• DocumentCode
    3128442
  • Title

    Doppler centroid estimation for azimuth-offset SARS

  • Author

    Sharif, Amir H A ; Cumming, Ian G.

  • Author_Institution
    Dept. of Electr. Eng., British Columbia Univ., Vancouver, BC, Canada
  • Volume
    1
  • fYear
    1995
  • fDate
    22-26 May 1995
  • Firstpage
    134
  • Abstract
    Successful processing of Synthetic Aperture Radar (SAR) data requires that the Doppler centroid frequency be accurately estimated. A method for estimating the Doppler centroid for azimuth-offset SAR signals in the presence of noise and speckle is presented. For azimuth-offset SAR systems, changes in the Doppler centroid will cause distortions in the shape of the azimuth spectrum. As a result, the traditional correlation-based estimators will not provide accurate estimates. Doppler centroid estimation based on edge detection provides a practical alternative. The edge detector is tuned to detect a fairly wide, smooth, roof-like type of edge in the signal power spectrum. This method of estimation is evaluated with real data to measure its performance. The results are compared to those obtained by other estimation techniques based on spectrum fitting and energy balance. The accuracy of the edge detection technique over a 2048 azimuth cells by 16 range cells area is found to be 0.02 PRF rms. The edge detection principles can offer a convenient solution for Doppler estimation of range-offset and non-offset SAR signals as well
  • Keywords
    Doppler radar; airborne radar; edge detection; estimation theory; frequency estimation; radar imaging; radar signal processing; signal sampling; synthetic aperture radar; Doppler centroid estimation; SAR image generation; airborne SAR; azimuth spectrum shape distortion; azimuth-offset SAR; correlation-based estimators; edge detection; noise; non-offset SAR; radar signal processing; range-offset SAR; regularisation theory; signal power spectrum; signal sampling; speckle; Azimuth; Detectors; Doppler radar; Frequency estimation; Frequency modulation; Image edge detection; Noise shaping; Receiving antennas; Shape; Speckle; Synthetic aperture radar;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Aerospace and Electronics Conference, 1995. NAECON 1995., Proceedings of the IEEE 1995 National
  • Conference_Location
    Dayton, OH
  • ISSN
    0547-3578
  • Print_ISBN
    0-7803-2666-0
  • Type

    conf

  • DOI
    10.1109/NAECON.1995.521926
  • Filename
    521926