Nora Hagmeyer M.Sc.

 

Education

since 04/2023	External Research Associate, Institute for Mathematics and Computer-Based Simulation, University of the Bundeswehr Munich
05/2018- 03/2023	Research and Teaching Associate, Institute for Mathematics and Computer-Based Simulation, University of the Bundeswehr Munich
10/2022- 12/2022	Visiting Research Scientist within the MIMESIS research team, INRIA Strasbourg
04/2015-12/2017	Master of Science,  Mathematics, Technical University of Munich Master's thesis: Parameter estimation in outflow boundary conditions for the simulation of blood vessels
10/2015-08/2017	Master of Science, Computational Science and Engineering (CSE), Technical University of Munich Master's thesis: Developing an auto-tuned manycore enabled finite element solver for the numerical modeling of nanoscale light/matter interaction using BOAST
11/2016-02/2017	Master Internship within the CORSE research team, INRIA Grenoble Rhône-Alpes
08/2016-11/2016	Master Internship within the NACHOS research team, INRIA Sophia Antipolis Méditerranée
10/2011-03/2015	Bachelor of Science, Mathematics, Technical University of Munich

Research Interests

• Fluid-Structure Interaction (FSI)
• Finite Element Methods (FEM)
• High-Performance Computing (HPC)
• Cardiovascular Modeling
• Contact Mechanics
• Multi-scale & mixed-dimensional Modeling

Awards and Scholarships (Selection)

2021	ECCOMAS Scholarship for participation at the WCCM-ECCOMAS virtual congress
2015-2017	thyssenkrupp Steel Europe Master Scholarship
2011-2014	thyssenkrupp Steel Europe Scholarship
2011	GE STAR Award

Publications

 

Preprints and Articles Submitted for Publication

• Hagmeyer, N., Mayr, M., Popp, A. : Fully coupled mortar-type embedding of one-dimensional fibers into three-dimensional fluid flow, submitted for publication, 2023, arXiv 
• Steinbrecher, I., Hagmeyer, N., Meier, C., Popp, A.: A consistent mixed-dimensional coupling approach for 1D Cosserat beams and 2D solid surfaces, Preprint, submitted for publication, arXiv 

Articles in International Journals (with Peer-Review)

• Hagmeyer, N., Mayr, M., Steinbrecher, I., Popp, A. (2022): One-way coupled fluid-beam interaction: Capturing the effect of embedded slender bodies on global fluid flow and vice versa,  Advanced Modeling and Simulation in Engineering Sciences, 9:9, DOI (Open Access) , arXiv

• Bonari, J., Marulli, M.R., Hagmeyer, N., Mayr, M., Popp, A., Paggi, M. (2020): A multi-scale FEM-BEM formulation for contact mechanics between rough surfaces, Computational Mechanics, 65(3):731-749, DOI , arXiv

Contributions to Conference Proceedings (with Peer-Review)

• Hagmeyer N, Mayr M, Popp A: Fluid-structure interaction of slender continua with 3-dimensional flow: An embedded finite element approach, In: Proceedings in Applied Mathematics and Mechanics, 20(1):e202000244, DOI (Open Access)
• Hagmeyer, N., Mayr, M., Popp, A. (2019): A weak Dirichlet-Neumann partitioned algorithm for 1-dimensional structures embedded in a 3-dimensional fluid, In: Proceedings of the 8th GACM Colloquium on Computational Mechanics, T. Gleim, S. Lange (Eds.), Kassel University Press, Germany
• Bonari, J., Marulli, M.R., Hagmeyer, N., Mayr, M., Popp, A., Paggi, M. (2019): An interface element formulation for frictionless normal contact between rough surfaces, In: Proceedings of the 8th GACM Colloquium on Computational Mechanics, T. Gleim, S. Lange (Eds.), Kassel University Press, Germany

International Conference Contributions

• Hagmeyer, N.: A Strongly Coupled Dirichlet-Neumann Partitioned Algorithm for a Mortar-type Mixed-Dimensional Fluid-Beam Interaction Model,  92nd Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Aachen, August 15 - 19, 2022
• Hagmeyer, N.: Mixed-dimensional Modeling of Stented Arteries using Geometrically Exact Beam Theory, 15th World Congress on Computational Mechanics (WCCM) & APCOM Congress 2022, virtual congress, July 31-August 06 2022
• Hagmeyer, N.: Towards Modeling Balloon Angioplasty using Geometrically Exact Beam Theory, FE ohne Schnee, July 16-19 2022
• Hagmeyer, N.: A Mixed-dimensional Embedded Finite Element Approach for the Interaction of Fluid Flow with Fibrous Structures, 6th ECCOMAS Young Investigators Conference (YIC), virtual conference, July 07-09 2021 
• Hagmeyer, N.: A Mortar-type Finite Element Approach for Beam-like Structures Submerged in Incompressible Fluid Flow, 9th International Conference on Coupled Problems in Science and Engineering, virtual conference, June 14-16 2021
• Hagmeyer, N.: Mixed-Dimensional Immersed Finite Element Approach for the Interaction of Submerged Fibers with Fluid Flow, 91st Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), virtual conference, March 15-19 2021
• Hagmeyer, N.: A Mixed-Dimensional Fluid-Structure Interaction Formulation for Immersed Slender Bodies, ECCOMAS Congress 2020 & 14th WCCM, virtual congress, January 11-15, 2021, Video 
• Hagmeyer, N.: Interaction of Reduced-Dimensional Structures with 3-Dimensional Flow, 5th ECCOMAS Young Investigators Conference (YIC), Krakow, September 01-06, 2019
• Hagmeyer, N.: A Weak Dirichlet-Neumann Partitioned Algorithm for 1-Dimensional Structures Embedded in a 3-Dimensional Fluid, 8th GACM Colloquium on Computational Mechanics, Kassel, August 28-30, 2019
• Hagmeyer, N.: Modeling stent-type structures using geometrically exact beam theory, International Symposium Modeling, Simulation and Optimization of the Cardiovascular System (MSCS), Magdeburg, October 22-24, 2018

 

Software Projects

• BACI: A Comprehensive Multi-Physics Simulation Framework (C++)
• MIRCO: MUSAM-IMCS Rough Contact cOde (C++), github.com 
• MeshPy: A general purpose 3D beam finite element input generator (Python), github.com 

Teaching

Lectures & Labs

WT19, WT20, WT21	Statistik
HT18, HT19, HT20	Programmieren
FT18, FT19, FT20	Vertiefte Kapitel der Numerik

Supervised Student Theses

• Aakash Dhar Dwivedi: Modeling a stented artery using geometrically exact beam theory, Master thesis (in cooperation with TUM) (2022)
• Svenja Heitmann: Quantifying the influence of uncertainty in profilometric data on the contact pressure between rough surfaces, Student project (2021)
• Henrik Bartsch: Development of a shared-memory parallel solver for contact mechanics of rough surfaces, Student project (2020)
• Christoph Ritzert: Bestimmung kritischer Zeitschrittweiten in Struktur-Simulationen, Bachelor thesis (2018)