天地一体化信息网络激光通信系统发展设想

孙建锋

doi:10.11959/j.issn.1000-0801.2017319

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天地一体化信息网络激光通信系统发展设想

专题：天地一体化信息网络 | 更新时间：2024-06-05

- 天地一体化信息网络激光通信系统发展设想
- Development of laser communication system in space-ground integrated information network
- 电信科学 2017年33卷第12期页码：18-23
- 作者机构：
- 作者简介：
  
  [ "孙建锋（1978-），男，博士，中国科学院上海光学精密机械研究所研究员，主要从事激光通信及相干激光雷达方面的研究工作。" ]
- 基金信息：
- DOI：10.11959/j.issn.1000-0801.2017319
  中图分类号： TN929.13
- 网络出版日期：2017-12，
  
  纸质出版日期：2017-12-20
- 稿件说明：
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孙建锋. 天地一体化信息网络激光通信系统发展设想[J]. 电信科学, 2017,33(12):18-23.

Jianfeng SUN. Development of laser communication system in space-ground integrated information network[J]. Telecommunications science, 2017, 33(12): 18-23.
孙建锋. 天地一体化信息网络激光通信系统发展设想[J]. 电信科学, 2017,33(12):18-23. DOI： 10.11959/j.issn.1000-0801.2017319.

Jianfeng SUN. Development of laser communication system in space-ground integrated information network[J]. Telecommunications science, 2017, 33(12): 18-23. DOI： 10.11959/j.issn.1000-0801.2017319.

摘要

空间激光通信技术具有通信速率高、保密性好、抗干扰能力强等优点，成为近年来的研究热点，并相继在天基信息网络中得到广泛应用。首先对国际激光通信技术的发展态势进行了分析，然后从我国天地一体化信息网络的需求出发，对不同的应用场景上的激光通信系统进行了分析，提出了我国天地一体化信息网络激光通信系统发展的建议。

Abstract

The space laser communication technology has the advantages of high communication speed

good confidentiality and strong anti-interference ability

and has become a research hot spot in recent years and has been widely used in the space-based information network one after another.First of all

the development trend of international laser communication technology was analyzed.Then based on the demand of our country’s space-ground integrated information network

the laser communication system on different application scenarios was analyzed

and the suggestion of the development of laser communication system in space-ground integrated information network was put forward.

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Keywords

references

COCKSHOTT R A , PURLL D J . SILEX acquisition and tracking sensors [J ] . Photonics West , 1995 ( 2381 ): 206 - 214 .

DAVI P , . High-stability coatings for space optics:application to SILEX program [C ] // International Society for Optics and Photonics,November 4,1994.[S.l.:s.n] . 1994 : 498 - 505 .

COSSON F , DOUBRERE P , PEREZ E . Simulation model and on-ground performances validation of the PAT system for SILEX program [J ] . Proceedings of SPIE , 1991 :1417.

FLETCHER G D , HICKS T R , LAURENT B . The SILEX optical interorbit link experiment [J ] . Electronics ＆ Communication Engineering Journal , 1991 , 3 ( 6 ): 273 - 279 .

PLANCHE G , LAURENT B , GUILLEN J C , et al . SILEX final ground testing and in-flight performance assessment [J ] . Proceedings of SPIE , 1999 ( 3615 ): 64 - 77 .

PEREZ E , BAILLY M , PAIROT J M . Pointing acquisition and tracking system for SILEX inter satellite optical link [J ] . Proc Spie , 1989 ( 1111 ): 277 - 288 .

SODNIK Z . Optical satellite communications in Europe [J ] . Proceedings of SPIE , 2010 , 7587 ( 6 ):4.

TOLKER-NIELSEN T , GUILLEN J C . SILEX:the first European optical communication terminal in orbit [J ] . Esa Bulletin.bulletin Ase.european Space Agency , 1998 ( 96 ): 42 - 44 .

OPPENHAUSER G . In-orbit test result of an operational optical intersatellite link between ARTEMIS and SPOT4,SILEX [J ] . Proceedings of SPIE , 2002 ( 4635 ): 1 - 15 .

NAKAGAWA K , YAMAMOTO A . Preliminary design of laser utilizing communications equipment (LUCE) installed on optical inter-orbit communications engineering test satellite (OICETS) [J ] . Proceedings of SPIE , 1995 ( 2381 ): 14 - 25 .

NAKAGAWA K , YAMAMOTO A . Engineering model test of LUCE (Laser Utilizing Communications Equipment) [J ] . Proceedings of SPIE , 1996 : 114 - 120 .

NAKAGAWA K , YAMAMOTO A , TOYODA M . Performance test result of LUCE (laser utilizing communications equipment) engineering model [J ] . Proceedings of SPIE , 2000 ( 3932 ): 68 - 76 .

SEEL S , KAMPFNER H , WANDERNOTH B , et al . Space to ground bidirectional optical communication link at5.6 Gbps and EDRS connectivity outlook [C ] // IEEE Aerospace Conference,Mar 5-12,2011,Big Sky,USA . New Jersey:IEEE Press , 2011 : 1 - 7 .

GREGORY M , HEINE F , LANGE R . Laser communication terminals for the European data relay system [J ] . Proceedings of SPIE , 2012 , 8246 ( 8 ):8.

HEINE F , SEEL S . LCT for the European data relay system:inorbit commissioning of the Alphasat and Sentinel 1A LCTs [J ] . Proceedings of SPIE , 2015 , 9354 ( 1 ):93540G-93540G-6.

LANGE R , HEINE F , MOTZIGEMBA M , et al . Roadmap to wide band optical GEO relay networks [C ] // Military Communications Conference,Oct 29-Nov 1,2012,Orlando,USA . New Jersey:IEEE Press , 2013 : 1 - 5 .

GIGGENBACH D , MOLL F , SODNIK Z . Transmitter diversity verification on ARTEMIS geostationary satellite [J ] . Optical Engineering , 2014 , 8971 ( 2015 ): 450 - 453 .

ZECH H , HEINE F , TRÖNDLE D , et al . LCT for EDRS:LEO to GEO optical communications at 1.8Gbit/s between Alphasat and Sentinel 1a [C ] // SPIE Security+Defence.[S.l.:s.n] . 2015 :96470J.

Laser communication relay demonstration (LCRD) .(2015-01-23)[2017-11-10 ] http://www.doc88.com/p-31075594 61975.html http://www.doc88.com/p-31075594 61975.html .

ROBERTS W T , ANTSOS D , CROONQUIST A , et al . Overview of Ground Station 1 of the NASA space communications and navigation program [C ] // SPIE LASE International Society for Optics and Photonics.[S.l.:s.n] . 2016 :97390B.

STEWART J B , MOORES J D , FLETCHER A S . Comparing adaptive optics approaches for NASA LCRD ground station #2 [J ] . The International Society for Optical Engineering , 2013 , 8610 ( 10 ):86100M-86100M-11.

WILSON K E , JR L C R . Recent developments in adaptive optics for LCRD optical ground station at table mountain [C ] // International Conference on Space Optics Systems and Applications.[S.l.:s.n] . 2014 .

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通信、网络、计算融合的天地一体化信息网络体系架构研究

关于天地一体化信息网络典型应用示范的思考