• DocumentCode
    1510623
  • Title

    Local Computed Tomography Using a THz Quantum Cascade Laser

  • Author

    Yin, Xiaoxia ; Ng, Brian Wai-Him ; Zeitler, J. Axel ; Nguyen, Kieu Lien ; Gladden, Lynn F. ; Abbott, Derek

  • Author_Institution
    Centre for Biomed. Eng., Univ. of Adelaide, Adelaide, SA, Australia
  • Volume
    10
  • Issue
    11
  • fYear
    2010
  • Firstpage
    1718
  • Lastpage
    1731
  • Abstract
    This paper investigates local reconstruction techniques for extracting region-of-interest (ROI) from a 3-D terahertz imaging setup using a quantum cascade laser (QCL). The advantage of local reconstruction is the reduction in the required measurement time. Difficulties with limited projection angles and image noise make the development of accurate reconstruction algorithms particularly challenging. In this paper, both wavelet-based and traditional filtered back projection (FBP) techniques are investigated. Segmentation algorithms are applied to reconstructed images with low contrast and the resultant segments are compared with a known ground truth to explore the ability of a QCL to image target objects with complex contours. In our experiments, a polystyrene object with a hole drilled inside is used as the imaging target. The region of interest is adjusted through changing the size of the exposure regions. It is found that 3-D local reconstruction of the interior hole suffers from shape distortion, since scattering caused by the target´s exterior contours introduces errors in the measured optical parameters of the object. It is found that wavelet-based local computed tomography for terahertz image reconstruction results in lower misclassification of pixels than traditional FBP algorithms.
  • Keywords
    feature extraction; image denoising; image reconstruction; image segmentation; laser beam applications; optical images; optical tomography; quantum cascade lasers; terahertz wave imaging; 3D terahertz imaging; THz quantum cascade laser; computed tomography; filtered back projection; image noise; image segmentation; local reconstruction techniques; reconstruction algorithms; region-of-interest extraction; wavelet-based technique; Computed tomography; Image reconstruction; Image segmentation; Optical distortion; Optical imaging; Optical scattering; Quantum cascade lasers; Quantum computing; Shape measurement; Time measurement; Computed tomography; discrete wavelet transforms (DWT); filtered back projection; fuzzy c-means threshold; quantum cascade laser (QCL); terahertz;
  • fLanguage
    English
  • Journal_Title
    Sensors Journal, IEEE
  • Publisher
    ieee
  • ISSN
    1530-437X
  • Type

    jour

  • DOI
    10.1109/JSEN.2010.2045754
  • Filename
    5482018