1.    Photo:

2. The title:

Dr. Qianxin Wang (Professor)

Vice Dean of School of Environment & Geo-Informatics

Director of BeiDou Data Processing & Analysis Center of CUMT

3. Email: wqx@cumt.edu.cn

4. The research direction: Navigation and Positioning; Remote Sensing; Geographic Information Science.

5. Details:

Education

From 2012.08 to 2015.07, Post-Doctor of Geodesy, Xian Research Institute of Surveying and Mapping, China;

From 2007.10 to 2010.07, Sandwich PhD of Geodesy, German Research Centre for Geosciences (GFZ), German;

From 2005.09 to 2011.06, PhD of Geodesy, Central South University, China;

From 2002.09 to 2005.06, Master of Geodesy, Central South University, China;

From 1998.09 to 2002.06, Bachelor of Architecture Engineering, National University of Defense Technology, China

Work Experience

From 2020.01 to Present, Professor at the School of Environment Science & Spatial Informatics in China University of Mining and Technology;

From 2018.03 to 2019.03, Visiting Scholar, Royal Melbourne Institute of Technology, Australia;

From 2014.10 to 2019.12, Associate Professor at the School of Environment Science and Spatial Informatics in China University of Mining and Technology;

From 2011.07 to 2014.09, Research Associate at Chinese Academy of Surveying & Mapping;

Publications (2010~2020)

2020

[1] Ya Mao, Qianxin Wang*, Chao Hu, Hongyi Yang, Mingbin Zhang. Analysis of Clock Error Characteristics of BDS-3 Satellite [J]. Geomatics and Information Science of Wuhan University, 2020, 45(1): 53-61. (EI)

[2] Chao Hu, Zhongyuan Wang*, Qianxin Wang, Pengwen Rao. An Improved Deviation Processing Model of BDS-2/BDS-3 Joint Precise Orbit Determination System [J]. Geomatics and Information Science of Wuhan University, 2020. 10. (Accepted). (EI)

[3] Zhang Kefei, Li Huaizhan *, Wang Yunjia, Deng Kazhong, Li Changgui, Wang Qianxin, Liu Xinhua, Xie Yaoshe, Duan Yabo, Yang Yang. An Investigation of Space Mining-Current status, opportunities and challenges [J]. Journal of China University of Mining and Technology, 2020, 49(06): 1025-1034. (EI)

2019

[1] Qianxin Wang, Chao Hu*, Kefei Zhang. A BDS-2/BDS-3 Integrated Method for Ultra-Rapid Orbit Determination with the Aid of Precise Satellite Clock Offset [J]. Remote Sensing, 2019, 11(7):1758-1780. (SCI)

[2] Qianxin Wang, Kefei Zhang, Suqin Wu, Yan Zou and Chao Hu*. A Method for Identification of Optimal Minimum Number of Multi-GNSS Tracking Stations for Ultra-Rapid Orbit and ERP Determination [J]. Advances in Space Research, 2019, 63(1): 2877-2888. (SCI)

[3] Qianxin Wang*, Allison Kealy, Shengjie Zhai. Introduction for the Special Issue on Beyond the Hypes of Geospatial Big Data: Theories, Methods, Analytics, and Applications [J]. Computer Modeling in Engineering & Sciences, 2019, 119(2): 245-247. (SCI)

[4] Xu Yang, Qianxin Wang*, Shuqiang Xue. Random Optimization Algorithm on GNSS Monitoring Stations Selection for Ultra-rapid Orbit Determination and Real-time Satellite Clock Offset Estimation. Mathematical Problems in Engineering [J]. 2019, DOI: 10.1155/2019/7579185. (SCI)

[5] Ya Mao, Qianxin Wang*, Chao Hu, Hongyi Yang, Xu Yang, Weixuan Yu. New clock offset prediction method for BeiDou satellites based on inter-satellite correlation. Acta Geodaetica et Geophysicahttps. 2019, 54(1): 35-54. (SCI)

[6] Chao Hu, Qianxin Wang*, Yanghai Min, Ya Mao, Youxing Gong. An improved model for BDS satellite ultra-rapid clock offset prediction based on BDS-2 and BDS-3 combined estimation [J]. Acta Geodaetica et Geophysicahttps. 2019, 54(4): 513-543. (SCI)

[7] Xu Yang, Guobin Chang, Qianxin Wang*, Shubi Zhang, Ya Mao, Xiongchuan Chen. An adaptive Kalman filter based on variance component estimation for a real-time ZTD solution [J]. Acta Geodaetica et Geophysicahttps. 2019, 54(1): 89-121. (SCI)

[8] Lin Pan, Xiaohong Zhang*, Xingxing Li, Xin Li, Cuixian Lu, Jingnan Liu, Qianxin Wang. Satellite availability and point positioning accuracy evaluation on a global scale for integration of GPS, GLONASS, BeiDou and Galileo [J]. Advances in Space Research. 2019, 63(9): 2696-2710. (SCI)

[9] Yilei He, Qianxin Wang*, Chao Hu. Signal quality analysis of BDS-3 based on iGMAS data [J]. Geomatics and Information Science of Wuhan University, 2019.06. (Accepted). (EI)

[10] Hu Chao, Qianxin Wang*, Ya Mao. An Improved Model for the Observed GNSS Ultra-rapid Orbit Based on DOP Values [J]. Geomatics and Information Science of Wuhan University, 2020, 45(1): 28-37.(EI)

2018

[1] Qianxin Wang*, Chao Hu, Ya Mao. Correction Method for the Observed Global Navigation Satellite System Ultra-Rapid Orbit Based on Dilution of Precision Values [J]. Sensors, 2018, 18(11), 3900. DOI: 10.3390/s18113900. (SCI)

[2] Qianxin Wang, Chao Hu* and Ya Mao. A Method for Rapidly Determining the Optimal Distribution Locations of GNSS Stations for Orbit and ERP Measurement Based on Map Grid Zooming and Genetic Algorithm [J]. Computer Modeling in Engineering & Sciences, 2018, 117(3), 509-525. (SCI)

[3] Chao Hu, Qianxin Wang*, Zhongyuan Wang, et al. New-Generation BeiDou (BDS-3) Experimental Satellite Precise Orbit Determination with an Improved Cycle-Slip Detection and Repair Algorithm [J]. Sensors, 2018, 18(5), 1402. (SCI)

[4] Xu Yang, Qianxin Wang*, Guobin Chang. A Solution for Real-time Ionospheric Delay Using an Adaptive Kalman Filter based on Estimating the Variance Component [J]. Mathematical Problems in Engineering. 2018(6): 1-21. (SCI)

[5] Guobin Chang*, Tianhe Xu, Qianxin Wang. M-estimator for the 3D symmetric Helmert coordinate transformation [J]. Journal of Geodesy, 2018, 92(1): 47-58. (SCI)

[6] Guobin Chang*, Tianhe Xu, Yifei Yao, Qianxin Wang. Adaptive Kalman filter based on variance component estimation for the prediction of ionospheric delay in aiding the cycle slip repair of GNSS triple-frequency signals [J]. Journal of Geodesy, 2018, 92(11): 1241–1253. (SCI)

[7] Fei Wu, Kazhong Deng*, Guobin Chang, Qianxin Wang. The application of a combination of weighted least-squares and autoregressive methods in predictions of polar motion parameters [J]. Acta Geodaetica Et Geophysica, 2018, 53(2): 247-257. (SCI)

[8] Ya Mao, Qianxin Wang*, Chao Hu, Yilei He. Accuracy analysis of broadcast ephemeris of Beidou in orbit satellite[J]. Journal of Astronautics, 2018, 39(9):  1013-1021. (EI)

2017

[1] Qianxin Wang, Chao Hu*, Tianhe Xu, Guobin Chang and Alberto Hernández Moraleda. Impacts of Earth rotation parameters on GNSS ultra-rapid orbit prediction: derivation and real-time correction. [J] Advances in Space Research, 2017, 60(12): 2855-2870. (SCI, Q3, IF: 1.746)

[2] Guobin Chang*, Tianhe Xu, Qianxin Wang. Error analysis of the 3D similarity coordinate transformation [J]. GPS Solution. 2017, 21(3): 963-971. (SCI, Q2, IF: 3.049)

[3] Guobin Chang*, Tianhe Xu, Qianxin Wang. Analytical solution to and error analysis of the quaternion based similarity transformation considering measurement errors in both frames [J]. Measurement, 2017, Vol. 110, pp.1-10. (SCI, Q2, IF: 2.791)

[4] Guobin Chang*, Tianhe Xu, Qianxin Wang. GNSS attitude determination method through vectorization approach [J]. IET Radar, Sonar & Navigation, 2017, 11(10): 1477-1482. (SCI, Q3, IF: 2.015)

[5] Guobin Chang*, Tianhe Xu, Qianxin Wang. A generalization of the analytical least-squares solution to the 3D symmetric Helmert coordinate transformation problem with an approximate error analysis [J]. Advances in Space Research, 2017, 59(10): 2600-2610. (SCI, Q3, IF: 1.746)

[6] Guobin Chang*, Tianhe Xu, Qianxin Wang. Alternative framework for the iterated unscented Kalman filter [J]. IET Signal Processing, 2017, 11(3): 258-264. (SCI, Q3, IF: 1.754)

[7] Tianhe Xu, Guobin Chang*, Qianxin Wang. Analytical 3D rotation estimation using vector measurements with full variance-covariance matrix [J]. Measurement, 2017, Vol. 98. pp. 131-138. (SCI, Q2, IF: 2.791)

[8] Guobin Chang*, Tianhe Xu, Qianxin Wang. Error analysis of Davenport’s method [J]. Automatic, 2017, Vol. 75, pp. 217-220. (SCI, Q1, IF: 6.126)

[9] Changyong He*, Suqin Wu, Xiaoming Wang, Andong Hu, Qianxin Wang, Kefei Zhang. A new voxel-based model for the determination of atmospheric weighted mean temperature in GPS atmospheric sounding [J]. Atmospheric Measurement Techniques, 2017, 10(10): 2045-2060. (SCI, Q2, IF: 3.841)

[10] Zhiwen Wang, Hui Xu, Qianxin Wang, Yilei He (2017), A method for polar motion prediction based on LS model of error compensation [J]. Lecture Notes in Electrical Engineering, 2017, Vol.439, pp: 77-87; (EI)

[11] Zhiping Liu, Dantong Zhu, Qianxin Wang, Jian Wang (2017), Determining the Reasonable Time Resolution of the Precise Satellite Clock Bias Products [J]. Lecture Notes in Electrical Engineering, 2017, Vol.437, pp: 297-309; (EI)

[12] Chao Hu, Qianxin Wang*, Zhongyuan Wang, Xiaoqiang Peng. An Optimal Stations Selected Model Based on the GDOP Value of Observation Equation[J]. Geomatics and Information Science of Wuhan University, 2017, 42(6): 838-844. (EI)

2016

[1] Qianxin Wang, Guobin Chang*, Tianhe Xu, Yan Zou. Representation of the rotation parameter estimation errors in the Helmert transformation model [J]. Survey Review, 2016, 50(358): 69-81. (SCI, Q3, IF: 1.442)

[2] Guobin Chang*, Tianhe Xu, Qianxin Wang. Baseline configuration for GNSS attitude determination with an analytical least-squares solution [J]. Measurement Science & Technology, 2016, 27(12): 1-6. (SCI, Q2, IF: 1.861)

[3] Guobin Chang*, Yunjia Wang, Qianxin Wang. Accuracy Improvement by Implementing Sequential Measurement Update in Robust Kalman Filter [J]. Acta Geodaetica et Geophysica, 2016, 51(3): 421-433. (SCI, Q4, IF: 0.942)

[4] Mingbin Zhang, Yan Zou, Qianxin Wang (2016), A Highly Efficient Method to Download GNSS Data Automatically [J]. Frontiers in Geoscience, 2016, Vol.4, No.1, pp.1-7;

2014

[1] Hu Wang, Cheng Wang, Jiexian Wang, Qianxin Wang, Yaming DANG (2014), Global characteristics of the second-order ionospheric delay error using inversion of electron density profiles from COSMIC occultation data [J]. Science China, Part D, 2014, 57:365-374; (SCI)

2013

[1] Qianxin Wang, Yamin Dang, Tianhe Xu (2013), The Method of Earth Rotation Parameter Determination Using GNSS Observations and Precision Analysis [J]. Lecture Notes in Electrical Engineering, Vol.243, pp: 247-256, 2013; (EI)

2012

[1] Qianxin Wang, Yingyan Chen, Jing Zhao (2012), Analysis and Modeling of PPP Residuals from GPS and GLONASS [J]. Lecture Notes in Electrical Engineering, Vol.160, pp: 301-308, 2012; (EI)

[2] Xiaohui Liu, Qianxin Wang, Yamin Dang, Xiaoguo Yang, Jing Zhao (2012), Analysis of the Tidal Effect on GNSS Kinematic and Static Positioning [J]. Lecture Notes in Electrical Engineering, Vol.159, pp: 473-481, 2012; (EI)

[3] Chenxi Zhang, Qianxin Wang, Yamin Dang, Zhigang Yu, Jing Zhao (2012), Analysis and Modeling of GLONASS Broadcast Ephemeris Errors [J]. Lecture Notes in Electrical Engineering, Vol.159, pp: 455-462, 2012; (EI)

[4] Huifang Yin, Yamin Dang, Shuqiang Xue, Qianxin Wang, Hui Yi (2012), An Improved Inverse Distance Weighted Method for Interpolating ZTD Based on Regional GPS Network [J]. Lecture Notes in Electrical Engineering, Vol.159, pp: 463-471, 2012; (EI)

[5] Qianxin Wang（2012）, Theory and Algorithm of Airborne GNSS Kinematic Position, Velocity and Attitude Determination [J]. Acta Geodaetica et Cartographica Sinica, 2012, Vol.41, No.4, pp.627, In Chinese; (EI)

[6] Qianxin Wang, Tianhe Xu, Youxing Gong（2012），Optimal Points of Using Central Differences Method for GPS Velocity Determination [J]. Geomatics and Information Science of Wuhan University, 2012, Vol.37, No.3, pp.265-268, In Chinese; (EI)

2011

[1] Qianxin Wang, G. Xu, S. Petrovic, U. Schaefer (2011), A Regional Tropospheric Model for Airborne GPS-Applications [J]. Advances In Space Research, Vol.48, No.2, pp: 362-369, 2011; (SCI)

[2] Qianxin Wang, Tianhe Xu (2011), Combing GPS Carrier Phase and Doppler Observations for Precise Velocity Determination [J]. Science China, Part G, Vol.54, No.6, pp: 1022-1028, 2011; (SCI)

[3] Hu Wang, Jiexian Wang, Guixia Bai, Qianxin Wang, Haojun Li, Weidong Zhu (2011), Real-time monitoring of ionosphere changes in the Yangtze River Delta region based on GPS technology during the total solar eclipse of 22 July 2009 [J]. Chinese Journal of Geophysics (in Chinese), 2011, Vol.54, No.7, pp.1718-1726. (SCI)

[4] Qianxin Wang, Tianhe Xu (2011), A Precision Acceleration Determination Method Based on Combining GPS Carrier Phase and Doppler [J]. Procedia Engineering, Vol.16, No.11, pp: 737-744, 2011; (EI)

[5] Qianxin Wang (2011), Integrated Carrier Phase and Doppler Observations of GPS and GLONASS for Precise Velocity Determination [J]. Proceedings of the 24th International Technical Meeting of the Satellite Division of The Institute of Navigation, pp: 2303-2309, 2011; (EI)

[6] Tianhe Xu, Yuepeng Chen, Qianxin Wang (2011), Kalman Filter-base Orbit Determination with Dynamic Model Compensation for a Maneuvered GEO Satellite [J]. Advance Materials Research, Vol.11, No.12, pp: 5626-5631, 2011; (EI)

[7] Qianxin Wang, Tianhe Xu, Guochang Xu (2011), Adaptively Changing Reference Station Algorithm and Its Application in GPS Long Range Airborne Kinematic Relative Positioning [J]. Acta Geodaetica et Cartographica Sinica, 2011, Vol.40, No.4, pp.429-434, In Chinese; (EI)

[8] Qianxin Wang, Tianhe Xu, Guochang Xu (2011), Application of Combining Method of Outlier Detection and Robust Estimation to GPS Kinematic Relative Positioning [J]. Geomatics and Information Science of Wuhan University, 2011，Vol.36, No.4, pp.476-480, In Chinese (EI).

[9] Qianxin Wang (2011), Research of Airborne GPS Kinematic Position Velocity and Attitude Determination and Software Development [D]. Central South University, China, 2011, Doctoral Dissertation.

2010

[1] Qianxin Wang, Tianhe Xu, Guochang Xu (2010). HALO_GPS (High Altitude and Long Range Airborne GPS Positioning Software)-Software User Manual [R]. Scientific Technical Report, German Research Centre for Geosciences, 2010, ISSN: 1610-0956.

[2] Qianxin Wang, Guochang Xu, Zhengyang Chen (2010), Interpolation Method of Troposheric Delay of High Altitude Rover Based on Regional GPS Network [J]. Geomatics and Information Science of Wuhan University, 2010, Vol.35, No.12, pp.1405-1408, In Chinese (EI).

Research Projects (2015-2020)

2020

[1] Mathematical methods of intelligent navigation and remote sensing data high precision fusion, The National Key Research and Development Program of China, 750,000 RMB, 2021-2025, Grant No. SQ2020YFA070205; (PI)

[2] Global continuous monitoring and evaluation system (phase III) analysis center construction and operation maintenance (2019), Chinese second-generation satellite navigation system major project, 283,300 RMB, 2019-2020; (PI)

2019

[1] BDS-2/BDS-3 satellite joint precise orbit determination key technology research, general project of National Natural Science Foundation of China, 756,000 RMB, 2019-2022, Grant No. 41874039; (PI)

[2]  Global continuous monitoring and evaluation system (phase III) analysis center construction and operation maintenance (2018), Chinese second-generation satellite navigation system major project, 500,000 RMB, 2018-2019; (PI)

2018

2015

[1] Theory and method of high time resolution earth rotation parameters determination based on GNSS observations, Supported by NSFC, 250,000 RMB, 2015-2017, Grant No. 41404033; (PI)

[2] The Industry Standard of SLR Data and Product, National Science and Technology Basic Work, 260,000 RMB, 2015-2018, Grant No. 2015FY310200; (PI)

[3] EOP data processing method using multi-technologies, Key Project of the National Key Laboratory Open Fund, 50,000 RMB, 2015-2016, Grant No. SKLGIE2014-Z-1-1; (PI)

[4] EOP determination using VLBI/SLR/GNSS, The Basic Scientific Research Project of Central University, 100,000 RMB, 2015-2017, Grant No. 2015QNA31; (PI)

[5] Mining Disaster Monitoring and Warming Based on BDS/Web-GIS Technologies, The 8th “Sailing Plan” Special Talents of CUMT, 30,000 RMB, 2015-2017; (PI)

Textbooks and Monographs

[1] Qianxin Wang, Shubi Zhang, et al. GNSS principle and application [M]. Xuzhou: China University of mining and Technology Press, ISBN: 978-7-5646-4440-6. 2019:1-387. Key teaching materials of Jiangsu Universities during the 13th Five Year Plan period (No.2018-2-138);

[2] Qianxin Wang. Theory and application of airborne GNSS dynamic positioning and attitude determination [M]. Beijing: Surveying and Mapping Press, ISBN: 978-7-5030-4254-6, 2019:1-279.

[1] Qianxin Wang, Yan Zou. Bilingual teaching and international talent training [M].Northeast Normal University Press, ISBN: 978-7-5681-2972-5, 220,000 words, 2017.04 ;

[1] Qianxin Wang, Tianhe Xu, Guohang Xu. HALO_GPS Software User Manual [R]. Potsdam: Deutsches Geo Forschungs Zentrum, ISSN:1610-0956, 2010.11,1-42.

Invention Patent and Software Copyright

[1] Qianxin Wang, Bo Yang, Yichen Jiang, Shubi Zhang, Wei Zhang, Lin Wang, Yujie Wang. An Optimization Method of CORS Station Selection Index Based on DTIN, national invention patent, October 16, 2020, Patent No. 202011110717.3;

[2] Kun Li, Qianxin Wang. Four System Clock Error Preprocessing and Prediction Software v1.0, July 27, 2020, software registration No. 2020SR1190591;

[3] Mengmeng Li, Qianxin Wang. Using JPL Ephemeris to Calculate Celestial Position, Earth Nutation and Lunar Libration Software v1.0, August 28, 2020, software registration No. 2020SR1006564;

[4] Wei Miao, Qianxin Wang. Product Consistency Analysis Software of iGMAS Analysis Center v1.0, May 10, 2020, software registration No. 2020SR0732025.

Supervised Graduates

2020

[1] Chao Hu, Doctoral Dissertation: An Investigation of Key Technologies Related to Combining BDS-2 and BDS-3 Observations in Data Processing, 2020;

[2] Pengwen Rao, Master Dissertation: Research on BeiDou Single-frequency Precise Point Positioning Based on Pseudo-range Multipath Deviation Correction, 2020;

[3] Yanghai Min, Master Dissertation: Characteristic Analysis of BDS Atomic Clock

and Study on the Prediction of Clock Offsets, 2020.

2019

[1] Xu Yang, Doctoral Dissertation: Models and Methods of Data Processing for Multi-GNSS Real-time Precise Point Positioning, 2019;

[2] Fei Wu, Doctoral Dissertation: Several Improved Methods for Prediction of Earth Rotation Parameters, 2019;

[3] Ya Mao, Master Dissertation: Research on Beidou Satellite Clock Offset Estimation and Prediction, 2019;

[4] Fei Luo, Master Dissertation: Research on GNSS Position-domain Carrier-smooth-code Technology, 2019;

[5] Haoming Yuan, Master Dissertation: GNSS Regional Ionospheric Modeling and Precision Analysis, 2019;

[6] Subo Wan, Master Dissertation: Research on Key Technologies of BDS/GPS Precise Point Positioning, 2019;

[7] Hongyi Yang, Master Dissertation: Research of Attitude Determination Base on Double-antenna GNSS and Software Development, 2019;

[8] Yilei He, Master Dissertation: Researches on Multi-GNSS ISB Modeling and Prediction Method, 2019.

2018

[1] Zhiwen Wang, Master Dissertation: Researches on Determination of Earth Rotation Parameters Based on GNSS and Its Prediction Models, 2018;

[2] Junjie Zhang, Master Dissertation: Estimation of Earth Rotation Parameters Based on the Combination of VLBI And GNSS Technologies And Its Software Realization, 2018;

[3] Xiongchuan Chen, Master Dissertation: Methods Study of GPS/BDS Real-time Satellite Clock Estimation, 2018.

2017

[1] Chao Hu, Master Dissertation: Methods Study of GNSS Precise Orbit Determination, 2017;

[2] Mingbin Zhang, Master Dissertation: Study of Real-time Single Frequency RTK Algorithm for BDS / GPS, 2017;

[3] Yuequn Ding, Master Dissertation: Global Ionosphere Modeling and its Application in Single Point Positioning, 2017;

On-Study Graduate Students

2020

Wei Wu, Master Candidate

Honghui Liu, Master Candidate

Zhiyuan Wu, Master Candidate

Maolei Wang, Master Candidate

Yongliang Liu, Master Candidate

Shanshan Han, Master Candidate

2019

Yuanyuan Tao, Doctoral Candidate

Kun Li, Master Candidate

Shuwen Li, Master Candidate

Taotao Yin, Master Candidate

Yiyi Xie, Master Candidate

2018

Tong Cheng, Master Candidate

Wei Miao, Master Candidate

Mengmeng Li, Master Candidate

Zejie Wang, Master Candidate

Awards

2020

[1] Jiangsu Science and Technology Award (II) (Achievement: Key technology and application of autonomous generation and seamless navigation and positioning of Beidou spatiotemporal datum information), Jiangsu Provincial Government, December 2020.

[2] Young innovative talents of Surveying and mapping geographic information technology, Chinese Society for Geodesy, Photogrammetry and Cartography, October 2020.

[3] China satellite navigation and positioning Teaching Achievement Award (I) (Achievement: Construct the teaching mode of "four modernizations and one innovation" and cultivate local international innovative talents of satellite navigation and positioning), China satellite navigation and positioning Association, September 2020.

[4] National Coal Industry Teaching Achievement Award (Achievement: Exploration and practice of excellent and top-notch talent tutor team training mode in Colleges and universities with industry characteristics), China Coal Education Association, November 2020.

[5] China satellite navigation and positioning science and Technology Award (II) (Achievement: Key technology and application of multi-source enhanced GNSS seamless positioning in coal mine area), China satellite navigation and positioning Association, September 2020.

[6] Teaching Achievement Award (Special Prize), China University of Mining and Technology, July 2020.

[7] The Supervisor of excellent master dissertation of surveying and mapping in colleges and universities of Jiangsu Province(I) (student: Mao Ya), Jiangsu Society for Geodesy, Photogrammetry and Cartography, December 2020.

[8] The Supervisor of excellent doctoral dissertation (student: Chao Hu), China satellite navigation and positioning Association, September 2020.

[9] The Supervisor of BD-CASTIC (Beidou Cup National Youth Science and technology innovation competition) Awards (I) (student: Cai Yihao), September 2020.

[10] The Supervisor of excellent doctoral dissertation (student: Chao Hu), China University of Mining and Technology, July 2020.

[1] China satellite navigation and positioning science and Technology Award (I) (Achievement: Key technology of high precision earth orientation parameter measurement and prediction), GNSS and LBS Association of China, August 2019.

[2] China coal industry science and Technology Award (III) (Achievement: Key technology of Beidou satellite based augmentation system and its application in mine survey), China Coal Industry Association, October 2019.

[3] Advanced individual of scientific research and education, China University of Mining and Technology, December 2019.

[1] Teaching Achievement Award (III), China University of Mining and Technology, July 2018.

[1] Talent introduction of Jiangsu entrepreneurship and innovation team, Jiangsu Provincial Government, December 2017.

[2] Teaching competition for young teachers of Surveying and mapping major in Colleges and Universities(I), Chinese Society for Geodesy,Photogrammetry and Cartography, GNSS and LBS Association of China, July 2017.

[3] The Supervisor of Excellent graduation project (Thesis) of college and junior college in Jiangsu Province(II) (Achievement: Research on theory and method of real time integer ambiguity resolution for Beidou Network RTK) ,Department of education of Jiangsu Province, June 2017.

[1] Military science and Technology Progress Award (II) ( Achievement: Research on BD2 / GPS joint dynamic differential positioning ), Chinese People's Liberation Army General Staff, December 2014.

[1] Excellent paper award of China satellite navigation academic annual meeting (III) (Achievement: Method and accuracy analysis of GNSS observation data for calculating earth rotation parameters), Organizing Committee of China satellite navigation Annual Conference, May 2013.

[1] Excellent Doctoral Dissertation (Achievement: Theoretical research and software development of airborne GNSS dynamic positioning and attitude determination),  Central South University, June 2012.

[2] Young excellent thesis award (I) (Achievement: Adaptive replacement of reference satellite and reference station in long endurance and long distance airborne GNSS dynamic positioning), Beijing Society of Surveying and mapping, December 2012.

[1] ION GNSS Student Paper Award (Thesis: Integrated Carrier Phase and Doppler Observations of GPS and GLONASS for Precise Velocity Determination), Portland, Oregon, USA, September 2011.

[1] Conference Excellent Paper (Thesis: A Precise Acceleration Determination Method Based on Combining GPS Carrier Phase and Doppler), The 2nd International Conference on Mechanic Automation and Control Engineering, MACE Organizing Committee, February 2010.

[1] Qiushi Postgraduate Scholarship, Hong Kong Qiushi science and Technology Foundation, December 2007.

Professional Memberships

[1] Committee member of the Fourth Committee of International Association of Geodesy (IAG)on "positioning and application" , German.

[2] Committee member of natural big data branch of China Society of natural resources, China.

[3] Expert Committee of international GNSS monitoring and assessment system (iGMAS), China.

[4] Member of The Institute of Navigation (ION), United State.

[5] Senior Member of International Association of Chinese Professionals in Global Positioning Systems (CPGPS), Canada.

[6] Special-term Staff of Regional Centre for Space Science and Technology Education in Asia and the Pacific (affiliated to the United Nations), China.

[7] Member of Jiangsu entrepreneurship and innovation talents Federation, China.

[8] Guest editor of SCI Journals, Computer Modeling in Engineering & Science.