Fluid motion recovery by coupling dense and parametric vector fields

Author

Mémin, Etienne ; Pérez, Patrick

Author_Institution

IRISA, Rennes, France

Volume

1

fYear

1999

fDate

1999

Firstpage

620

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;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Vision, 1999. The Proceedings of the Seventh IEEE International Conference on

Conference_Location

Kerkyra

Print_ISBN

0-7695-0164-8

Type

conf

DOI

10.1109/ICCV.1999.791282

Filename

791282