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深空探测天线技术发展现状及趋势 被引量:13

Progress and prospect of antenna technology in deep space exploration
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摘要 为了满足我国新世纪深空探测任务的需求,文章结合国内外部分典型深空探测项目,介绍了有关探测器上天线系统的设计思路,从而了解深空探测天线技术的发展现状,并根据目前星载天线技术发展和深空探测领域测控通信系统的需求,归纳和总结了未来深空探测领域中探测器上天线技术的发展趋势,为我国深空探测天线技术的发展提供参考。 In order to satisfy the china's requirements of deep space exploration in the 21st century, the design idea of antenna system combined with representative deep space exploration project is introduced to realize the status of deep space exploration technology. Based on the development of satellite antenna technology and requirements of tracking, telemetry, command and communication system in deep space exploration, prospect of antenna technology in deep space exploration is summarized, which provide reference for china's antenna technologies development.
作者 周卫来 凌闽河 朱培芸
机构地区 中国空间技术研究院西安分院
出处 《空间电子技术》 2011年第2期17-21,64,共6页 Space Electronic Technology
关键词 深空探测 天线技术 现状 趋势 Deep space explorer Antenna technology Status of current prospect
分类号 V11 [航空宇航科学与技术—人机与环境工程]
  • 相关文献

参考文献9

  • 1D. Srinivasan, et al. Implementation of an X-band phased-array subsystem in a deep space Mission [ C]1. IEEE conference on aerospace, 2005.
  • 2R. Schulze, et al. The New Horizons high gain antenna: reflector design for a spin-stabilized bus at cuogenic tem- peratures[ C] , Proceedings of the IEEE aerospace confer- ence, 2004.
  • 3孙大媛.反射面背射螺旋天线设计[J].航天器工程,2008,17(2):59-62. 被引量:4
  • 4Philip Barr, Afroz Zaman, Felix Miranda. A compact, broadband antenna for planetary surface-to-surfaee wire- less communications [ J ]. Microwave and Optical Tech- nology Letters, 2006, 48 ( 3 ) : 521-524.
  • 5王援朝.充气天线结构技术概述[J].电讯技术,2003,43(2):6-11. 被引量:14
  • 6Antenna technologies for NASA applieations [ C ]. IDGA's Militalw Antenna Systems Conference Westin Arlington Gateway, Arlington, VA , 2006.
  • 7荣键,韩佳佳,钟晓春.深空探测光通信技术发展与关键技术[C]//中国宇航学会深空探测技术专业委员会第二届学术会议论文集.2005,10:88-94.
  • 8奚日升,张小青,宁银.空间探测可应用的轻薄展开技术[C]//中国宇航学会深空探测技术专业委员会第二届学术会议论文集.2005,10.309-314.
  • 9石书济.深空探测与测控通信技术[J].电讯技术,2001,41(2):1-4. 被引量:19

二级参考文献9

  • 1[1]R E Freeland.Inflatable Deployable Space Structures Technology Summary[A].IAF- 98-5.01[C].
  • 2[2]Cassapakes,Love C G,Palisoc A W,A L.Inflatable Space Antenna,A Brief Overview[A].Space Antennas.Aerospace Conference[C],IEEE 1998,Volume:3,1516~1519.
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  • 4[4]David P Cadogan.Deployment Control Mechanisms for Inflatable Space Structres[A].33rd Aerospace Mechanisms Conference[C].May 1999.
  • 5[5]Richard S Pappa.Photogrammetry of a 5m Inflatable Space Antenna with Consumer Digital Cameras[EB/OL].2000.
  • 6[6]Large,Lightweight Deployable Antennas[A].Earth Science Enterprise Technology Planning Workshop[C].23~24 January 2001.
  • 7[7]A Hybrid Inflatable Dish Antenna System for Spacecraft[A].42nd AIAA/ASME/ASCE/AHS/ASC Structures,Structural Dynamics,and Materials Conference &Exhibit[C].AIAA Gossamer Spacecraft Forum.April 16~19,2001.
  • 8[8]R E Freeland.Large Inflatable Deployable Antenna Flight Experiment Results[A].IAF Paper 97-1.3.01[C],1997.
  • 9[9]R E Freeland.Significance of the Inflatable Antenna Experiment Technology[A].39nd AIAA/ASME/ASCE/AHS/ASC Structures,Structural Dynamics and Materials Conference[C].AIAA/ASME/AHS Adaptive Structures Forum,April 20~23,1998.

共引文献34

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引证文献13

二级引证文献27

空间电子技术
2011年 第2期

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