• DocumentCode
    2572619
  • Title

    Decoupled Active Surface for Volumetric Image Segmentation

  • Author

    Mishra, A. ; Fieguth, P.W. ; Clausi, D.A.

  • fYear
    2010
  • fDate
    May 31 2010-June 2 2010
  • Firstpage
    293
  • Lastpage
    300
  • Abstract
    Finding the surface of a volumetric 3D object is a fundamental problem in computer vision. Energy minimizing splines, such as active surfaces, have been used to carry out such tasks, evolving under the influence of internal and external energies until the model converges to a desired surface. The present deformable model based surface extraction techniques are computationally expensive and are generally unreliable in identifying the surfaces of noisy, high-curvature and cluttered 3D objects. This paper proposes a novel decoupled active surface (DAS) for identifying the surface of volumetric 3D objects. The proposed DAS introduces two novel aspects which leads to robust, efficient and accurate convergence. First, rather than a parameterized surface, which leads to difficulties with complex shapes and parameter singularities, the DAS uses a conforming triangular mesh to represent the surface. Second, motivated by earlier successes in two-dimensional segmentation, the DAS treats the two energy components separately and uses novel solution techniques to efficiently minimize the two energy terms separately. The performance of DAS in segmenting static 3D objects is presented using several natural and synthetic volumetric images, with excellent convergence results.
  • Keywords
    computer vision; feature extraction; image segmentation; mesh generation; splines (mathematics); surface fitting; 2D segmentation; computer vision; decoupled active surface; deformable model; energy minimizing splines; external energy; internal energy; surface extraction techniques; triangular mesh; volumetric 3D object; volumetric image segmentation; Computer vision; Deformable models; Image converters; Image segmentation; Mesh generation; Noise shaping; Object recognition; Robustness; Shape; Surface treatment; Parametric active surface; adaptive re-meshing; conjugate gradient; iterative quasi random search; surface reconstruction; visual tracking;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Computer and Robot Vision (CRV), 2010 Canadian Conference on
  • Conference_Location
    Ottawa, ON
  • Print_ISBN
    978-1-4244-6963-5
  • Type

    conf

  • DOI
    10.1109/CRV.2010.45
  • Filename
    5479172