,卫星的能见度较差,确定的位置不够精确,或卫星星座不允许进行可靠定位。放置在地面的地面卫星信号源,称为伪卫星或伪卫星,在过去二十年中得到了深入研究,并最终发展成为地面的时间同步收发器,可以发射和接收专有定位信号。本文介绍了利用各种定位几何质量措施对卫星网络进行地基增强的几何方面,这取决于卫星星座的接入和观测环境的条件。如何使这些度量最小化是保证高精度定位的关键问题。为此,提出了误差椭球的使用,并与误差椭圆进行了比较。文中还介绍了在试验区进行的初步精度分析结果,并对各种定位几何质量指标进行了比较。
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Geometric Aspects of Ground Augmentation of Satellite Networks for the Needs of Deformation Monitoring
Abstract Satellite measurements become competitive in many tasks of engineering surveys, however, in many requiring applications possibilities to apply such solutions are still limited. The possibility to widely apply satellite technologies for displacements measurements is related with new challenges; the most important of them relate to increasing requirements concerning the accuracy, reliability and continuity of results of position determination. One of the solutions is a ground augmentation of satellite network, which intention is to improve precision of positioning, ensure comparable accuracy of coordinates and reduce precision fluctuations over time. The need for augmentation of GNSS is particularly significant in situations: where the visibility of satellites is poor because of terrain obstacles, when the determined position is not precise enough or a satellites constellation does not allow for reliable positioning. Ground based source/sources of satellite signal placed at a ground, called pseudosatellites, or pseudolites were intensively investigated during the last two decades and finally were developed into groundbased, time-synchronized transceivers, that can transmit and receive a proprietary positioning signal. The paper presents geometric aspects of the ground based augmentation of the satellite networks using various quality measures of positioning geometry, which depends on access to the constellation of satellites and the conditions of the observation environment. The issue of minimizing these measures is the key problem that allows to obtain the position with high accuracy. For this purpose, the use of an error ellipsoid is proposed and compared with an error ellipse. The paper also describes the results of preliminary accuracy analysis obtained at test area and a comparison of various measures of the quality of positioning geometry.
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