• DocumentCode
    2983238
  • Title

    Range-time backprojection for 3D shape estimation of small space debris

  • Author

    Chen, Shichao ; Zhang, Lei ; Xing, Mengdao ; Qiu, Cheng-Wei ; Bao, Zheng

  • Author_Institution
    Nat. Key Lab. for Radar Signal Process., Xidian Univ., Xi´´an, China
  • fYear
    2009
  • fDate
    26-30 Oct. 2009
  • Firstpage
    642
  • Lastpage
    646
  • Abstract
    A coherent backprojection based approach is presented for 3D shape estimation of small debris in space. The approach utilizes the fact that space debris is in high-speed spinning motion. Making use of the modulated range envelope and Doppler spreading, a backprojection maps the data into a three-dimensional parameter domain, and the spatial coordinates of scatterers can be extracted to reconstruct 3D shape. In most of recent papers on the imaging of space debris or rotating targets, the rotation from the translational motion is assumed to be neglectable, while in our approach the backprojection is combined with a Fourier transform to deal with the rotation of translational motion and full coherent accumulation can be achieved. The approach is robust in the occurrence of serious profile overlapping and strong noise. Simulations confirm its validity and good performance.
  • Keywords
    Fourier transforms; radar imaging; space debris; 3D shape estimation; Doppler spreading; Fourier transform; coherent accumulation; high-speed spinning motion; inversed synthetic radar imaging; radar imaging; range-time backprojection; rotating targets; space debris; Data mining; Image reconstruction; Radar imaging; Radar scattering; Radar signal processing; Shape; Signal resolution; Space debris; Spinning; Wideband; 3D shape estimation; backprojection; general Radon transform; radar imaging; space debris;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Synthetic Aperture Radar, 2009. APSAR 2009. 2nd Asian-Pacific Conference on
  • Conference_Location
    Xian, Shanxi
  • Print_ISBN
    978-1-4244-2731-4
  • Electronic_ISBN
    978-1-4244-2732-1
  • Type

    conf

  • DOI
    10.1109/APSAR.2009.5374275
  • Filename
    5374275