| 372 | 6 | 50 |
| 下载次数 | 被引频次 | 阅读次数 |
实时改正产品对于北斗实时精密定位和定时至关重要,北斗三号通过PPP-B2b信号播发实时轨道和钟差改正产品。为了验证PPP-B2b改正产品恢复的实时精密轨道和钟差的精度,利用接收机获取的PPP-B2b实时轨道和钟差改正产品对广播星历和广播钟差进行改正,然后以GFZ最终产品作为参考,分析评估了北斗三号MEO(mediumEarthorbit)卫星和IGSO(inclined geosynchronous orbit)卫星实时精密产品的精度。试验结果表明:BDS-3卫星R方向实时轨道误差RMS值优于0.1215 m,T方向误差RMS值优于0.292 2 m,N方向误差RMS值优于0.360 5 m,三维RMS值优于0.640 2 m;BDS-3卫星实时钟差误差RMS值优于1.619 2 ns,STD值优于0.092 0 ns。结果表明:PPP-B2b实时改正产品基本可满足BDS-3实时高精度定位和定时的需求。
Abstract:Real-time correction products are very important for Beidou real-time precise positioning and timing. Beidou-3 broadcasts real-time orbit and clock correction products through PPP-B2b signals. In order to verify the accuracy of the real-time precise orbit and clock error recovered by the PPP-B2b correction product,the broadcast ephemeris and broadcast clock error were corrected using the PPP-B2b real-time orbit and clock error correction product obtained by the receiver. The final GFZ product was then used as the reference. The analysis evaluates the accuracy of the real-time precision products of the Beidou-3 MEO and IGSO satellites.The test results showed that the RMS value of the real-time orbital error in the radial direction of the BDS-3satellite is better than 0.121 5 m, the RMS value of the along-track direction error is better than 0.292 2 m, the RMS value of the cross-track direction error is better than 0.360 5 m, and the three-dimensional RMS value is better than 0.640 2 m. The RMS value of Beidou-3 satellite real-time clock error is better than 1.619 2 ns. The results verified that the PPP-B2b real-time correction product can basically meet the needs of the BDS-3 realtime high-precision positioning and timing.
[1]中国卫星导航系统管理办公室.北斗卫星导航系统应用服务体系[Z]. 1.0版. 2019.
[2]贺延伟,贾小林,刘家龙,等. BDS-3与BDS-2基本服务性能对比分析[J].导航定位学报, 2022, 10(1):20-28.
[3]中国卫星导航系统管理办公室.北斗系统空间信号接口控制文件PPP-B2b[Z]. 1.0版. 2020.
[4]王胜利,王庆,高旺,等. IGS实时产品质量分析及其在实时精密单点定位中的应用[J].东南大学学报(自然科学版),2013, 43(S2):365-369.
[5]刘志强,王解先.广播星历SSR改正的实时精密单点定位及精度分析[J].测绘科学, 2014, 39(1):15-19+109.
[6]赖允斌,赵春梅,李子申.不同星历下实时精密单点定位精度分析[J].测绘通报, 2015(8):9-12.
[7]夏凤雨,叶世榕,赵乐文,等.基于SSR改正的实时精密单点定位精度分析[J].导航定位与授时, 2017, 4(3):52-57.
[8]赵爽,杨力,郜尧.基于SSR信息的GPS实时精密单点定位性能分析[J].大地测量与地球动力学, 2019, 39(9):952-955.
[9]王乐,解世超,黄观文,等.北斗三号实时轨道改正数生成及服务性能分析[J].测绘地理信息, 2020, 45(4):51-56.
[10]何旭蕾,刘成,陈颖,等.北斗三号卫星B2b信号解析[J].电子技术应用, 2020, 46(3):1-4+13.
[11]宋伟伟,赵新科,楼益栋,等.北斗三号PPP-B2b服务性能评估[J].武汉大学学报(信息科学版), 2023, 48(3):1-11.
[12]黄伦文,孟宪伟.基于北斗3号PPP-B2b信号的精密单点定位精度分析[J].大地测量与地球动力学, 2021,41(5):516-519.
[13]郭忠臣,高井祥,曹新运.北斗广播星历轨道及钟差精度分析[J].煤炭技术, 2015, 34(7):113-116.
[14]张晓旭,陈国通,张璞,等.基于i GMAS的BDS卫星广播轨道精度分析[J].无线电工程, 2018, 48(10):827-830.
[15]王朝辉,马下平,严丽,等.北斗三号全球卫星导航系统的广播星历精度评估[J].测绘通报, 2021(1):59-65+98.
[16] HUANG G, CUI B B, ZHANG Q, et al. An improved predicted model for BDS ultra-rapid satellite clock offsets[J]. Remote Sensing, 2018, 10(1):60.
[17]中国卫星导航系统管理办公室.北斗卫星导航系统空间信号接口控制文件公开服务信号[Z]. 2.1版. 2016.
[18]党亚民,秘金钟,成英燕.全球导航卫星系统原理与应用[M].北京:测绘出版社, 2007.
[19]辛洁,陈茜,郭睿,等.北斗三号与北斗二号基本导航电文参数比较[J].测绘科学, 2020, 45(4):32-38.
基本信息:
DOI:10.13875/j.issn.1674-0637.2023-02-0141-09
中图分类号:P228.4
引用信息:
[1]赵淑洁,赵当丽,黄媛媛,等.基于PPP-B2b改正产品的北斗实时精密星历精度分析[J].时间频率学报,2023,46(02):141-149.DOI:10.13875/j.issn.1674-0637.2023-02-0141-09.
基金信息:
中国科学院青年创新促进会资助项目(2019399)
2023-04-15
2023-04-15