• DocumentCode
    2206018
  • Title

    A generalized optical flow constraint and its physical interpretation

  • Author

    Béréziat, Dominique ; Herlin, Isabelle ; Younes, Laurent

  • Author_Institution
    Air Project, Inst. Nat. de Recherche en Inf. et Autom., Le Chesnay, France
  • Volume
    2
  • fYear
    2000
  • fDate
    2000
  • Firstpage
    487
  • Abstract
    This paper addresses the issue of motion estimation on image sequences. The standard motion equation used to complete the apparent motion of image irradiance patterns is an invariance brightness based hypothesis called the optical flow constraint. Other equations can be used, in particular the extended optical flow constraint, which is a variant of the optical flow constraint, inspired by the fluid mechanic mass conservation principle. In this paper we propose a physical interpretation of this extended optical flow equation and a new model unifying the optical flow and the extended optical flow constraints. We present results obtained for synthetic and meteorological images
  • Keywords
    image sequences; motion estimation; fluid mechanic mass conservation principle; generalized optical flow constraint; image irradiance patterns; image sequences; meteorological images; motion estimation; physical interpretation; Brightness; Density measurement; Electrical capacitance tomography; Electronic switching systems; Equations; Image motion analysis; Image sequences; Meteorology; Motion estimation; Optical computing;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Computer Vision and Pattern Recognition, 2000. Proceedings. IEEE Conference on
  • Conference_Location
    Hilton Head Island, SC
  • ISSN
    1063-6919
  • Print_ISBN
    0-7695-0662-3
  • Type

    conf

  • DOI
    10.1109/CVPR.2000.854890
  • Filename
    854890