Performance Evaluation of Precise Point Positioning Using Dual Frequency Multi-GNSS Observations

IF 0.7 Q4 ASTRONOMY & ASTROPHYSICS
Jabir Shabbir Malik
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引用次数: 3

Abstract

Abstract In addition to GPS and GLONASS constellation, the number of (Global Navigation Satellite System) GNSS satellites are increasing, it is now possible to evaluate and analyze the position accuracy with multi GNSS constellation. In this paper, statistical assessment of static Precise Point Positioning (PPP) using GPS, GLONASS, dual system GPS/GLONASS, three system GPS/GLONASS/Galileo, GPS/GLONASS/BeiDou and multi system GPS/GLONASS/Galileo/BeiDou PPP combinations is evaluated. Observation data of seven whole days from seven IGS multi GNSS experiment (MGEX) stations is used for analysis. Position accuracy and convergence time is analyzed. Results show that the GPS/GLONASS positioning accuracy increases over GPS PPP. Standard deviations (STDs) of position errors for GPS PPP are 4.63, 3.00 and 6.96 cm in east, north and up components while STDs for GPS/GLONASS PPP are 4.10, 3.42 and 6.50 cm respectively. Root mean square for three dimension (RMS3D) for GPS/GLONASS PPP solution is 8.96 cm. With the addition of Galileo and BeiDou to the combined GPS/GLONASS further enhances the positioning accuracy. Root mean square for horizontal component reach to 5.35 cm of GPS/GLONASS/Galileo/BeiDou PPP solutions. Results analysis of GPS/GLONASS/Galileo PPP solutions show an improvement of convergence time by only 3.81% to achieve accuracy level of 3.0 cm over GPS/GLONASS/BeiDou PPP mode. Results also demonstrate that position accuracy improvement after adding BeiDou observations to the GPS/GLONASS PPP mode is not significant.
利用双频多GNSS观测进行精确点定位的性能评估
摘要除了GPS和GLONASS星座外,(全球导航卫星系统)GNSS卫星的数量也在增加,现在可以使用多GNSS星座来评估和分析位置精度。本文对GPS、GLONASS、双系统GPS/GLONASS、三系统GPS/GRONASS/Gileo、GPS/GLONAS/北斗和多系统GPS/GONASS/Gileo/北斗PPP组合的静态精密点定位(PPP)进行了统计评估。使用七个IGS多GNSS实验站的七整天观测数据进行分析。分析了位置精度和收敛时间。结果表明,GPS/GLONASS定位精度高于GPS PPP。GPS PPP的东分量、北分量和上分量的位置误差的标准差分别为4.63、3.00和6.96cm,而GPS/GLONASS PPP的标准差则分别为4.10、3.42和6.50cm。GPS/GLONASS PPP解决方案的三维均方根(RMS3D)为8.96cm。在GPS/GLONASS组合方案中添加伽利略和北斗,进一步提高了定位精度。GPS/GLONASS/Galileo/北斗PPP解决方案的水平分量均方根达到5.35cm。对GPS/GLONASS/Gileo PPP解决方案的结果分析表明,与GPS/GLONAS/北斗PPP模式相比,收敛时间仅提高3.81%,达到3.0cm的精度水平。结果还表明,将北斗观测加入GPS/GLONASS PPP模式后,位置精度的提高并不显著。
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CiteScore
1.00
自引率
11.10%
发文量
0
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