Experimental model-based closed-loop control of a separated boundary layer at high Reynolds number
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Publication:2071068
DOI10.1016/J.EUROMECHFLU.2021.09.011OpenAlexW3203223436MaRDI QIDQ2071068
Publication date: 25 January 2022
Published in: European Journal of Mechanics. B. Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.euromechflu.2021.09.011
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Cites Work
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- Optimal control of the cylinder wake in the laminar regime by trust-region methods and POD reduced-order models
- State-space formulae for all stabilizing controllers that satisfy an \(H_{\infty}\)-norm bound and relations to risk sensitivity
- The effect of streamwise vortices on the turbulence structure of a separating boundary layer
- Feedback control of cavity flow oscillations using simple linear models
- On-line discontinuities identification in noisy signals: Application to Kalman filtering
- Feedback shear layer control for bluff body drag reduction
- Low-dimensional modelling of a transient cylinder wake using double proper orthogonal decomposition
- The structure of a jet in cross flow at low velocity ratios
- Streamwise evolution of longitudinal vortices in a turbulent boundary layer
- Flow Control
- Active management of naturally separated flow over a solid surface. Part 1. The forced reattachment process
- Towards Active Control of Leading Edge Stall by Means of Pneumatic Actuators
- Experimental study of eddy structures in a turbulent boundary layer using particle image velocimetry
- Linear feedback control and estimation applied to instabilities in spatially developing boundary layers
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