姓 名: | 宋淑丽 |
---|---|
学科类别: | 天文地球动力学 |
学 历: | 博士研究生 |
职 称: | 研究员 |
电 话: | 021-34775240 |
电子邮件: | slsong@shao.ac.cn |
通讯地址: | 上海市南丹路80号 |
简 历:
宋淑丽,中国科学院上海天文台研究员,博士生导师。入选上海市科技启明星计划、中国科学院青年创新促进会。国际GNSS委员会(ICG)监测评估任务组联合主席,国际GNSS服务组织(IGS)多模GNSS(MGEX)工作组和实时工作组成员。上海天文台国际GNSS服务(IGS)分析中心和实时数据中心、北斗全球连续监测评估系统(iGMAS)分析中心负责人。承担了北斗重大专项、国家自然基金、重点研发等多项研究课题;参与了北斗、探月、火星等国家重大工程。共发表论文70余篇;培养博士10多名,培养硕士10多名。
研究方向: 空间大地测量、高精度GNSS数据处理及应用、基于GNSS的电离层/对流层监测/建模及应用
获奖及荣誉:
(2012年入会)
承担科研项目:
代表论著:
1. Jin, X., Song, S.. et al. Near real-time global ionospheric total electron content modeling and nowcasting
based on GNSS observations. Journal of Geodesy 97, 27 (2023). https://doi.org/10.1007/s00190-023-0171
(SCI)
2. Guoqiang Jiao, Shuli Song, and Ke Su. Improving undifferenced satellite precise clock estimation with BDS-3
quad-frequency B1I/B3I/B1C/B2a observations for precise point positioning, GPS Solutions, 2022. (SCI)
3. Li, W., Song, S., & Jin, X. (2022). Ionospheric scintillation monitoring with ROTI from geodetic receiver:
Limitations and performance evaluation. Radio Science, 57, e2021RS007420. https://doi.org/10.1029/2021RS00742
(SCI)
4. Li, W., Song, S., Zhou, W., Cheng, N., & Yu, C. (2022). Investigating the Impacts of Ionospheric Irregularities
on Precise Point Positioning over China and Its Mechanism. Space Weather, 20, 2022SW003236.
https://doi.org/10.1029/2022SW003236 (SCI)
5. Jin, X., Song, S., Zhou, W. et al. Multi-GNSS global ionosphere modeling enhanced by virtual observation
stations based on IRI 2016 model. Journal of Geodesy 96, 81 (2022). https://doi.org/10.1007/s00190-022-01667-
(SCI)
6. Na Cheng, Shuli Song and Hui Xie. Investigation of Solar Flares Impact on GPS/BDS/ GALILEO Broadcast Ionospheric
Models. Radio Science.2018,54,91-103 (SCI)
7. Na Cheng, Shuli Song, Guoqiang Jiao, Xulei Jin, Wei Li. Global Monitoring of Geomagnetic Storm-Induced Ionosphere
Anomalies Using 3-D Ionospheric Modeling with Multi-GNSS and COSMIC Measurements, Radio Science. 2021, 56,
e2020RS007074. DOI: 10.1029/2020RS007074 (SCI)
8.Guoqiang Jiao, Shuli Song, Yangyang Liu, Ke Su, Na Cheng and Shengli Wang. Analysis and Assessment of BDS-2 and
BDS-3 Broadcast Ephemeris: Accuracy, the Datum of Broadcast Clocks and Its Impact on Single Point Positioning.
Remote Sensing. 2020, 12, 2081; doi:10.3390/rs12132081 (SCI)
9.Shuli Song, Na Cheng, Hui Xie, Weili Zhou. Adaptability of GPS/BDS broadcast ionospheric models to solar activities
Advances in Space Research.2019,63(9):2867-2876 (SCI)
10. Weili Zhou, Shuli Song, Qinming Chen,Na Cheng,Hui Xie. Determination of nighttime VTEC average in the Klobuchar ionospheric delay model. Geodesy and Geodynamic. 2018,9:175-182
11. Zhe Yang, Shuli Song, Wenhai Jiao, et al. Ionospheric tomography based on GNSS observations of the CMONOC: performance in the topside ionosphere [J].GPS Solut.2017,21(2):363-375.(SCI)
12. 王维, 宋淑丽, 王解先, 陈钦明, 朱文耀, 叶碧文.长三角地区多模GNSS斜路径观测分布及水汽仿真层析[J].测绘学报.2016 Vol. 45 (2): 164-169.DOI:10.11947/j.AGCS.2016.20140648.
13. Xue Junchen, Song Shuli, Zhu Wenyao. Estimation of differential code biases for beidou navigation system using multi-gnss observations: How stable are the differential satellite and receiver code biases? Journal of Geodesy, 2016, 90(4): 309-321(SCI)
14. Xue Junchen, Song Shuli, Liao Xinhao, Zhu Wenyao.Estimating and assessing galileonavigation system satellite and receiver differential code biases using the ionospheric parameter and differential code bias joint estimation approach with multi-GNSS observations. Radio Science, 2016, 51(4),271–283. (SCI)
15. 薛军琛, 宋淑丽, 朱文耀. 基于BDS/GPS 双系统的全球电离层建模. 中国科学: 物理学 力学 天文学, 2015, 45: 079505
16. 赵静旸,宋淑丽,陈钦明,周伟莉,朱文耀. 基于垂直剖面函数式的全球对流层天顶延迟模型的建立. 地球物理学报,2014,Vol. 57(10):3140-315(SCI)
17. 陈钦明,宋淑丽,朱文耀. 亚洲地区ECMWF/NCEP资料计算ZTD的精度分析. 地球物理学报,2012,55 (05) (SCI)
18. Qinming Chen, Shuli Song, Stefan Heise, Yuei-An Liou, Wenyao Zhu, Jingyang Zhao. Assessment of ZTD derived from ECMWF/NCEP data with GPS ZTD over China. GPS Solut 15, 415–425 (2011). https://doi.org/10.1007/s10291-010-0200-x (SCI)
19. Shuli Song, Wenyao Zhu, Qinming Chen, Yuei-An Liou. Establishment of a new tropospheric delay correction model over China area.Science China Physics, Mechanics and Astronomy volume. 2011, 54, 2271–2283. https://doi.org/10.1007/s11433-011-4530-7 (SCI)
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