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机载火控雷达慢速目标检测 被引量:2

SLOWLY MOVING TARGET DETECTION FOR AIRBORNE FIRE-CONTROL RADAR
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摘要 该文研究机载火控雷达对慢速目标的检测方法以及发射信号带宽对慢速目标的检测性能的影响。通常情况下,机载火控雷达地杂波多普勒频率多重模糊,主瓣杂波带宽大,常规处理性能很差。该文结合实际情况。重点分析了机载火控雷达检测地面慢速目标的特点,分析了主瓣杂波这一制约系统检测性能的主要因素,比较了两类空时二维处理方案对慢速目标的检测性能。采用较大的发射带宽是火控雷达的发展方向,雷达发射信号的带宽是影响系统对慢速目标检测性能的重要因素,该文通过理论分析和仿真试验比较了不同带宽情况下系统对慢速目标的检测能力。 In this paper, slowly moving target detection for airborne fire-control radar and the effect of transmitting bandwidth are discussed. The system of this kind is often characterized by the highly ambiguous Doppler frequency of ground clutter and large Doppler bandwidth of mainbeam clutter. In this case, conventional processing can not give systems good performance of detection. Considering the actual conditions, this paper is focused on the features of detection of slowly moving targets by use of the airborne fire-control radar, and the cascade processing and joint processing are compared. Because using large transmitting bandwidth is today's trend, the effect of bandwidth on slowly moving target detection is also discussed. Finally, simulation results are included to validate the conclusions of the bandwidth effect.
作者 王彤 保铮 廖桂生
机构地区 西安电子科技大学雷达信号处理重点实验室
出处 《电子与信息学报》 EI CSCD 北大核心 2002年第2期222-231,共10页 Journal of Electronics & Information Technology
关键词 机载火控雷达 慢速目标检测 空时自适应处理 杂波抑制 信号带宽 STAP(Space Time Adaptive Processing), Clutter suppression, Signal bandwidth
分类号 TN959.73 [电子电信—信号与信息处理] TN957.5 [电子电信—信号与信息处理]
  • 相关文献

参考文献2

二级参考文献7

  • 1廖桂生,1992年
  • 2孙继广,矩阵扰动分析,1987年
  • 3保静,Chin J Electron,1993年,2卷,1期,1页
  • 4廖桂生,电子科学学刊,1993年,15卷,4期,366页
  • 5廖桂生,1992年
  • 6孙继广,矩阵扰动分析,1987年
  • 7廖桂生,电子科学学刊

共引文献112

同被引文献13

  • 1保铮,张玉洪,廖桂生,王永良,吴仁彪.机载雷达空时二维信号处理[J].现代雷达,1994,16(1):38-48. 被引量:65
  • 2Ward J. Space-Time Adaptive Processing For Airborne Radar [DB/OL]. [1998-04-06]. http://ieeexplore.ieee.org/ search.
  • 3Ries P, Lapierre F D, and Verly J G. Framework and taxonomy for radar Space-time adaptive processing (STAP) Methods[J]. IEEE Transactions on Aerospace and Electronic Systems, 2007, 43(3): 1084-1099.
  • 4Kreyenkamp O and Klemm R. Doppler compensation in forward-looking STAP radar[C]. IEE Proceeding. of Radar, Sonar and Navigation, 2001, 148(5): 253-258.
  • 5Braham.H, Zhang Yuhong, and Abdelhak H. STAP with angle-Doppler compensation for bistatic airborne Radars. Proceedings of the IEEE Radar Conference, April 22-25, 2002: 311-317.
  • 6Xu Jin and Chen Biao. A GLRT based STAP for the range dependent problem[DB/OL]. [2007-04-15]. http://ieeexplore. ieee.org/search.
  • 7Lapierre F D, Verly J G, and Van Droogenbroeck M. New solutions to the problem of range dependence in bistatic STAP radars. Proceedings of the IEEE International Radar Conference, Piscataway N J, USA, May 5-8, 2003: 452-459.
  • 8Zatman M. Performance analysis of the derivative based updating method. Adaptive Sensor Array Processing. Workshop, Lincoln Lab, MA, March, 2001: 421-425.
  • 9Hale T B, Temple M A, and Wicks M C. Clutter suppressing using elevation interferometry fused with space-time adaptive processing. Electronics Letters, 2001, 37(12): 793-794.
  • 10Corbell P M and Hale T B. 3-dimensional STAP performance analysis using the cross-spectral metric. [DB/OL]. [2004-04-26]. http://ieeexplore.ieee.org/search.

引证文献2

二级引证文献13

电子与信息学报
2002年 第2期

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