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Time-varying spectral analysis for radar imaging of manoeuvring targets

Time-varying spectral analysis for radar imaging of manoeuvring targets

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Fourier transforms are the basis for conventional radar range-Doppler imaging. Target rotation during the coherent integration time results in a time-varying Doppler frequency shift that produces, after Fourier transform, a smeared Doppler spectrum and a blurred image. Sophisticated motion compensation algorithms must be applied to obtain focused images using Fourier techniques. However, image blurring can be mitigated without resorting to sophisticated focusing algorithms by using time-varying spectral analysis in place of the Fourier analysis for Doppler processing. Various methods of time-varying spectral analysis are described and compared. Range-Doppler images of manoeuvring aircraft produced by conventional Fourier analysis are then compared with those produced by time-varying spectral analysis. A quantitative simulation illustrates the benefit of using the latter.

Inspec keywords: spectral analysis; image reconstruction; radar resolution; Doppler shift; image resolution; Fourier transforms; image motion analysis; radar imaging; time-frequency analysis

Other keywords: motion compensation algorithms; manoeuvring aircraft; quantitative simulation; focused images; Doppler processing; blurred image; high resolution time-frequency analysis; smeared Doppler spectrum; time-varying Doppler frequency shift; time-varying spectral analysis; manoeuvring targets; radar image reconstruction; coherent integration time; Fourier transforms; radar range-Doppler imaging; Fourier analysis

Subjects: Integral transforms in numerical analysis; Optical, image and video signal processing; Radar theory; Mathematical analysis

References

    1. 1)
      • W.G. Garrara , R.S. Goodman , R.M. Majewski . (1995) Spotlight synthetic aperture radar - signal processing algorithms.
    2. 2)
      • S. Qian , D. Chen . (1996) Joint time-frequency analysis - methods and applications.
    3. 3)
      • V.C. Chen , Z.Z. Lu . Radar imaging of multiple moving targets. Proc. SPIE - Int. Soc. Opt. Eng. , 102 - 112
    4. 4)
      • V.C. Chen . Applications of time-frequency processing to radar imaging. Opt. Eng. , 4 , 1152 - 1161
    5. 5)
      • R.P. Paul . (1986) Robot manipulators: mathematics, programming, and control.
    6. 6)
      • D.R. Wehner . (1995) High-resolution radar.
    7. 7)
      • T.A.C.M. Claasen , W.F.G. Mecklenbrauker . The Wigner distribution - a tool for time-frequency signal analysis. Philips J. Res. , 217 - 250, 276–300, 1067–1072
    8. 8)
      • S. Qian , D. Chen . Decomposition of Wigner-Ville distribution and time-frequency distributionseries. IEEE Trans. Signal Process. , 2836 - 2842
    9. 9)
      • F. Auger , P. Flandrin . Improving the readability of time-frequency and time-scale representations by the reassignment method. IEEE Trans. Signal Process. , 1068 - 1089
    10. 10)
      • L. Cohen . (1995) Time-frequency analysis.
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