On anisotropic optical flow inpainting algorithms

  • Authors
  • Raad L, Oliver M, Ballester C, Haro G, Meinhardt-Llopis E
  • UPF authors
  • BALLESTER NICOLAU, COLOMA; HARO ORTEGA, GLORIA; RAAD CISA, LARA; MEINHARDT LLOPIS, ENRIC; OLIVER PARERA, MARIA;
  • Type
  • Scholarly articles
  • Journal títle
  • Image Processing On Line
  • Publication year
  • 2020
  • Volume
  • 10
  • Pages
  • 78-104
  • ISSN
  • 2105-1232
  • Publication State
  • Published
  • Abstract
  • This work describes two anisotropic optical flow inpainting algorithms. The first one recovers the missing flow values using the Absolutely Minimizing Lipschitz Extension partial differential equation (also called infinity Laplacian equation) and the second one uses the Laplace partial differential equation, both defined on a Riemmanian manifold. The Riemannian manifold is defined by endowing the plane domain with an appropriate metric depending on the reference video frame. A detailed analysis of both approaches is provided and their results are compared on three different applications: flow densification, occlusion inpainting and large hole inpainting.
  • Complete citation
  • Raad L, Oliver M, Ballester C, Haro G, Meinhardt-Llopis E. On anisotropic optical flow inpainting algorithms. Image Processing On Line 2020; 10( ): 78-104.
Bibliometric indicators
  • 1 times cited Scopus
  • 2 times cited WOS
  • Índex Scimago de 0.359 (2020)