姓 名:
Andres Calabia
出生年月:
1981年06月
性 别:
男
导 师:
职 称:
副教授
职 务:
最高学历:
博士研究生
所属专业:
天体测量与天体力学
工作单位:
遥感与测绘工程学院
所属系部:
测绘工程系
毕业院校:
中国科学院大学
研究方向:
空间大地测量,卫星导航,轨道力学
办公地点:
北辰楼310
邮 箱:
andres@calab
主讲课程:
大地测量基础
主要研究领域:
空间大地测量
教育背景
2014-2017, University of Chinese Academy of Sciences, China,Ph.D. in Astrometry and Celestial Mechanics
2012-2013, Polytechnic University of Madrid, Spain,Research Coursework for Ph.D. in Geodetic Engineering
2009-2012, University of Alcala de Henares, Spain,M.Sc. in Geodesy and Cartography
2000-2004, Polytechnic University of Catalonia, Spain,B.Sc. in Land Surveying
工作经历
2018/12-至今 南京信息工程大学 遥感与测绘工程学院 副教授
2017-2018 美国科罗拉多大学 博尔德,美国 博士后
学术兼职
2018-present, Chair of the International Association of Geodesy Join Study Group 3;
2014-present, Associate Editor for Journal of Geodetic Science, De Gruyter;
Reviewer for Progress in Aerospace Sciences, Elsevier;
Reviewer for Aerospace Science and Technology, Elsevier;
Reviewer for Annales Geophysicae, European Geoscience Union;
Reviewer for International Association of Geodesy Symposia, Springer;
Reviewer for Journal of Remote Sensing GIS, OMICS International。
荣誉获奖
Honourable mention at NASA LWS Jack Eddy Postdoctoral Fellowship Program, 2017, UCARCPAESS, Heliophysics. https://cpaess.ucar.edu/heliophysics/jack-eddy/alumni-2017;
Honour of Excellent International Graduate, 2017, Chinese Academy of Sciences, China;
Scholarship for Ph.D. in Space Geodesy and Geodynamics, 2014, Chinese Academy of Sciences,China;
Grant for Collaboration with University of Alcala, 2010, Ministry of Education, Spain;
Honours in Mathematics, 2009, University of Alcala, Madrid, Spain;
Scholarship for M.Sc. in Geodesy and Cartography, 2009, University of Alcala, Madrid, Spain.
近期主要论著
一、论文
Calabia, A., and S.G. Jin (2020), New modes and mechanisms of long-term ionospheric TEC variations from Global Ionosphere Maps, J. Geophys. Res. Space Phys., 125(6), e2019JA027703, doi: 10.1029/2019JA027703. (SCI)
Wang, Q., S.G. Jin, Y. Hu, X. Tang, andA. Calabia(2020), Estimation of QZSS differential code biases using QZSS/GPS combined observations from MGEX, J. Navigat. (SCI)
Tang, G., X. Li, J. Cao, S. Liu, G. Chen, H. Man, X. Zhang, S. Shi, J. Sun, Y. Li, and A. Calabia(2020), APOD mission status and preliminary results, Sci. China Earth Sci., 63, 257-266, doi: 10.1007/s11430-018-9362-6. (SCI)
Calabia, A., G. Tang, and S.G. Jin (2020), Assessment of new thermospheric mass density model using NRLMSISE-00 model, GRACE, Swarm-C, and APOD observations, J. Atmos. Sol.-Terr. Phys., 199, 105207, doi: 10.1016/j.jastp.2020.105207. (SCI)
Shah, M., A. Calabia, M. A. Tariq, J. Ahmed, and A. Ahmed (2020), Possible ionosphere and atmosphere precursory analysis related to Mw >6.0 earthquakes in Japan, Remote Sens. Environ., 239, 111620, doi: 10.1016/j.rse.2019.111620. (SCI)
Edokossi, K., A. Calabia, S.G. Jin, and I. Molina (2020), GNSS-Reflectometry and Remote Sensing of Soil Moisture: A review of measurement techniques, methods and applications, Remote Sens., 12(4), 614, doi: 10.3390/rs**. (SCI)
Calabia, A., I. Molina, and S.G. Jin (2020), Soil moisture content from GNSS reflectometry using dielectric permittivity from fresnel reflection coefficients, Remote Sens., 12(1), 122, doi: 10.3390/rs**. (SCI)
Yuan, L., S.G. Jin, and A. Calabia(2019), Distinct thermospheric mass density variations following the September 2017 geomagnetic storm from GRACE and Swarm, J. Atmos. Sol.-Terr. Phys., 184, 30-36, doi: 10.1016/j.jastp.2019.01.007. (SCI)
Calabia, A., and S.G. Jin (2019), Solar-cycle, seasonal, and asymmetric dependencies of thermospheric mass density disturbances due to magnetospheric forcing, Ann. Geophys., 37(5), 989-1003, doi: 10.5194/angeo-37-989-2019. (SCI)
Calabia, A., andS.G. Jin(2019), Solar-flux and asymmetric dependencies of GRACE-derived thermospheric neutral density disturbances due to geomagnetic and solar wind forcing,Space Weather, doi: 10.1029/2019SW002188.(SCI)
Jin, S.G., A. Calabia, and L.L. Yuan (2018), Thermospheric variations from GNSS and accelerometer measurements on small satellites,Proc. IEEE, 106(3), 484-495, doi: 10.1109/JPROC.2018.**.(SCI)
Calabia, A.andS.G. Jin(2018), Solar-flux and asymmetric dependencies of GRACE-derived thermospheric neutral density disturbances due to geomagnetic and solar wind forcing,J. Geophys. Res. Space Physics, doi: 10.1002/ 2017JA025108.(SCI)
Calabia, A.and S.G.,2017.Thermospheric density variations following the March 2013geomagnetic storm from GRACE GPS-determined precise orbit, Journal of Atmospheric and Solar–Terrestrial Physics (SCI收录)
Calabia, A.,and S.G.,2016,New modes and mechanisms of thermospheric mass densityvariations from GRACE accelerometers.Journal of Geophysical Research: Space Physics(SCI收录)
Calabia, A.,and S.G.,2016,Assessment of conservative force models from GRACE accelerometers and precise orbit determination.Aerospace Science and Technology(SCI收录)
Calabia, A.,S.G.,and R.Tenzer,2015,A new GPS-based calibration of GRACE ac-celerometers using the arc-to-chord threshold uncovered sinusoidal disturbing signal.Aerospace Science and Technology(SCI收录)
二、会议论文
Calabia, A., S.G. Jin, and T. Matsuo, Modeling of Thermospheric Neutral Density Variationsin Response to Geomagnetic Forcing using GRACE Accelerometer Data, Abstract SA22A-04 presented at 2017 Fall Meeting, AGU, New Orleans, LA, 11-15 Dec;
Calabia, A.,and S. Jin(2018), GRACE-TIEGCM thermospheric mass density assimilationthrough sequential non-linear regression and optimal interpolation analyses, Internal publication,University of Colorado, Boulder, CO, USA;
Calabia, A., Thermospheric neutral density variations from LEO accelerometers and PreciseOrbits, 4th Annual Smead Aerospace Research-Palooza, September 8, 2017, Boulder, CO, US;
Calabia, A., and S.G. Jin, Thermospheric mass density variations during the March 2015 geo-magnetic storm from GRACE accelerometers, Proceeding of Progress In Electromagnetics ResearchSymposium (PIERS2016), August 8-11, 2016, Shanghai, China, pp. 4976-4980, doi: 10.1109/PIERS.2016.**. (EI);
Calabia, A., and S.G. Jin, Long-term variations of thermospheric air mass density derivedfrom GRACE accelerometers, Proceeding of Progress In Electromagnetics Research Symposium(PIERS2016), August 8-11, 2016, Shanghai, China, pp. 4759-4763, doi: 10.1109/PIERS.2016.**. (EI);
Li, D., S.G. Jin, G. Zheng, and A. Calabia, Evaluation of 3-D ionospheric tomography fromdenser GNSS array observations in Japan, Proceeding of Progress In Electromagnetics ResearchSymposium (PIERS2016), August 8-11, 2016, Shanghai, China, pp. 4986-4990, doi: 10.1109/PIERS.2016.**. (EI);
Calabia,A., and S.G. Jin, Variations of thermospheric air mass density derived from GRACEaccelerations and GPS POD, The 1st International Conference on GNSS+ (ICG+2016), July27-30, 2016, Shanghai, China;
Calabia,A., M. Gomez, G. Benavides, Validacion de un modelo basado en Tecnicas de Evaluacion Multicriterio y SIG a partir de analisis de incertidumbre. Una propuesta para mejorarla introduccin de distorsion en las variables de partida, Proceeding of XV National Congress ofGeographical Information Technologies, 20-21 September 2012, Madrid, Spain.
三、专著:
Calabia,A.,andS.G. Jin (2015), GPS-based non gravitational accelerations and accelerometercalibration, in S. Jin (Ed.), Satellite Positioning: Methods, Models and Applications, in Tech-Publisher, Rijeka, Croatia, ISBN: 978-953-51-1738-4, pp. 47-72.
Gomez, M., W. Plata, J.P. Oran, A. Calabia, and P. Barreira (2012), Procedures for validatingmodels of future urban growth, in Urban dynamics analysis and simulation of future developmentscenarios with Geographic Information Technologies, in Ra-Ma (Ed.), Paracuellos de Jarama,Madrid, Spain, ISBN: 978-84-9964-125-6, pp. 237-274.
近期科研项目
南京信息工程大学人才启动费(2019r028):“电离层建模和应用”,2019.04-2022.04, 经费10万元,主持
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