A Precise Point Timing Method Based on BDS-3 B2b Signal

YI Qing-wu; YU Bao-guo; WANG Bin-bin; SHENG Chuan-zhen

doi:10.12263/DZXB.20211177

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A Precise Point Timing Method Based on BDS-3 B2b Signal

INTELLIGENT TIME-SPATIAL INFORMATION SERVICE TECHNOLOGY | 更新时间：2025-12-08

- A Precise Point Timing Method Based on BDS-3 B2b Signal
- ACTA ELECTRONICA SINICA Vol. 50, Issue 4, Pages: 832-840(2022)
- 作者机构：
  
  1.西安电子科技大学电子工程学院，陕西西安 710071
  2.卫星导航系统与装备技术国家重点实验室，河北石家庄 050081
  3.中国电子科技集团公司第五十四研究所，河北石家庄 050081
- 作者简介：
- 基金信息：
- DOI：10.12263/DZXB.20211177
  CLC： TN911;P228
- Received：30 August 2021，
  
  Revised：2022-02-18，
  
  Published：25 April 2022
- 稿件说明：
移动端阅览
易卿武,蔚保国,王彬彬等.一种基于北斗三号B2b信号的精密单点授时方法[J].电子学报,2022,50(04):832-840.

YI Qing-wu,YU Bao-guo,WANG Bin-bin,et al.A Precise Point Timing Method Based on BDS-3 B2b Signal[J].ACTA ELECTRONICA SINICA,2022,50(04):832-840.
易卿武,蔚保国,王彬彬等.一种基于北斗三号B2b信号的精密单点授时方法[J].电子学报,2022,50(04):832-840. DOI： 10.12263/DZXB.20211177.

YI Qing-wu,YU Bao-guo,WANG Bin-bin,et al.A Precise Point Timing Method Based on BDS-3 B2b Signal[J].ACTA ELECTRONICA SINICA,2022,50(04):832-840. DOI： 10.12263/DZXB.20211177.

摘要

授时是卫星导航系统的基本服务之一，在先进电子设备研制和智能时空信息服务中具有重要作用.针对当前全球卫星导航系统（Global Navigation Satellite System，GNSS）授时方法存在的受地面共视观测站和通信网络限制的问题，本文提出一种基于北斗三号B2b信号的精密单点授时方法（B2b signal based Precise Point Timing，B2b-PPT）.该方法利用北斗三号地球静止轨道（Geostationary Earth Orbit，GEO）卫星播发的B2b信号，结合双频伪距和载波相位观测值，根据精密单点定位算法实时估算接收机钟差.经过世界协调时（Universal Time Coordinated，UTC）偏差改正和硬件延迟校准后，B2b-PPT接收机对本地时钟进行驯服，从而实现高精度时频同步.基于iGMAS（international GNSS Monitoring and Assessment System）观测站的实验结果表明：使用B2b-PPT方法的单站授时精度为0.58 ns，10 h的频率稳定度为

http://html.publish.founderss.cn/rc-pub/api/common/picture?pictureId=39125940&type=

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9.82133293

2.28600001

；站间模式的授时精度为0.33 ns，10 h的频率稳定度为

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9.90600014

2.28600001

.与传统的精密单点授时方法相比，B2b-PPT方法授时精度更高，并且具有成本低、不依赖地面通信网络和分析中心的优势.

Abstract

Timing is one of the basic services of GNSS(Global Navigation Satellite System) and plays an important role in advanced electronic equipment developing and intelligent spatiotemporal information service. Current GNSS timing methods are limited to common-view station and communication network. To deal with these problems

we propose a precise point timing method based on BDS-3(BeiDou Navigation Satellite System) B2b signal

called B2b-PPT(B2b signal based Precise Point Timing)

which using dual frequency observations and estimating receiver clock by precise point positioning algorithm. After UTC(Universal Time Coordinated) bias correction and hardware delay calibration

the B2b-PPT receiver disciplines the clock to realize precise time-frequency synchronization. Experimental results based on iGMAS(international GNSS Monitoring and Assessment System) stations show that the accuracy of timing using B2b-PPT method is 0.58 ns and the frequency stability at 10 hours is 6.9E-15 in single station mode

corresponding indicators are 0.33 ns and 1.1E-14 respectively in station difference mode. In conclusion

the performance of B2b-PPT method is better than traditional GNSS precise point timing method

and the B2b-PPT method also has the advantage of low cost and being independent of ground communication network and analysis center.

关键词

Keywords

references

漆贯荣 . 时间科学基础 [M]. 北京 : 高等教育出版社 , 2006 .

QI G R . Fundamentals of Time Science [M]. Beijing : Higher Education Press , 2006 . (in Chinese)

吴海涛 , 李变 , 武建锋 . 北斗授时技术及其应用 [M]. 北京 : 电子工业出版社 , 2016 .

DACH R , HUGENTOBLER U , SCHILDKNECHT T , ET AL . Precise continuous time and frequency transfer using GPS carrier phase [C]// Proceedings of the 2005 IEEE International Frequency Control Symposium and Exposition . Vancouver : IEEE , 2005 : 329 - 336 .

张鹏飞 . GNSS载波相位时间传递关键技术与方法研究 [D]. 西安 : 中国科学院大学 , 2019 .

ZHANG P F . The Research of Key Technology and Approach for Time and Frequency Transfer Based on GNSS Carrier Phase Observation [D]. Xi'an : National Time Service Center, Chinese Academy of Sciences , 2019 . (in Chinese)

伍贻威 , 朱祥维 , 龚航 , 等 . 建立GNSS时间基准的构想和思考 [J]. 电子学报 , 2017 , 45 ( 8 ): 1818 - 1826 .

WU Y W , ZHU X W , GONG H , et al . Concepts and thoughts of forming a GNSS time scale [J]. Acta Electronica Sinica , 2017 , 45 ( 8 ): 1818 - 1826 . (in Chinese)

李宗扬 , 刘洪琴 . GPS共视法时间同步试验 [J]. 宇航计测技术 , 1988 , 8 ( 5 ): 8 - 15 .

LI Z Y , Liu H Q . Time synchronization test using GPS common-view approach [J]. Journal of Astronautic Metrology and Measurement , 1988 , 8 ( 5 ): 8 - 15 . (in Chinese)

KOUBA J , HéROUX P . Precise point positioning using IGS orbit and clock products [J]. GPS Solutions , 2001 , 5 ( 2 ): 12 - 28 .

张继海 , 董绍武 , 袁海波 , 等 . 基于状态协方差阵加权的GPS PPP应用研究 [J]. 电子学报 , 2020 , 48 ( 11 ): 2196 - 2201 .

ZHANG J H , DONG S W , YUAN H B , et al . Research of GPS PPP based on weighted state covariance matrix [J]. Acta Electronica Sinica , 2020 , 48 ( 11 ): 2196 - 2201 . (in Chinese)

葛玉龙 . 多频多系统精密单点定位时间传递方法研究 [D]. 西安 : 中国科学院国家授时中心 , 2020 .

GE Y L . Research on Methodology of Multi-Frequency and Multi-GNSS Precise Point Positioning Time Transfer [D]. Xi'an : National Time Service Center, Chinese Academy of Sciences , 2020 . (in Chinese)

施闯 , 张东 , 宋伟 , 等 . 北斗广域高精度时间服务原型系统 [J]. 测绘学报 , 2020 , 49 ( 3 ): 269 - 277 .

SHI C , ZHANG D , SONG W , et al . BeiDou wide-area precise timing prototype system [J]. Acta Geodaetica et Cartographica Sinica , 2020 , 49 ( 3 ): 269 - 277 . (in Chinese)

郭树人 , 蔡洪亮 , 孟轶男 , 等 . 北斗三号导航定位技术体制与服务性能 [J]. 测绘学报 , 2019 , 48 ( 7 ): 810 - 821 .

GUO S R , CAI H L , MENG Y N , et al . BDS-3 RNSS technical characteristics and service performance [J]. Acta Geodaetica et Cartographica Sinica , 2019 , 48 ( 7 ): 810 - 821 . (in Chinese)

于合理 , 郝金明 , 田英国 , 等 . GNSS单站授时系统性偏差分析 [J]. 大地测量与地球动力学 , 2017 , 37 ( 1 ): 30 - 34 .

YU H L , HAO J M , TIAN Y G , et al . Analysis of systematic bias of single station time service [J]. Journal of Geodesy and Geodynamics , 2017 , 37 ( 1 ): 30 - 34 . (in Chinese)

贺成艳 , 郭际 , 郝振圆 , 等 . 北斗卫星导航系统伪距偏差特性及减轻措施研究 [J]. 电子学报 , 2021 , 49 ( 5 ): 920 - 927 .

HE C Y , GUO J , HAO Z Y , et al . Study on the characteristics and mitigation measurements of BDS pseudorange biases [J]. Acta Electronica Sinica , 2021 , 49 ( 5 ): 920 - 927 . (in Chinese)

许龙霞 , 李孝辉 , 陈婧亚 . 一种高精度GNSS单向授时方法实现研究 [J]. 时间频率学报 , 2016 , 39 ( 4 ): 290 - 300 .

XU L X , LI X H , CHEN J Y . Realization of a GNSS one-way time-service method [J]. Journal of Time and Frequency , 2016 , 39 ( 4 ): 290 - 300 . (in Chinese)

LEE S W , SCHUTZ B E , LEE C B , et al . A study on the Common-View and All-in-View GPS time transfer using carrier-phase measurements [J]. Metrologia , 2008 , 45 ( 2 ): 156 - 167 .

于合理 , 郝金明 , 刘伟平 , 等 . 附加原子钟物理模型的PPP时间传递算法 [J]. 测绘学报 , 2016 , 45 ( 11 ): 1285 - 1292 .

YU H L , HAO J M , LIU W P , et al . A time transfer algorithm of precise point positioning with additional atomic clock physical model [J]. Acta Geodaetica et Cartographica Sinica , 2016 , 45 ( 11 ): 1285 - 1292 . (in Chinese)

GE Y L , ZHOU F , LIU T J , et al . Enhancing real-time precise point positioning time and frequency transfer with receiver clock modeling [J]. GPS Solutions , 2019 , 23 ( 1 ): 1 - 14 .

NIE Z X , XU X F , WANG Z J , et al . Initial assessment of BDS PPP-B2b service: Precision of orbit and clock corrections, and PPP performance [J]. Remote Sensing , 2021 , 13 ( 11 ): 2050 .

GU X Y , ZHU B C . An improved method of ambiguity resolution in GNSS positioning [J]. Chinese Journal of Electronics , 2019 , 28 ( 1 ): 215 - 222 .

TAO H Q , WU H L , LI H , et al . GNSS spoofing detection based on consistency check of velocities [J]. Chinese Journal of Electronics , 2019 , 28 ( 2 ): 437 - 444 .

LIU J , ZHAO X L . GNSS fault detection and exclusion based on virtual pseudorange-based consistency check method [J]. Chinese Journal of Electronics , 2020 , 29 ( 1 ): 41 - 48 .

张小红 , 曾琪 , 何俊 , 等 . 构建阈值模型改善TurboEdit实时周跳探测 [J]. 武汉大学学报·信息科学版 , 2017 , 42 ( 3 ): 285 - 292 .

ZHANG X H , ZENG Q , HE J , et al . Improving TurboEdit real-time cycle slip detection by the construction of threshold model [J]. Geomatics and Information Science of Wuhan University , 2017 , 42 ( 3 ): 285 - 292 . (in Chinese)

WANG S , WANG D , GUAN Y X . An improved ionospheric delay correction method for SBAS [J]. Chinese Journal of Electronics , 2021 , 30 ( 2 ): 384 - 389 .

MONTENBRUCK O , STEIGENBERGER P , PRANGE L , et al . The multi-GNSS experiment(MGEX) of the international gnss service(IGS) - Achievements, prospects and challenges [J]. Advances in Space Research , 2017 , 59 ( 7 ): 1671 - 1697 .

CAI B G , WU B Q , LU D B . Survey of performance evaluation standardization and research methods on GNSS-based localization for railways [J]. Chinese Journal of Electronics , 2020 , 29 ( 1 ): 22 - 33 .

李铎 , 吴红卫 , 顾思洪 . GPS驯服CPT原子钟方法研究 [J]. 电子学报 , 2018 , 46 ( 5 ): 1194 - 1199 .

LI D , WU H W , GU S H . Study on GPS-disciplined CPT atomic clock [J]. Acta Electronica Sinica , 2018 , 46 ( 5 ): 1194 - 1199 . (in Chinese)

伍贻威 , 龚航 , 朱祥维 , 等 . 原子钟两级驾驭算法及在建立GNSS时间基准中的应用 [J]. 电子学报 , 2016 , 44 ( 7 ): 1742 - 1750 .

WU Y W , GONG H , ZHU X W , et al . Twice atomic clock steering algorithm and its application in forming a GNSS time reference [J]. Acta Electronica Sinica , 2016 , 44 ( 7 ): 1742 - 1750 . (in Chinese)

周渭 , 偶晓娟 , 周晖 , 等 . 时频测控技术 [M]. 西安 : 西安电子科技大学出版社 , 2006 .

黄观文 . GNSS星载原子钟质量评价及精密钟差算法研究 [D]. 西安 : 长安大学 , 2012 .

HUANG G W . Research on Algorithms of Precise Clock Offset and Quality Evaluation of GNSS Satellite Clock [D]. Xi'an : Changan University , 2012 . (in Chinese)

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