Svenja Schoeder, M.Sc.

Contact

• Room 1211
• Email: schoeder(at)lnm.mw.tum.de
• Phone: +49 (0) 89 289 15265
• Fax: +49 (0) 89 289 15301

Research Interests

• Photoacoustic Image Reconstruction
• Hybridizable Discontinuous Galerkin Methods

Teaching

• Nichtlineare Finite-Elemente-Methoden Sommersemester 18
• Finite Elemente im Wintersemester 17/18
• Technische Mechanik 2 im Sommersemester 17
• Finite Elemente im Wintersemester 16/17
• Finite Elemente im Wintersemester 15/16
• Finite Elemente im Wintersemester 14/15

Articles in Peer-Reviewed International Journals

• S. Schoeder, S. Sticko, M. Kronbichler, G. Kreiss, High order cut discontinuous Galerkin methods with local time stepping for acoustics, submitted.
• S. Schoeder, M. Kronbichler, and W.A. Wall, Arbitrary High-Order Explicit Hybridizable Discontinuous Galerkin Methods for the Acoustic Wave Equation, Journal of Scientific Computing, 2018, DOI .
• S. Schoeder, M. Kronbichler, and W.A. Wall, Photoacoustic Image Reconstruction: Material Detection and Acoustical Heterogeneities, Inverse Problems 33(5), 2017, 055010, DOI.
• M. Kronbichler, S. Schoeder, C. Müller, and W.A. Wall, Comparison of implicit and explicit hybridizable discontinuous Galerkin methods for the acoustic wave equation. International Journal for Numerical Methods in Engineering 106(9), 2016, 712-739, DOI.

Selected Presentations

• S. Schoeder, M. Kronbichler and W.A. Wall, Hybridizable discontinuous Galerkin methods with arbitrary derivative time integration for the acoustic wave equation, HONOM, Stuttgart, Germany, 2017.
• S. Schoeder, M. Kronbichler and W.A. Wall, Hybridizable discontinuous Galerkin methods with explicit time integration for the acoustic wave equation, ICOSAHOM, Rio de Janeiro, Brazil, 2016.
• S. Schoeder, M. Kronbichler and W.A. Wall, An adjoint approach for inverse analysis in photoacoustic imaging using the hybridizable discontinuous Galerkin method, WCCM, Barcelona, Spain, 2014.
• S. Schoeder and W.A. Wall, A photoacoustic image reconstruction algorithm based on the hybridizable discontinuous Galerkin method for acoustic wave propagation, ICMS Challenges in medical imaging, Glasgow, Scotland, 2014.

Supervised Student Projects / Theses

• Christoph Goering, Implicit-Explicit Runge-Kutta Methods for Acoustics with the Hybridizable Discontinuous Galerkin Method, Master's Thesis, 2017.
• Maximilian Wünnenberg, Photoacoustic Image Reconstruction: A Study on Mouse Brains, Bachelor's Thesis, 2017.
• Elia Ficapal, A Cut Hybridizable Discontinuous Galerkin Method for Acoustics, Bachelor's Thesis, 2017.
• Sebastian Buckel, Photoakustische Bildrekonstruktion mit Level-Set-Funktionen, Semesterarbeit, 2017.
• Christoph Goering, Slope Limiters and Shock Capturing for Acoustics with the Hybridizable Discontinuous Galerkin Discretization, Semesterarbeit, 2017.
• Johannes Reil, Entwicklung eines lokalen Zeitschrittverfahrens für die akustische Wellengleichung, Semesterarbeit, 2016.
• Maxime Allard und Patrick Lux, Ground Reaction Forces and Impulse for Individual Steps during Sprint, MSE-Forschungspraktikum, 2016.
• Matthias Kufner, Entwurf und Implementierung eines Perfectly Matched Layer für die lineare Akustik, Master's Thesis, 2016.
• Alexander Kalichmanow, Vergleich zwischen der k-space Methode und der Hybridisierbaren Diskontinuierlichen Galerkin Methode für die akustische Wellengleichung, Semesterarbeit, 2016.
• Julia Fischer, Photoacoustic Imaging: Detection of Acoustical Heterogeneities using Optical Material Identification, Master's Thesis, 2015.
• Niclas Bähr, Verwendung von Time Reversed Absorbing Conditions zur effizienten Berechnung des photoakustischen inversen Problems, Bachelor's Thesis, 2015.

Education

• since 2013, research associate at the Institute for Computational Mechanics (Lehrstuhl für Numerische Mechanik), TUM, Germany
• 2013, Master of Science (M.Sc.), Mechanical Engineering, TUM, Germany