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测绘学报 2015

单站多参数GLONASS码频间偏差估计及其对组合精密单点定位的影响

DOI: 10.11947/j.AGCS.2015.20130800, PP. 150-159

刘志强,王解先,段兵兵

Keywords: GPS,GLONASS,精密单点定位,系统时差,频间偏差,时频偏差

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Abstract:

在分析传统GPS/GLONASS组合PPP数学模型中忽略GLONASS码IFB不足的基础上,提出一种基于“多参数”的组合PPP与码IFB估计算法。将“频间偏差”与“系统时差”参数进行合并,通过引入多个独立的“时频偏差”参数对组合PPP中的GLONASS码IFB进行函数模型补偿,同时可实现基于单个测站观测数据的码IFB精确估计。对配备6种GNSS品牌接收机的30个IGS站实测数据进行GLONASS码IFB估计与分析。结果表明各品牌接收机不同频率通道的GLONASS码IFB可达数米,且表现出与频率的明显相关性,但难以通过简单函数建模为其提供精确的先验改正值;相同品牌接收机的GLONASS码IFB整体上具有相似的特性,而在个别测站会表现出异常特征;即使接收机类型、固件版本及天线类型完全相同的测站,GLONASS码IFB值也可能存在显著差异。新算法能实现对GLONASS码IFB的有效补偿,明显加快组合PPP的收敛速度。虽然引入多个附加参数会导致函数模型自由度减小,但对定位精度的影响有限,与传统“单参数”法进行组合PPP的定位精度相当。

References

[1]	ROSSBACH U. Positioning and Navigation Using Russian Satellite System GLONASS[D]. Munich: University of the Federal Armed Forces Munich, 2001.
[2]	WANNINGER L, WALLSTAB-FREITAG S. Combined Processing of GPS, GLONASS, and SBAS Code Phase and Carrier Phase Measurements[C]//Proceedings of ION on GNSS 2007. Fort Worth: ION, 2007: 866-875.
[3]	WANNINGER L. Carrier-phase Inter-frequency Biases of GLONASS Receivers[J]. Journal of Geodesy, 2012, 86(2): 139-148.
[4]	ZIONIEV A E, VEITSEL A V, DOLGIN D A. Renovated GLONASS: Improved Performances of GNSS Receivers[C]//Proceedings of ION on GNSS 2009. Savannah: ION, 2009: 3271-3277.
[5]	AL-SHAERY A, ZHANG S, RIZOS, C. An Enhanced Calibration Method of GLONASS Inter-channel Bias for GNSS RTK[J]. GPS Solutions, 2013, 17(2): 165-173.
[6]	YAMADA H, TAKASU T, KUBO N, et al. Evaluation and Calibration of Receiver Inter-channel Biases for RTK-GPS/GLONASS[C]//Proceedings of ION on GNSS 2010. Portland: ION, 2010: 1580-1587.
[7]	CAI Changsheng. Theory and Method of Combined GPS/GLONASS Precise Point Positioning[D]. Xuzhou: China University of Mining and Technology, 2008. (蔡昌盛. GPS/GLONASS组合精密单点定位理论与方法研究[D]. 徐州: 中国矿业大学, 2008.)
[8]	ZHANG Xiaohong, GUO Fei, Li Xingxing, et al. Study on Precise Point Positioning Based on Combined GPS and GLONASS[J]. Geomatics and Information Science of Wuhan University, 2010, 35(1): 9-12. (张小红, 郭斐, 李星星, 等. GPS/GLONASS组合精密单点定位研究[J]. 武汉大学学报: 信息科学版, 2010, 35(1): 9-12.)
[9]	MENG Xiangguang, GUO Jiming. GPS-GLONASS and Their Combined Precise Point Positioning[J]. Geomatics and Information Science of Wuhan University, 2010, 35(12): 1409-1413. (孟祥广, 郭际明. GPS/GLONASS及其组合精密单点定位研究[J]. 武汉大学学报: 信息科学版, 2010, 35(12): 1409-1413.)
[10]	CAI C S, GAO Y. Modeling and Assessment of Combined GPS/GLONASS Precise Point Positioning[J]. GPS Solutions, 2013, 17(2): 223-236.
[11]	SHI C, YI W T, SONG W W, et al. GLONASS Pseudorange Inter-channel Biases and Their Effects on Combined GPS/GLONASS Precise Point Positioning[J]. GPS Solutions, 2013, 17(4): 439-451.
[12]	GE M, GENT G, ROTHACHER M, et al. Resolution of GPS Carrier-phase Ambiguities in Precise Point Positioning (PPP) with Daily Observations[J]. Journal of Geodesy, 2008, 82(7): 389-399.
[13]	LAURICHESSE D, MERCIER F, BERTHIAS J P, et al. Integer Ambiguity Resolution on Undifferenced GPS Phase Measurements and Its Application to PPP and Satellite Precise Orbit Determination[J]. Navigation, 2009, 56(2): 135-149.
[14]	COLLINS P, BISNATH S, LAHAYE F, et al. Undifferenced GPS Ambiguity Resolution Using the Decoupled Clock Model and Ambiguity Datum Fixing[J]. Navigation, 2010, 57(2): 123-135.
[15]	ZHANG Baocheng, OU Jikun. On the Different Strategies for Integer Ambiguity Resolution in Precise Point Positioning[J]. Acta Geodaetica et Cartographica Sinica, 2011, 40(6): 710-716. (张宝成, 欧吉坤. 论精密单点定位整周模糊度解算的不同策略[J]. 测绘学报, 2011, 40(6): 710-716.)
[16]	REUSSNER N, WANNINGER L. GLONASS Inter-frequency Biases and Their Effects on RTK and PPP Carrier-phase Ambiguity Resolution[C]//Proceedings of ION on GNSS 2011. Portland: ION, 2011: 712-716.
[17]	REUSSNER N, WANNINGER L. GLONASS Inter-frequency Code Biases and PPP Carrier-phase Ambiguity Resolution[C]//Proceedings of IGS Workshop 2012. Olsztyn: [s.n.], 2012.
[18]	SCHAER S, GURTNER W, FELTENS J. IONEX: The Ionosphere Map Exchange Format Version 1[C]//Proceedings of the IGS AC Workshop. Darmstadt:[s.n.], 1998.
[19]	GENG Changjiang, ZHANG Hongping, ZHAI Chuanrun. Real Time Estimation of DCB Using Kalman Filters[J]. Geomatics and Information Science of Wuhan University, 2009, 34(11): 1309-1311. (耿长江, 章红平, 翟传润. 应用Kalman 滤波实时求解硬件延迟[J]. 武汉大学学报: 信息科学版, 2009, 34(11): 1309-1311. )
[20]	TEUNISSEN P J G. The GPS Phase-adjusted Pseudorange[C]//Proceedings of the 2nd International Workshop on High Precision Navigation. Stuttgart: Dummlers Verlag, 1991: 115-125.
[21]	ZHANG Baocheng, OU Jikun, YUAN Yunbin, et al. Precise Point Positioning Algorithm Based on Original Dual-frequency GPS Code and Carrier-phase Observations and Its Application[J]. Acta Geodaetica et Cartographica Sinica, 2010, 39(5): 478-483. (张宝成, 欧吉坤, 袁运斌, 等. 基于GPS双频原始观测值的精密单点定位算法及应用[J]. 测绘学报, 2010, 39(5): 478-483.)

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