研究领域

1.  空间测量数据误差理论与处理方法
2.  低轨增强GNSS(LeGNSS)关键技术
3.  GNSS高精度定位理论与关键技术
4.  多源传感器融合综合PNT关键技术
5.  星地协同精密定位与位置服务系统

诚挚邀请国内外优秀博士在GNSS团队开展博士后研究！

诚挚邀请国内外优秀青年学者加入同济大学GNSS团队！

教育工作经历

2001.09-2005.06   同济大学, 本科生, 测绘工程专业
2005.09-2010.03   同济大学, 博士生, 大地测量学与测量工程专业
2007.11-2010.01   澳大利亚昆士兰理工大学(QUT), Visiting Scholar               
2010.04-2013.04   澳大利亚科廷大学(CUT), 博士后                
2013.05-至     今    同济大学, 测绘与地理信息学院, 教授, 博士生导师                
2015.08-2015.09   香港理工大学, 访问学者
2016.09-2017.10   同济大学, 测绘与地理信息学院, 副院长                
2017.10-2019.12   同济大学, 国际交流合作部副部长, 科研管理部副部长(兼) 
2019.12-2022.07   同济大学, 测绘与地理信息学院, 院长            
2022.07-至     今    同济大学, 党委教师工作部部长、人事处处长

主要学术兼职

2020-至今   国际大地测量协会理论委员会(IAG-ICCT), 委员
2020-至今   上海测绘与地理信息产业协会, 副理事长
2021-至今   中国测绘学会大地测量与导航专业委员会，副主任委员
2018-至今   中国测绘学会测绘学名词审定委员会，委员
2017-至今   全国交通工程测量专业委员会，副主任委员
2015-至今   中国卫星导航定位协会"教育与发展专业委员会"，副主任委员

代表性获奖情况

2008.09  美国ION-GNSS优秀论文奖
2010.05  同济大学优秀博士学位论文奖
2012.03  上海市优秀优秀博士学位论文奖
2012.12  全国百篇优秀博士学位论文提名奖
2014.09  同济大学优秀青年教师讲课比赛最佳风范奖
2014.11  测绘科技进步一等奖(2/10)
2015.04  第十三届上海十大杰出青年岗位能手
2015.12  同济大学第三届"我心目中的好导师-春风化雨"奖
2016.05  "全国青年岗位能手"荣誉称号
2016.07  上海市教卫工作党委系统优秀共产党员
2016.09  同济大学“师德师风优秀教师”
2016.09  同济大学育才教育奖励金一等奖
2018.03  上海市科技进步奖二等奖(2/10)
2019.10  测绘科技进步奖二等奖(6/10)
2019.11  工程建设科技进步奖一等奖(4/15)
2020.09  卫星导航定位科技进步奖一等奖(1/14)
2020.12  同济大学2020年度"我心中的好导师"
2021.10  青年测绘地理信息科技创新人才奖
2022.06 教育部霍英东青年科学家奖

主持的部分代表性科研项目

13. GNSS/多传感器融合可信定位的理论与关键技术. 国家自然科学基金重点项目 (42430109), 2025-2029
12. 卫星精密定位与位置服务. 国家杰出青年科学基金 (42225401), 2023-2027
11. 星基地基增强北斗综合PNT关键技术. 上海市教委自然科学类重大项目, 2021-2025
10. 北斗/低轨卫星群综合PNT关键技术. 上海市科委-优秀青年学术带头人, 2020-2023
9. 低轨卫星增强北斗高精度定位关键技术. 上海市教委-曙光计划, 2020-2022
8. GNSS高精度定位质量控制理论与方法. 国家自然科学基金面上项目 (42074026), 2021-2024
7. 低轨卫星编队联合GNSS精密定轨与定位的理论与方法, 国家自然科学基金面上项目 (41874030), 2019-2022
6. 多源传感器融合的高精度导航定位新技术, 上海市科委-科技创新行动计划, 2018-2020
5. 新一代低轨卫星群精密定轨与钟差估计理论及系统研发, 上海市科委-科技创新行动计划, 2017-2019
4. 多频多模卫星导航定位理论与应用, 国家自然科学基金-优秀青年科学基金 (41622401), 2017-2019
3. 海量并发GNSS实时高精度云处理技术, 国家重点研发计划子课题, 国家科技部, 2016-2020
2. 非模型化误差理论及其GNSS应用, 国家自然科学基金面上项目(41574023), 2016-2019
1. 北斗卫星定位混合整数模型的数据处理理论与方法, 国家自然科学基金面上项目 (41374031), 2014-2017

代表性学术著作

李博峰. 混合整数GNSS模型参数估计理论与方法. 测绘出版社, 2014.

• Liu T, Li B*, Chen G, Yang L, Qiao J, Chen W. Tightly coupled integration of GNSS/UWB/VIO for reliable and seamless positioning. IEEE Transactions on Intelligent Transportation Systems. 2024, 25(2):2116-2128 [IF=8.5]

• Zhang Z, Li B*, Gao Y, Zhang ZT, Wang S. Asynchronous and time-differenced RTK for ocean applications using the BeiDou short message service. Journal of Geodesy, 2023, 97:7

• Miao W, Li B*, Gao Y. The superiority of multi-GNSS L5/E5a/B2a frequency signals in smartphones: stochastic modelling, ambiguity resolution and RTK positioning. IEEE Internet of Things Journal, 2023, 10(8):7315-7326 [IF=10.23]

• Li B*, Miao W, Chen G, Li Z. Ambiguity resolution for smartphone GNSS precise positioning: effect factors and performance. Journal of Geodesy, 2022, 96:63

• Li B*, Chen G. Improving the combined GNSS/INS positioning by using tightly integrated RTK. GPS Solutions, 2022, 26:144

• Liu T, Li B*, Yang L. Phase center offset calibration and multi-point time latency determination for UWB location. IEEE Internet of Things Journal, 2022, 9(18):17536-17550 [IF=10.23]

• Chen G, Li B*, Zhang Z, Liu T.  Integer ambiguity resolution and precise positioning for tight integration of BDS‑3, GPS, GALILEO, and QZSS overlapping frequencies signals. GPS Solutions, 2022, 26:26.

• Ge H, Li B*, Jia S, Nie L, Wu T, Yang Z, Shang J, Zheng Y, Ge M. LEO enhanced global navigation satellite system (LeGNSS): progress, opportunities and challenges. Geo-Spatial Information Science, 2022, 25(1):1-13

• Liu H, Li B*, Zhang L. Deformation retrieval using the spatially constrained MTInSAR method. IEEE Geoscience and Remote Sensing Letter, 2022,19:4011205

• Li B*, Wang M, Shen Y. The hypothesis testing statistics in ill-posed model. Journal of Geodesy, 2021, 95:11.

• Liu L, Li B*, Zlatanova S, Oosterom P. Indoor navigation supported by the industry foundation classes (IFC): a survey.  Automation in Construction, 2021, 121: 103436 [IF=10.3].

• Zhang Z*, Li B, He X, Zhang Z, Miao W. Models, methods and assessment of four‑frequency carrier ambiguity resolution for BeiDou‑3 observations. GPS Solutions, 2020, 24:96.

•  Zang N, Li B*, Nie L, Shen Y. Inter-system and inter-frequency code biases: simultaneous estimation, daily stability and applications in multi-GNSS single-frequency precise point positioning. GPS Solutions, 2020, 24:18

• Li B, Ge H*, Ge M, Nie L, Shen Y, Schuh H. LEO enhanced Global Navigation Satellite System (LeGNSS) for real-time precise positioning services. Advances in Space Research, 2019, 63: 73-93

• Zhang Z, Li B*, Wei C, Nie L, Jia S. Initial assessment of BeiDou-3 global navigation satellite system: signal quality, clock and positioning performance. GPS Solutions. 2019,23:111

• Li B*, Zang N, Ge H, Shen Y. Single-frequency PPP models: analytical and numerical comparison. Journal of Geodesy, 2019, 93:2499-2514

• Li B*, Liu T, Nie L, Qin Y. Single-frequency GNSS cycle slip estimation with position polynomial constraint. Journal of Geodesy, 2019,93(9):1781–1803

• Zhang Z, Li B*, Gao Y, Shen Y. Real-time carrier phase multipath detection based on dual-frequency C/N0 data. GPS Solutions, 2019, 23:7

• Li B*, Qin Y, Liu T, Lou L. Geometry-based cycle slip and data gap repair for multi-GNSS and multi-frequency observations. Journal of Geodesy, 2019, 93:399–417

• Li B*, Zhang Z, Zang N, Wang S. High-precision GNSS ocean positioning with BeiDou short-message communication. Journal of Geodesy, 93:125–139

• Li B*, Zhang Z*, Shen Y, Yang L. A procedure for the significance testing of unmodeled errors in GNSS observations. Journal of Geodesy, 2018, 92:1171–1186

• Ge H, Li B*, Ge M, Shen Y, Schuh H. Improving BeiDou precise orbit determination using observations of onboard MEO satellite receivers. Journal of Geodesy, 2017, 91(12): 1447-1460

• Li B*, Li Z, Zhang Z, Tan Y. ERTK: Extra-wide-lane RTK of triple-frequency GNSS signals. Journal of Geodesy, 2017, 91(9):1031–1047

• Li B*, Zhang L, Verhagen S. Impacts of BeiDou stochastic model on reliability: overall test, w-test and minimal detectable bias. GPS Solutions, 2017, 21:1095–1112

• Li B*. Stochastic modeling of triple-frequency BeiDou signals: estimation, assessment and impact analysis. Journal of Geodesy, 2016, 90: 593-610.

• Li B*, Feng Y, Gao W, Li Z. Real-time kinematic positioning over long baselines using triple-frequency BeiDou signals. IEEE Transactions on Aerospace and Electronic Systems, 2015, 51(4):3254-3269

• Li B*, Verhagen S, Teunissen PJG. Robustness of GNSS integer ambiguity resolution in the presence of atmospheric biases. GPS Solutions, 2014, 18: 283-296

• Li B*, Teunissen PJG. GNSS antenna-array aided CORS ambiguity resolution. Journal of Geodesy, 2014, 88(4):363-376

• Li B*, Shen Y, Feng Y, Gao W, Yang L. GNSS ambiguity resolution with controllable failure rate for long baseline network RTK. Journal of Geodesy, 2014, 88(2):99-112

• Li B, Shen Y, Zhang X, Li C, Lou L. Seamless multivariate affine error-in-variables transformation and its application to map rectification. International Journal of Geographic Information Science, 2013, 27(7-8):1572-1592

• Li B*, Shen Y, Li W. The seamless model for three-dimensional datum transformation. SCIENCE CHINA:Earth Sciences, 2012, 55(12):2099-2108

• Li B*, Shen Y, Lou L. Efficient estimation of variance and covariance components: a case studyfor GPS stochastic model evaluation.  IEEE Transaction on Geosciences and Remote Sensing, 2011, 41(1):203-210

• Shen Y*, Li B, Chen Y. An iterative solution of weighted total least-squares adjustment. Journal of Geodesy, 2011, 85:229-238

• Li B*, Feng Y, Shen Y, Wang C. Geometry-specified troposphere decorrelation for subcentimeter real-timekinematic solutions over long baselines. Journal of Geophysical Research, 2010,115:B11404

• Li B*, Shen Y, Feng Y. Fast GNSS ambiguity resolution as an ill-posed problem. Journal of Geodesy, 2010, 84:683-698

• Li B*, Feng Y, Shen Y. Three carrier ambiguity resolution: distance-independent performance demonstrated using semi-generated triple frequency GPS signals. GPS Solutions, 2010, 14:177-184

• Li B*, Shen Y, Xu P. Assessment of stochastic models for GPS measurements with different types of receivers. Chinese Science Bulletin, 2008, 53(20):3219-3225