一种改进的BDS-2/BDS-3联合精密定轨系统偏差处理模型

An Improved Model for Inter-System Bias Estimation Based on BDS-2/BDS-3 Combined Precise Orbit Determination

  • 摘要: 针对BDS-2与BDS-3卫星之间的差异性,为实现观测数据深度融合,对BDS-2/BDS-3联合定轨中系统偏差(inter-satellite bias, ISB)模型进行研究。首先,基于奇异值分解提取相邻历元观测信息以增加数据利用率,提高ISB解算精度与可靠性;其次,分析了BDS-2/BDS-3联合定轨中ISB特性,发现新信号与BDS-2之间存在明显与接收机相关偏差;随后,利用定轨法方程求解ISB与轨道相关性,结果显示,ISB对北斗轨道精度影响较GPS(global positioning system)显著;最后,通过对ISB时间序列建立短期预报模型,并将预报值作为约束条件引入超快速定轨中。实验结果表明,针对BDS-2/BDS-3超快速轨道,利用提出的ISB的估计与预报模型,可分别改善BDS-2与BDS-3轨道18 h重叠弧段精度(一维)-0.4~1.0 cm与0.8~4.1 cm。因此,所提出的改进的ISB处理模型对优化BDS-2/BDS-3联合定轨策略具有一定参考意义。

     

    Abstract:
      Objectives  To integrate processing of BDS-2 and BDS-3 satellites observations and to conduct the deeply merged strategy for enhancing the parameter solutions, the differences between BDS-2 and BDS-3 should be considered and analyzed.
      Methods  Given the differences of BDS-2 and BDS-3 satellites, to fully utilize and fuse the observations, the inter-system bias (ISB) model of BDS-2/BDS-3 combined precise orbit determination is analyzed and improved. Firstly, to improve the accuracy and reliability of ISB, the singular value decomposition is introduced to extract the observation information of adjacent epoch. Secondly, the characteristics of ISB are analyzed, which indicts that the ISBs are significantly presented and related with the types of receivers based on the new signals of BDS-3 and BDS-2. Then, the correlations between ISB and orbit parameters are analyzed; the results suggest that the BeiDou orbit accuracy is affected more significantly than that of GPS. Finally, based on the estimated ISB series, the short-term prediction of ISB model is established by spectral analysis, which is inserted into the ultra-rapid precise orbit determination.
      Results  With ultra-rapid orbit determination experiments, the proposed ISB prediction and estimation strategies can improve -0.4–1.0 cm and 0.8–4.1 cm for BDS-2 and BDS-3 orbit one-day overlapping, respectively.
      Conclusions  Therefore, it is meaningful for improving the BDS-2/BDS-3 ultra-rapid combined precise orbit determination with the improved ISB estimation and prediction model.

     

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