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地面RCS起伏特性模拟及对ATI检测性能的影响 被引量:1

Simulation of Ground RCS Fluctuation Characteristic and Influence on ATI
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摘要 在假定目标RCS起伏为高斯形状频谱特性的前提下,将高斯白噪声通过一个高斯谱特性的低通滤波器来模拟目标RCS起伏特性。首先用康斯坦尼兹法设计了低通滤波器,并根据地杂波等效速度的不同,得到一组不同的滤波器响应,进而实现了背景RCS起伏程度不同的地杂波的模拟。然后以该地杂波为背景,采用ATI方法进行动目标检测,分析了地面背景RCS起伏特性对动目标检测性能的影响。计算机仿真结果表明:在一定的虚警概率下,当不考虑接收机噪声时,随着RCS起伏加剧,动目标径向最小可检测速度增大。最后得到结论:用基于ATI方法进行动目标检测时,若不考虑雷达接收机噪声,则地面背景RCS起伏特性是影响最小径向可检测速度的主要因素。 Assuming that the target RCS fluctuation characteristic is the Gaussian spectrum characteristic, this paper simulates the target RCS fluctuation characteristic by white Gaussian noise passing through a lowpass filter with Gaussian spectrum shape. First, designing the filter with Constantinides approach, the paper obtains different respondences of filter for different scatter equivalent velocities, and then performs ground clutter simulation with different fluctuation degrees. Secondly, using the ground clutter as background, it conducts the GMTI with ATI approach, and then analyses the influence of the background RCS fluctuation characteristic on the performance of ATI-GMTI. At last, the simulation shows that the detectable minimum radial velocity of MTI increases with increasing of the RCS fluctuation, without consideration of radar system noise and under the same false alarm rate. The conclusion is drawn that applying the ATI method to GMTI, without consideration of the radar system noise, the major factor influencing on the detectable minimum radial velocity is the ground background RCS fluctuation.
作者 袁昊 周荫清 李景文
机构地区 北京航空航天大学电子信息工程学院
出处 《雷达科学与技术》 2006年第5期262-267,283,共7页 Radar Science and Technology
基金 总装973项目(No.5131702)
关键词 合成孔径雷达 地面动目标指示 RCS起伏 沿轨迹干涉 虚警概率 synthetic aperture radar(SAR) ground moving target indication(GMTI) RCS fluctuation along track interferometry(ATI) false alarm rate(FAR)
分类号 TN958 [电子电信—信号与信息处理] TN957.5 [电子电信—信息与通信工程]
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参考文献2

  • 1(美)A.V.奥本海姆(Alan,V.Oppenheim),(美)R.W.谢弗(Ronald,W.Schafer)著,黄建国,刘树棠译..离散时间信号处理[M].北京:科学出版社,1998:717.
  • 2方再根编著..计算机模拟和蒙特卡洛方法[M].北京:北京工业学院出版社,1988:460.

同被引文献11

  • 1《数学手册》编写组.数学手册[M].北京:高等教育出版社,2005:52. 被引量:6
  • 2Cerutti-maori D, Christoph H G, Ender J H G. Experimental verification of SAR-GMTI improvement through antenna switching [J]. IEEE Transactions on Geoscience and Remote Sensing, 2010,48(4): 2066-2075. 被引量:1
  • 3Banahan C P, Perks D, Baker C, Woodbridge K. GMTI clutter cancellation using real non-ideal data [J]. IET Radar, Sonar and Navigation, 2010,4(2): 302-314. 被引量:1
  • 4Chapin E, Chen C W. Airborne along-track interferometry for GMTI [J]. IEEE Aerospace and Electronics Systems Magazine, 2009, 24(5): 13-18. 被引量:1
  • 5Gabele M, Brautigam B, Schulze D, Steinbrecher U, Tous-ramon N, Younis M. Fore and aft channel reconstruction in the TerraSAR-X dual receive antenna mode [J]. IEEE Transactions on Geoscience and Remote Sensing, 2010, 48(2): 795-806. 被引量:1
  • 6Gierull C H. Statistical analysis of multilook SAR interferograms for CFAR detection of ground moving targets [J]. IEEE Transactions on Geoscience and Remote Sensing, 2004, 42(4): 694-701. 被引量:1
  • 7Gierull C H. Statistical of SAR interferograms with application to moving target detection [R]. Technical Report TR 2001-045, Defence Research and Develpoment Canada, July 2001. 被引量:1
  • 8Gierull C H. Moving target detection with alongtrack SAR interferometry: a theoretical analysis [R].Defense R&D Canada-Ottawa, Technique Report.DRDC-OTTAWQ-TR-2002-084, August 2002. 被引量:1
  • 9Lee J S, Hoppel K W, Mango S A, Miller A R.Intensity and phase statistics of multilook polarimetric and interferometric SAR imagery [J]. IEEE Transactions on Geoscience and Remote Sensing, 1994,32(5): 1017-1028. 被引量:1
  • 10Liu Ke, Chen Aixin, Ni Zinan, Liu Henan. A novel approach to analyzing RCS of the airborne antenna[C]//9th International Symposium on Antennas Propagation and EM Theory, 2010: 928-931. 被引量:1

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雷达科学与技术
2006年 第5期

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