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Experiments in Fluids

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01.11.2020 | Research Article

Uncertainty-based weighted least squares density integration for background-oriented schlieren

verfasst von: Lalit Rajendran, Jiacheng Zhang, Sally Bane, Pavlos Vlachos

Erschienen in: Experiments in Fluids | Ausgabe 11/2020

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Abstract

We propose an improved density integration methodology for Background-Oriented Schlieren (BOS) measurements that overcomes the noise sensitivity of the commonly used Poisson solver. The method employs a weighted least-squares (WLS) optimization of the 2D integration of the density gradient field by solving an over-determined system of equations. Weights are assigned to the grid points based on density gradient uncertainties to ensure that a less reliable measurement point has less effect on the integration procedure. Synthetic image analysis with a Gaussian density field shows that WLS constrains the propagation of random error and reduces it by 80% in comparison to Poisson for the highest noise level. Using WLS with experimental BOS measurements of flow induced by a spark plasma discharge shows a 30% reduction in density uncertainty in comparison to Poisson, thereby increasing the overall precision of the BOS density measurements.

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Vorheriger Artikel Estimating pressure and internal-wave flux from laboratory experiments in focusing internal waves

Nächster Artikel Bubbles and drops in the vicinity of turbulent/non-turbulent interface in turbulent boundary layers

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Titel: Uncertainty-based weighted least squares density integration for background-oriented schlieren
verfasst von: Lalit Rajendran
Jiacheng Zhang
Sally Bane
Pavlos Vlachos
Publikationsdatum: 01.11.2020
Verlag: Springer Berlin Heidelberg
Erschienen in: Experiments in Fluids / Ausgabe 11/2020
Print ISSN: 0723-4864
Elektronische ISSN: 1432-1114
DOI: https://doi.org/10.1007/s00348-020-03071-w

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