• DocumentCode
    1548685
  • Title

    3D Steerable Wavelets in Practice

  • Author

    Chenouard, N. ; Unser, M.

  • Volume
    21
  • Issue
    11
  • fYear
    2012
  • Firstpage
    4522
  • Lastpage
    4533
  • Abstract
    We introduce a systematic and practical design for steerable wavelet frames in 3D. Our steerable wavelets are obtained by applying a 3D version of the generalized Riesz transform to a primary isotropic wavelet frame. The novel transform is self-reversible (tight frame) and its elementary constituents (Riesz wavelets) can be efficiently rotated in any 3D direction by forming appropriate linear combinations. Moreover, the basis functions at a given location can be linearly combined to design custom (and adaptive) steerable wavelets. The features of the proposed method are illustrated with the processing and analysis of 3D biomedical data. In particular, we show how those wavelets can be used to characterize directional patterns and to detect edges by means of a 3D monogenic analysis. We also propose a new inverse-problem formalism along with an optimization algorithm for reconstructing 3D images from a sparse set of wavelet-domain edges. The scheme results in high-quality image reconstructions which demonstrate the feature-reduction ability of the steerable wavelets as well as their potential for solving inverse problems.
  • Keywords
    edge detection; image reconstruction; medical image processing; optimisation; wavelet transforms; 3D biomedical data processing; 3D image reconstruction; 3D monogenic analysis; 3D steerable wavelets; Riesz wavelet; directional pattern; edge detection; feature-reduction ability; generalized Riesz transform; inverse-problem formalism; optimization algorithm; primary isotropic wavelet frame; steerable wavelet frame; wavelet-domain edges; Biomedical imaging; Image edge detection; Image reconstruction; Wavelet analysis; Wavelet domain; Wavelet transforms; 3D wavelet transform; edge detection; image reconstruction; monogenic signal; riesz transform; steerability; Algorithms; Humans; Imaging, Three-Dimensional; Magnetic Resonance Imaging; Microscopy; Wavelet Analysis;
  • fLanguage
    English
  • Journal_Title
    Image Processing, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1057-7149
  • Type

    jour

  • DOI
    10.1109/TIP.2012.2206044
  • Filename
    6226458