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中国深空测控系统建设与技术发展

董光亮,李海涛,郝万宏,王宏,朱智勇,石善斌,樊敏,周欢,徐得珍

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文章导航> 深空探测学报(中英文)> 2018> 5(2): 99-114
董光亮, 李海涛, 郝万宏, 王宏, 朱智勇, 石善斌, 樊敏, 周欢, 徐得珍. 中国深空测控系统建设与技术发展[J]. 深空探测学报(中英文), 2018, 5(2): 99-114. doi: 10.15982/j.issn.2095-7777.2018.02.001
引用本文: 董光亮, 李海涛, 郝万宏, 王宏, 朱智勇, 石善斌, 樊敏, 周欢, 徐得珍. 中国深空测控系统建设与技术发展[J]. 深空探测学报(中英文), 2018, 5(2): 99-114.doi:10.15982/j.issn.2095-7777.2018.02.001
shu
DONG Guangliang, LI Haitao, HAO Wanhong, WANG Hong, ZHU Zhiyong, SHI Shanbin, FAN Min, ZHOU Huan, XU Dezhen. Development and Future of China’s Deep Space TT&C System[J]. Journal of Deep Space Exploration, 2018, 5(2): 99-114. doi: 10.15982/j.issn.2095-7777.2018.02.001
Citation: DONG Guangliang, LI Haitao, HAO Wanhong, WANG Hong, ZHU Zhiyong, SHI Shanbin, FAN Min, ZHOU Huan, XU Dezhen. Development and Future of China’s Deep Space TT&C System[J].Journal of Deep Space Exploration, 2018, 5(2): 99-114.doi:10.15982/j.issn.2095-7777.2018.02.001
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中国深空测控系统建设与技术发展

doi:10.15982/j.issn.2095-7777.2018.02.001

  • 北京跟踪与通信技术研究所, 北京 100094

Development and Future of China’s Deep Space TT&C System

  • Beijing Institute of Tracking and Telecommunications Technology, Beijing 100094, China

  • 摘要:我国深空测控系统是伴随着探月工程“绕”“落”“回”三步走战略的实施,从突破关键技术、初步建成系统到系统完善,逐步建立起来的,火星探测工程的实施将进一步带动深空测控系统能力的建设。站在历史的视角,从顶层设计、关键技术攻关和系统建设等方面,回顾了我国深空测控系统从无到有的发展历程,并结合未来深空测控技术的发展,对我国深空测控系统的发展前景进行了展望。
    Abstract:With the implement of China's Lunar Exploration Program in three stages,which consist of orbiting,landing,and returning, China's deep space TT&C(Tracking,Telemetry and Command)system has been built up. The future Mars Exploration Program will further enhance the full capability of the system. In this paper, the development of China's deep space TT&C system is reviewed,including the details of key technology research,top design,and system construction. The future trend of this system is discussed based on the latest development of deep space TT&C technologies.
  • [1] 叶培建,黄江川,孙泽洲,等. 中国月球探测器发展历程和经验初探[J]. 中国科学:技术科学,2014,44(6):543-558. YE P J,HUANG J C,SUN Z Z,et al. The process and experience in the development of Chinese lunar probe[J]. Sci Sin Tech,2014,44(6):543-558.
    [2] 吴伟仁,董光亮,李海涛. 深空测控通信系统工程与技术[M]. 北京:科学出版社,2013. WU W R,DONG G L,LI H T. Engineering and technology of deep space TT&C system[M]. Beijing:Science Press,2013.
    [3] 刘嘉兴. 载人航天USB测控系统及其关键技术[J]. 宇航学报,2005,26(6):743-747. LIU J X. Key technologies of the USB TT&C system for manned space flight[J]. Journal of Astronautics,2005,26(6):743-747.
    [4] 钱志瀚,李金岭. 甚长基线干涉测量技术在深空探测中的应用[M]. 北京:中国科学技术出版社,2012.
    [5] 王宏,董光亮,胡小工,等. USB-VLBI综合快速确定环月飞行器短弧轨道[J]. 测绘科学技术学报,2007,24(2):100-103. WANG H,DONG G L,HU X G,et al. Joint short arc orbit determination of lunar satellite with USB-VLBI[J]. Journal of Zhengzhou Institute of Surveying and Mapping,2007,24(2):100-103.
    [6] Management Council of the Consultative Committee for Space Data Systems. Space link extension——return all frames service specification. blue book,CCSDS 911.1-B-4[M]. Washington,DC,USA:CCSDS,2016.
    [7] 孙威,董光亮. "空间链路扩展"在我国航天测控网中应用的探讨[J]. 载人航天,2005(2):59-63.
    [8] 李海涛,王宏,董光亮. 深空站站址纬度选择问题的分析[J]. 飞行器测控学报,2009,28(1):1-6. LI H T,WANG H,DONG G L. Selection of latitude for a deep space station[J]. Journal of Spacecraft TT&C Technology,2009,28(1):1-6.
    [9] International Telicommunication Union. Protection criteria for deep-space research[S].[S.l]:ITU-R,1995.
    [10] 郝万宏,董光亮,李海涛. 月球及深空航天器甚长基线干涉测角精度协方差分析[J]. 飞行器测控学报,2010,29(2):85-90. HAO W H,DONG G L,LI H T. Analysis of angular determination covariance for lunar and deep space spacecraft by VLBI[J]. Journal of Spacecraft TT&C Technology,2010,29(2):85-90.
    [11] 吴伟仁. 中国宇航学会深空探测技术专业委员会第十四届学术年会开幕式致辞[C]//中国宇航学会深空探测技术专业委员会第十四届学术年会. 成都:中国宇航学会,2017.
    [12] MARAL G. Satellite communications systems:systems,techniques and technology,4th Edition[M].[S.l]:John Wiley & Sons,Ltd,2009.
    [13] NASA. The Goldstone deep space communications complex[EB/OL].[2018-4-10]. https://descanso.jpl.nasa.gov/dsn50th/DSN_Symposium_2-20-14/5_GDSCC.pdf.
    [14] NASA. DSN navigation system accuracy[EB/OL]. (2014-2-20)[2018-4-10]. https://descanso.jpl.nasa.gov/performmetrics/DSN_NavSysAccuracy.pdf.
    [15] ROGSTAD H D,MILEANT A,PHAM T T. Antenna arraying techniques in the deep space network,monograph 5 deep space communications and navigation series[M]. California:JPL,2003.
    [16] MILEANT A,HINEDI S. Overview of arraying techniques for deep space communications[J]. IEEE Transactions on Communications,1994,42(234):1856-1865.
    [17] 卢满宏,李小梅,周三文,等. 一种改进Sumple算法的研究与分析[J]. 计算机测量与控制,2013,21(6):1565-1567. LU M H,LI X M,ZHOU S W,et al. Research and analysis on a modified-sumple algorithm[J]. Computer Measurement & Control,2013,21(6):1565-1567.
    [18] MUDGWAY D J. Uplink-downlink:a history of the NASA deep space network,1957-1997[J]. Isis,2003,94(4):781-782.
    [19] DAVARIAN F. Uplink arraying next steps,IPN progress report 42-175[R]. California:Jet Propulsion Laboratory,California Institute of Technology,2008
    [20] VILNROTTER V,TSAO P C,LEE D K. EPOXI Uplink array experiment of June 27,2008,IPN progress report 42-174[R]. California:Jet Propulsion Laboratory,California Institute of Technology,2008.
    [21] SLADE M A,BENNER L A M,SILVA A. Goldstone Solar system radar observatory:Earth-based planetary mission support and unique science results[J]. Proceedings of the IEEE,2011,99(5):757-769.
    [22] JPL. D-19379,810-005,205,Rev. D,34-m and 70-m command[R]. USA:Jet Propulsion Laboratory,California Institute of Technology,2014
    [23] Estrack:technical aspects,performance,limitations and future prospects[EB/OL].(2015-8-14)[2018-4-10]. http://www.mpe.mpg.de/events/593-heraeus-seminar/Talks-and-Posters/1-Monday/PDF/1.%20Butcovic%20-%20ESTRACK.pdf.
    [24] SORIANO M,FINLEY S,FORT D,et al. Direct-to-Earth communications with Mars science laboratory during entry,descent,and landing[C]//Aerospace Conference,2013 IEEE. Big Sky,MT:IEEE,2013:1-14.
    [25] 陈少伍,董光亮,李海涛,等. MSL测控特点以及自主火星探测测控关键技术[J]. 飞行器测控学报,2015,34(1):1-9. CHEN S W,DONG G L,LI H T,et al. TT & C characteristics of MSL and key TT & C technologies for independent Mars exploration[J]. Journal of Spacecraft TT&C Technology,2015,34(1):1-9.
    [26] MORABITO D D,SCHRATZ B,BRUVOLD K,et al.The Mars science laboratory EDL communications brownout and blackout at UHF,IPN progress report 42-197[R]. USA:NASA,2014.
    [27] SORIANO M,FINLEY S,FORT D,et al. Direct-to-Earth communications with Mars science laboratory during entry,descent,and landing[C]//Aerospace Conference,2013 IEEE. Big Sky,MT:IEEE,2013.
    [28] FERRI F,AHONDAN A,COLOMBATTI G,et al. Atmospheric Mars entry and landing investigations & analysis(AMELIA)by ExoMars 2016 schiaparelli entry descent module:the ExoMars entry,descent and landing science[C]//IEEE International Workshop on Metrology for Aerospace. Padua,Italy:IEEE,2017:262-265.
    [29] VILNROTTER V A,HINEDI S M,KUMAR R,et al. Frequency estimation techniques for high dynamic trajectories[J]. IEEE Transactions on Aerospace and Electronic Systems,1989,25(4):559-577.
    [30] 董光亮,李海涛,郝万宏. 无线电干涉测量在深空航天器导航中的应用[J]. 飞行器测控学报,2009,28(4):1-7. DONG G L,LI H T,HAO W H,et al. An introduction to application of radio interferometry in deep space navigation[J]. Journal of Spacecraft TT&C Technology,2009,28(4):1-7.
    [31] 吴伟仁,王广利,节德刚,等. 基于△DOR信号的高精度VLBI技术[J]. 中国科学:信息科学,2013,43(2):185-196. WU W R,WANG G L,JIE D G,et al. High-accuracy VLBI technique using △DOR signals[J]. Science China(Information Sciences),2013,43(2):185-196.
    [32] THORNTON L C,BORDER S J. Radiometric tracking techniques or deep space navigation,monograph 1 deep-space communications and navigation series[M]. USA:Wiley,2000
    [33] RIOJA M,DODSON R,MALARECKI J,et al. Exploration of source frequency phase referencing techniques for astrometry and observations of weak sources with high frequency space very long baseline interferometry[J]. Astronmical Journal (New York,N. Y. Online),2011,142(5):157.
    [34] 董光亮,郝万宏,李海涛,等. 同波束干涉测量对月面目标相对定位[J]. 清华大学学报(自然科学版),2010,50(7):1118-1124. DONG G L,HAO W H,LI H T,et al. Relative posit ion determination on the lunar surface using same-beam interferometry[J]. Journal of Tsinghua University(Science & Technology),2010,50(7):1118-1124.
    [35] 陈少伍,董光亮,李海涛,等. 同波束干涉测量差分相时延观测模型研究及验证[J]. 宇航学报,2013,34(6):788-794. CHEN S W,DONG G L,LI H T,et al. Research and verification of differential phase delay measurement model of same beam interferometry[J]. Journal of Astronautics,2013,34(6):788-794.
    [36] 李海涛,周欢,郝万宏,等. 深空导航无线电干涉测量技术的发展历程和展望[J]. 飞行器测控学报,2013,32(6):470-478. LI H T,ZHOU H,HAO W H,et al. Development of radio interferometry and its prospect in deep space navigation[J]. Journal of Spacecraft TT&C Technology,2013,32(6):470-478.
    [37] MARTIN-MUR T J,HIGHSMITH D E. Mars approach navigation using the VLBA[J]. Mur,2009.
    [38] ZHOU H,DEZHEN X U,CHEN S W,et al. New high-accuracy spacecraft VLBI tracking using high data-rate signal:a demonstration with Chang'E-3[J]. Science China,2016,59(4):558-564.
    [39] 王宏,董光亮,胡小工,等. USB-VLBI综合快速确定环月飞行器短弧轨道[J]. 测绘科学技术学报,2007,33(1):40-42. WANG H,DONG G L,HU X G,et al. Joint short arc orbit determination of lunar satellite with USB-VLBI[J]. Journal of Zhengzhou Institute of Surveying and Mapping,2007,33(1):40-42.
    [40] 王宏,董光亮,胡小工,等. 月球探测器捕获分析及评估[J]. 测绘科学技术学报,2007,24(6):406-409. WANG H,DONG G L,HU X G,et al. Analysis and assessment of the lunar probe captured by Moon[J]. Journal of Zhengzhou Institute of Surveying and Mapping,2007,24(6):406-409.
    [41] 黄勇. "嫦娥1号"探月飞行器的轨道计算研究[D]. 上海:中国科学院上海天文台,2006. HUANG Y. Orbit determination of the first Chinese lunar exploration spacecraft CE-1[D]. Shanghai:Shanghai Astronomical Observatory,Chinese Academy of Sciences,2006.
    [42] 董光亮,樊敏,李培佳,等. 嫦娥二号探测器轨道确定与支持[J]. 宇航学报,2013,34(4):457-463. DONG G L,FAN M,LI P J,et al. Chang'E-2 lunar probe orbit determination and support[J]. Journal of Astronautics,2013,34(4):457-463.
    [43] 李培佳,黄勇,昌胜骐,等. 基于地基观测的嫦娥三号着陆器与巡视器高精度定位[J]. 科学通报,2014,59(32):1-12. LI P J,HUANG Y,CHANG S Q,et al. Positioning for the Chang'E-3 lander and rover using Earth-based observations[J]. Chinese Science Bull,2014,59(32):1-12.
    [44] 樊敏,董光亮,郝万宏,等. 月球探测器定轨误差分量协方差分析[J]. 航天器工程,2012,21(5):37-42. FAN M,DONG G L,HAO W H,et al. Covariance analysis of orbit-determination error components for lunar probe[J]. Spacecraft Engineering,2012,21(5):37-42.
    [45] YOU T H,GRAAT E,HALSELL A,et al. Mars reconnaissance orbiter interplanetary cruise navigation[C]//20th International Symposium on Space Flight Dynamics. Annapolis,MD,United States:Jet Propulsion Lab,2007:2126.
    [46] FAN M,HU X G,DONG G L,et al. Orbit improvement for Chang'E-5T lunar returning probe with GNSS technique[J]. Advances in Space Research,2015,56(11):2473-2482.
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  • 收稿日期:2017-12-30
  • 修回日期:2018-03-05
  • 刊出日期:2018-04-01

中国深空测控系统建设与技术发展

doi:10.15982/j.issn.2095-7777.2018.02.001
  • 北京跟踪与通信技术研究所, 北京 100094
  • 收稿日期:2017-12-30
  • 修回日期:2018-03-05
  • 刊出日期:2018-04-01

摘要:我国深空测控系统是伴随着探月工程“绕”“落”“回”三步走战略的实施,从突破关键技术、初步建成系统到系统完善,逐步建立起来的,火星探测工程的实施将进一步带动深空测控系统能力的建设。站在历史的视角,从顶层设计、关键技术攻关和系统建设等方面,回顾了我国深空测控系统从无到有的发展历程,并结合未来深空测控技术的发展,对我国深空测控系统的发展前景进行了展望。

English Abstract

董光亮, 李海涛, 郝万宏, 王宏, 朱智勇, 石善斌, 樊敏, 周欢, 徐得珍. 中国深空测控系统建设与技术发展[J]. 深空探测学报(中英文), 2018, 5(2): 99-114. doi: 10.15982/j.issn.2095-7777.2018.02.001
引用本文: 董光亮, 李海涛, 郝万宏, 王宏, 朱智勇, 石善斌, 樊敏, 周欢, 徐得珍. 中国深空测控系统建设与技术发展[J]. 深空探测学报(中英文), 2018, 5(2): 99-114.doi:10.15982/j.issn.2095-7777.2018.02.001
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DONG Guangliang, LI Haitao, HAO Wanhong, WANG Hong, ZHU Zhiyong, SHI Shanbin, FAN Min, ZHOU Huan, XU Dezhen. Development and Future of China’s Deep Space TT&C System[J]. Journal of Deep Space Exploration, 2018, 5(2): 99-114. doi: 10.15982/j.issn.2095-7777.2018.02.001
Citation: DONG Guangliang, LI Haitao, HAO Wanhong, WANG Hong, ZHU Zhiyong, SHI Shanbin, FAN Min, ZHOU Huan, XU Dezhen. Development and Future of China’s Deep Space TT&C System[J].Journal of Deep Space Exploration, 2018, 5(2): 99-114.doi:10.15982/j.issn.2095-7777.2018.02.001
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