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分布式全相参雷达相参性能分析 被引量:5

Coherence Performance Analysis for Distributed Aperture Coherent Radar
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摘要 该文针对多脉冲发射协同结构的分布式全相参雷达,首先建立了全相参模式下的信号模型,然后推导了输出信噪比增益(o SNRg)的解析式,并基于相干参数估计的克拉美-罗界(CRB),利用多项式拟合,获得了o SNRg上界的数值解。结果表明:增加发射天线数或脉冲数能够提高o SNRg;而增加接收天线数能否提高o SNRg取决于输入信噪比大小,输入信噪比较大时则o SNRg随之提高,较小时反而随之下降。最后的仿真实验验证了研究结论的正确性。 For distributed aperture coherent radar with cooperative architecture and pulse trains, the signal mode in fully coherent work mode is proposed firstly. Then the analysis formula of output Signal-to-Noise Ratio gain(o SNRg) is derived, and the performance bound of o SNRg is developed by using polynomial fitting based on Cramer-Rao Bounds(CRB) of coherence parameters estimation. It is concluded that more transmitters or pulses make higher o SNRg. However, as the number of receivers increase, if the input SNR is high sufficiently, the o SNRg will gradually improve; if not, it will worsen. Finally, numerical examples demonstrate the validity of the theoretical results.
作者 宋靖 张剑云
机构地区 电子工程学院
出处 《电子与信息学报》 EI CSCD 北大核心 2015年第1期9-14,共6页 Journal of Electronics & Information Technology
基金 国家自然科学基金(60702015)资助课题
关键词 雷达 分布式 全相参 输出信噪比增益 多项式拟合 Radar Distributed aperture Fully coherent Output Signal-to-Noise Ratio gain(o SNRg) Polynomial fitting
分类号 TN958 [电子电信—信号与信息处理]
  • 相关文献

参考文献17

  • 1Ahlgren G W. Next generation radar concept definition team final report[R]. MIT Lincoln Laboratory, 2003.
  • 2Cuomo K M, Coutts S D, McHarg J C, et al.. Wideband aperture coherence processing for next generation radar (NexGen)[R]. MIT Lincoln Laboratory, 2004: 11-16.
  • 3Coutts S D. Cuomo K M coherent aperture McHarg J C, et al.. Distributed ts for next generation BMD radar[C]. Fourth IEEE Workshop on Sensor Array and Multichannel Processing, Walthma, MA, USA, 2006: 390-393.
  • 4Brookner E. Phased-array and radar astounding breakthroughs-an update[C]. IEEE Radar Conference, Boston, MA, USA, 2007: 37-42.
  • 5Fletcher A and Robey F. Performance bounds for adaptive coherence of sparse array radar[C], llth Conference Adaptive Sensors Array Processing, MIT Lincoln Laboratory, Lexington, MA, USA, 2003: 290-293.
  • 6曾涛,殷丕磊,杨小鹏,范华剑.分布式全相参雷达系统时间与相位同步方案研究[J].雷达学报(中英文),2013,2(1):105-110. 被引量:39
  • 7殷丕磊,杨小鹏,曾涛.分布式全相参雷达的相位差跟踪技术[J].信号处理,2013,29(3):313-318. 被引量:15
  • 8Gao Hong-wei, Cao Zhe, Wen Shu-liang, et al.. Study on distributed aperture coherence synthesizing radar with several experiment results[C]. IEEE Radar Conference, Xi'an China, 2011: 84-86.
  • 9Sun P L, Tang J, He Q, ct al.. Cramer-Rao bound of parameters estimation and coherence performance for next generation radar[J]. IET Radar, Sonar Navigation, 2013,7(5): 553-567.
  • 10Tang X W, Tang J, He Q, et al.. Cramer-Rao bounds and coherence performance analysis for next generation radar with pulse trains[J]. Sensor, 2013, 13(1): 5347-5367.

二级参考文献37

  • 1Ahlgren G W. Next generation radar concept definition team final report[R]. MIT Lincoln Laboratory, June 2003.
  • 2Cuomo K M, Coutts S D, McHarg J C, et al.. Wideband aperture coherence processing for next generation radar (NexGen)[R]. MIT Lincoln Laboratory, August 2004: 11-16.
  • 3Coutts S D, Cuomo K M, McHarg J C, et al.. Distributedcoherent aperture measurements for next generation BMD radar[C]. Fourth IEEE Workshop on Sensor Array and Multichannel Processing, Walthma, MA, USA, 2006: 39O-393.
  • 4Fletcher A and Robey F. Performance bounds for adaptive coherence of sparse array radar[C]. Proceedings of the Adaptive Sensors Array Processing Workshop, MIT Lincoln Laboratory, March 2003.
  • 5Brookner E. Phased-array and radar astounding breakthroughs an update[C]. IEEE Radar Conference, RADAR'08, Rome, Italy, May 26-30, 2008: 1-6.
  • 6Gao Hong-wei, Cao Zhe, Wen Shu-liang, et al.. Study on distributed aperture coherence-synthesizing radar with several experiment results[C]. IEEE International Conference on Radar, Chengdu, China, Oct. 24 27, 2011, 1: 84-86.
  • 7姜伟.MIMO雷达信号处理关键技术研究[D].[博士论文],北京:北京理工大学,2009.
  • 8Yin Pi-lei, Yang Xiao-peng, and Zeng Tao. Tracking technology of phase difference for distributed aperture coherent radar[J]. Signal Processing (to be published).
  • 9Cai Wei. Research on synchronization technique of biastaticID]. [Master dissertation], Xi'an: Xidian University, 2009.
  • 10Hu Cheng. Research on synchronization technology and design of synchronization system for bistatic radar[D]. [Master dissertation], Chengdu: University of Electronic Science and Technology of China, 2003.

共引文献44

同被引文献30

  • 1Ahlgren G W. Next generation radar concept definition team final report[R]. MIT Lincoln Laboratory, 2003.
  • 2Cuomo K M, Coutts S D, McHarg J C, et al: Wideband aperture coherence processing for next generation radar (NexGen)[R]. MIT Lincoln Laboratory, 2004: 11-16.
  • 3Courts S D, Cuomo K M, McHarg J C, et al: Distributed coherent aperture measurements for next generation BMD radar[C]. Fourth IEEE Workshop on Sensor Array and Multichannel Processing, Walthma, MA, USA, 2006: 390-393.
  • 4Brookner E. Phased-array and radar astounding breakthroughs- an update[C]. IEEE Radar Conference, Boston, MA, USA, 2008, DOI:10.1109/RADAR.2008. 4720771.
  • 5Fletcher A and Robey F. Performance bounds for adaptive coherence of sparse array radar[C], llth Conference Adaptive Sensors Array Processing, MIT Lincoln Laboratory, Lexington, MA, USA, 2003: 290-293.
  • 6Gao Hong-wei, Cao Zhe, Wen Shu-liang, et al: Study on distributed aperture coherence synthesizing radar with several experiment results[C]. Proceedings of the IEEE Radar Conference, Xi'an, China, 2011: 84-86.
  • 7Sun Pei-lin, Tang Jun, He Qian, et al: Cramer-Rao bound of parameters estimation and coherence performance for next generation radar[J]. IET Radar, Sonar & Navigation, 2013, 7(5): 553-567.
  • 8Tang Xiao-wei, Tang Jun, He Qian, et al: Cramer-Rao bounds and coherence performance analysis for next generation radar with pulse trains[J]. Sensor, 2013, 13(4): 5347 5367.
  • 9宋靖,牛朝阳,张剑云.分布式全相参雷达LFM信号设计及性能分析[J].中国科学:信息科学,DOI:10.1360/N112014-00185.
  • 10曹哲,柴振海,高红卫,鲁耀兵.分布式阵列相参合成雷达技术研究与试验[J].现代防御技术,2012,40(4):1-11. 被引量:18

引证文献5

二级引证文献23

电子与信息学报
2015年 第1期

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