共查询到18条相似文献,搜索用时 109 毫秒
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随着北斗卫星导航系统的建成与运行,目前已形成多系统导航定位的局面。基于短基线,首先对密林地区的GPS、BDS、GLONASS的卫星可见性以及伪距观测值的质量进行了简单的评价,然后分析了密林地区GPS、BDS、GLONASS单系统、双系统及三系统组合模式下单点定位及伪距差分定位性能。结果表明:在密林地区,GNSS多系统组合能够明显提高定位精度,GPS/BDS组合定位的精度优于GPS/GLONASS、BDS/GLONASS组合,而GPS/BDS/GLONASS的定位精度最高。 相似文献
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合理的观测值权阵能提高BDS、GPS及其组合系统伪距单点定位的精度。对比分析了各系统在实测数据和模拟观测条件下等权模型、高度角模型、Helmert方差分量模型3种随机模型的定位精度。结果表明:在模拟观测条件下, BDS/GPS组合系统精度最高,BDS系统次之,基于Helmert方差分量模型的精度最优,高度角模型次之;在正常观测条件下, BDS系统平面精度高于GPS系统,但高程精度低于GPS系统,其余结论与模拟条件下结果一致。研究结果可在提高BDS、GPS及其组合系统伪距单点定位精度方法中起参考作用。 相似文献
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为了提高多系统组合单点定位的运算效率,将Bancroft算法推广应用于GPS/BDS/GLONASS三系统伪距单点定位,并推导了该方法的详细计算流程,比较了Bancroft算法、最小二乘算法和组合两种算法的精度、迭代次数以及运算时间。利用实测数据进行实验,结果表明,3种算法精度相当,Bancroft算法比最小二乘算法迭代次数少,运算效率提高了38%,利用Bancroft为最小二乘算法提供初值,收敛速度加快,运算效率提高了36%。最终得出结论,Bancroft算法应用于GPS/BDS/GLONASS三系统伪距单点定位满足精度要求,且Bancroft算法对于减少迭代次数,提高运算效率有重要意义。 相似文献
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目前IGS共提供6类精度和时效性不同的精密星历产品,为了验证不同精度和时效性的IGS精密星历产品在海洋测绘中的适用情况,使用6类不同的IGS精密星历产品,分别对固定点观测数据和海上浮动点观测数据进行精密单点定位解算,并对解算结果分别进行比对分析和统计。固定点比对结果表明,IGS和IGR精密星历精密单点定位解算在平面位置方向均能达到平均8厘米的外符合精度,IGU00至IGU18精密单点定位解算精度稍差,平面外符合精度在10~13cm,且精度随着发布时间的推迟而提高;PPP潮位的解算结果表明,从IGS至IGU18,高程方向的解算精度相当,和固定潮位站的数据相比,均方根差在16~18cm。 相似文献
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The IGS Real-time Pilot Project (IGS-RTPP) provides real-time precise orbits and clocks, which support real-time positioning for single stations over large areas using the Precise Point Positioning (PPP) technique. This paper investigates the impact of real-time orbits, network configuration, and analysis strategies on real-time PPP implementation and demonstrates the real-time PPP performance. One month of data from the IGS network is analyzed in a real-time simulation mode. Results reveal the following: (1) In clock estimation, differential approaches are much more efficient than the zero-differenced approach. (2) The precision of IGS Ultra rapid (IGU) orbits could meet the IGS-RTPP requirement for precise clock estimation and PPP positioning. (3) Considering efficiency and precision, a network with 50 stations is recommended for the IGS-RTPP. It is demonstrated that the real-time satellite clock precision is 0.1 ns supporting hourly static PPP with a mean precision of 2–3 cm in the North component and 3–4 cm in the other components. Kinematic PPP assessed with onboard GPS data collected from a buoy provided mean coordinate precision of 2.2, 4.2, 6.1 cm in the North, East and Up directions, compared to the RTK solutions. 相似文献
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The Indian Regional Navigation Satellite System (IRNSS) has recently (as of May 2016) become operational. The system has been developed with the objective of offering positioning, navigation, and timing (PNT) to users in its two service areas, covering the Indian landmass and the Indian Ocean, respectively. It is the goal of this contribution to provide further insight into the full-constellation L5 pseudorange single-point positioning (SPP) capabilities of the system. A detailed dilution of precision (DOP) analysis of its two service areas, including the identification, in location and time, of poor receiver-satellite geometries is provided. It is hereby demonstrated how the impact of some of these poor receiver-satellite geometries can be mitigated by means of height-constraining. An overview and analysis of the SPP precision is also provided including easy-to-use representative day-averaged values for a grid of locations covering the two service areas. 相似文献
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