Workshop "Fast Solvers for Simulation, Inversion, and Control of Wave Propagation Problems"
| Date: | 09/26/2011, 9:00 AM - 09/28/2011, 5:00 PM |
| Category: | Veranstaltung |
| Organizer: | Lehrstuhl für Mathematik IX (Wissenschaftliches Rechnen) |
ESF OPTPDE Workshop in Würzburg from September 26-28, 2011
This Workshop aims at fostering development and application of fast computational techniques to direct and inverse wave problems that are of primal importance in strategic scientific and engineering areas. The ESF Waves workshop will also provide a forum for reseachers to discuss recent advances on the modeling and approximation of wave phenomena and on the formulation of control and inverse problems governed by time-dependent and standing wave equations as Maxwell and Helmholtz equations.
Bild: © Stefanie Panitz
Organizers
- Alfio Borzì, Julius-Maximilians-Universität, Würzburg, Germany
- Cornelis W. Oosterlee, CWI, Amsterdam and Delft University of Technology, Delft, The Netherlands
Participants
| Roman Anreev | ETH Zürich, CH | ||
| Anton Arnold | TU Vienna, AT | Asymptotically correct finite difference schemes for highly oscillatory ODEs | |
| Daniele Boffi | Università di Pavia, IT | Exterior calculus and the finite element approximation of Maxwell's eigenvalue problem | |
| Mike Botchev | University of Twente, NL | Krylov-subspace exponential time integration in the time-domain electromagnetic modeling | |
| Bair Budaev | University of California, US | Probability and backscattering | |
| Siegfried Cools | University Antwerp, BE | ||
| Matthias Ehrhardt | Bergische Universität Wuppertal, DE | Numerical Simulation of Periodic Structure Problems | |
| Mohamed El Bouajaji | INRIA, Sophia Antipolis Cedex, FR | Optimized Schwarz algorithms for the time harmonic Maxwell equations discretized by a discontinuous Galerkin method | |
| Maurizio Falcone | Sapienza Università di Roma, IT | From sand piles to dunes | |
| Francisco Gaspar | Universidad de Zaragoza, ES | About an analysis of the Full Multigrid Method and its practical utility | |
| Omar Ghattas | University of Texas at Austin, US | Hessian-based reduction for large-scale statistical inverse wave propagation | |
| Sergio Gonzalez Andrade | Escuela Politecninca Nacional de Quito, ECUADOR | ||
| Marcus Grote | Universität Basel, CH | Interior-Point Method for Time-Harmonic Inverse Medium Problems | |
| Eldad Haber | University of British Columbia., USA | Towards waveform inversion | |
| Sean Hardesty | Rice University, USA | Optimization of Shell Structure Acoustics | |
| Christian Klingenberg | Universität Würzburg, DE | Stable numerical simulations of strong shock waves in magnetohydrodynamics | |
| Axel Kröner | TU München, DE | ||
| Domenico Lahaye | TU Delft, NL | Towards Multiscale Imaging Using the Manifold Mapping Technique | |
| Ira Livshits | Ball State University, Muncie, US | Adaptive Algebraic Multigrid method for solving indefinite Helmholtz equations | |
| Scott MacLachlan | Tufts University, USA | A reformulation-based approach for multigrid solution of the Helmholtz equation | |
| Roberta Mancini | Universität Konstanz, DE | A POD-model reduction on a time-domain electromagnetic inverse scattering problem | |
| Wim Mulder | TU Delft, NL | Seismic inversion through focusing | |
| Innocenzo Pinto | Universita' del Sannio, IT | Hunting Gravitational Waves | |
| Bram Reps | University Antwerp, BE | ||
| Carmen Rodrigo | Universidad de Zaragoza, ES | ||
| Stephan Schmidt | Universität Trier, DE | Shape Optimization of Acoustic Horns | |
| Georg Stadler | ICES Texas Austin, US | High-order discontinuous Galerkin-based 3D seismic inversion | |
| Jari Toivanen | University of Stanford, US | A Hybrid Discontinuous Galerkin Method with Plane Waves for Helmholtz Problems and a Domain Decomposition Method | |
| Stefan Ulbrich | TU Darmstadt, DE | Optimal Control of Discontinuous Solutions of Hyperbolic Conservation Laws: Theory and Numerical Approximation | |
| Wim Vanroose | University Antwerp, BE | Analysis of Multigrid Preconditioner for Helmholtz equation with absorbing boundary conditions. | |
| Xavier Vasseur | CERFACS, Toulouse, FR | An approximate two-level preconditioner combined with flexible Krylov subspace methods for the solution of heterogeneous Helmholtz problems on massively parallel computers | |
| Kees Vuik | TU Delft, NL | Analysis of the multi-level, shifted Laplace preconditioned method for the Helmholtz equation | |
| Elena Zhebel | Shell | Solving the 3D acoustic wave equation with explicit discontinuous Galerkin and continuous finite element methods | |
| Zhao Jing | TU Delft, NL |
