Title :
Fluid motion recovery by coupling dense and parametric vector fields
Author :
Mémin, Etienne ; Pérez, Patrick
Author_Institution :
IRISA, Rennes, France
Abstract :
Addresses the problem of estimating and analyzing the motion in image sequences that involve fluid phenomena. In this context, standard motion estimation techniques are not well-adapted, and more dedicated approaches have to be designed. We thus propose to estimate, in a joint and cooperative way, a dense motion field and a peculiar parametric representation of the flow. The parametric model is derived from an extension of the Rankine vortex model and includes a laminar flow field. Dense and parametric fields are estimated by minimizing a robust global objective function, thanks to a specific alternate scheme. The method has been validated on different kinds of meteorological image sequences
Keywords :
atmospheric movements; atmospheric techniques; computational fluid dynamics; flow visualisation; functional analysis; geophysical signal processing; image restoration; image sequences; laminar flow; meteorology; minimisation; motion estimation; vortices; Rankine vortex model; dense motion field; dense vector fields; field coupling; fluid motion recovery; laminar flow field; meteorological image sequences; motion estimation; parametric flow representation; parametric vector fields; robust global objective function minimization; Electronic switching systems; Image analysis; Image motion analysis; Image sequence analysis; Image sequences; Meteorology; Motion analysis; Motion estimation; Oceans; Read only memory;
Conference_Titel :
Computer Vision, 1999. The Proceedings of the Seventh IEEE International Conference on
Conference_Location :
Kerkyra
Print_ISBN :
0-7695-0164-8
DOI :
10.1109/ICCV.1999.791282
