北斗三号PPP-B2b服务增强了低轨道卫星的精确实时导航

IF 2.8 3区地球科学 Q2 ASTRONOMY & ASTROPHYSICS

Advances in Space Research Pub Date : 2025-03-26 DOI:10.1016/j.asr.2025.03.049

Xuewen Gong , Wanwei Zhang , Aili Zhao , Shuaihe Gao , Fuhong Wang , Jingkui Zhang , Song Xie , Guodong Feng , Zaichun Yang

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引用次数: 0

摘要

对于基于GNSS的LEO卫星实时导航，可实现的实时轨道精度通常受到GNSS广播星历质量的限制。本文利用BDS-3 PPP-B2b服务发布的校正数据，对GPS和BDS-3卫星广播星历进行校正，提高低轨道卫星的实时轨道精度。实验分析表明，应用PPP-B2b校正后，GPS和BDS-3卫星的轨道误差和时钟偏移明显减小。考虑到PPP-B2b校正仅在以中国为中心的亚太地区可用，对于部分GPS/BDS-3跟踪卫星可获得PPP-B2b校正而其他卫星只能依赖广播星历的时代，提出了一种改进的测量更新策略（IMUS）。该策略在PPP-B2b可用卫星数量达到一定阈值时，将依赖广播星历的GPS/BDS-3卫星的观测数据排除在实时导航滤波的测量更新之外。利用单次GPS L1/L2和单次北斗三号B1C/B2a观测数据，分别在LT-1A卫星上进行实时导航实验。结果表明，无论是基于GPS还是基于BDS-3，采用PPP-B2b修正后的IMUS对实时轨道精度的提高略高于对所有跟踪卫星一视同仁的传统测量更新策略（CMUS）。这表明所提出的IMUS可以进一步放大PPP-B2b校正对LEO实时导航的增强效果。应用PPP-B2b校正和IMUS后，基于GPS和BDS-3的LT-1A卫星在整个轨道弧内的实时轨道精度比单独使用广播星历分别提高了10%和8%以上。如果只考虑亚太地区的弧线，GPS和BDS-3的改善百分比分别上升到24%和11%以上。这充分表明，安全免费的PPP-B2b校正为这些配备GPS/BDS-3接收器的LEO卫星实现更精确的实时导航提供了一个极好的选择。

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Precise real-time navigation of the LEO satellite enhanced by BDS-3 PPP-B2b service

For the real-time navigation of LEO satellites based on GNSS, the achievable real-time orbit accuracy is generally limited by the quality of GNSS broadcast ephemeris. In this paper, the correction data released by the BDS-3 PPP-B2b service are introduced to correct the broadcast ephemeris of GPS and BDS-3 satellites, aiming to enhance the real-time orbit accuracy of LEO satellites. Experimental analysis reveals that the errors in the orbits and clock offsets of GPS and BDS-3 satellites are significantly reduced after applying PPP-B2b corrections. Considering that PPP-B2b corrections are only available within the Asia-Pacific region, centered around China, for those epochs where some of the tracked GPS/BDS-3 satellites have access to PPP-B2b corrections while others must rely solely on broadcast ephemerides, an improved measurement update strategy (IMUS) is proposed. This strategy excludes the observations of those GPS/BDS-3 satellites relying on broadcast ephemeris from the measurement update of real-time navigation filtering when the number of satellites available for PPP-B2b reaches a certain threshold. Real-time navigation experiments are conducted on the LT-1A satellite separately using single GPS L1/L2 and single BDS-3 B1C/B2a observations. The results demonstrate that, regardless of whether it is based on GPS or BDS-3, the improvement in real-time orbit accuracy achieved by IMUS after applying PPP-B2b corrections is slightly greater than that achieved by the conventional measure update strategy (CMUS), which treats all tracked satellites equally without differentiation. This indicates that the proposed IMUS could further enlarge the enhancement effect of PPP-B2b corrections on LEO real-time navigation. With the application of PPP-B2b corrections and IMUS, the real-time orbit accuracy of the LT-1A satellite, based on GPS and BDS-3, improves by more than 10% and 8%, respectively, over the entire orbital arc compared to using broadcast ephemeris alone. If only considering the arcs within the Asia-Pacific region, the improvement percentages rise to over 24% and 11% with GPS and BDS-3, respectively. This has fully demonstrated that the secure and free PPP-B2b corrections present an excellent option for achieving more accurate real-time navigation for these LEO satellites equipped with GPS/BDS-3 receivers.

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来源期刊

Advances in Space Research 地学天文-地球科学综合

CiteScore

5.20

自引率

11.50%

发文量

800

审稿时长

5.8 months

期刊介绍： The COSPAR publication Advances in Space Research (ASR) is an open journal covering all areas of space research including: space studies of the Earth''s surface, meteorology, climate, the Earth-Moon system, planets and small bodies of the solar system, upper atmospheres, ionospheres and magnetospheres of the Earth and planets including reference atmospheres, space plasmas in the solar system, astrophysics from space, materials sciences in space, fundamental physics in space, space debris, space weather, Earth observations of space phenomena, etc. NB: Please note that manuscripts related to life sciences as related to space are no more accepted for submission to Advances in Space Research. Such manuscripts should now be submitted to the new COSPAR Journal Life Sciences in Space Research (LSSR). All submissions are reviewed by two scientists in the field. COSPAR is an interdisciplinary scientific organization concerned with the progress of space research on an international scale. Operating under the rules of ICSU, COSPAR ignores political considerations and considers all questions solely from the scientific viewpoint.