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LIU Li-Hua, HU Wei-Dong, YU Wen-Xian. Micro-Doppler Modulation Period Estimation of the Ballistic Missile based on Multi-section Signals[J]. JOURNAL OF SIGNAL PROCESSING, 2010, 26(2): 190-196.
Citation: LIU Li-Hua, HU Wei-Dong, YU Wen-Xian. Micro-Doppler Modulation Period Estimation of the Ballistic Missile based on Multi-section Signals[J]. JOURNAL OF SIGNAL PROCESSING, 2010, 26(2): 190-196.
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Micro-Doppler Modulation Period Estimation of the Ballistic Missile based on Multi-section Signals

  • ATR Key Lab, School of Electronic Science and Engineering, National University of Defense Technology, Changsha, Hunan

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  • Received Date: March 24, 2009
  • Revised Date: June 03, 2009
  • Published Date: February 24, 2010
    Graphical Abstract
    • Abstract
  • Ground based Space Surveillance Phased Array (SSPA) Radar usually works on the mode of multi-tasking and multi-objects, and radiates objects in time segmentations. Aiming at this point, taking the ballistic missile (BM) as an example, the multi-section time segmented radar returns model was developed in the paper. And then the micro-Doppler modulation characteristic induced by finned missiles’ spinning motion was analyzed. The feasibility of using microDoppler modulation period as an important feature parameter to recognize the BM target was opened out in theory. According to the characteristics of the multisection signals, the Radon-p-STFT method was proposed to estimate the half radial acceleration. Based on the acceleration compensated signal, the micro-Doppler modulation period was extracted successfully utilizing circular Average Magnitude Difference Function (AMDF).
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