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ORCIDMatthias Maier
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2020 – today
- 2024
[j21]Jean-Luc Guermond
, Matthias Maier, Bojan Popov, Laura Saavedra, Ignacio Tomas:
First-Order Greedy Invariant-Domain Preserving Approximation for Hyperbolic Problems: Scalar Conservation Laws, and p-System. J. Sci. Comput. 100(2): 46 (2024)- [j20]Manaswinee Bezbaruah, Matthias Maier, Winnifried Wollner:
Shape Optimization of Optical Microscale Inclusions. SIAM J. Sci. Comput. 46(4): 377- (2024) - [i12]Martin Kronbichler, Matthias Maier, Ignacio Tomas:
Graph-based methods for hyperbolic systems of conservation laws using discontinuous space discretizations, Part I: building blocks. CoRR abs/2402.04514 (2024) - [i11]Jean-Luc Guermond, Matthias Maier, Eric Tovar:
A high-order explicit Runge-Kutta approximation technique for the Shallow Water Equations. CoRR abs/2403.17123 (2024) - 2023
- [j19]Bennett Clayton, Jean-Luc Guermond, Matthias Maier, Bojan Popov, Eric J. Tovar:
Robust second-order approximation of the compressible Euler equations with an arbitrary equation of state. J. Comput. Phys. 478: 111926 (2023) - [j18]Daniel Arndt, Wolfgang Bangerth, Maximilian Bergbauer, Marco Feder, Marc Fehling, Johannes Heinz, Timo Heister, Luca Heltai, Martin Kronbichler, Matthias Maier, Peter Munch, Jean-Paul Pelteret, Bruno Turcksin, David R. Wells, Stefano Zampini:
The deal.II Library, Version 9.5. J. Num. Math. 31(3): 231- (2023) - [i10]Manaswinee Bezbaruah, Matthias Maier, Winnifried Wollner:
Shape optimization of optical microscale inclusions. CoRR abs/2306.13248 (2023) - [i9]Jean-Luc Guermond, Matthias Maier, Bojan Popov, Laura Saavedra, Ignacio Tomas:
Greedy invariant-domain preserving approximation for hyperbolic systems. CoRR abs/2310.01713 (2023) - 2022
- [j17]Michael Buchholz, Johannes Müller, Martin Herrmann, Jan Strohbeck, Benjamin Völz, Matthias Maier, Jonas Paczia, Oliver Stein, Hubert Rehborn, Rüdiger-Walter Henn:
Handling Occlusions in Automated Driving Using a Multiaccess Edge Computing Server-Based Environment Model From Infrastructure Sensors. IEEE Intell. Transp. Syst. Mag. 14(3): 106-120 (2022) - [j16]Daniel Arndt, Wolfgang Bangerth, Marco Feder, Marc Fehling, Rene Gassmöller, Timo Heister, Luca Heltai, Martin Kronbichler, Matthias Maier, Peter Munch, Jean-Paul Pelteret, Simon Sticko, Bruno Turcksin, David R. Wells:
The deal.II library, Version 9.4. J. Num. Math. 30(3): 231-246 (2022) - [i8]Matthias Maier, John N. Shadid, Ignacio Tomas:
Local-in-time structure-preserving finite-element schemes for the Euler-Poisson equations. CoRR abs/2207.07860 (2022) - [i7]Bennett Clayton, Jean-Luc Guermond, Matthias Maier, Bojan Popov, Eric J. Tovar:
Robust second-order approximation of the compressible Euler equations with an arbitrary equation of state. CoRR abs/2207.12832 (2022) - 2021
- [j15]Daniel Arndt, Wolfgang Bangerth, Denis Davydov, Timo Heister, Luca Heltai, Martin Kronbichler, Matthias Maier, Jean-Paul Pelteret, Bruno Turcksin, David R. Wells:
The deal.II finite element library: Design, features, and insights. Comput. Math. Appl. 81: 407-422 (2021) - [j14]Daniel Arndt, Wolfgang Bangerth, Bruno Blais, Marc Fehling, Rene Gassmöller, Timo Heister, Luca Heltai, Uwe Köcher, Martin Kronbichler, Matthias Maier, Peter Munch, Jean-Paul Pelteret, Sebastian Proell, Konrad Simon, Bruno Turcksin, David R. Wells, Jiaqi Zhang:
The deal.II library, Version 9.3. J. Num. Math. 29(3): 171-186 (2021) - [j13]Matthias Maier, Martin Kronbichler:
Efficient Parallel 3D Computation of the Compressible Euler Equations with an Invariant-domain Preserving Second-order Finite-element Scheme. ACM Trans. Parallel Comput. 8(3): 16:1-16:30 (2021) - [c2]Max Bastian Mertens, Johannes Müller, Robin Dehler, Marvin Klimke, Matthias Maier, Soheil Gherekhloo, Benjamin Völz, Rüdiger-Walter Henn, Michael Buchholz:
An Extended Maneuver Coordination Protocol with Support for Urban Scenarios and Mixed Traffic. VNC 2021: 32-35 - [i6]Jean-Luc Guermond, Martin Kronbichler, Matthias Maier, Bojan Popov, Ignacio Tomas:
On the implementation of a robust and efficient finite element-based parallel solver for the compressible Navier-Stokes equations. CoRR abs/2106.02159 (2021) - 2020
- [j12]Matthias Maier, Dionisios Margetis, Antoine Mellet:
Homogenization of time-harmonic Maxwell's equations in nonhomogeneous plasmonic structures. J. Comput. Appl. Math. 377: 112909 (2020) - [j11]Jung Heon Song, Matthias Maier, Mitchell Luskin:
Nonlinear eigenvalue problems for coupled Helmholtz equations modeling gradient-index graphene waveguides. J. Comput. Phys. 423: 109871 (2020) - [j10]Daniel Arndt, Wolfgang Bangerth, Bruno Blais, Thomas C. Clevenger, Marc Fehling, Alexander V. Grayver, Timo Heister, Luca Heltai, Martin Kronbichler, Matthias Maier, Peter Munch, Jean-Paul Pelteret, Reza Rastak, Ignacio Tomas, Bruno Turcksin, Zhuoran Wang, David R. Wells:
The deal.II library, Version 9.2. J. Num. Math. 28(3): 131-146 (2020) - [i5]Jung Heon Song, Matthias Maier, Mitchell Luskin:
Nonlinear eigenvalue problems for coupled Helmholtz equations modeling gradient-index graphene waveguides. CoRR abs/2003.06531 (2020) - [i4]Matthias Maier, Martin Kronbichler:
Massively parallel 3D computation of the compressible Euler equations with an invariant-domain preserving second-order finite-element scheme. CoRR abs/2007.00094 (2020) - [i3]Jean-Luc Guermond, Matthias Maier, Bojan Popov, Ignacio Tomas:
Second-order invariant domain preserving approximation of the compressible Navier-Stokes equations. CoRR abs/2009.06022 (2020)
2010 – 2019
- 2019
- [j9]Daniel Arndt, Wolfgang Bangerth, Thomas C. Clevenger, Denis Davydov, Marc Fehling, Daniel Garcia-Sanchez, Graham Harper, Timo Heister, Luca Heltai, Martin Kronbichler, Ross Maguire Kynch, Matthias Maier, Jean-Paul Pelteret, Bruno Turcksin, David R. Wells:
The deal.II library, Version 9.1. J. Num. Math. 27(4): 203-213 (2019) - [c1]Marios Mattheakis, Matthias Maier, Wei Xi Boo, Efthimios Kaxiras:
Graphene epsilon-near-zero plasmonic crystals. NANOCOM 2019: 2:1-2:6 - [i2]Daniel Arndt, Wolfgang Bangerth, Denis Davydov, Timo Heister, Luca Heltai, Martin Kronbichler, Matthias Maier, Jean-Paul Pelteret, Bruno Turcksin, David R. Wells:
The deal.II finite element library. CoRR abs/1910.13247 (2019) - 2018
- [j8]Giovanni Alzetta, Daniel Arndt, Wolfgang Bangerth, Vishal Boddu, Benjamin Brands, Denis Davydov, Rene Gassmöller, Timo Heister, Luca Heltai, Katharina Kormann, Martin Kronbichler, Matthias Maier, Jean-Paul Pelteret, Bruno Turcksin, David R. Wells:
The deal.II library, Version 9.0. J. Num. Math. 26(4): 173-183 (2018) - [j7]Matthias Maier, Rolf Rannacher:
A Duality-Based Optimization Approach for Model Adaptivity in Heterogeneous Multiscale Problems. Multiscale Model. Simul. 16(1): 412-428 (2018) - 2017
- [j6]Matthias Maier, Dionisios Margetis, Mitchell Luskin:
Dipole excitation of surface plasmon on a conducting sheet: Finite element approximation and validation. J. Comput. Phys. 339: 126-145 (2017) - [j5]Daniel Arndt, Wolfgang Bangerth, Denis Davydov, Timo Heister, Luca Heltai, Martin Kronbichler, Matthias Maier, Jean-Paul Pelteret, Bruno Turcksin, David R. Wells:
The deal.II library, version 8.5. J. Num. Math. 25(3): 137-145 (2017) - 2016
- [j4]Matthias Maier, Mauro Bardelloni, Luca Heltai:
LinearOperator - A generic, high-level expression syntax for linear algebra. Comput. Math. Appl. 72(1): 1-24 (2016) - [j3]Wolfgang Bangerth, Denis Davydov, Timo Heister, Luca Heltai, Guido Kanschat, Martin Kronbichler, Matthias Maier, Bruno Turcksin, David R. Wells:
The deal.II Library, Version 8.4. J. Num. Math. 24(3): 135-141 (2016) - [j2]Matthias Maier, Rolf Rannacher:
Duality-based adaptivity in finite element discretization of heterogeneous multiscale problems. J. Num. Math. 24(3): 167-187 (2016) - 2013
- [i1]Wolfgang Bangerth, Timo Heister, Luca Heltai, Guido Kanschat, Martin Kronbichler, Matthias Maier, Bruno Turcksin, Toby D. Young:
The deal.II Library, Version 8.1. CoRR abs/1312.2266 (2013)
2000 – 2009
- 2000
- [j1]Matthias Maier, Karl Kronewald, Peter Mertens:
Vernetzte Jobbörsen und Unternehmensnetzwerke - eine Vision. Wirtschaftsinf. 42(Sonderheft): S124-S131 (2000)
1990 – 1999
- 1990
- [b1]Matthias Maier:
Theoretische Bezugsrahmen und Methoden zur Gestaltung computergestützter Informationssysteme. Ludwig Maximilian University of Munich, Germany, VVF 1990, ISBN 978-3-88259-775-2
Coauthor Index
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