主持国家级、省部级项目10余项,其中包括国家重点研发计划项目1项,863计划重点项目课题1项,北斗重大专项课题1项,国家自然科学面上基金2项、青年基金1项,湖北省杰出基金1项。研究成果在JGR、JG、GPS Solutions等国际权威期刊发表高水平SCI论文30余篇,其中ESI高被引2篇,授权发明专利7项,获2011年度、2014年度“国家科技进步奖二等奖”2项(排名第5、第2)。
二、教育与工作经历
教育经历
1997.9-2001.6 武汉大学测绘学院 本科
2001.9-2004.6 武汉大学测绘学院 硕士研究生
2004.9-2008.6 武汉大学测绘学院 博士研究生
工作经历
2007.10 -2008.06武汉大学卫星导航定位技术研究中心,提前选留
2008.07-2009.10 武汉大学卫星导航定位技术研究中心,讲师
2009.11-2014.10 武汉大学卫星导航定位技术研究中心,副教授
2014.11 - 至今 武汉大学卫星导航定位技术研究中心,教授
三、研究项目
主要科研项目
[1] “协同精密定位技术”,国家重点研发计划项目,2016YFB0501800,项目主持
[2] “广域分米级实时精密定位系统技术”,863计划重点项目课题,2012AA12A202,主持
[3] “地基GNSS的中国区域准实时、高时空分辨率水汽模型构建与应用”,国家自然科学基金面上项目,41774036,主持
[4]“基于原始观测值的多GNSS 多频统一处理理论与方法”,国家自然科学基金面上项目,41374034,主持
[5]“导航卫星实时高精度轨道与钟差确定方法研究”,国家自然科学基金青年基金,40904007,主持
[6] 北斗卫星实时精密定轨理论方法与软件研制,湖北省杰出青年基金,主持
[7]“控制中心与数据处理系统技术”863计划课题,(2007AA120603),技术负责人(排名2)
四、论著及专利
[1] Lou, Y.*, Li, X., Zheng, F., Liu, Y., & Guo, H. Assessment and Impact on BDS Positioning Performance Analysis of Recent BDS IGSO-6 Satellite. Journal of Navigation, 2018, 71, doi:10.1017/S0373463317000832, 729-748(SCI)
[2] Lou, Y., Gong, X., Gu, S.*, Zheng, F., & Feng, Y. Assessment of code bias variations of BDS triple-frequency signals and their impacts on ambiguity resolution for long baselines. GPS Solutions, 2017(1), doi: 10.1007/s10291-016-0514-4(SCI)
[3] Lou, Y., Huang J., Zhang W.*, Liang Hong, Zheng Fu, Liu Jingnan. A New Zenith Tropospheric Delay Grid Product for Real-Time PPP Applications over China. Sensors, 2017, 18(1):65. (SCI)
[4] Lou, Y., Zheng, F., Gu, S.*, Wang, C., Guo, H., & Feng, Y. Multi-GNSS precise point positioning with raw single-frequency and dual-frequency measurement models. GPS Solutions, 2016(10), doi:10.1007/s10291-015- 0495-8. (SCI)
[5] Lou, Y., Liu, Y., Shi, C., Wang, B., Yao, X., & Zheng, F. Precise orbit determination of BeiDou constellation: method comparison. GPS Solutions, 2016,20,259-268. (SCI)
[6] Lou, Y.*, Zheng, F., Gu, S. *, & Liu, Y. The Impact of Non-nominal Yaw Attitudes of GPS Satellites on Kinematic PPP Solutions and their Mitigation Strategies. Journal of Navigation, 2015, 68(04), 718-734. (SCI)
[7] Lou, Y., Liu, Y., Shi, C.*, Yao, X., & Zheng, F. Precise orbit determination of BeiDou constellation based on BETS and MGEX network. Scientific Reports, 2014, 4, 4692. (SCI)
[8] Lou, Y., Zhang, W., Shi, C. *, & Liu, J. High-rate (1-Hz and 50-Hz) GPS seismology: Application to the 2013 M w 6.6 Lushan earthquake. Journal of Asian Earth Sciences, 2014,79, 426-431.(SCI)
[9] Lou, Y., Zhang, W., Wang, C., Yao, X., Shi, C., & Liu, J. The impact of orbital errors on the estimation of satellite clock errors and PPP. Advances in Space Research, 2014,54(8), 1571-1580. (SCI)
[10] Zhang W., Lou Y.*, Huang J, et al. Multi-scale Variations of Precipitable Water over China based on 1999-2015 Ground-based GPS Observations and Evaluations of Reanalysis products[J]. Journal of Climate, 2017(SCI)
[11] Zheng F, Lou Y.*, Gu S, et al. Modeling tropospheric wet delays with national GNSS reference network in China for BeiDou precise point positioning[J]. Journal of Geodesy, 2017(2):1-16. (SCI)
[12] Liu Y., Lou Y.*, Ye S., et al. Assessment of PPP integer ambiguity resolution using GPS, GLONASS and BeiDou (IGSO, MEO) constellations [J]. GPS Solutions, 2017(2):1-13.(SCI )
[13] Shi C, Zheng F, Lou Y.*, et al. National BDS Augmentation Service System (NBASS) of China: progress and assessment[J]. Remote Sensing, 2017, 9(8):1-16. (SCI)
[14] Zheng G, Wang H*, Wright T J, Lou Y.*, et al. Crustal Deformation in the India-Eurasia Collision Zone From 25Years of GPS Measurements[J]. Journal of Geophysical Research Solid Earth, 2017
[15] Luo X., Liu Z.*, Lou Y.*, et al. A study of multi-GNSS ionospheric scintillation and cycle-slip over Hong Kong region for moderate solar flux conditions[J]. Advances in Space Research, 2017, 60. (SCI)
[16] Luo X., Lou Y.*, Gong X., et al. Benefit of Sparse Reference Network in BDS Single Point Positioning with Single-Frequency Measurements[J]. Journal of Navigation, 2017, DOI10.1017/S0373463317000765(SCI)
[17] Gu, S., Lou, Y. *, Shi, C., & Liu, J. BeiDou phase bias estimation and its application in precise point positioning with triple-frequency observable. Journal of Geodesy, 2015, 89(10): 979-992. (SCI)
[18] Dai, X., Ge, M., Lou, Y. *, Shi, C., Wickert, J., & Schuh, H. Estimating the yaw-attitude of BDS IGSO and MEO satellites. Journal of Geodesy, 2015, 89(10): 1005-1018. (SCI)
[19] Liu, Y., Ge, M., Shi, C., Lou, Y.*, Wickert, J., & Schuh, H. Improving GLONASS Precise Orbit Determination through Data Connection. Sensors, 2015, 15(12), 30104-30114.
[20] Zhang, W., Lou, Y.*, Gu, S., Shi, C, Haase, J. S., & Liu, J. Joint estimation of GPS/BDS real-time clocks and initial results. GPS Solutions, 2015, doi:. 10.1007/s10291-015-0476-y. (SCI)
[21] Lin, J., Yue, X., Zeng, Z., Lou, Y.*, Shen, X., Wu, Y.,& Kuo, Y. H. Empirical orthogonal function analysis and modeling of the ionospheric peak height during the years 2002–2011. Journal of Geophysical Research: Space Physics, 2014, 119(5): 3915-3929. (SCI)
[22] Song, W., Yi, W. *, Lou, Y.*, Shi, C., Yao, Y., Liu, Y & Xiang, Y. Impact of GLONASS pseudorange inter-channel biases on satellite clock corrections. GPS solutions, 2014, 18(3): 323-333. (SCI)
[23] Shi, C., Gu, S., Lou, Y.*, & Ge, M. An improved approach to model ionospheric delays for single-frequency precise point positioning, Advances In Space Research,2012, 49(12), pp 1698-1708 . (SCI)
[24] Zhang W, Lou Y, Haase J S , et al. The Use of Ground-based GPS Precipitable Water Measurements over China to Assess Radiosonde and ERA-Interim Moisture Trends and Errors from 1999-2015[J]. Journal of Climate, 2017.
[25] Qing Y., Lou, Y., Dai, X.*, Liu, Yang. Benefits of satellite clock modeling in BDS and Galileo orbit determination. Advances in Space Research, 2017. doi.org/10.1016/j.asr.2017.03.040
[26] Shi C, Lou Y, Song W, Gu S, Geng C, Yi W, Liu Y. A wide area real-time differential GPS prototype system in China and result analysis. Survey review, 2011,43(322):351-360(SCI)
[27] Shi C, Lou Y, Zhang H, Zhao Q, Geng J, Wang R, Liu J. Seismic deformation of the Mw 8.0 Wenchuan earthquake from high-rate GPS observations. Advances in Space Research. 2010, 46(2): 228-235. (SCI)
[28] Liu, Y., Ye, S., Song, W., Lou, Y., & Chen, D. Integrating GPS and BDS to shorten the initialization time for ambiguity-fixed PPP. GPS Solutions, 2016,1-11. (SCI)
[29] Chen, L., Song, W., Yi, W., Shi, C., Lou, Y., & Guo, H. Research on a method of real-time combination of precise GPS clock corrections. GPS Solutions, 2016, 1-9. (SCI)
[30] Liu, Y., Ye, S., Jiang, P., Song, W., & Lou, Y. Combining GPS+ GLONASS observations to improve the fixing percentage and precision of long baselines with limited data. Advances in Space Research. (2016). doi:10.1016/j.asr.2015.12.041 (SCI)
[31] Wang B, Lou Y, Liu J, et al. Analysis of BDS satellite clocks in orbit[J]. GPS Solutions, 2015,doi: 10.1007/s10291-015-0488-7(SCI)
[32] Ye, S., Liu, Y., Song, W., Lou, Y., Yi, W., Zhang, R., & Xiang, Y. A cycle slip fixing method with GPS+ GLONASS observations in real-time kinematic PPP. GPS Solutions, 2016, 20(1), 101-110. (SCI)
[33] Gu S, Shi C, Lou Y., & Liu J. Ionospheric effects in uncalibrated phase delay estimation and ambiguity-fixed PPP based on raw observable model. Journal of Geodesy, 2015, 89(5): 447-457.(SCI)
[34] Shi C, Yi W., Song W., Lou Y., Yao Y., Zhang R.. GLONASS pseudorange inter-channel biases and their effects on combined GPS/GLONASS precise point positioning. GPS Solutions , 2013,17(4):439–451(SCI)
[35] Geng J., Shi C, Ge M, Dodson AH, Lou Y., Zhao Q., Liu J. Improving the estimation of fractional-cycle biases for ambiguity resolution in precise point positioning. Journal of Geodesy, 2012, 86(8) pp 579-589(SCI)
[36] Shi C, Zhao Q, Li M, Tang W, Hu Z, Lou Y., Zhang H., Niu X., Liu J. Precise orbit determination of Beidou Satellites with precise positioning, Science China Earth Sciences, 2012, 55(7), pp 1079-1086. (SCI)
[37] Yao Y, Zhang R, Song W, Shi C, Lou Y, An improved approach to model regional ionosphere and accelerate convergence for precise point positioning, Advances in Space Research, 2013, 52(8), pp 1406-1415. (SCI)
[38] 楼益栋,郑福,龚晓鹏,辜声峰,QZSS系统在中国区域增强服务性能评估与分析,武汉大学学报(信息科学版), 03期, pp 298-303, 2016
[39] 楼益栋,姚秀光,刘杨,郑福,模糊度固定于弧段长度对区域站定轨的影响分析,武汉大学学报(信息科学版), 02期, pp 249-254, 2016
[40] 楼益栋,龚晓鹏,辜声峰,郑福,GPS/BDS混合双差分RTK定位方法及结果分析,大地测量与地球动力学, 01期, pp 1-5, 2016
[41] 楼益栋, 何倩倩, 戴小蕾,卿芸. 基于移动终端广播星历的自主轨道预报及精度分析. 测绘通报, 2015(5):1-5.
[42] 楼益栋;戴小蕾;宋伟伟,站间距对GPS卫星高精度钟差估计的影响分析, 武汉大学学报(信息科学版), 04期, pp 397-400+406+506, 2011.
[43] 楼益栋;施闯;周小青;叶世榕,GPS精密卫星钟差估计与分析, 武汉大学学报(信息科学版), 01期, 2009/1/5.
[44] 楼益栋;施闯;葛茂荣;赵齐乐,GPS卫星实时精密定轨及初步结果分析, 武汉大学学报(信息科学版), 08期, 2008/8/5.
[45] 高鹏飞;楼益栋;王仲想;尹倩倩,基于广播星历轨道区域钟差估计的非差实时精密定位分析, 大地测量与地球动力学, 2014, 03期, pp 116-120+124.
[46] 张杰;李斐;楼益栋;郝卫峰,海潮负荷对GPS精密定位的影响, 武汉大学学报(信息科学版), 2013,12期, pp 1400-1404.
[47] 高为广;楼益栋;刘杨;张婷,卫星导航系统差分增强技术发展研究, 测绘科学, 2013,01期, pp 51-53+67.
[48] 戴小蕾;楼益栋;李文,GPS两种广播星历参数拟合及外推精度分析, 大地测量与地球动力学, 2013, pp 53-58.
[49] 薛志宏;楼益栋;易文婷;董洋洋,一种适用于动态变形测量的双频模糊度实时解算方法, 武汉大学学报(信息科学版), 06期, pp 683-687, 2012.
[50] 尹倩倩;楼益栋;易文婷,IGS实时产品比较与分析, 大地测量与地球动力学, 2012,32(6), pp 123-128.
[51] 施闯;楼益栋;宋伟伟;蔡华,广域实时精密定位原型系统及初步结果, 武汉大学学报(信息科学版), 2009,34(11), pp 1271-1274.
[52] 高鹏飞;楼益栋;王仲想;尹倩倩,基于广播星历轨道区域钟差估计的非差实时精密定位分析, 大地测量与地球动力学, 2014, 03期, pp 116-120+124.
[53] 张杰;李斐;楼益栋;郝卫峰,海潮负荷对GPS精密定位的影响, 武汉大学学报(信息科学版), 2013,12期, pp 1400-1404.
[54] 高为广;楼益栋;刘杨;张婷,卫星导航系统差分增强技术发展研究, 测绘科学, 2013,01期, pp 51-53+67.
[55] 戴小蕾;楼益栋;李文,GPS两种广播星历参数拟合及外推精度分析, 大地测量与地球动力学, 2013, pp 53-58.
[56] 薛志宏;楼益栋;易文婷;董洋洋,一种适用于动态变形测量的双频模糊度实时解算方法, 武汉大学学报(信息科学版), 06期, pp 683-687, 2012.
[57] 尹倩倩;楼益栋;易文婷,IGS实时产品比较与分析, 大地测量与地球动力学, 2012,32(6), pp 123-128.
[58] 施闯;楼益栋;宋伟伟;蔡华,广域实时精密定位原型系统及初步结果, 武汉大学学报(信息科学版), 2009,34(11), pp 1271-1274.
五、获奖与荣誉
[1] 2010年度,教育部科学技术进步奖(一等奖),排名第5
[2] 2011年度,国家科技进步奖(二等奖),排名第5
[3] 2013年度,教育部科学技术进步奖(一等奖),排名第2
[4] 2014年度,国家科技进步奖(二等奖),排名第2
[5] 2010-2011年度,武汉大学先进科技工作者(自然科学)
六、学生培养(含课堂教学)
招收研究生学科方向: 大地测量学与测量工程、导航制导与控制专业方向的博士生导师。欢迎具有测绘工程、信息与信号处理、计算机技术、数学等专业背景的同学报考 博士和硕士研究生。
主讲课程:主讲《卫星轨道基础》、《导航学》、《GPS原理及其应用》、《Advanced Topics of GNSS》等课程.
七、联系方式
办公地点:武汉大学信息学部教学实验大楼11楼1105室
电子邮件: ydlou@whu.edu.cn
通讯地址:武汉市珞喻路129号武汉大学信息学部卫星导航定位技术研究中心
邮政编码:430079