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Volume 33 Issue 08
Aug.  2007
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Journal of Beijing University of Aeronautics and Astronautics  > 2007  >  33(08): 898-901.
Bai Xia, Sun Jinping, Gao Feiet al. Aperture-dependent motion compensation for airborne SAR with 0.1 m resolution[J]. Journal of Beijing University of Aeronautics and Astronautics, 2007, 33(08): 898-901. (in Chinese)
Citation: Bai Xia, Sun Jinping, Gao Feiet al. Aperture-dependent motion compensation for airborne SAR with 0.1 m resolution[J]. Journal of Beijing University of Aeronautics and Astronautics, 2007, 33(08): 898-901. (in Chinese)
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Aperture-dependent motion compensation for airborne SAR with 0.1 m resolution

  • School of Electronics and Information Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

  • Received Date: 08 Oct 2006
  • Publish Date: 31 Aug 2007
    Abstract
  • A new technological problem in 0.1 m resolution airborne SAR(synthetic aperture radar) motion compensation design procedure was discussed. High azimuth resolution means large synthetic aperture length and wide integration angle, thereby echo data collected in stripmap mode might include remarkable residual motion errors related with azimuth angle between the radar and the target. The impact of platform aperture-dependent motion errors in stripmap mode on airborne SAR image quality was analyzed. It shows that the errors cause geometry distortion and azimuth defocusing. Based on the relation between radar instantaneous illuminate time and Doppler frequency, an aperture-dependent motion compensation approach was put forward to improve image quality. This method applies segmentation and compensation data in azimuth direction and enters into the processing scheme integrated with conventional motion compensation,the first order motion compensation and the second order motion compensation. Simulation results validate the whole analysis and the proposed procedure.

     

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  • [1] Ender J H G, Brenner A R. PAMIR-a wideband phased array SAR/MTI system[J]. IEE Proceedings-Radar, Sonar and Navigation,2003,150(3):165-172 [2] Franceschetti G,Lanari R. Synthetic aperture radar processing[M]. New York:CRC Press,1997 [3] Karlus A, Camara de M, Rolf S. Precise topography- and aperture-dependent motion compensation for airborne SAR[J]. IEEE Geoscience and Remote Sensing Letters, 2005,2(2):172-176 [4] Fornaro G, Franceschetti G, Perna S. Motion compensation errors:effects on the accuracy of airborne SAR images[J]. IEEE Transactions on Aerospace and Electronic Systems, 2005,41(4):1338-1352 [5] Goodman R, Tummala S, Carrara W. Issues in ultra-wideband, widebeam SAR image formation IEEE Nat Radar Conf Proc. Piscataway,NJ:IEEE,1995:479-485 [6] Carrara W G, Tummala S, Goodman R S. Motion compensation algorithm for widebeam SAR Proceedings of the 1995 SPIE Conference on Algorithm for SAR Imagery. Piscataway,NJ:IEEE,1995:13-23. [7] Potsis A, Reigber A, Mittermayer J, et al. Improving the focusing properties of SAR processors for wide-band and wide-beam low frequency imaging Dig Int Geosci Remote Sens Symp (IGARSS). Piscataway,NJ:IEEE,2001:3047-3049
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