Abstract
In this paper, we discuss the usage and implementation of the compressive sensing (CS) for the efficient measurement and analysis of the von Kármán vortices. We consider two different flow fields, the flow fields around a circle and an ellipse. We solve the governing k−ϵ transport equations numerically in order to model the flow fields around these bodies. Using the time series of the drag, CD, and the lift, CL, coefficients, and their Fourier spectra, we show that compressive sampling can be effectively used to measure and analyze Von Kármán vortices. We discuss the effects of the number of samples on reconstruction and the benefits of using compressive sampling over the classical Shannon sampling in the flow measurement and analysis where Von Kármán vortices are present. We comment on our findings and indicate their possible usage areas and extensions. Our results can find many important applications including but are not limited to measure, control, and analyze vibrations around coastal and offshore structures, bridges, aerodynamics, and Bose-Einstein condensation, just to name a few.
Original language | English |
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Article number | 104975 |
Journal | Computers and Fluids |
Volume | 226 |
DOIs | |
Publication status | Published - 15 Aug 2021 |
Bibliographical note
Publisher Copyright:© 2021
Funding
This work was supported by the Research Fund of the İstanbul Technical University. Project Code: MGA-2020-42544. Project Number: 42544.
Funders | Funder number |
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Istanbul Teknik Üniversitesi | MGA-2020-42544, 42544 |
Keywords
- Compressive sensing
- Sparse signal
- Time series of drag and lift
- Von Kármán vortices