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分布式全相参雷达相干参数估计性能 被引量:10

Coherent Parameters Estimation Performance for Distributed Aperture Coherent Radar
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摘要 针对部分收发共置的分布式全相参雷达,该文首先建立了"全发任意收"的混合结构,然后在发射多脉冲条件下推导了相干参数估计的克拉美-罗界(CRB)闭式解,研究了相干参数估计性能与收发天线数及脉冲数之间关系。结论表明:共置天线较分置天线能够获得更低的相干参数估计CRB,增加收发天线数或脉冲数,能够降低相干参数估计CRB。最后的仿真实验验证了研究结论的正确性。 A hybrid signal processing architecture characterized by "all transmit and any receive" is proposed firstly for distributed aperture coherent radar when receivers are co-located with partial transmitters. Then the closed-form Cramer-Rao Bounds(CRB) of coherence parameters estimation are derived under the condition that multiple pulses are transmitted, and the relationship among estimation performance and the number of antennas and pulses is studied. It is concluded that the CRB of parameters estimation for co-located antennas is slower than that for bistatic antennas, and the CRB reduces with the increase of the number of antennas and pulses. Finally, the numerical examples demonstrate the validity of the theoretical results.
作者 宋靖 张剑云 郑志东 何伟
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 2014年第8期1926-1931,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 克拉美-罗界 费歇尔信息矩阵 Radar Distributed aperture Full coherent Cramer-Rao Bound(CRB) Fisher Information Matrix(FIM)
分类号 TN957.51 [电子电信—信号与信息处理]
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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, August 2004: 11-16.
  • 3Coutts 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, Sudbury, USA, 2008: 1-6.
  • 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, March 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]. IEEE Radar Conference, Chengdu, China, 2011: 84-86.
  • 7Sun P L, Tang J, He Q, 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 X W, Tang J, He Q, et al. Cramer-Rao bounds and coherence performance analysis for next generation radar with pulse trains[J]. Sensors, 2013, 13(4): 5347-5367.
  • 9Godrich H, Haimovich A M, and Blum R S. Target localization accuracy gain in MIMO radar-based systems[J]. IEEE Transactions on Information Theory, 2010, 56(6): 2783-2802.
  • 10He Q, Blum R S, Godrich H, et al., Target velocity estimation and antenna placement for MIMO radar with widely separated antennas[J]. IEEE Journal of Selected Topics in Signal Processing, 2010, 4(1): 79-100.

同被引文献72

  • 1HU Jie, ZHANG Yujun, LI Peng, WANG Hui, HUANG Lan & HU YuanzhongState Key Laboratory of Tribology, Tsinghua University, Beijing 100084, China,Department of Physics, Tsinghua University, Beijing 100084, China,College of Chemistry and Molecular Engineering, Peking University, Beijing 100871, China.Micro-mechanical analysis of dynamic processes of nanomanipulation[J].Science China(Physics,Mechanics & Astronomy),2004,47(z1):88-92. 被引量:28
  • 2Ahlgren G W. Next generation radar concept definition team final report[R]. MIT Lincoln Laboratory, 2003.
  • 3Cuomo 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.
  • 4Coutts 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.
  • 5Brookner E. Phased-array and radar astounding breakthroughs-an update[C]. IEEE Radar Conference, Boston, MA, USA, 2007: 37-42.
  • 6Fletcher 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.
  • 7Gao 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.
  • 8Sun 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.
  • 9Tang 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.
  • 10Godrich H, Haimovich A M, and Blum R S. Target localization accuracy gain in MIMO radar-based systems[J]. IEEE Transactions on Information and Theory, 2010, 56(6): 2783-2802.

引证文献10

二级引证文献31

电子与信息学报
2014年 第8期

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