Dr.-Ing. Lukas Bruder

Contact

• lukas.bruder@tum.de
• Google scholar, ORCID

Research interests

• Biomechanical Modeling and Simulation
• Uncertainty Quantification
• Inverse Problems
• Surrogate modeling
• Bayesian methods
• Machine Learning & Statistical analysis

Academic background

PhD Thesis

• Bruder, L. (2022): Biomechanical assessment of abdominal aortic aneurysm rupture risk and growth using clinical data: a probabilistic approach, https://mediatum.ub.tum.de/1639063

Peer-Reviewed Journal Articles

• Bruder, L., Pelisek, J., Eckstein, H.-H., Gee, M.W. (2020): Biomechanical rupture risk assessment of abdominal aortic aneurysms using clinical data: a patient-specific, probabilistic framework and comparative study, PLOS ONE, 10.1371/journal.pone.0242097
• Bruder, L., Gee, M.W., Wildey, T. (2020): Data-consistent Solutions to Stochastic Inverse Problems using a Probabilistic Multi-fidelity Method Based on Conditional Densities, International Journal for Uncertainty Quantification, 10.1615/Int.J.UncertaintyQuantification.2020030092
• Bruder, L., Reutersberg, B., Bassilious, M., Schüttler, W., Eckstein, H.-H., Gee, M.W. (2019): Methoden der künstlichen Intelligenz in der vaskulären Medizin - Status quo und Ausblick am Beispiel des AAAs, Gefässchirurgie, 10.1007/s00772-019-00574-7
• Bruder, L., Koutsourelakis, P.S. (2018): Beyond black-boxes in Bayesian inverse problems and model validation: applications in solid mechanics of elastography, International Journal for Uncertainty Quantification, 10.1615/Int.J.UncertaintyQuantification.2018025837

Conference Contributions with Abstract

• Bruder, L., Pelisek, J., Eckstein, H.-H., Gee, M.W.: A data-informed, patient-specific framework for the quantification of abdominal aortic aneurysm rupture risk, WCCM-ECCOMAS Virtual Congress, January 11-15, 2021
• Bruder, L., Wildey, T.M., Pelisek, J., Eckstein, H.-H., Gee, M.W.: Parameter identification and uncertainty quantification for the predictive simulation of abdominal aortic aneurysm growth, UNCECOMP - International Conference on Uncertainty Quantification in Computational Sciences and Engineering, Crete, Greece, June 24-26 2019
• Bruder, L., Pelisek, J., Eckstein, H.-H., Gee, M.W.: Towards fully patient-specific non-invasive rupture risk estimation of abdominal aortic aneurysms, ECCM - European Conference on Computational Mechanics, Glasgow, UK, June 11-15, 2018

Teaching

• Engineering Mechanics 1 Tutorials (WS17/18, WS18/19, WS19/20)
• Engineering Mechanics 2 Tutorials (SS17, SS18, SS19, SS20)

Supervised student projects / Theses

• Model-based inverse analysis of experimental tensile testing data from AAA tissue samples, Bachelor's Thesis (2020)
• Input dimensionality reduction of parameterized computational models using active subspaces, Bachelor's Thesis (2020)
• Development and investigation of a parameterized artificial AAA model, Bachelor's Thesis (2020)
• Geometrically Nonlinear Topology Optimization, Master's Thesis (2020)
• Variance-based global sensitivity analysis using Sobol’s method, Bachelor's Thesis (2019)
• Krankheitsbild Aortenaneurysma - computergestützte Risikobewertung, TUMKolleg Forschungsarbeit (2018)
• Implementierung und Validierung verschiedener Ansätze zur Vermeidung von Locking-Effekten in dünnwandigen, inkompressiblen Strukturen, Semester Thesis (2018)
• Segmentation of Abdominal Aortic Aneurysms with Artificial Neural Networks & Methods of Deep Learning, Master's Thesis (2018)
• AAA Parameter Regression using Bayesian Machine Learning, Bachelor's Thesis (2018)
• Towards automated segmentation of abdominal aortic aneurysm CT data using convolution neural networks, MSE Research Internship (2017)
• Untersuchung des Einflusses des Finite-Element-Netzes auf die Spannungsverteilung in abdominalen Aortenaneurysmen, MSE Research Internship (2017)