Title :
Motion estimation using a volume conservation hypothesis
Author :
Bereziat, D. ; Herlin, Isabelle ; Younes, Laurent
Author_Institution :
Inst. Nat. de Recherche en Inf. et Autom., Le Chesnay, France
Abstract :
Motion estimation is one of the main subjects in computer vision. Many methods developed to compute motion make use of the optical flow hypothesis. These methods usually fail to capture motion of objects with intensity evolution. We propose a new approach to solve the motion computation problem with a different type of constancy hypothesis. Because we are mainly interested in deformable moving structures, we postulate that such a structure, within a temporal image sequence, is associated with a constant volume or a constant total intensity over time. We call this postulate the volume conservation hypothesis. Results are displayed for clouds motion and deformation on meteorological satellites images
Keywords :
clouds; computer vision; image sequences; meteorology; motion estimation; clouds motion; computer vision; constancy hypothesis; constant total intensity; constant volume; deformable moving structures; image sequence; intensity evolution; meteorological satellites images; motion computation problem; motion estimation; optical flow hypothesis; temporal image sequence; volume conservation hypothesis; Clouds; Computer vision; Equations; Image motion analysis; Image sequences; Motion detection; Motion estimation; Optical computing; Optical sensors; Satellites;
Conference_Titel :
Acoustics, Speech, and Signal Processing, 1999. Proceedings., 1999 IEEE International Conference on
Conference_Location :
Phoenix, AZ
Print_ISBN :
0-7803-5041-3
DOI :
10.1109/ICASSP.1999.757568
