Global measurement of water waves by Fourier transform profilometry

Global measurement of water waves by Fourier transform profilometry

In this paper, we present an optical profilometric technique that allows for single-shot global measurement of free-surface deformations. This system consists of a high-resolution system composed of a videoprojector and a digital camera. A fringe pattern of known characteristics is projected onto th...

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Bibliographic Details
Published in:Experiments in fluids Vol. 46; no. 6; pp. 1037 - 1047
Main Authors: Cobelli, Pablo Javier, Maurel, Agnès, Pagneux, Vincent, Petitjeans, Philippe
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer-Verlag 01-06-2009
Springer
Springer Verlag (Germany)
Subjects:
Cameras
Deformation
Dynamical systems
Engineering
Engineering Fluid Dynamics
Engineering Thermodynamics
Exact sciences and technology
Fluid dynamics
Fluid flow
Fluid- and Aerodynamics
Fluids
Fourier transforms
Fundamental areas of phenomenology (including applications)
Heat and Mass Transfer
Hydrodynamic waves
Instrumentation for fluid dynamics
Physics
Research Article
Slopes
Vortex Core
Spiral Wave
Vortex
Fringe Pattern
Particle Image Velocimetry
Spiral shape
Test facilities
Fourier transformation
Surface waves
Vortices
Wave forms
Free surface flow
Optical systems
Interactions
Experimental study
Profilometry
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Summary:In this paper, we present an optical profilometric technique that allows for single-shot global measurement of free-surface deformations. This system consists of a high-resolution system composed of a videoprojector and a digital camera. A fringe pattern of known characteristics is projected onto the free surface and its image is registered by the camera. The deformed fringe pattern arising from the surface deformations is later compared to the undeformed (reference) one, leading to a phase map from which the free surface can be reconstructed. Particularly, we are able to project wavelength-controlled sinusoidal fringe patterns, which considerably increase the overall performance of the technique and the quality of the reconstruction compared to that obtained with a Ronchi grating. In comparison to other profilometric techniques, it allows for single-shot non-intrusive measurement of surface deformations over large areas. In particular, our measurement system and analysis technique is able to measure free surface deformations with sharp slopes up to 10 with a 0.2 mm vertical resolution over an interrogation window of size 450 × 300 mm 2 sampled on approximately 6.1 × 10 6 measurement points. Some illustrative examples of the application of this measuring system to fluid dynamics problems are presented.
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ISSN:0723-4864
1432-1114
DOI:10.1007/s00348-009-0611-z