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Article Dans Une Revue Journal of Fluid Mechanics Année : 2021

Stabilization of the fluidic pinball with gradient-enriched machine learning control

Résumé

We stabilize the flow past a cluster of three rotating cylinders – the fluidic pinball – with automated gradient-enriched machine learning algorithms. The control laws command the rotation speed of each cylinder in an open- and closed-loop manner. These laws are optimized with respect to the average distance from the target steady solution in three successively richer search spaces. First, stabilization is pursued with steady symmetric forcing. Second, we allow for asymmetric steady forcing. And third, we determine an optimal feedback controller employing nine velocity probes downstream. As expected, the control performance increases with every generalization of the search space. Surprisingly, both open- and closed-loop optimal controllers include an asymmetric forcing, which surpasses symmetric forcing. Intriguingly, the best performance is achieved by a combination of phasor control and asymmetric steady forcing. We hypothesize that asymmetric forcing is typical for pitchfork bifurcated dynamics of nominally symmetric configurations. Key enablers are automated machine learning algorithms augmented with gradient search: explorative gradient method for the open-loop parameter optimization and a gradient-enriched machine learning control (gMLC) for the feedback optimization. Gradient-enriched machine learning control learns the control law significantly faster thanpreviously employed genetic programming control. The gMLC source code is freely available online.
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Origine : Publication financée par une institution

Dates et versions

hal-03321015 , version 1 (25-11-2022)

Identifiants

Citer

Guy Cornejo Maceda, Yiqing Li, François Lusseyran, Marek Morzyński, Bernd Noack. Stabilization of the fluidic pinball with gradient-enriched machine learning control. Journal of Fluid Mechanics, 2021, 917, pp.A42. ⟨10.1017/jfm.2021.301⟩. ⟨hal-03321015⟩
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