Research on empirical correction models of GPS Block IIF and BDS satellite inter-frequency clock bias
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Yidong Lou | Shengfeng Gu | Xiaopeng Gong | Zhipeng Wang | Fu Zheng | Jingnan Liu | Jing-nan Liu | Y. Lou | Shengfeng Gu | Fu Zheng | Zhipeng Wang | Xiaopeng Gong | Xinhao Yang | Xinhao Yang
[1] Wu Bin,et al. Estimation of the inter-frequency clock bias for the satellites of PRN25 and PRN01 , 2012 .
[2] Jiang Guo,et al. GPS satellite clock determination in case of inter-frequency clock biases for triple-frequency precise point positioning , 2018, Journal of Geodesy.
[3] Haojun Li,et al. Fast estimation and analysis of the inter-frequency clock bias for Block IIF satellites , 2013, GPS Solutions.
[4] Peter Steigenberger,et al. Apparent clock variations of the Block IIF-1 (SVN62) GPS satellite , 2012, GPS Solutions.
[5] Y. Bock,et al. Triple-frequency GPS precise point positioning with rapid ambiguity resolution , 2013, Journal of Geodesy.
[6] Harald Schuh,et al. Three-frequency BDS precise point positioning ambiguity resolution based on raw observables , 2018, Journal of Geodesy.
[7] Y. Bock,et al. Global Positioning System Network analysis with phase ambiguity resolution applied to crustal deformation studies in California , 1989 .
[8] Yidong Lou,et al. BeiDou phase bias estimation and its application in precise point positioning with triple-frequency observable , 2015, Journal of Geodesy.
[9] Xin Li,et al. Considering Inter-Frequency Clock Bias for BDS Triple-Frequency Precise Point Positioning , 2017, Remote. Sens..
[10] Yanming Feng. GNSS three carrier ambiguity resolution using ionosphere-reduced virtual signals , 2008 .
[11] Peter Steigenberger,et al. Three's the challenge: A close look at GPS SVN62 triple-frequency signal combinations finds carrier-phase variations on the new L5 , 2010 .
[12] Bofeng Li,et al. Improved method for estimating the inter-frequency satellite clock bias of triple-frequency GPS , 2016, GPS Solutions.
[13] Cuixian Lu,et al. Initial assessment of the COMPASS/BeiDou-3: new-generation navigation signals , 2017, Journal of Geodesy.
[14] Peter Steigenberger,et al. Initial assessment of the COMPASS/BeiDou-2 regional navigation satellite system , 2013, GPS Solutions.
[15] Harald Schuh,et al. Estimating the yaw-attitude of BDS IGSO and MEO satellites , 2015, Journal of Geodesy.
[16] Peter Steigenberger,et al. The Multi-GNSS Experiment (MGEX) of the International GNSS Service (IGS) - Achievements, prospects and challenges , 2017 .
[17] Li Haoju. Inter-frequency Clock Bias of BeiDou , 2014 .
[18] Bin Wu,et al. Estimation of the inter-frequency clock bias for the satellites of PRN25 and PRN01 , 2012 .
[19] Shirong Ye,et al. Handling the satellite inter-frequency biases in triple-frequency observations , 2017 .
[20] Jing-nan Liu,et al. GPS inter-frequency clock bias estimation for both uncombined and ionospheric-free combined triple-frequency precise point positioning , 2018, Journal of Geodesy.
[21] H. Schuh,et al. Troposphere mapping functions for GPS and very long baseline interferometry from European Centre for Medium‐Range Weather Forecasts operational analysis data , 2006 .
[22] Jingnan Liu,et al. GPS inter-frequency clock bias modeling and prediction for real-time precise point positioning , 2018, GPS Solutions.