(More information: https://space.wh.sdu.edu.cn/)
The Satellite Navigation, Remote Sensing and Celestial Mechanics group is headed by the PI and Prof. univ. Prof. h.c. Dr.-Ing. guochang Xu, former long term Senior Scientist of the GeoForschungs-Zentrum-Potsdam (1993-1998, 1999-2014), and also headed by Prof. univ. Prof. h.c. Hermann Josef Kaufmann, the former head of the section of Remote Sensing. The group aims to exploit and build the principle of satellite navigation, remote sensing and celestial mechanics, and has already started lectures and studies about some aspects of these research areas. The group has 1 full professor, two distinguished professors, three adjunct/guest professors, three senior engineers, two engineer, four post doctors, five Ph.D. and five master students. The group has a vast experimental laboratory equipped with various GNSS receivers, GNSS-R, UAV, remote control and communication devices, INS, laser scanner, optical cameras, computational hardware and real-time precise positioning software as well as space mission design software and other utilities as needed by researchers. The group provides an excellent platform of international exchange and opportunities studies abroad, and supports the applications of all science projects and talent projects.
Prof. univ. Prof. h.c. Dr.-Ing. Guochang Xu, who is lea of The Satellite Navigation, Remote Sensing and Celestial Mechanics group. He was Senior Scientist of the GeoForschungs-Zentrum-Potsdam for more than 15years, Aerospace Corporation (CASC). Adjunct Professor of University of Neubrandenburg, Germany, GFZ and Berlin Technical University; Chief editor in Springer Series; Adjunct professor of Chang'an University and Zhengzhou Institute of Surveying and mapping; Reviewer of China Changjiang Scholars; Phd supervisor at the Univ. of Lisbon and Univ. of Copenhagen. Published two books "GPS: Theory, Algorithms and Applications” and “Orbit”. First person that gave the solutions of the second order theory of the perturbed motion of satellite that solved the singular problems in celestial mechanics and set the theoretical basis of on-board autonomous navigation; was responsible for the design of GPS satellite navigation and positioning software at the joint project of GFZ and EU; participated in the GFZ-CHAMP and Galileo plan projects; participated in Southeast Asian tsunami warning project; participated in the German high-altitude flight project “HALO”. Current research interest is real time precise satellite positioning, and the derived works of theory solution of N-body problem, and the problem of Schwarzschild singularities solution of Einstein gravitational field equation.
Univ. Prof. h.c. Hermann Josef Kaufmann, invited professor at Shandon University, he was former head of the section of Remote Sensing of GFZ, National Distinguished Expert. He is a famous professional at geological remote sensing experts, Germany's Habilitation qualification professor, the current level of technology to more than NASA, he was one of the founders of GFZ and director of the Department of remote sensing. He has served as the executive director of the GFZ Department of remote sensing of earth and published more than 340 papers and more than 80 of them for review.
Team Members (1 full professor, 1 foreign 1000 talents expert, two distinguished professors, three adjunct/guest professors, 3 senior engineers, 2 engineers, four post doctors, five Ph.D. and five master students)
Full Professor: Dr. Tianhe Xu. Mainly involved in the research of satellite navigation and marine gravity measurements.
Foreign expert: Dr. Hermann Josef Kaufmann
Engineers: Mr. Pengli, Mr. Zhangzhen Sun, Mr. Wenlin Yan, Ms Chunhua Jiang, Ms Fangzhao Zhang
Associate Researcher: Dr. Ruisheng Zheng
Postdoctoral Scientists: Yunjun Du, Fan Gao.
Graduate students: Chaonan Ji, Taihao, Wang, Tong Liu, Zihang Feng.
1. Xu, G. (2014): GPS – Theory, Algorithms and Applications, 1st Ed in Persian, Iran Technical University Press, ISBN 978-7-302-27164-2, 332 pages, translated from Xu (2007): GPS – Theory, Algorithms and Applications, 2nd Ed, Springer, translation organized by the Iran Technical University.
2. Xu, G., Xu, J. (2013): Orbits - 2nd order singularity-free solutions, 2nd Ed, Springer Heidelberg, 420 pages, in English
3. Xu, G. (2012) (Ed.): Sciences of Geodesy - II, Advances and Future Developments, Springer Heidelberg, chapter topics (authors): General Relativity and Space Geodesy (L Comblinck), Global Terrestrial Reference Systems and their Realizations (D Angermann et al), Ocean Tide Loading (M Bos and HG Scherneck), Photogrammetry (P Redweik), Regularization and Adjustment (Y Shen and G Xu), Regional Gravity Field Modelling (H Denker), VLBI (H Schuh and J Boehm), in English, 391 pages
4. Xu, G. (2011): GPS – Theory, Algorithms and Applications, 1st Ed in Chinese, Tschinghua University Press Peking, ISBN 978-7-302-27164-2, 332 pages, translated from Xu (2007): GPS – Theory, Algorithms and Applications, 2nd Ed, Springer, in translation series of Space Technology of Springer, translation organised by the Peking Institute of Satellite Controlling and Telecommunication, translated by Qiang Li, Guangjun Liu, Hailiang Yu, Bo Li, and Haiying Luo, proved by Xurong Dong.
5. Xu, G. (2010) (Ed.): Sciences of Geodesy - I, Advances and Future Directions, Springer Heidelberg, chapter topics (authors): Aerogravimetry (R Forsberg), Superconducting Gravimetry (J Neumeyer), Absolute and Relative Gravimetry (L Timmen), Deformation and Tectonics (L Bastos et al.), Analytic Orbit Theory (G Xu), InSAR (Y Xia), Marine Geodesy (J Reinking), Kalman Filtering (Y Yang), Equivalence of GPS Algorithms (G Xu et al.), Earth Rotation (F Seitz and H Schuh), Satellite Laser Ranging (L Combrinck), in English, 507 pages
1. Wang QX, Xu TH, Xu G (2010) HALO_GPS Software User Manual, (High Altitude and Long Range Airborne GPS Positioning Software) Version of 2010, Scientific Technical Report STR10/11, 43 pages
2. Yeh, TK; Chen, CS; Chung, YD, Feng CW, Xu, G (2010): Clarifying the relationship between quality of GPS data and precision of positioning, Journal of Surveying Engineering, Vol. 136, Issue 1, pp41-45
3. Xu, G., Xu, T., Chen, W., Yeh, T (2010) Analytic Solution of Satellite Orbit Disturbed by Lunar and Solar Gravitation, MNRAS, Vol. 410, Issue 1, pp 645-653, doi:10.1111/j.1365-2966.2010.17470.x
4. Xu, G., Xu, T., Yeh T., Chen W (2010) Analytic Solution of Satellite Orbit Disturbed by Atmospheric Drag, MNRAS, Vol. 410, Issue 1, pp 654-662, doi:10.1111/j.1365-2966.2010.17471.x
5. Xu TH, Xu G, Shen X, Cheng YP (2010) A Maneuvered GEO Satellite Orbit Determination Using Robustly Adaptive Kalman Filter, isdea, vol. 1, pp.55-59, 2010 International Conference on Intelligent System Design and Engineering Application
6. Xu, Y., Yang Y., Zhang Q., Xu G. (2011) Solar Oblateness and Mercury’s Perihelion Precession, MNRAS, Vol. 415, Issue 4, pp 3335-3343, doi/10.1111/j.1365-2966.2011.18947.x/pdf
7. Wang, Q., Xu, G., Petrovic, S., Schäfer, U., Meyer, U., Xu, T. (2011): A regional tropospheric model for airborne GPS applications. - Advances in Space Research, 48, 2, 362-369, 10.1016/j.asr.2011.03.013.
8. Wang, Q., Xu, G., Chen, Z. (2010) Interpolation method of tropospheric delay of high altitude rover based on regional GPS network, Wuhan Daxue Xuebao (Xinxi Kexue Ban)/Geomatics and Information Science of Wuhan University 35 (12), pp1405-1408
9. Xu, T., Xue, T., Xu, G., Shen, X., Shan, X., Chen, Y. (2011) A maneuvered GEO satellite orbit determination using robustly adaptive Kalman filter, Proceedings – 2010 International Conference on Intelligent System Design and Engineering Application, ISDEA 2010 1 art. No. 5743128, pp. 55-59
10. Cui, X., Yang, Y., Xu, G. (2011) A synthetic approach for orbit determination considering GPS broadcast ephemeris algorithm as dynamic model of LEO, Wuhan Daxue Xuebao (Xinxi Kexue Ban)/Geomatics and Information Science of Wuhan University 36 (12), pp. 1478-1481
11. Wang, Q., Xu, T., Xu, G. (2011) Adaptively changing reference station algorithm and its application in GPS long range airborne kinematic relative positioning, Acta Geodaetica et Cartographica Sinica 40 (4), pp. 429-434
12. Wang, Q., Xu, T., Xu, G. (2011) Application of combining method of outlier detection and robust estimation to GPS kinematic relative positioning, Wuhan Daxue Xuebao (Xinxi Kexue Ban)/Geomatics and Information Science of Wuhan University 36 (4), pp. 476-480
13.Xu, Y., Yang Y., Xu G. (2012) Precise determination of GNSS trajectory in the Antarctic airborne kinematic positioning, China Satellite Navigation Conference (CSNC) 2012 Proceedings, Lecture Notes in Electrical Engineering, Vol 159, 2012, pp95-105
14.Xu TH, He KF, Xu G C (2012). Orbit determination and thrust force modeling for a maneuvered GEO satellite using two-way adaptive Kalman filtering. Sci China-Phys Mech Astron, 2012, 55: 738-743, doi: 10.1007/s11433-012-4670-4
15.Xu, G., Xu, J. (2012) On the Singularity Problem of Orbital Mechanics, MNRAS, 2013, Vol.429, pp1139-1148
16.Xu, G., Xu, J. (2013) On Orbital Disturbing Effects of the Solar Radiation, MNRAS, 432 (1): 584-588 doi:10.1093/mnras/stt483
17.HUANG, GuanWen; ZHANG, Qin; XU, GuoChang (2013). Real-time clock offset prediction with an improved model. GPS Solutions, 2013, S. 1-10. 18.Yeh, T-K., Chen, C-H., Xu, G., Wang, C-S, Chen, K-H (2013) The impact on the positioning accuracy of the frequency reference of a GPS receiver, Surveys in Geophysics, 34:73-87
19.Shen YZ, Li BF, Li WW, Xu G (2014) Spatiotempral filtering of regional GNSS network‘s position time series with missing data using principle component analysis, Journal of Geodesy, accepted
20.Xu G, Lv ZP, Shen YZ, Yeh TK (2014) A mathematical derivation of singularity-free Lagrange equations of planetary motion, Special issue for celebration 80th birthday of academician Houze Xu, Journal of Surveying and Mapping, 2014
21.Kaifei He, Guochang Xu, Tianhe Xu, Frank Flechtner (2014) GNSS Navigation and Positioning for the GEOHALO experiment in Italy, GPS Solution, 2014/12 (SCI)
22.Zhangzhen Sun Prediction and Analysis of Chinese Earth Rotation Parameters Based on Robust Least-Squares and Autoregressive Model. China Satellite Navigation Conference (CSNC) 2015 Proceedings， 2015(2)：477-486,Xi’an,P.R.China, 2015.05.13-05.15
23. YAN Wen-Lin, Using optimal adaptive factor to improve the accuracy of airborne gravimetry based on state model method, Chinese Journal of Geophyiscs. 2016, (03)( SCI)