Fraunhofer-Institut für Techno- und Wirtschaftsmathematik (ITWM) / Fraunhofer Institute for Industrial Mathematics


Research facility

Location:
Kaiserslautern, Germany


Research projects with FAU researchers


HighPerMeshes: Domänenspezifische Programmierung und zielplattformbewusste Compiler-Infrastruktur für Algorithmen auf unstrukturierten Gittern
PD Dr.-Ing. Frank Hannig
(01/04/2017 - 31/03/2020)
(A dynamic manikin with fiber-based modeling of skeletal musculature):
DYMARA: Muscle paths in the biomechanical simulation of human movement and MBS integration
Prof. Dr.-Ing. Sigrid Leyendecker
(01/12/2016 - 30/11/2019)
HealthFaCT: Optimization of medical care in rural environments
Prof. Dr. Frauke Liers
(01/12/2016 - 30/11/2019)
MKS-Menschenmodelle: Optimal control of biomechanical MBS-Digital Human Models for simulation in the virtual assembly planning
Prof. Dr.-Ing. Sigrid Leyendecker
(01/11/2015 - 31/10/2018)


Publications in cooperation with FAU scientists


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Björkenstam, S., Carlson, J.S., Linn, J., Leyendecker, S., & Lennartson, B. (2018). Inverse Dynamics for Discrete Geometric Mechanics of Multibody Systems with Application to Direct Optimal Control. Journal of Computational and Nonlinear Dynamics.
Phutane, U., Roller, M., & Leyendecker, S. (2018). Optimal control simulations of two finger grasping. München, DE.
Björkenstam, S., Nyström, J., Carlson, J.S., Roller, M., Linn, J., Hanson, L.,... Leyendecker, S. (2017). A framework for motion planning of digital humans using discrete mechanics and optimal control. (pp. 64-71). Bonn, DE.
Phutane, U., Roller, M., Björkenstam, S., & Leyendecker, S. (2017). Investigating human thumb models via their range of motion volumes. Weimar.
Phutane, U., Roller, M., Björkenstam, S., Linn, J., & Leyendecker, S. (2017). Kinematic validation of a human thumb model. In ECCOMAS Thematic Conference on Multibody Dynamics. Prag, CZ.
Roller, M., Björkenstam, S., Linn, J., & Leyendecker, S. (2017). Optimal control of a biomechanical multibody model for the dynamic simulation of working tasks. In ECCOMAS Thematic Conference on Multibody Dynamics. Prag, CZ.
Gramsch, S., Klar, A., Leugering, G., Marheineke, N., Nessler, C., Strohmeyer, C., & Wegener, R. (2016). Aerodynamic web forming: process simulation and material properties. Journal of Mathematics in Industry, 6(1). https://dx.doi.org/10.1186/s13362-016-0034-4
Schiessl, S., Marheineke, N., & Wegener, R. (2016). A moving mesh framework based on three parametrization layers for 1d PDEs. In Progress in Industrial Mathematics at ECMI 2014 Springer.
Marheineke, N., Liljegren-Sailer, B., Lorenz, M., & Wegener, R. (2016). Asymptotics and numerics for the upper-convected Maxwell model describing transient curved viscoelastic jets. Mathematical Models & Methods in Applied Sciences, 26(3), 569-600. https://dx.doi.org/10.1142/S021820251650010X
Cibis, T., Leithäuser, C., Marheineke, N., & Wegener, R. (2016). Homogenization strategies for fiber curtains and bundles in air flows. In Progress in Industrial Mathematics at ECMI 2014 Springer.
Arne, W., Rivero-Rodriguez, J., Pérez-Saborid, M., Marheineke, N., & Wegener, R. (2016). Homotopy method for viscous Cosserat rod model describing electrospinning. In Progress in Industrial Mathematics at ECMI 2014 Springer.
Lu, Y., Marheineke, N., & Mohring, J. (2016). Interpolation strategy for BT-based parametric MOR of gas pipeline-networks. In PMS&A - Modelling, Simulation and Application Springer.
Lu, Y., Marheineke, N., & Mohring, J. (2016). MOR via quadratic-linear representation on nonlinear-parametric PDEs. In Progress in Industrial Mathematics at ECMI 2014 Springer.
Rivero-Rodriguez, J., Arne, W., Marheineke, N., Wegener, R., & Pérez-Saborid, M. (2016). Setup of viscous Cosserat rod model desribing electrospinning. In Progress in Industrial Mathematics at ECMI 2014 Springer.
Lindner, F., Marheineke, N., Stroot, H., Vibe, A., & Wegener, R. (2016). Stochastic dynamics for inextensible fibers in a spatially semi-discrete setting. Stochastics and Dynamics. https://dx.doi.org/10.1142/S0219493717500162
Shahzad, F., Kreutzer, M., Zeiser, T., Machado, R., Pieper, A., Hager, G., & Wellein, G. (2015). Building a Fault Tolerant Application Using the GASPI Communication Layer. In Proceedings of FTS 2015 (pp. 580-587). Chicago, IL: in conjunction with IEEE Cluster 2015: IEEE.
Arne, W., Marheineke, N., Meister, A., Schiessl, S., & Wegener, R. (2015). Finite volume approach for the instationary Cosserat rod model describing the spinning of viscous jets. Journal of Computational Physics, 294, 20-37. https://dx.doi.org/10.1016/j.jcp.2015.03.042
Gail, T., Hoffmann, R., Miezal, M., Bleser, G., & Leyendecker, S. (2015). Towards bridging the gap between motion capturing and biomechanical optimal control simulations. In Proceedings of the ECCOMAS Thematic Conference on Multibody Dynamics. Barcelona, ES.
Wegener, R., Marheineke, N., & Hietel, D. (2015). Virtual production of filaments and fleeces. In H. Neunzert, D. Prätzel-Wolters (Eds.), Currents in Industrial Mathematics (pp. 103-162). Springer Berlin Heidelberg.
Wegener, R., Marheineke, N., & Hietel, D. (2015). Virtuelle Produktion von Filamenten und Vliesstoffen. In H. Neunzert, D. Praetzel-Wolters (Eds.), Mathematik im Fraunhofer Institut (pp. 105-165). Heidelberg: Springer.

Last updated on 2016-16-06 at 06:43