Aarhus Universitets segl

DCAMM annual seminar

Danish Center for Applied Mathematics and Mechanics (DCAMM) invites to the annual seminar titled: "Machine Learning for Scientific Discovery, with Examples in Fluid Mechanics"

Oplysninger om arrangementet

Tidspunkt

Onsdag 25. september 2024,  kl. 12:30 - 13:30

Sted

5008-139

Professor Steven L. Brunton, at the University of Washington, will be the 2024 DCAMM Annual Seminar Speaker at Aarhus University.

There will be an open discussion after the lecture, and, at 13:30, refreshments are served.

Title: Machine Learning for Scientific Discovery, with Examples in Fluid Mechanics

Abstract: This work will discuss several key challenges and opportunities in the use of machine learning for nonlinear system identification. In particular, I will describe how machine learning may be used to develop accurate and efficient nonlinear dynamical systems models for complex natural and engineered systems. I will emphasize the need for interpretable and generalizable data-driven models, such as the sparse identification of nonlinear dynamics (SINDy) algorithm, which identifies a minimal dynamical system model that balances model complexity with accuracy, avoiding overfitting. I will also introduce several key benchmark problems in dynamical systems and fluid dynamics that provide a diversity of metrics to assess modern system identification techniques. Because fluid dynamics is central to transportation, health, and defense systems, we will emphasize the importance of machine learning solutions that are interpretable, explainable, generalizable, and that respect known physics.

Bio: Dr. Steven L. Brunton is a Professor of Mechanical Engineering at the University of Washington.  He is also Adjunct Professor of Applied Mathematics, Aeronautics and astronautics, and Computer science, and he is also a Data Science Fellow at the eScience Institute. He is Director of the AI Center for Dynamics and Control (ACDC) at UW and is Associate Director for the NSF AI Institute in Dynamic Systems. Steve received the B.S. in mathematics from Caltech in 2006 and the Ph.D. in mechanical and aerospace engineering from Princeton in 2012.  His research combines machine learning with dynamical systems to model and control systems in fluid dynamics, biolocomotion, optics, energy systems, and manufacturing.  He received the Army and Air Force Young Investigator Program (YIP) awards and the Presidential Early Career Award for Scientists and Engineers (PECASE). Steve is also passionate about teaching math to engineers as co-author of four textbooks and through his popular YouTube channel, under the moniker “eigensteve”.