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Paper detail

Closed-Loop Turbulence Control Using Machine Learning

We propose a general model-free strategy for feedback control design of turbulent flows. This strategy called 'machine learning control' (MLC) is capable of exploiting nonlinear mechanisms in a systematic unsupervised manner. It relies on an evolutionary algorithm that is used to evolve an ensemble of feedback control laws until minimization of a targeted cost function. This methodology can be applied to any non-linear multiple-input multiple-output (MIMO) system to derive an optimal closed-loop control law. MLC is successfully applied to the stabilization of nonlinearly coupled oscillators exhibiting frequency cross-talk, to the maximization of the largest Lyapunov exponent of a forced Lorenz system, and to the mixing enhancement in an experimental mixing layer flow. We foresee numerous potential applications to most nonlinear MIMO control problems, particularly in experiments.

preprint2014arXivOpen access
Thomas DuriezVladimir ParezanovićLaurent CordierBernd R. NoackJoël DelvilleJean-Paul BonnetMarc SegondMarkus Abel
nlin.CDphysics.flu-dyn
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Thomas DuriezVladimir ParezanovićLaurent CordierBernd R. NoackJoël DelvilleJean-Paul BonnetMarc SegondMarkus Abel

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