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YouTube

Physics-Constrained Reservoir-Computing for Turbulence and Chaotic Learning

Alan Turing Institute via YouTube

Overview

Explore the intersection of fluid mechanics modeling and artificial intelligence in this 56-minute talk by Luca Magri at the Alan Turing Institute. Delve into the complementary capabilities of physical principles and empirical approaches in predicting flow evolution. Discover three physics-constrained architectures: physics-informed echo state networks (PI-ESN), automatic-differentiated physics-informed echo state networks (API-ESN), and auto-encoder echo state networks (AE-ESN). Learn how these computational methodologies are applied to learning hidden variables, noise filtering, optimal design, and turbulence learning. Examine the application of these techniques to aerospace propulsion, with a focus on thermoacoustics and turbulence in Kolmogorov flow. Gain insights into how physics is embedded as soft and hard constraints in these innovative approaches to fluid mechanics modeling.

Syllabus

Luca Magri - Physics-constrained reservoir-computing for turbulence and chaotic learning

Taught by

Alan Turing Institute

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