Publikationen – Aktuelles

  •  B. S. M. Ebna Hai, M. Bause, Numerical study and comparison of alternative time discretization schemes for an ultrasonic guided wave propagation problem coupled with fluid-structure interaction, Comput. Math. Appl., 78, in press (2019), https://doi.org/10.1016/j.camwa.2019.01.009, 19 pages
  • B. S. M. Ebna Hai, M. Bause, P. A. Kuberry, Modeling concept and numerical simulation of ultrasonic wave propagation in a moving fluid-structure domain based on a monolithic approach, Applied Mathematical Modelling, 75 (2019), pp. 916-939
  • U. Köcher, M. P. Bruchhäuser, M. Bause, Efficient and scalable data structures and algorithms for goal-oriented adaptivity of space-time FEM codes, SoftwareX, 10 (2019), 1-6, 100239, open access, open source, 2019. [ arXiv:1812.08558 ] [ code on github:dtm-project/dwr-diffusion ] [ doi:10.1016/j.softx.2019.100239 ]
  • M. Bause, M. Anselmann, Comparative study of continuously differentiable Galerkin time discretizations for the wave equation, Proceedings in Applied Mathematics & Mechanics, in press (2019), p. 1-2,
  • M. Anselmann, M. Bause, Numerical study of Galerkin-collocation approximation in time for the wave equation, in W. Dörfler et al. (eds.), Mathematics of Wave Phenomena, Trends in Mathematics, Birkhäuser, in press, 2019, pp. 1-21, Preprint: http://arxiv.org/1905.00606
  • M. Anselmann, M. Bause, S. Becher, G. Matthies, Galerkin-collocation approximation in time for the wave equation and its post-processing, ESAIM: M2AN, submitted (2019), p. 1-24, Preprint: http://arxiv.org/abs/1908.08238
  • M. Bause, U. Köcher, F. A. Radu, F. Schieweck, Post-processed Galerkin approximation of improved order for wave equations, Math. Comp., 88 (2019), in press (2019), pp. 1–34; DOI: https://doi.org/10.1090/mcom/3464
  • U. Köcher, M. Bause, A mixed discontinuous-continuous Galerkin times discretisation for Biot’s system, Adv. Comp. Math., submitted (2018), pp. 1–19; arXiv:1805.00771
  • B. S. M. Ebna Hai, M. Bause, P. A. Kuberry, Modeling and simulation of ultrasonic guided waves propagation in the fluid-structure domain by a monolithic approach, J. Fluid Struct., 88 (2019), pp. 100-121
  • B. S. M. Ebna Hai, M. Bause, Numerical approximation of guided wave propagation under Fluid-Structure Interaction, J. Mech. Phys. Solids, submitted (2018), pp. 1–30
  • M. P. Bruchhäuser, K. Schwegler, M. Bause, Numerical study of goal- oriented error control for stabilized finite element methods, in Th. Apel et al. (eds.), Advanced Finite Element Methods with Applications: Selected Papers from the 30th Chemnitz Finite Element Symposium 2017, Lecture Notes in Computational Science and Engineering, vol. 128, Springer, Cham, pp. 85-106 (2019); https://doi:10.1007/978-3-030-14244-5_5
  • M. Bause, Iterative coupling of mixed and discontinuous Galerkin methods for poroelasticity, in F. Radu et al. (Hrsg.),  Numerical Mathematics and Advanced Applications, Lecture Notes in Computational Science and Engineering 126, Springer, Cham, 2019, pp. 551-560
  • U. Köcher, Influence of the SIPG penalisation on the numerical properties of linear systems for elastic wave propagation, in F. A. Radu et al. (eds.), Numerical Mathematics and Advanced Applications, Lecture Notes in Computational Science and Engineering 126, Springer, Cham, 2019, accepted, pp. 215-223; arXiv:1712.05594
  • J. Both, U. Köcher, Numerical investigation on the fixed-stress splitting scheme for Biot’s equations: Optimality of the tuning parameter, Numer. Math. Adv. Appl. ENUMATH 2017, Springer, Berlin, 2017, accepted, pp. 1–8; arXiv:1801.08352
  • M. Bause, R. Radu, U. Köcher, Space-time finite element approximation of the Biot poroelasticity system with iterative coupling, Comput. Meth. Appl. Mech. Engrg., 320 (2017), pp. 745–768
  • M. Bause, F. A. Radu, U. Köcher, Error analysis for discretizations of parabolic problems using continuous finite elements in time and mixed finite elements in space, Numer. Math. 137 (2017), pp. 773–818
  • B. S. M. Ebna Hai, Finite Element Approximation of Ultrasonic Wave Propagation under Fluid-Structure Interaction for Structural Health Monitoring Systems, PhD Thesis, Helmut Schmidt University Hamburg, 2017, http://edoc.sub.uni-hamburg.de/hsu/volltexte/2017/3182/
  • M. P. Bruchhäuser, K. Schwegler, M. Bause, Dual weighted residual based  error control for nonstationary convection-dominated equations: potential or ballast?, Lecture Notes in Computational Science and Engineering, submitted (2018), arXiv: 1812.06810
  • M. Bause, U. Köcher, Iterative coupling of variational space-time methods for Biot’s system of poroelasticity, in B. Karasözen et al. (eds.), Numerical Mathematics and Advanced Applications, Lecture Notes in Computational Science and Engineering 112, Springer, Cham, 2016, pp. 143-151

in 2018

  • M. Bause: Mathematisches Forschungsinstitut Oberwolfach, Oberwolfach Workshop, Reactive Flows in Deformable, Complex Media, Tba
  • M. Bause: KIT, Karlsruhe, Conference on Mathematics of Wave Phenomena, Post-processed Galerkin approximation of improved order for wave equations
  • M. Bause: Glasgow (Scotland), 6th European Conference on Computational Mechanics (Solids, Structures and Coupled Problems) (ECCM 6) 7th European Conference on Computational Fluid Dynamics (ECFD 7), On the approximation of the fully dynamic system of flow in deformable porous media
  • M. Bause: Leiden (The Netherlands), Lorentz Center Workshop, The Computational Mathematics Aspects of Porous Media, and Fluid Flow, On some aspects of the approximation of Biot’s system of poroelasticity
  • M. Bause: Lofthus Hardanger (Norway), Workshop on Adaptive model and solver computations for multiphase flow in porous media, Post-processing in variational time discretization for adaptive time step and goal-oriented error control
  • M. Bause: TU Dresden, Dresdner Mathematisches Seminar, Space-time finite element approximation of wave phenomena: Post-processing, error analysis and applications
  • M. P. Bruchhäuser: Glasgow (Scotland), International Conference on Boundary and Interior Layers (BAIL 2018), Goal-oriented Error Control for Stabilized Approximations of Convection-dominated Problems
  • M. P. Bruchhäuser: Prague (Czech Republic), International Conference Application of Mathematics 2018, Goal-oriented Error Control for Stabilized Finite Element Methods
  • M. P. Bruchhäuser: Berlin (Germany), 13th International Workshop on Variational Multiscale and Stabilized Finite Elements (VMS 18), Adaptive Methods and Efficient Data Structures for Stabilized Finite Element Methods

in 2019

  • M. P. Bruchhäuser: Brunel University London (UK), The Mathematics of Finite Elements and Applications (MAFELAP 2019), Duality based space-time adaptivity for convection-dominated problems

 

Prof. Dr. Markus Bause
Prof. Dr. Markus Bause honoured with the teaching award 2018 for professors

 

Open Campus 2018: Numerical Mathematics
Open Campus 2018: Numerical Mathematics

  • M. Bause and F. A.: Radu: Glasgow (2018), 6th European Conference on Computational Mechanics (Solids, Structures and Coupled Problems) (ECCM 6) and 7th European Conference on Computational Fluid Dynamics (ECFD 7), Recent advances in simulation of flow in Deformable porous media
  • M. Bause and F. A.: Radu: Hamburg (2017), International Workshop on Flow in Deformable Porous Media: Numerics and Benchmarks (PDF of poster here)

 

Upcoming

  • M. Bause and F. A.: Radu: Brunel University London (2019), The Mathematics of Finite Elements and Applications, Advances in Space-Time Finite Element Methods

  • M. Bause: Research visit at the University of Bergen, Prof. Dr. F. A. Radu, February 2018
  • U. Köcher: Research visit at the University of Texas at Austin, Prof. Dr. M. Wheeler, May 2018
  • M. Anselmann: Participation in the summer school on hyperbolic conservation laws, University of Hasselt (Belgium), June 2018

 

HSU

Letzte Änderung: 5. December 2019