摘要
GNSS星基差分增强系统依赖于实时轨道及钟差增强信息。本文主要研究多GNSS实时精密钟差估计模型,在传统非差基础上优化待估参数,实现了一种高效的Multi-GNSS实时钟差简化估计模型。基于PANDA软件开展了实时轨道数据处理与分析,经过验证可获得的GPS/北斗MEO/Galileo实时轨道径向精度1~5cm,北斗GEO/IGSO卫星径向精度约10cm。分析发现本文优化的实时钟差简化估计模型单历元解算效率较高,可应用于实时钟差增强信息高频(如1Hz)更新,且解算获得的实时钟差不存在常偏为绝对钟差;基于实时轨道,通过该模型可获得实时钟差精度GPS约0.22ns,北斗GEO约0.50ns、IGSO/MEO约0.24ns,Galileo约0.32ns。在此基础上,利用目前所获取的MultiGNSS实时数据流搭建了Multi-GNSS全球实时增强原型系统,并基于互联网实时播发增强信息,可初步实现实时PPP厘米级服务、伪距米级导航定位服务。
GNSS satellite-based differential augment system is based on real-time orbit and clock augment message.The multi-GNSS real-time precise clock error estimation model is studied,and then the parameters estimated in traditional un-difference model are optimized and a high-efficient real-time clock simplified model is proposed and realized.The real-time orbit data processing based on PANDA is also analyzed.The results indicate that the real-time orbit radial accuracy of GPS,BeiDou MEO and Galileo is 1~5cm,and the radial accuracy of the BeiDou GEO/IGSO satellite is about 10 cm.It is found that the optimized real-time clock simplified model is more efficient in one epoch than un-difference model and can be applied to high-frequency(such as 1Hz)updating of real-time clock augment message.The results show that the real-time clock error obtained by this model is absolute value and there is no constant bias.Based on the real-time orbit,the GPS real-time clock precision of the simplified model is about 0.24 ns,BeiDou GEO is about 0.50 ns,IGSO/MEO is about 0.22 ns and Galileo is about 0.32 ns.Using the multi-GNSS real-time data stream in GFZ,a multi-GNSS real-time augment prototype system is built and the real-time augment message is being broadcasted on the Internet.The real-time PPP centimeter-level service and meter-level navigation service based on pseudorange are realized based on this prototype system.
出处
《测绘学报》
EI
CSCD
北大核心
2016年第S2期12-21,共10页
Acta Geodaetica et Cartographica Sinica
基金
国家自然科学基金青年科学基金(41604029)
国家留学基金航天国际化创新型人才培养项目([2015]5138)~~