Calculation of Phase Center of Large Geomorphological Object on the Surface

  • Kim Jun-su (School of Earth and Environmental Sciences, Seoul National University) ;
  • Park Sang-Eun (School of Earth and Environmental Sciences, Seoul National University) ;
  • Kim Duk-jin (School of Earth and Environmental Sciences, Seoul National University) ;
  • Moon Wooil M. (School of Earth and Environmental Sciences, Seoul National University, Geophysics, University of Manitoba)
  • Published : 2005.10.01

Abstract

A numerical scattering model for artificial metal structure based on physical optics approximation is developed to identify the height of phase center, and the result is compared with interferometric SAR DEM. The interferometric SAR data were gathered by AIRSAR during PACRIM- II campaign on Jeju Island. Power transmission towers on piedmont pasture along the slopes of Mt. Halla look like elliptic risings in TOPSAR DEM. The heights of risings are quantitatively analyzed using a scattering model in the way of achieving the height of phase centers of power transmission towers. A numerical algorithm is developed on the basis of physical optics approximation. The structure of power transmission tower was decomposed into hundreds of rectangular metal plates, of which the scattering matrix is known in analytic form, and the calculated scattering fields were summed coherently. The effect of direct backscattering component, ground-scatterer component and scatterer-ground component are decomposed and computed individually for each rectangular metal plate. The $\Deltak-radar$ equivalent was used to calculate height of phase center of the scatterer. The heights of a selected power transmission tower and scattering algorithm results give existence and location of the transmission towers but not actual tower heights.

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