PUBLICATIONS

Topics:
  1. Y. Choukroun, A. Shtern, A. Bronstein, R. Kimmel, Hamiltonian operator for spectral shape analysis, arXiv:1611.01990 details

    Hamiltonian operator for spectral shape analysis

    Y. Choukroun, A. Shtern, A. Bronstein, R. Kimmel
    arXiv:1611.01990

    Many shape analysis methods treat the geometry of an object as a metric space that can be captured by the Laplace-Beltrami operator. In this paper, we propose to adapt the classical Hamiltonian operator from quantum me- chanics to the field of shape analysis. To this end we study the addition of a potential function to the Laplacian as a generator for dual spaces in which shape processing is performed. We present a general optimization approach for solving variational problems involving the basis defined by the Hamilto- nian using perturbation theory for its eigenvectors. The suggested operator is shown to produce better functional spaces to operate with, as demon- strated on different shape analysis tasks.

    T. Remez, O. Litany, S. Yoseff, H. Haim, A. Bronstein, FPGA system for real-time computational extended depth of field imaging using phase aperture coding, arXiv:1608.01074 details

    FPGA system for real-time computational extended depth of field imaging using phase aperture coding

    T. Remez, O. Litany, S. Yoseff, H. Haim, A. Bronstein
    arXiv:1608.01074

    We present a proof-of-concept end-to-end system for computational extended depth of field (EDOF) imaging. The acquisition is performed through a phase-coded aperture implemented by placing a thin wavelength-dependent op- tical mask inside the pupil of a conventional camera lens, as a result of which, each color channel is focused at a different depth. The reconstruction process re- ceives the raw Bayer image as the input, and performs blind estimation of the output color image in focus at an extended range of depths using a patch-wise sparse prior. We present a fast non-iterative reconstruction algorithm operating with constant latency in fixed-point arithmetics and achieving real-time perfor- mance in a prototype FPGA implementation. The output of the system, on simu- lated and real-life scenes, is qualitatively and quantitatively better than the result of clear-aperture imaging followed by state-of-the-art blind deblurring.