• DocumentCode
    3696740
  • Title

    Repeatable Local Coordinate Frames for 3D Human Motion Tracking: From Rigid to Non-rigid

  • Author

    Chun-Hao Huang;Federico Tombari;Nassir Navab

  • Author_Institution
    Tech. Univ. Munchen, Munich, Germany
  • fYear
    2015
  • Firstpage
    371
  • Lastpage
    379
  • Abstract
    Local coordinate frame (LCF) is a key component deployed in most 3D descriptors for invariant representations of 3D surfaces. This paper addresses the problem of attaching a LCF to non-rigidly deforming objects, in particular humanoid surfaces, with the application of recovering correspondences between the template model and input data for 3D human motion tracking. We facilitate this by extending two current LCF paradigms for rigid surface matching to the non-rigid case. Such an adaptation is motivated by the assumption that interpolating locally rigid movements often amounts to smooth globally non-rigid deformations. Both approaches leverage spatial distributions, based on signed distance and principal component analysis, respectively. Furthermore, we advocate a new strategy that incorporates multiple LCF candidates. This way we relax the requirement of perfectly repeatable LCFs, and yet still achieve improved data-model associations. Ground truth for non-rigid LCFs are synthetically generated by interpolating locally-rigidly transformed LCFs. Therefore, the proposed methods can be evaluated extensively in terms of repeatability of LCFs, robustness on estimating correspondences, and accuracy of final tracking results. All the experiments demonstrate the benefits of the proposed methods with respect to the state-of-the-art.
  • Keywords
    "Three-dimensional displays","Tracking","Visualization","Covariance matrices","Eigenvalues and eigenfunctions","Graphical models","Distribution functions"
  • Publisher
    ieee
  • Conference_Titel
    3D Vision (3DV), 2015 International Conference on
  • Type

    conf

  • DOI
    10.1109/3DV.2015.49
  • Filename
    7335505