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Home arrow Engineering arrow Study on Ground Moving Target Indication and Imaging Technique of Airborne SAR
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References

  • 1. Qian J, Lv X, Xing M et al (2010) Parameter estimation of the fast moving target based on tri-channel airborne SAR-GMTI. J Xidian Univ 37(2):235-241
  • 2. Dai D, Liu J, Tang H et al (2005) Slowly moving target detection and imaging using single-antenna SAR. Sig Process 21(4A):550-554
  • 3. Zhu S, Liao G, Zhou Z et al (2009) Approach to ground slowly moving target parameter-estimation for airborne dual-channel SAR systems. Syst Eng Electron 31 (12):2848-2852
  • 4. Zhao Y (2007) Ground moving target indication of synthetic aperture radar. Institute of Electronics, Chinese Academy of Sciences
  • 5. Cumming IG, Wong FH (2005) Digital processing of synthetic aperture radar data: algorithms and implementation. Artech House, Norwood
  • 6. Nitzberg R (1972) Constant-False-Alarm-Rate signal processors for several types of interference. IEEE Trans Aerosp Electron Syst 8(1):27-34
  • 7. He Y, Guan J, Peng Y et al (1999) Radar target detection and CFAR technique. Tsinghua University Press, Beijing
  • 8. Rohling H (1983) Radar CFAR thresholding in clutter and multiple target situations. IEEE Trans Aerosp Electron Syst 19(3):608-621
  • 9. Ji S, Huangpu K, Zhou L et al (1990) A new constant-false-alarm-rate (CFAR) processor. J Nat Univ Defense Technol 12(4): 116—121
  • 10. Thomas JB (1970) Nonparametric detection. Proc IEEE 58(5):623-631
  • 11. Guan J, He Y, Peng Y (2000) Study of distributed CFAR detection based on local test statistics and its fusion strategy. ACTA Electronica Sin 28(3):125-127
  • 12. Cai LJ, Wang H (1994) Further results on adaptive filtering with embedded CFAR. IEEE Trans Aerosp Electron Syst 30(4):1009-1020
  • 13. Wanielik G, Stock DJR (1990) Measured scattering-matrix-data and a polarimetric CFAR-detector which works on this data. In: IEEE international radar conference, Piscataway, NJ, USA, 1990, pp 514-519
  • 14. Swerling P (1997) Radar probability of detection for some additional fluctuating target cases. IEEE Trans Aerosp Electron Syst 33(2):698-709
  • 15. Trunk GV, George SF (1970) Detection of targets in non-Gaussian sea clutter. IEEE Trans Aerosp Electron Syst 6(5):620-628
  • 16. Perry RP, Dipietro RC, Fante RL (1999) SAR imaging of moving targets. IEEE Trans Aerosp Electron Syst 35(1):188-200
  • 17. Tang L, Li D, Wu Y et al (2005) Imaging of ground moving targets based on airborne SAR. Syst Eng Electron 27(10):1681-1684
  • 18. Qian J, Su J, Li L et al (2010) Tri-channel SAR-GMTI high-speed target imaging and motion parameter estimation using KWT. J Electron Inf Technol 32(7):1660-1667
  • 19. Yin J, Li D, Tang L et al (2007) Spaceborne SAR detecting and imaging of airborne moving targets. ACTA Electronica Sin 35(6):1032-1036
  • 20. Zhou F, Li Y, Xing M et al (2007) An effective approach to ground moving target imaging and motion parameter estimation for single channel SAR system. ACTA Electronica Sin 35 (3):543-548
  • 21. Yang J, Huang X, Jin T et al (2011) New approach for SAR imaging of ground moving targets based on a Keystone transform. IEEE Geosci Remote Sens Lett 8(4):829-833
  • 22. Sun H, Liu G, Gu H et al (2002) Application of the fractional Fourier transform of moving target detection in airborne SAR. IEEE Trans Aerosp Electron Syst 38(4):1416-1424
 
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