Markus Schöbinger

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Address

Institute for Analysis and Scientific Computing
Wiedner Hauptstrasse 8-10
1040 Wien, Austria

Room: DA 03 G22
Tel: +43 1 58801 10109
Email: markus.schoebinger@tuwien.ac.at

Projects

Research Interests

finite element method, Maxwell equations, multi-scale and homogenization, error estimators

Theses

M. Schöbinger, "A new version of a collocation code for singular BVPs: Nonlinear solver and its application to m-Laplacians", Diploma thesis, TU Wien, 2015

Talks

  • MSFEM with Network Coupling for the Eddy Current Problem of a Toroidal Transformer, ISTET2017, Illmenau, Germany, July 16 - 19, 2017. pdf
  • A Residual Error Estimator for Multiscale in 2D, MSHOM2016, Vienna, Austria, Sept. 22 - 23, 2016.

Recent Work

  • MSFEM for a 2D1D Eddy Current Model Including Edge Effects, Abstract for EMF2018, Germany, April 10 - 12, 2018. pdf
  • MSFEM for the Linear 2D1D-Problem of Eddy Currents in Thin Iron Sheets, Abstract for MATHMOD2018, Austria, Feb. 21 - 23, 2018. pdf
  • MSFEM with Network Coupling for the Eddy Current Problem of a Toroidal Transformer, Abstract for ISTET2017, Germany, July 16 - 19, 2017. pdf
  • Adaptive Mesh Refinement for Multiscale FEM for the Eddy Current Problem in Laminated Materials, Abstract for COMPUMAG2017, South Korea, June 18 - 22, 2017. pdf
  • Error Estimation for MSFEM for elliptic problems in 2D, Abstract for SCEE2016, Austria, Oct. 3 - 7, 2016. pdf
  • An Efficient Reformulation of a Multiscale Method for the Eddy Current Problem, Abstract for IGTE2016, Austria, Sept. 18 - 21, 2016. pdf

Publications

  1. Markus Schöbinger, J. Schöberl, K. Hollaus, "Adaptive Mesh Refinement for Multi-Scale FEM for the Eddy Current Problem in Laminated Materials", IEEE Transactions on Magnetics, vol 54, no. 3, 2018. online
  2. Markus Schöbinger, J. Schöberl, K. Hollaus, "An Efficient Reformulation of a Multiscale Method for the Eddy Current Problem," COMPEL, vol. 36, pp. 1421-1429, 2017. online