B06 Kinetic theory meets algebraic systems theory
We study certain families of ODE control systems that are parametrized by their state space dimension N. Our goal is to consider the kinetic limit as N tends to infinity and to study if and how structural properties and invariant manifolds of the ordinary differential equation (ODE) systems carry over to the limiting partial differential equation (PDE). We will first investigate the autonomous case and then we will focus on closed loop control. Admissible feedback laws will be selected according to sparsity criteria. We plan to use and develop both numerical and symbolic software to tackle such problems.
- Prof. Dr. Michael Herty
- RWTH Aachen University
- more information
- +49 241 80 94510
- herty@igpm.rwth-aachen.de
- homepage
- Prof. Dr. Eva Zerz
- RWTH Aachen University
- more information
- +49 241 80 94544
- eva.zerz@math.rwth-aachen.de
- homepage
- Melanie Harms
- RWTH Aachen University
- more information
- +49 241 80 94632
- melanie.harms@rwth-aachen.de
- Sophia Wrede
- RWTH Aachen University
- more information
- wrede@combi.rwth-aachen.de
Publications
Controlled invariant varieties for second order polynomial control systems
Journal Article, Contribution to a conference proceedings 2024
Numerical relaxation limit and outgoing edges in a central scheme for networked conservation laws
Journal Article, Contribution to a conference proceedings pp. 1-6, 2023
Invariant sets for a class of nonlinear control systems tractable by symbolic computation
Journal Article, Contribution to a conference proceedings 2023
Probabilistic constrained Bayesian inversion for transpiration cooling
Journal Article International journal for numerical methods in fluids | Vol. 94, no. 12, 2022
On d-Collision-Free Dynamical Systems
Journal Article, Contribution to a conference proceedings 2022