• DocumentCode
    2269188
  • Title

    In-depth high-resolution SAR imaging using Omega-k applied to FMCW systems

  • Author

    Cristofani, Edison ; Vandewal, Marijke ; Matheis, Carsten ; Jonuscheit, Joachim

  • Author_Institution
    R. Mil. Acad., Brussels, Belgium
  • fYear
    2012
  • fDate
    7-11 May 2012
  • Abstract
    Imagery applied to non-destructive testing implicitly includes the ability of imaging defects or foreign inclusions inside materials. Within a certain frequency range some nonmetal materials become highly transparent and only media interfaces or defects will scatter signals back to the sensor. Three-dimensional in-depth imaging is therefore possible and synthetic aperture processing can be applied to compensate cost-efficiently several main disadvantages present in typical high-resolution microwave imagery systems using focused beams. This work investigates under the framework of the DOTNAC Project (an FP7 project funded by the European Commission) the possibilities of applying synthetic aperture radar processing to a high-resolution frequency-modulated continuous-wave system for non-destructive testing purposes. The Omega-k range migration algorithm is used to perform efficient range migration of the raw data. This paper shows in-depth SAR images from real composite materials including ad-hoc defects. Assessment of results as well as discussion on the proposed 3-D in-depth imaging system will be presented.
  • Keywords
    CW radar; FM radar; image resolution; nondestructive testing; radar imaging; radar resolution; synthetic aperture radar; 3D in-depth imaging system; DOTNAC Project; European Commission; FMCW systems; FP7 project; Omega-k range migration algorithm; ad-hoc defects; composite materials; focused beams; foreign inclusions; high-resolution frequency-modulated continuous-wave system; high-resolution microwave imagery systems; imaging defects; in-depth high-resolution SAR imaging; nondestructive testing; nonmetal materials; synthetic aperture radar processing; three-dimensional in-depth imaging; Azimuth; Composite materials; Focusing; Frequency modulation; Image resolution; Laminates;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Radar Conference (RADAR), 2012 IEEE
  • Conference_Location
    Atlanta, GA
  • ISSN
    1097-5659
  • Print_ISBN
    978-1-4673-0656-0
  • Type

    conf

  • DOI
    10.1109/RADAR.2012.6212233
  • Filename
    6212233