Dr. Martin Hess
Computational Methods in Systems and Control Theory
Max Planck Institute for Dynamics of Complex Technical Systems
Max Planck Institute for Dynamics of Complex Technical Systems
Main Focus
- Reduced Basis Model Order Reduction
- Modeling and Simulation of Problems Governed by Maxwell's Equations
Curriculum Vitae
Education
Since 2012 - PhD student, CSC group, MPI Magdeburg2011 - Stipend holder Max Planck society
2008-2010 - MSc TU Munich
2004-2007 - BSc TU Braunschweig
Publications
Estimating the Inf-Sup Constant in Reduced Basis Methods for Time-Harmonic Maxwell's Equations;
Hess, M.W., Grundel, S. and Benner, P.;
IEEE Transactions on Microwave Theory and Techniques: Vol. 63 no. 11 pp. 3549-3557; 2015.
Reduced Basis Modeling for Uncertainty Quantification of Electromagnetic Problems in Stochastically Varying Domains;
Martin W. Hess and Benner, P.;
10th International Conference on Scientific Computing in Electrical Engineering;
Springer Series "Mathematics in Industry" : accepted for publication
A Reduced Basis Method for Microwave Semiconductor Devices with Geometric Variations;
Hess, M.W. and Benner, P.;
COMPEL, vol. 33, no. 4, pp. 1071-1081; 2014.
Reduced Basis Generation for Maxwell's Equations by Rigorous Error Estimation;
Hess, M.W. and Benner, P.;
Proc. Compumag 2013, 2013.
Fast Evaluation of Time Harmonic Maxwell's Equations Using the Reduced Basis Method;
Hess, M.W. and Benner, P.;
Microwave Theory and Techniques, IEEE Transactions on : Vol. 61 no. 6 pp. 2265-2274; 2013.
The Reduced Basis Method for Time-Harmonic Maxwell's Equations;
Benner, P.; Hess, M. W.;
in H.-D. Alber, N. Kraynyukova and C. Tropea: PAMM Special Issue: 83rd Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Darmstadt 2012 : Volume 12, Issue 1, pages 661–662, December 2012; Wiley; 2012.
Recent Talks
Reduced Basis Model Reduction of Time-Harmonic Maxwell's Equations using a Compliant Expanded Formulation; MOR 4 MEMS, KIT, Karlsruhe, Germany, 18.11.2015Output Error Estimates in Reduced-Basis Methods for Time-Harmonic Maxwell's Equations;
ENUMATH, Ankara, Turkey, 18th September, 2015
Reduced Basis Model Reduction for Maxwell's Equations in Dispersive Media with Stochastic Coefficients; PIERS 2015; Prague, Czech Republic; 6th July 2015
Certified Reduced Basis Model Reduction for Maxwell's Equations; SIAM CSE 2015; Salt Lake City, USA; 16th March 2015
Reduced Basis Methods for Time-Harmonic Maxwell's Equations with Stochastic Coefficients; SCEE 2014; Wuppertal, Germany; 25th July 2014
Reduced Basis Methods for Maxwell's Equations with Stochastic Coefficients; SIAM Annual 2014; Chicago, USA; 07th July 2014Reduced Basis Methods for Time-Harmonic Maxwell's Equations with Stochastic Coefficients; SCEE 2014; Wuppertal, Germany; 25th July 2014
Reduced Basis Methods for Time-Harmonic Maxwell's Equations with Stochastic Coefficients; ACOMEN 2014; Gent, Belgium; 24th June 2014