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穿墙生命探测雷达接收技术研究 被引量:1

The Research on Receiver Technology of the Through-the-Wall Surveillance Radar
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摘要 详细介绍了一种穿墙生命探测雷达接收机所涉及的关键技术,阐述了调频连续波体制雷达发射波形与接收波形的关系以及差拍混频的原理,提出了采用灵敏度频率控制(SFC)技术来抑制主波泄漏信号和近距离墙杂波的解决途径,并对这一关键技术着重进行展开分析,给出了设计思路和实现方式,为此类调频连续波体制雷达提供了一种接收机设计框图和实现方法;最后给出了该雷达接收机实现的一些技术指标。 The key techniques of the through-the-Wall Surveillance radar receiver is introduced in detail. The relationship between the transmit waveform and the echo waveform for the frequency modulated con- tinuous wave (FMCW) radar is discussed, including the principle of beat mixing. The solution of the sensitiviry frequency control (SFC) for eliminateing signal leakage and short range wall clutter is proposed, which is also analyzed, designed and implemented. A kind of receiver scheme and realization for the FMCW radar is produced, technique spcifications are presented at last.
作者 束永江
机构地区 华东电子工程研究所
出处 《中国电子科学研究院学报》 2011年第6期648-651,共4页 Journal of China Academy of Electronics and Information Technology
关键词 穿墙生命探测 连续波 差拍混频 灵敏度频率控制 through-the-wall surveillance continuous wave beat mixing sensitiviry frequency control
分类号 TN957.5 [电子电信—信号与信息处理]
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参考文献3

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二级参考文献5

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共引文献4

同被引文献23

  • 1Baranoski J. Through-wall imaging historical perspectiveand future directions [J]. Journal of the Franklin Institute.2008, 345(6): 556-569.
  • 2Sisma O, Gaugue A, Liebe C, et al. UWB radar: visionthrough the wall[J]. Soldering and Surface Mount Technology,2008, 38(1/2): 53-59.
  • 3Song Lin-ping, Yu Chun, and Liu Qing-huo. Through WallImaging (TWI) by radar: 2-D tomo graphic results andanalyses [J], IEEE Transactions on Geoscience and RemoteSensing, 2005, 43(12): 2793-2798.
  • 4Debes C, Amin M G, and Zoubir A M. Target detection insingle- and multiple-view through-the-wall radar imagingfJ].IEEE Transactions on Geoscience and Remote Sensing, 2009,47(5): 1349-1361.
  • 5Kidera Shouhei,Sakamoto Takuya, and Sato Toru. Highresolution 3-D imaging algorithm with an envelope of modiedspheres for UWB through-the-wall radarsfjj. IEEETransactions on Antennas and Propagation, 2009,57(11):3520-3529.
  • 6Chetty K, Smith G E, and Woodbridge K. Through-the-wallsensing of personnel using passive bistatic WiFi radar atstandoff distances[J]. IEEE Transactions on Geoscience andRemote Sensing, 2012, 50(4): 1218-1226.
  • 7Li Jing, Zeng Zhao-fa, Sun Ji-guang, et al.. Through-walldetection of human being’s movement by UWB radar[J].IEEE Geoscience and Remote Sensing Letters, 2012,9(6):1079-1083.
  • 8Aft anas M and Drutaxovsky M. Imaging of the buildingcontours with through the wall UWB radar system[Jj. RadioEngineering, 2009, 18(3): 258-264.
  • 9Chang P C. Physics-based inverse processing and multipathexploitation for through-wall radar imaging[D].[Ph.D.dissertation], The Ohio State University, 2011.
  • 10Browne K E, Burkholder R J, and Volakis J L. Fastoptimization of through-wall radar images via the method oflagrange multipliers[J]. IEEE Transactions on Antennas andPropagation, 2013, 61(1): 320-328.

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二级引证文献6

中国电子科学研究院学报
2011年 第6期

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