个人简介
葛玉龙,男,1991年生,安徽省合肥市。
工作及教育经历:
2021.01至今,南京师范大学,海洋科学与工程学院,讲师
2015.09-2020.07,中国科学院大学(国家授时中心),天体测量与天体力学,理学博士
(硕博连读)
201.09-2015.06,安徽理工大学,地理信息系统,理学学士
参与科研项目:
(1)国家自然科学基金,基于IGS实时的联合时间尺度算法研究;
(2)国家自然科学基金,基于北斗GEO卫星的精密共视时间频率传递方法;
(3)中科院西部之光项目,基于单差模式的载波相位时间传递方法与研究;
获奖情况:
(1)荣获第十届中国卫星导航年会“年会最佳论文奖”;
(2)荣获第九届中国卫星导航年会“年会优秀论文奖”;
(3)荣获2019全球华人导航定位协会(CPGPS)学术论坛“优秀论文一等奖”;
(4)荣获2018-2019学年“博士研究生国家奖学金”(教育部颁发证书);
(5)荣获2017-2018学年“博士研究生国家奖学金”,(教育部颁发证书);
(6)荣获2018-2019学年“朱李月华优秀博士生奖学金”,(中国科学院大学颁发证书);
研究领域
长期从事于卫星导航算法、多传感器融合导航算法在深远海高精度定位、授时和时间同步等方面的研究工作。主要研究方向:组合导航与水下定位、海洋测绘、智能海工装备等。
近期论文
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第一作者论文:
[1] Ge Y*, Zhou F, Liu T, et al. Enhancing real-time precise point positioning time and frequency transfer with receiver clock modeling[J]. GPS Solutions, 2018, 23(1).
[2] Ge Y, Dai P, Qin W, et al. Performance of Multi-GNSS Precise Point Positioning Time and Frequency Transfer with Clock Modeling[J]. Remote Sensing, 2019, 11(3): 347.
[3] Ge Y, Zhou F, Dai P, Qin W, Wang S and Yang X. Precise point positioning time transfer with multi-GNSS single-frequency observations [J]. Measurement, 2019 146(1).
[4] Ge Y*, Ding S, Qin W et al. Performance of ionospheric-free PPP time transfer models with BDS-3 quad-frequency observations. [J] Measurement, 2020, 16(2)
[5] Ge Y*, Ding S, Wei Q et al. Carrier phase time transfer with Galileo observations.[J] Measurement, 2020, 21(1).
[6] Ge Y, Yang X, Qin W, et al. Mitigation of the multipath effect in BDS-based time transfer using a wave-absorbing shield[J]. Advances in Space Research, 2018, 63(9).
[7] Ge Y*, Qin W, Su K, Yang X et al. A new approach to real-time precise point-positioning timing with International GNSS Service real-time service products. [J] Measurement Science and Technology, 2019, 30(12)
[8] Ge Y*, Ding S, Pei D et al. Modeling and assessment of real-time precise point positioning timing with multi-GNSS observations. [J] Measurement Science and Technology, 2020, 31 (6)
[9] Ge Y, Zhou F, Sun B, et al. The Impact of Satellite Time Group Delay and Inter-Frequency Differential Code Bias Corrections on Multi-GNSS Combined Positioning[J]. Sensors (Basel), 2017, 17(3).
[10 Ge Y*, Qin W, Cao X, et al. Consideration of GLONASS Inter-Frequency Code Biases in Precise Point Positioning (PPP) International Time Transfer[J]. Applied Sciences, 2018, 8(8): 1254.
[11] Dai P, Ge Y*, Qin W, et al. BDS-3 Time Group Delay and Its Effect on Standard Point Positioning[J]. Remote Sensing, 2019, 11(15)
[12]Wang S, Zhao X, Ge Y*, Yang X., Investigation of real-time carrier phase time transfer using current multi-constellations, Measurement, 166 (2020).
[13] Ge, Y., S. Chen, T. Wu, C. Fan, W. Qin, F. Zhou & X. Yang (2021) An analysis of BDS-3 real-time PPP: Time transfer, positioning, and tropospheric delay retrieval. Measurement, 172 (2021).
[14] Ge Y, Yang X, Qin W, et al. Time Transfer Analysis of GPS- and BDS-Precise Point Positioning Based on iGMAS Products[J]. China Satellite Navigation Conference, Volume I 2018, 497: 519-530
[15] Ge Y, Sun B, Wang S, et al. Convergence Time Analysis of Multi-constellation Precise Point Positioning Based on iGMAS Products[J]. China Satellite Navigation Conference (CSNC) 2016 Proceedings: Volume III, 2016, 390 297-306.
[16] Ge Y, Yang X The method of BDS PPP time transfer considering clock modeling [J]. China Satellite Navigation Conference (CSNC) 2020 Proceedings
合作论文:
[1] Su K, Jin S, Ge Y. Rapid displacement determination with a stand-alone multi-GNSS receiver: GPS, Beidou, GLONASS, and Galileo[J]. GPS Solutions, 2019, 23(54).
[2] Qin W, Ge Y, Wei P, et al. An Approach to a Clock Offsets Model for Real-Time PPP Time and Frequency Transfer During Data Discontinuity[J]. Applied Sciences, 2019, 9(7).
[3] Qin W, Ge Y, Wei P, et al. Assessment of the BDS-3 On-board Clocks and Their Impact on the PPP Time Transfer Performance[J]. Measurement, 2019: 107356.
[4] Qin W, Ge Y, Wei P, et al. Accounting BDS3–BDS2 inter-system biases for precise time transfer [J]. Measurement, 2020.
[5] Zhou F, Cao X, Ge Y, et al. Assessment of the positioning performance and tropospheric delay retrieval with precise point positioning using products from different analysis centers[J]. GPS Solutions, 2019, 24(1).
[6] Liu T, Wang J, Yu H, Ge Y et al. A New Weighting Approach with Application to Ionospheric Delay Constraint for GPS/GALILEO Real-Time Precise Point Positioning[J]. Applied Sciences, 2018, 8(12): 2537.
[7] Jiao G, Song S, Ge Y, Su K, Liu Y. (2019). Assessment of BeiDou-3 and Multi-GNSS Precise Point Positioning Performance. Sensors (Basel) 19 (11) doi: 10.3390/s19112496.
[8] Wang S, Yang F, Gao W, Ge Y. et al. A new stochastic model considering satellite clock interpolation errors in precise point positioning[J]. Advances in Space Research, 2018, 61(5): 1332-1341.
[9] Zhou F, Cao X, Ge Y, et al. Assessment of the positioning performance and tropospheric delay retrieval with precise point positioning using products from different analysis centers[J]. GPS Solutions, 2019, 24(1).
[10] Zhao X., Ge Y., Ke F., Liu C., Li F., Investigation of real-time kinematic multi-GNSS precise point positioning with the CNES products, Measurement, 166 (2020).
学术兼职
担任Measurement;Measurement Science and Technology;IEEE access;Journal of Navigation;Advances in Space Research;Journal of Applied Geodesy;Satellite Navigation等期刊的审稿人
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