Friday, May 17, 2019, 2:30pm
Structure preserving reduced order models
Jan Hesthaven (École polytechnique fédérale de Lausanne)
The development of reduced order models for complex applications promises rapid and accurate evaluation of the output of complex models under parameterized variation with applications to problems which require many evaluations, such as in optimization, control, uncertainty quantification and applications where near real-time response is needed.
However, many challenges remain to secure the flexibility, robustness, and efficiency needed for general large scale applications, in particular for nonlinear and/or time-dependent problems.
After a brief introduction to reduced order models, we discuss the development of methods which seek to conserve chosen invariants for nonlinear time-dependent problems. We develop structure-preserving reduced basis methods for a broad class of Hamiltonian dynamical systems, including canonical problems and port-Hamiltonian problems, before considering the more complex situation of Hamiltonian problems endowed with a general Poisson manifold structure which encodes the physical properties, symmetries and conservation laws of the dynamics.
Time permitting, we subsequently discuss reduced order modeling of more general hyperbolic problems, discuss the importance of the skew-symmetric form of the governing equations, and the benefits of using the skew-symmetric form for the reduced order model. We demonstrate the methods through the numerical simulation of various fluid flows.
Der Vortrag beginnt um 14.30 Uhr in Raum 008 (SeMath, Pontdriesch 14-16).
Alle Interessierten sind herzlich willkommen.
Ort: Raum 008/SeMath, Pontdriesch 14-16, 52062 Aachen