GILLISSEN, Jurriaan; VILQUIN, Alexandre; KELLAY, Hamid; BOUFFANAIS, Roland; YUE, Dick

doi:10.1017/jfm.2018.559

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GILLISSEN, Jurriaan
Center for Environmental Sensing and Modeling [CENSAM]

VILQUIN, Alexandre
Laboratoire Ondes et Matière d'Aquitaine [LOMA]

KELLAY, Hamid
Laboratoire Ondes et Matière d'Aquitaine [LOMA]

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Journal of Fluid Mechanics. 2018-11-10, vol. 854, p. 348 - 366

Cambridge University Press (CUP)

Résumé en anglais

Scalar image velocimetry (SIV) is the technique to extract velocity vectors from scalar field measurements. The usual technique involves minimising a cost functional, that penalises the deviation from the scalar conservation equation. This approach requires the measured scalar field to be sufficiently resolved and relatively noise free, such that space and time derivatives of the measured scalar field can be accurately evaluated. We quantify these requirements for a synthetic two-dimensional (2-D) turbulent flow field by evaluating the velocity reconstruction accuracy as a function of the temporal and spatial resolution and the noise level. We propose an improved SIV scheme, that reconstructs not only the velocity field but also the scalar field, which does not require approximating the space and time derivatives of the measured scalar field. Improved velocity reconstruction is demonstrated for the 2-D synthetic field. We furthermore apply the scheme to interferograms of the thickness field of a falling soap film, where 2-D turbulence is generated by an array of cylindrical obstacles. The statistics of the reconstructed velocity field are within 10 % of laser Doppler velocimetry measurements.< Réduire

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variational methods

mathematical foundations

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A space–time integral minimisation method for the reconstruction of velocity fields from measured scalar fields

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