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Dep. of Aerospace Information and Control

Wang Xiaoliang

 

 

Xiaoliang Wang was born in Luoyang, Henan, China in 1981. He received B.S. and M.S. degrees in system control engineering from Northwestern Polytechnic University in 2003 & 2006, Xi'an, China, and received the Ph.D degree major in navigation, guidance and control in School of Aeronautics and Astronautics from Shanghai Jiaotong University, Shanghai, China, in 2011. From 2011 to 2017 he worked as a Senior Engineer with Institute of Satellite Navigation and Intra-Satellite-Link Technology, Academy of Space Electronic Information Technology, Xi'an, China. He is a recognized expert in the field of GNSS applications in space and hosted as the principle leader of High Sensitive GNSS Receiver (HiSGR) project with many published articles during this period. He is currently with the School of Aeronautics and Astronautics as an Associate Research Fellow in Shanghai Jiao Tong University. His research interests include design and evaluation of spaceborne GNSS receiver for multiple missions, weak GNSS signal acquisition & tracking, ultra-tight coupled GNSS/Inertial technology in space, autonomous real-time orbit determination onboard, nonlinear Kalman Filter technology, and nonlinear estimation and control of time-delayed systems.

 

During time of 2018-current in SJTU, publications include:

  1. Xiaoliang Wang; Deren Gong*; Zeyu Kang, Wu Shufan, The second order stability theory of time delay system and its application in the acquisition and tracking of Beidou signal of strong rotation reentry vehicle, CNACC 2019

王晓亮,龚德仁*,康泽禹,吴树范,时延系统的二阶稳定性理论及其在强旋转再入飞行器北斗信号捕获跟踪上的应用,第四届中国临近空间与空天飞行器控制会议(CNACC 2019)会议,201910月,昆明。大会文集pp.533-539.

  1. Xiaoliang Wang; Deren Gong*; Wang Nan; Wu Shufan, Second-order Approximation Integral Inequality for Stability of Systems with Time Delays, The 3rd International Symposium on Autonomous Systems, 29-31 May 2019, Shanghai, 978-1-7281-1298-5/19/$31.00 ©2019 IEEE, pp.261-265
  2. Deren Gong, Xiaoliang Wang*, Shufan Wu, Xiaodan Zhu, Discrete Legendre Polynomials-Based Inequality for Stability of Time-Varying Delayed Systems, Journal of the Franklin Institute, Volume 356, Issue 16, November 2019, Pages 9907-9927.
  3. Deren Gong, Xiaoliang Wang*, Peng Dong, Shufan Wu, Xiaodan Zhu, Shifted Legendre polynomials-based single and double integral inequalities with arbitrary approximation order: Application to stability of linear systems with time-varying delays, AIMS Mathematics, 2020, 5(5): 4371-4398. doi: 10.3934/math.2020279. Received: 07 December 2019 , Accepted: 06 May 2020 , Published: 11 May 2020
  4. Deren Gong, Xiaoliang Wang*, Shufan Wu, and Xiaodan Zhu, Discrete Chebyshev Polynomials-Based Inequality for Stability of Time-Varying Delayed Systems, IEEE TRANSACTIONS ON AUTOMATIC CONTROL, major revise(20200425), minor revise(20200612)
  5. Xiaoliang Wang, Deren Gong*, Yuedong Wu and Shufan Wu, Adaptive terminal sliding mode attitude control of hypersonic vehicle during re-entry, The 8th International Conference on Space Technology Innovation, Shanghai, China, 3-6 Sep, 2019, pp.25-30.
  6. Xiaoliang Wang, Shufan Wu*, Deren Gong, Zhe Su, On ground test of an IMU/GNSS receiver for atmospheric re-entry vehicle applications, The International Conference on Aerospace System Science and Engineering (ICASSE 2019), Toronto, Ontario, Canada, July 30-August 1, 2019
  7. Yue-Dong Wu, Shu-Fan Wu*, De-Ren Gong, Ze-Yu Kang, Xiao-Liang Wang, Spacecraft Attitude Maneuver Using Fast Terminal Sliding Mode Control Based on Variable Exponential Reaching Law, The International Conference on Aerospace System Science and Engineering (ICASSE 2019), Toronto, Ontario, Canada, July 30-August 1, 2019
  8. Xiaoliang Wang, Shu-fan W, De-ren G, et al. Topological Analysis of Space Network Using Burnside Theory[C]. The 5th International Symposium on Small Satellite Technology, April 25, 2019 Changsha, China.会议优秀论文,推荐发表刊物《Advances in Astronautics Science and Technology》)
  9. Xiaoliang Wang, Shu-fan W, De-ren G, et al. Topological Analysis of Space Network Using Burnside Theory [J]. Advances in Astronautics Science and Technology, 2019: 1-5.
  10. Zeyu Kang, Shufan Wu, Xiaoliang Wang, Deren Gong, Modeling and flight simulation of x38 air reentry vehicle, CNACC 2019

康泽禹,吴树范*王晓亮,龚德仁,X38大气再入飞行器建模与飞行仿真,第四届中国临近空间与空天飞行器控制会议(CNACC 2019)会议,201910月,昆明。大会文集pp.109-118.

  1. Xiaoliang Wang, Deren Gong, Shufan Wu, Research on the application of an IMU / GNSS super tight coupling receiver in reentry vehicle, CNACC2018

王晓亮,龚德仁,吴树范,苏哲,一种IMU/GNSS超紧耦合接收机在再入飞行器上的应用研究,第三届中国临近空间与空天飞行器控制会议(CNACC2018),会议文集pp.629-6382018.05,大连

  1. Xiaoliang Wang, Shufan Wu, Deren gong, Zhe Su, Research on the key technologies of fast acquisition and tracking of new system signals under complex maneuvering conditions of reentry vehicle, 6th CSA meeting

王晓亮,吴树范,龚德仁,苏哲,再入飞行器复杂机动条件下的新体制信号快速捕获跟踪关键技术研究,第六届八院航天科技创新发展论坛(会议优秀论文),会议文集pp.198-2042018.08,上海

  1. Shufan Wu, Xiaoliang Wang, Research on Modeling and control technology of a lift reentry spacecraft, CNACC2018

吴树范,王晓亮,某升力体型再入航天器建模与控制技术研究,第三届中国临近空间与空天飞行器控制会议(CNACC2018),会议文集pp.1-122018.05,大连

 

During time of 2011-2017 with Academy of Space Electronic Information Technology, publications include:

[1]    Xiaoliang Wang, et.al. Test Results of HiSGR: A Novel GNSS/INS Ultra Tight Coupled Spaceborne Receiver[C]//China Satellite Navigation Conference. Springer, Singapore, 2017,第八届中国卫星导航学术年会(CSNC2017: 285-295.

[2]    Deren Gong, Xiaoliang Wang, Longlong Li, et.al. Measurement of reflected GNSS signals using HiSGR receiver: preliminary results in experiments, International Conference on Aerospace System Science and Engineering (ICASSE 2017), July, Shanghai, China.

[3]    Lei, W. Y., Wu, G. C., Tao, X. X., Bian, L., & Wang, X. L. (2017). BDS satellite-induced code multipath: Mitigation and assessment in new-generation IOV satellites. Advances in Space Research, 60(12), 2672-2679.

[4]    Xiaoliang Wang, et.al. Design and Test of HiSGR: A Novel GNSS/INS Ultra Tight Coupled Receiver, 第一届空间信息网络学术论坛,20169月,昆明,中国(论坛优秀论文,被推荐刊登在《Journal of Communications and Information Networks》)

[5]    Xiaoliang Wang, et.al. Design and test of HiSGR: a novel GNSS/INS ultra-tight coupled receiver[J]. Journal of communications and information networks, 2016, 1(3): 67-76.

[6]    Qu, B., Li, L., Bian, L., Wang, X., & Meng, Y. (2016). An unambiguous multipath mitigation method based on double-delta correlator for BOC modulation signal. In China Satellite Navigation Conference (CSNC) 2016.5.18-21, Changsha Proceedings: Volume I (pp. 571-581). Springer, Singapore.

[7]    Xiaoliang Wang, et.al. Analysis of GNSS signals with application to lunar navigation[C]//China Satellite Navigation Conference (CSNC) 2015 Proceedings: Volume I. Springer, Berlin, Heidelberg, 2015: 187-194.

[8]    Lei, W., Meng, Y., Wu, Y., Zhe, S., & Wang, X. (2015, October). Sparsity-information-aided least mean squares method for sparse channel estimation. In 2015 International Conference on Wireless Communications & Signal Processing (WCSP) (pp. 1-5). IEEE.

[9]    Xiaoliang Wang, et.al. Research for L band single channel GNSS receiver, 2012 Space Electronic Technology forum, Kunming, China

[10] Xiaoliang Wang, et.al. Design of Lunar-Earth Halo L2 orbit and analysis of GNSS signal receive,航天科技集团五院科技委,空间科学与空间探测专业组学术年会(会议优秀论文

[11]  Xiaoliang Wang, et.al. An Autonomous Orbit Determination Algorithm for Lunar Probe Using GNSS Signal, 64rd International Astronautical Congress (IAC2013), Beijing, China

[12]  Xiaoliang Wang, et.al. A simple three dimensional matrix method for global constellation Intra-Satellite-Link topological design, International Journal of Navigation and Observation, Volume 2014 (2014), Article ID 502158, 17 pages, http://dx.doi.org/10.1155/2014/502158

[13]  Xiaoliang Wang, et.al. Research for GNSS Intra-Satellite-Link topological design using three dimensional matrix, China Satellite Navigation Conference 2013 (CSNC2013) , Wuhan, China,星间链路技术分会场闭门会议(会议优秀论文,被推荐发表至内刊《卫星导航》)

[14]  Xiaoliang Wang, et.al. Research for GNSS Intra-Satellite-Link topological design using three dimensional matrix, Satellite Navigation, Vol.4, 2013, recommended for publication from CSNC2013 (publication above)

[15]  Bian, L., Meng, Y., Wang, X., Liu, W., Tao, X., Qian, X., & Zhang, L. (2012). A principle design for global integrity of COMPASS. In China Satellite Navigation Conference (CSNC) 2012 Proceedings (pp. 45-55). Springer, Berlin, Heidelberg.

[16]  Xiaoliang Wang, et.al. Linear matrix inequalities based adaptive filter for autonomous navigation using Inter-Satellite-Link measurements, 63rd International Astronautical Congress, (IAC2012), Naples, Italy.

[17]  Xiaoliang Wang, et.al. Burnside Theorem and its applications in Intra-Satellite-Link topology analysis, China Satellite Navigation Conference 2015 (CSNC2015), Xi'an, China

[18]  Xiaoliang Wang, et.al. One optimal GNSS Intra-Satellite-Link topological design method, China Satellite Navigation Conference 2016 (CSNC2016), Changsha, China.

[19]  Xiaoliang Wang, et.al. An optimal evaluation method for lunar relay communication and navigation constellation design(电子文集),第四届载人航天学术大会,20167月,哈尔滨

 

During time of 2006-2011 as Ph.D candidate with SJTU, publications include:

[1]    Xiaoliang Wang, Improved adaptive filter with application to relative navigation[J]. GPS solutions, 2011, 15(2): 121-128. Accession number: IP50970987, DOI 10.1007/s10291-010-0175-7.

[2]    Xiaoliang Wang, Deren Gon, Xiaowei Shao, and Dengping Duan, Improved adaptive Huber filter for relative navigation using global position system[J]. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 2011, 225(7): 769-777.

[3]    Xiaoliang Wang, DerenGong, LiqiangXu, XiaoweiShao, DengpingDuan, Laser radar based relative navigation using improved adaptive Huber filter[J]. Acta Astronautica, 2011, 68(11-12): 1872-1880.

[4]    Xiaoliang Wang, Xiaowei ShaoDeren Gon, and Dengping DuanGlobal Position System/Vision Integrated Relative Navigation and Attitude Determination System for Ultra-close Spacecraft Formation FlyingJournal of Systems Engineering and Electronics. 2011. 22(2), 283-291.

[5]    Xiaoliang Wang, Xiaowei ShaoDeren Gon, and Dengping DuanRadio/VISNAV Integrated Navigation System for Autonomous Spacecraft Rendezvous Using Two-Order Filterpresented at The 8th World Congress on Intelligent Control and Automation, July 6-9, 2010, Jinan, Shandong, China. Accession number:20104313325480, DOI:10.1109/WCICA.2010.5554621

[6]    Xiaoliang WangTracking Non-Corporate Target in Space Using Multi-Platform Observationpresented at AIAA SPACE 2009 Conference & ExpositionPasadena, California (Pasadena Convention Center)09/14/2009 Accession number:20104413336929.

[7]    Xiaoliang WangAutonomous Relative Navigation and Attitude Determination Using Vector Measurementpresented at The 11th International Conference on Intelligent Autonomous SystemsAugust 29 - September 4, 2010, Ottawa, Canada.

[8]    Xiaoliang WangRelative Navigation Using Distributed Nonlinear Filterpresented at International Conference on Control, Automation and System, KINTEX in Gyeonggi-do, Korea October 27-30, 2010.

[9]    Xiaoliang Wang, Deren Gong and Dengping Duan, Relative Semimajor Axis Estimation using Augmented GPS Navigation for HEO Formation, presented at NAVITEC ‘2010 & European Workshop on GNSS Signals and Signal Processing, 8-10 December 2010, ESTEC, Noordwijk, The Netherlands .

[10]  Xiaoliang Wang; Shao, Xiaowei; Gong, Deren; Duan, Dengping, An adaptive approach to vision measurement for rendezvous and docking with non-cooperative target in space, Chinese Space Science and Technology; Volume 31;Issue 3 ;Data June 2011 ;Page 76-83

[11]  Xiaoliang Wang, et.al., A Modified Extend Kalman Particle Filter with Application to Relative Navigation[C]//China Satellite Navigation Conference (CSNC) 2012 Proceedings. Springer, Berlin, Heidelberg, 2012: 465-476.

 

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