Coupling reduced models for optimal motion estimation

Author

Drifi, K. ; Herlin, I.

Author_Institution

INRIA (Inst. Nat. de Rech. en Inf. et Autom.), France

fYear

2012

fDate

11-15 Nov. 2012

Firstpage

2651

Lastpage

2654

Abstract

The paper discusses the issue of motion estimation by image assimilation in numerical models, based on Navier-Stokes equations. In such context, models´ reduction is an attractive approach that is used to decrease cost in memory and computation time. A reduced model is obtained from a Galerkin projection on a subspace, defined by its orthogonal basis. Long temporal image sequences may then be processed by a sliding-window method. On the first sub-window, a fixed basis is considered to define the reduced model. On the next ones, a Principal Order Decomposition is applied, in order to define a basis that is simultaneously small-size and adapted to the studied image data. Results are given on synthetic data and quantified according to state-of-the-art methods. Application to satellite images demonstrates the potential of the approach.

Keywords

Galerkin method; Navier-Stokes equations; flow visualisation; image sequences; motion estimation; Galerkin projection; Navier-Stokes equation; coupling reduced model; image assimilation; motion estimation; numerical model; principal order decomposition; satellite image processing; sliding window method; temporal image sequence; Computational modeling; Data assimilation; Equations; Frequency modulation; Image sequences; Mathematical model; Vectors;

fLanguage

English

Publisher

ieee

Conference_Titel

Pattern Recognition (ICPR), 2012 21st International Conference on

Conference_Location

Tsukuba

ISSN

1051-4651

Print_ISBN

978-1-4673-2216-4

Type

conf

Filename

6460711