绝对实时多gnss运动定位性能

IF 0.7 Q4 ASTRONOMY & ASTROPHYSICS Artificial Satellites-Journal of Planetary Geodesy Pub Date : 2018-06-01 DOI:10.2478/arsa-2018-0007
K. Kaźmierski
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引用次数: 8

摘要

摘要近年来,全球卫星导航系统(GNSS)发展迅速,包括精确点定位(PPP)等自主定位技术。由于GNSS概念不同、航天器不同、使用的轨道类型不同,导致实时轨道和时钟产品质量不一致,因此需要采用合适的多GNSS观测处理方法来优化解的质量。为了检验多gnss实时标准点定位(SPP)和PPP性能,本文进行了动态现场实验。测试是在26公里长的汽车路线上进行的,经过村庄、森林、Wrocław城市,穿过高架桥和高压线。该解决方案首次基于GPS + GLONASS +伽利略+北斗观测,使用两种不同加权方案对轨道和时钟进行流校正。由于使用多gnss星座,可以确定的定位历元数增加了10%。结果还表明,适当的加权方法可以使SPP溶液的均方根误差在水平和垂直坐标分量上分别提高约13%和42%。在PPP的情况下,水平分量的最大质量改善等于70%,垂直分量的结果与仅gps解决方案的结果相当。
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Performance of Absolute Real-Time Multi-GNSS Kinematic Positioning
Abstract Recently, we observe the rapid development of the Global Navigational Satellite Systems (GNSS), including autonomous positioning techniques, such as Precise Point Positioning (PPP). The GNSS have different conceptions, different spacecraft and use different types of orbits which is why the quality of real-time orbit and clock products is inconsistent, thus, the appropriate approach of the multi-GNSS observation processing is needed to optimize the solution quality. In this paper, the kinematic field experiment is conducted in order to examine multi-GNSS real-time Standard Point Positioning (SPP) and PPP performance. The test was performed on the 26 km-long car route through villages, forests, the city of Wrocław, crossing under viaducts and a high tension line. For the first time, the solution is based on GPS + GLONASS + Galileo + BeiDou observations using streamed corrections for orbits and clocks with two different weighting scenarios. Thanks to the usage of the multi-GNSS constellation the number of positioning epochs possible to determine increases by 10%. The results show also that the appropriate weighting approach can improve the root mean square error in the SPP solution by about 13% and 42% for the horizontal and vertical coordinate components, respectively. In the case of PPP, the maximum quality improvement equals 70% for the horizontal component and the results for the vertical component are comparable with those obtained for the GPS-only solution.
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