Accuracy evaluation and improvement strategies of BeiDou broadcast clock error model

doi:10.11947/j.AGCS.2021.20190411

Abstract

Abstract: The spaceborne atomic clock is the core equipment of Beidou Satellite Navigation System (BDS). Clock error model is an important part of BDS broadcast messages, and its accuracy directly affects the service performance of BDS. In this paper, the accuracy of the BDS clock model is evaluated using the TWSTF clock error measurement as a reference. The results show that the accuracy of the BDS clock model is better than 2 ns (data age less than 12 h). Aiming at the problem of calculating the clock error parameters of BDS, combined with the clock error model solution strategy of the BDS ground segment, this paper proposes a variety of strategies to further improve the accuracy. For the short-term forecast of 1 h duration, this paper proposes a clock error forecast method of weighted linear model and mixed interval linear model. The accuracy of short-term forecast can be increased by more than 20%. For medium and long-term (>6 h), clock error time series is analyzed by spectral method and prediction model is constructed according to the spectral analysis results. Compared with simple quadratic polynomial model, the prediction accuracy of the clock error model is improved by 13% in 6 h and 21% in 12 h on average. For IGSO/MEO satellite, this paper proposes a strategy of using TWSTF equipment delay as parameters to estimate, which improves the accuracy of clock error model by 18% after equipment switching. Finally, using the improvement strategy proposed in this paper, the clock error data from January to June 2017 is reprocessed to obtain a new broadcast clock error model time series. Using the new broadcast clock error model to locate the BDS monitoring receiver, the results show that, the direction accuracy of N, E and U is increased by 14.22%, 29.39% and 14.91% respectively, which significantly improves the service performance of BDS broadcast clock error model.

Key words: BDS, broadcast ephemeris clock error, TWSTF, accuracy assessment, spectral analysis, accuracy improvement

CLC Number:

P228

GONG Xiuqiang, YUAN Junjun, HU Xiaogong, WANG Bin, CHEN Junping, ZHOU Shanshi. Accuracy evaluation and improvement strategies of BeiDou broadcast clock error model[J]. Acta Geodaetica et Cartographica Sinica, 2021, 50(2): 181-188.

References

[1] ZHOU Shanshi, HU Xiaogong, LIU Li, et al. Applications of two-way satellite time and frequency transfer in the BeiDou navigation satellite system[J]. Science China Physics, Mechanics & Astronomy, 2016, 59(10):109511.
[2] 刘利, 韩春好. 卫星双向时间比对及其误差分析[J]. 天文学进展, 2004, 22(3):219-226. LIU Li, HAN Chunhao. Two way satellite time transfer and its error analysis[J]. Progress in Astronomy, 2004, 22(3):219-226.
[3] 刘晓刚, 张丽萍, 陈军, 等. 星地无线电双向时间比对法误差源分析[J]. 测绘科学, 2011, 36(4):24-26, 91. LIU Xiaogang, ZHANG Liping, CHEN Jun, et al. Error sources analysis of the method of two-way satellite-ground time comparison by wireless radio[J]. Science of Surveying and Mapping, 2011, 36(4):24-26, 91.
[4] ZHOU Shanshi, HU Xiaogong, WU Bin. Orbit determination and prediction accuracy analysis for a regional tracking network[J]. Science China Physics, Mechanics and Astronomy, 2010, 53(6):1130-1138.
[5] 巩秀强, 陈俊平, 周善石, 等. 北斗星地双向时频传递与广播钟差精度分析[J]. 天文学进展, 2019, 37(2):178-186. GONG Xiuqiang, CHEN Junping, ZHOU Shanshi, et al. The two way satellite-ground time transfer of BDS and accuracy analysis of broadcast clock[J]. Progress in Astronomy, 2019, 37(2):178-186.
[6] 周善石, 胡小工, 刘利, 等. 导航卫星精密定轨与时间同步技术进展[J]. 天文学报, 2019, 60(4):59-68. ZHOU Shanshi, HU Xiaogong, LIU Li, et al. Status of satellite orbit determination and time synchronization technology for global navigation satellites system[J]. Acta Astronomica Sinica, 2019, 60(4):59-68.
[7] ZHOU Shanshi, HU Xiaogong, WU Bin, et al. Orbit determination and time synchronization for a GEO/IGSO satellite navigation constellation with regional tracking network[J]. Science China Physics, Mechanics and Astronomy, 2011, 54(6):1089-1097.
[8] 王冬霞, 郭睿, 辛洁, 等. 北斗RDSS授时服务性能评估[J]. 测绘科学, 2019, 44(8):132-141, 148. WANG Dongxia, GUO Rui, XIN Jie, et al. Performance evaluation of RDSS timing service for BeiDou system[J]. Science of Surveying and Mapping, 2019, 44(8):132-141, 148.
[9] 王宇谱. GNSS星载原子钟性能分析与卫星钟差建模预报研究[J]. 测绘学报, 2018, 47(7):1026. DOI:10.11947/j.AGCS.2018.20170467. WANG Yupu. Research on modeling and prediction of the satellite clock bias and performance evaluation of GNSS satellite clocks[J]. Acta Geodaetica et Cartographica Sinica, 2018, 47(7):1026. DOI:10.11947/j.AGCS.2018.20170467.
[10] 王冬霞, 郭睿, 谢金石, 等. 北斗新一代导航卫星的组合钟差预报模型及精度评估[J]. 测绘学报, 2018, 47(S0):61-70. DOI:10.11947/j.AGCS.2018.20180283. WANG Dongxia, GUO Rui, XIE Jinshi, et al. Combined clock error prediction model and accuracy evaluation of BeiDou new generation navigation satellite[J]. Acta Geodaetica et Cartographica Sinica, 2018, 47(S0):61-70. DOI:10.11947/j.AGCS.2018.20180283.
[11] LIU Li, TANG Guifen, HAN Chunhao, et al. The method and experiment analysis of two-way common-view satellite time transfer for compass system[J]. Science China Physics, Mechanics & Astronomy, 2015, 58(8):89502.
[12] WANG Bin, LOU Yidong, LIU Jingnan, et al. Analysis of BDS satellite clocks in orbit[J]. GPS Solution, 2016, 20(4):783-794.
[13] MONTENBRUCK O, STEIGENBERGER P, HAUSCHILD A. Broadcast versus precise ephemerides:a multi-GNSS perspective[J]. GPS Solutions, 2015, 19(2):321-333.
[14] WANG Ahao, CHEN Junping, ZHANG Yize, et al. Performance evaluation of the CNAV broadcast ephemeris[J]. The Journal of Navigation, 2019, 72(5):1331-1344.
[15] TANG Guifen, XU Xueqing, CAO Jidong, et al. Precision analysis for Compass satellite clock prediction based on a universal clock offset model[J]. SCIENTIA SINICA Physica, Mechanica & Astronomica, 2015, 45(7):079502.
[16] 郑作亚, 党亚民, 卢秀山, 等. 附有周期项的预报模型及其在GPS卫星钟差预报中的应用研究[J]. 天文学报, 2010, 51(1):95-102. ZHENG Zuoya, DANG Yamin, LU Xiushan, et al. Prediction model with periodic item and its application to the prediction of GPS satellite clock bias[J]. Acta Astronomica Sinica, 2010, 51(1):95-102.
[17] 郭海荣. 导航卫星原子钟时频特性分析理论与方法研究[D]. 郑州:信息工程大学, 2006. GUO Hairong. Study on the analysis theories and algorithms of the time and frequency characterization for atomic clocks of navigation satelliets[D]. Zhengzhou:Information Engineering University, 2006.
[18] 郑作亚, 卢秀山. 几种GPS卫星钟差预报方法比较及精度分析[J]. 山东科技大学学报(自然科学版), 2008, 27(4):6-11, 15. ZHENG Zuoya, LU Xiushan. Comparison and precision analysis of several GPS satellite clock bias prediction methods[J]. Journal of Shandong University of Science and Technology (Natural Science), 2008, 27(4):6-11, 15.
[19] YANG Yuanxi, LI Jinlong, WANG Aibing, et al. Preliminary assessment of the navigation and positioning performance of BeiDou regional navigation satellite system[J]. Science China Earth Sciences, 2014, 57(1):144-152.
[20] LOU Yidong, LIU Yang, SHI Chuang, et al. Precise orbit determination of BeiDou constellation based on BETS and MGEX network[J]. Scientific Reports, 2014, 4:4692.
[21] ZENG Tian,SUI Lifen,JIA Xiaolin, et al. Results and Analyses of BDS Precise Orbit Determination with the Enhancement of Fengyun-3C[J]. Journal of Geodesy and Geoinformation Science, 2019, 2(3):68-78.
[22] YANG Yuanxi. Resilient PNT Concept Frame[J]. Journal of Geodesy and Geoinformation Science, 2019, 2(3):1-7.DOI:10.11947/j.JGGS.2019.0301.