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Numerical modelling of a peripheral arterial stenosis using dimensionally reduced models and kernel methods

T. Köppl, G. Santin, B. Haasdonk, and R. Helmig. International Journal for Numerical Methods in Biomedical Engineering, 34 (8): e3095 (2018)e3095 cnm.3095.
DOI: 10.1002/cnm.3095

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PD Dr. rer. nat. Tobias Köppl University of Stuttgart

Tobias Köppl

Tobias Menold University of Stuttgart

Tobias Eisenreich University of Stuttgart

Tobias Rentschler University of Stuttgart

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A 1D-0D-3D coupled model for simulating blood flow and transport processes in breast tissue.M. Fritz, T. Köppl, J. Oden, A. Wagner, B. Wohlmuth, and C. Wu. CoRR, (2022)Hybrid Models for Simulating Blood Flow in Microvascular NetworksE. Vidotto, T. Koch, T. Köppl, R. Helmig, and B. Wohlmuth. Multiscale Modeling & Simulation, 17 (3): 1076-1102 (2019)A multi-scale model for mass transport in arteries and tissueT. Köppl, R. Helmig, and B. Wohlmuth. Recent Trends in Computational Engineering - CE2014 : Optimization, Uncertainty, Parallel Algorithms, Coupled and Complex Problems, 105, page 197-213. Cham, Springer, (2015)A local error estimate for the Poisson equation with a line source termT. Köppl, E. Vidotto, and B. Wohlmuth. Numerical Mathematics and Advanced Applications - ENUMATH 2015, 112, page 421-429. Cham, Springer, (2016)Numerical modelling of a peripheral arterial stenosis using dimensionally reduced models and machine learning techniques.T. Köppl, G. Santin, B. Haasdonk, and R. Helmig. CoRR, (2018)Numerical modelling of a peripheral arterial stenosis using dimensionally reduced models and kernel methodsT. Köppl, G. Santin, B. Haasdonk, and R. Helmig. International Journal for Numerical Methods in Biomedical Engineering, 34 (8): e3095 (2018)e3095 cnm.3095.Numerical modelling of a peripheral arterial stenosis using dimensionally reduced models and kernel methodsT. Köppl, G. Santin, B. Haasdonk, and R. Helmig. University of Stuttgart, (2017)Simulation of Surge Reduction Systems Using Dimensionally Reduced ModelsT. Köppl, M. Fedoseyev, and R. Helmig. Journal of Hydraulic Engineering, 145 (1): 04018079 (2019)Numerical modeling of compensation mechanisms for peripheral arterial stenosesD. Drzisga, T. Köppl, U. Pohl, R. Helmig, and B. Wohlmuth. Computers in biology and medicine, (2016)Model reduction techniques for simulating complex flow processesT. Köppl. Universität Stuttgart, Stuttgart, Habilitationsschrift, (2020)