Forward and Inverse Modeling of Depth-of-Field Effects in Background-Oriented Schlieren - Archive ouverte HAL
Article Dans Une Revue AIAA Journal Année : 2024

Forward and Inverse Modeling of Depth-of-Field Effects in Background-Oriented Schlieren

Résumé

This paper reports a novel cone-ray model of background-oriented schlieren (BOS) imaging that accounts for depthof-field effects. Reconstructions of the density field performed with this model are far more robust to the blur associated with a finite aperture than conventional reconstructions, which presume a thin-ray pinhole camera. Our model is characterized and validated using forward evaluations of simulated buoyancy-driven flow and both simulated and experimental BOS measurements of hypersonic flow over a sphere. Moreover, the model is embedded in a neural reconstruction algorithm, which is demonstrated with a total variation penalty and the compressible Euler equations. Our cone-ray technique dramatically improves the accuracy of BOS reconstructions: the shock interface is well-resolved in all our tests, irrespective of the camera's aperture setting, which spans f-numbers from 22 down to 4.

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vendredi 13 juin 2025
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vendredi 13 juin 2025
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Dates et versions

hal-04837179 , version 1 (13-12-2024)

Identifiants

Citer

Joseph P Molnar, Elijah J Lalonde, Christopher S Combs, Olivier Léon, David Donjat, et al.. Forward and Inverse Modeling of Depth-of-Field Effects in Background-Oriented Schlieren. AIAA Journal, 2024, pp.1 - 14. ⟨10.2514/1.j064095⟩. ⟨hal-04837179⟩
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