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2018 | OriginalPaper | Chapter

Location Uncertainty Principle: Toward the Definition of Parameter-Free Motion Estimators

Authors : Shengze Cai, Etienne Mémin, Pierre Dérian, Chao Xu

Published in: Energy Minimization Methods in Computer Vision and Pattern Recognition

Publisher: Springer International Publishing

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Abstract

In this paper, we propose a novel optical flow approach for estimating two-dimensional velocity fields from an image sequence, which depicts the evolution of a passive scalar transported by a fluid flow. The Eulerian fluid flow velocity field is decomposed into two components: a large-scale motion field and a small-scale uncertainty component. We define the small-scale component as a random field. Then the data term of the optical flow formulation is based on a stochastic transport equation, derived from a location uncertainty principle [17]. In addition, a specific regularization term built from the assumption of constant kinetic energy involves the same diffusion tensor as the one appearing in the data transport term. This enables us to devise an optical flow method dedicated to fluid flows in which the regularization parameter has a clear physical interpretation and can be easily estimated. Experimental evaluations are presented on both synthetic and real images. Results indicate very good performance of the proposed parameter-free formulation for turbulent flow motion estimation.

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previous chapter Illumination-Aware Large Displacement Optical Flow

next chapter Autonomous Multi-camera Tracking Using Distributed Quadratic Optimization

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Available online: http://fluid.irisa.fr/.

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Title: Location Uncertainty Principle: Toward the Definition of Parameter-Free Motion Estimators
Authors: Shengze Cai
Etienne Mémin
Pierre Dérian
Chao Xu
Publisher: Springer International Publishing
Book: Energy Minimization Methods in Computer Vision and Pattern Recognition
Print ISBN: 978-3-319-78198-3

Electronic ISBN: 978-3-319-78199-0

Copyright Year: 2018
DOI: https://doi.org/10.1007/978-3-319-78199-0_11

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