激光测距通信一体化技术研究及深空应用探索

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doi:10.15982/j.issn.2095-7777.2018.02.006

北京遥测技术研究所, 北京 100076

基金项目:民用航天资助项目

Study on Integrated Technique of Laser Ranging and Communication and Its Applications in Deep Space

Beijing Research Institute of Telemetry, Beijing 100076, China

摘要:概述了空间激光测距通信一体化技术的研究现状，提出了一种激光精密测距与高速通信一体化技术，基于双向单程测距原理，在BPSK外差相干激光通信的基础上，采用码元相位测量实现了激光测距与通信一体化设计，并完成了地面实验验证。实验结果表明：在通信码速率1 Gbit/s的情况下，其测距精度优于0.9 mm，并分析了参考时钟频差对测距精度的影响。最后对激光测距通信一体化技术在未来深空探测中的应用进行了探索研究。
- 激光通信/
- 激光测距/
- 一体化/
- 深空
Abstract:The current development of integrated technique of laser ranging and communication is introduced. A new integrated technique of high precision laser ranging and high speed communication is presented based on dual one-way ranging(DOWR)and BPSK modulation heterodyne coherent detection. A symbol phase ranging method is applied to achieve the integrated system design,and the ground experiments are developed. The results show that the data rate of laser link reaches 1 Gbit/s and the ranging precision is better than 0.9 mm. The influence of reference clock frequency difference on ranging precision is analyzed. Finally,future applications of the integrated laser ranging and communication system in deep space exploration are expected.
- laser communication/
- laser ranging/
- intergradations/
- deep space

[1]	吴伟仁,于登云. 深空探测发展与未来关键技术[J]. 深空探测学报,2014,1(1):5-17. WU W R,YU D Y. Development of deep space exploration and its future key technologies[J]. Journal of Deep Space of Exploration,2014,1(1):5-17.
[2]	吴伟仁,董光亮,李海涛,等. 深空测控通信系统工程与技术[M]. 北京:科学出版社,2013:1-12. WU W R,DONG G L,LI H T,et al. Engineering and technology of deep space TT&C system[M]. Beijing:Science Press,2013:1-12.
[3]	于登云,吴学英,吴伟仁. 我国探月工程技术发展综述[J]. 深空探测学报,2016,3(4):307-314. YU D Y,WU X Y,WU W R. Review of technology development for Chinese lunar exploration program[J]. Journal of Deep Space Exploration,2016,3(4):307-314.
[4]	BOROSON D M,ROBINSON B S,MURPHY D V,et al. Overview and results of the lunar laser communication demonstration[J]. Proceeding of SPIE,2014(8971):89710S.
[5]	CORNWELL M D. NASA's optical communications program for 2015 and beyond[J]. Proceeding of SPIE,2015(9354):93540E.
[6]	LUZHANSKY E,EDWARDS B,ISRAEL D,et al. Overview and status of the laser communication relay demonstration[J]. Proceeding of SPIE,2016(9739):97390C.
[7]	TOYOSHIMA M,FUSE T,DIMITAR R K,et al. Current status of research and development on space laser communications technologies and future plans in NICT[C]//IEEE International Conference on Space Optical Systems and Applications (ICSOS). New Orleans,LA,USA:IEEE,2015:1-5.
[8]	HEINE F,MÜHLNIKEL G,ZECH H,et al. LCT for the European data relay system:in orbit commissioning of the ALPHASAT and sentinel 1A LCTS[J]. Proceeding of SPIE,2014(9354):93540G.
[9]	CHISHIKI Y,YAMAKAWA S,TAKANO Y,et al. Overview of optical data relay system in JAXA[J]. Proceeding of SPIE,2016(9739):97390D.
[10]	GRIGORYEV V,KOVALEV V,SHARGORODSKIY V,et al. High-bit-rate laser space communication technology and results of on-board experiment[C]//Proceeding of International Conference on Space Optical Systems and Applications (ICSOS). Kobe,Japan:IEEE,2014:1-3.
[11]	HEMMATI H. Status of free-space optical communications program at JPL[J]. Aerospace Conference Proceedings of IEEE,2000(3):101-105.
[12]	HEMMATI H. Deep space optical communications[M]. Hoboken:A John Wiley & Sons,INC.,Publication,2006:22.
[13]	PASYNKOV V V,SADOVNIKOV M A,SUMERIN V V,et al. The concept and preliminary results of use of satellite laser ranging for GLONASS accuracy improvement[C]//The 18th International Workshop on Laser Ranging. Fujiyoshida,Japan:ILRS,2013.
[14]	BOROSON D M,ROBINSON B S. The lunar laser communication demonstration:NASA's first step toward very high data rate support of science and exploration missions[J]. Space Science Reviews,2014(185):115-128.
[15]	邢强林,李舰艇,唐嘉,等. 激光载波统一系统方案构想[J]. 飞行器测控学报,2009,28(2):36-44. XING Q L,LI J T,TANG J,et al. Conception of a unified laser TT&C system[J]. Journal of Spacecraft TT & C Technology,2009,28(2):36-44.
[16]	胡玮,蒋大钢,邓科,等. 无线激光通信与测距一体机的测距精度分析[J]. 红外与激光工程,2008,37(S3):245-248. HU W,JIANG D G,DENG K,et al. Accuracy analysis on a prototype which combined with optical wireless communication and laser range finding[J]. Infrared and Laser Engineering,2008,37(S3):245-248.
[17]	赵馨,牛俊坡,刘云清,等. 导航卫星中激光通信测距一体化技术及链路特性分析[J]. 激光与光电子学进展,2015,52(6):87-93. ZHAO X,NIU J P,LIU Y Q,et al. Laser communication/ranging integrated technology and link characteristics in navigation satellite system[J]. Laser & Optoelectronics Progress,2015,52(6):87-93.
[18]	GREIN E M,KERMAN A J,DAULER E A,et al. An optical receiver for the lunar laser communication demonstration based on photon-counting superconducting nanowires[J]. Proceeding of SPIE,2015(9492):949208.
[19]	黄波,胡修林. 北斗2导航卫星星间测距与时间同步技术[J]. 宇航学报,2011,32(6):1271-1275. HUANG B,HU X L. Inter-satellite ranging and time synchronization technique for BD2[J]. Journal of Astronautics,2011,32(6):1271-1275.
[20]	吴伟仁,王琼,唐玉华,等. "嫦娥4号"月球背面软着陆任务设计[J]. 深空探测学报,2017,4(2):111-117. WU W R,WANG Q,TANG Y H,et al. Design of Chang'E-4 lunar farside soft-landing mission[J]. Journal of Deep Space Exploration,2017,4(2):111-117.
[21]	高珊,周文艳,梁伟光,等. 地月拉格朗日L2点中继星轨道分析与设计[J]. 深空探测学报,2017,4(2):122-129. GAO S,ZHOU W Y,LIANG W G,et al. Trajectory analysis and design for relay satellite using Lagrange L2 point of Earth-Moon system[J]. Journal of Deep Space Exploration,2017,4(2):122-129.
[22]	熊凯,魏春岭,刘良栋. 基于星间距离测量的高精度自主导航[J]. 空间控制技术与应用,2014,40(6):16-20. XIONG K,WEI C L,LIU L D. High-accuracy autonomous navigation based on inter-satellite range measurement[J]. Aerospace Control and Application,2014,40(6):16-20.

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激光测距通信一体化技术研究及深空应用探索

doi:10.15982/j.issn.2095-7777.2018.02.006

Study on Integrated Technique of Laser Ranging and Communication and Its Applications in Deep Space

计量

激光测距通信一体化技术研究及深空应用探索

doi:10.15982/j.issn.2095-7777.2018.02.006

北京遥测技术研究所, 北京 100076

English Abstract

Study on Integrated Technique of Laser Ranging and Communication and Its Applications in Deep Space

Beijing Research Institute of Telemetry, Beijing 100076, China

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目录

留言板

激光测距通信一体化技术研究及深空应用探索

doi:10.15982/j.issn.2095-7777.2018.02.006

Study on Integrated Technique of Laser Ranging and Communication and Its Applications in Deep Space

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激光测距通信一体化技术研究及深空应用探索

doi:10.15982/j.issn.2095-7777.2018.02.006

北京遥测技术研究所, 北京 100076

English Abstract

Study on Integrated Technique of Laser Ranging and Communication and Its Applications in Deep Space

Beijing Research Institute of Telemetry, Beijing 100076, China

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目录