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Gasparino L, Spiga F and Lehmkuhl O 2024Computer Physics Communications297109067 ISSN 0010-4655

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physics.flu-dyntop field · 1 papers

CONDITIONALtop verdict bucket · 1 papers

This DOI or bibliographic work is known through the citation graph. Pith is enriching metadata through Crossref/OpenAlex; full non-arXiv reviews need publisher/open-access PDF resolution.

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Pith has found this work in 1 reviewed paper. Its strongest current cluster is physics.flu-dyn (1 papers). The largest review-status bucket among citing papers is CONDITIONAL (1 papers). For highly cited works, this page shows a dossier first and a bounded explorer second; it never tries to render every citing paper at once.

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High-lift Wing Separation Control via Bayesian Optimization and Deep Reinforcement Learning

physics.flu-dyn · 2026-05-12 · conditional · novelty 5.0

Bayesian optimization improved the aerodynamic efficiency of a 30P30N high-lift wing by 10.9% using synthetic jets, while deep reinforcement learning achieved negligible gains due to a penalty-heavy reward function.

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High-lift Wing Separation Control via Bayesian Optimization and Deep Reinforcement Learning physics.flu-dyn · 2026-05-12 · conditional · none · ref 32
Bayesian optimization improved the aerodynamic efficiency of a 30P30N high-lift wing by 10.9% using synthetic jets, while deep reinforcement learning achieved negligible gains due to a penalty-heavy reward function.

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