Decoding Rejuvenating Effects of Mechanical Loading on Skeletal Aging using in Vivo microCT Imaging and Deep Learning. Acta Biomaterialia, Elsevier, 2020. [PUMA: exc2075 pn2 simtech]
A NanoFE Simulation-based Surrogate Machine Learning Model to Predict Mechanical Functionality of Protein Networks from Live Confocal Imaging. Computational and Structural Biotechnology Journal, (18):2774 - 2788, Elsevier, 2020. [PUMA: cbm exc2075 pn2 simtech] URL
A Systematic Review and Meta-Analysis on the Longitudinal Effects of Unilateral Knee Extension Exercise on Muscle Strength. Frontiers in Sports and Active Living, (2)Frontiers Media SA, November 2020. [PUMA: CBM EXC2075 PN2 myown] URL
Modelling the electrical activity of skeletal muscle tissue using a multi-domain approach. Biomechanics and Modelling in Mechanobiology, (19):335–349, 2020. [PUMA: EXC2075 cbm dihu myown pn2 simtech]
Characterization of electromechanical delay based on a biophysical multi-scale skeletal muscle model. Frontiers in Physiology, 2019. [PUMA: cbm dihu myown simtech]
Biomechanics. In Wolfgang Ehlers, Bernd Markert, and Oliver Röhrle (Eds.), GAMM-Mitteilungen, 2009. [PUMA: book cbm chapter myown simtech]
Modellierung und Simulation als Werkzeug für das Design von Mensch-Maschine-Systemen: Modellierung und Simulation als Werkzeug für das Design von Mensch-Maschine-Systemen. 178-184, Springer Vieweg, Berlin, 2015. [PUMA: book cbm chapter myown simtech]
Skeletal Muscle Modelling. Encyclopaedia for Continuum Mechanics Section Biomechanics, 2018. [PUMA: book cbm chapter simtech]
Mobile radar-basierte Umgebungsvermessung unter Anwendung von Sensorfusion mittels Intrarotkamera und Inertialsensorik. 2015. [PUMA: attract myown patent]
Modelling the Neuromuscular System. September 2015. [PUMA: PhD-CBM cbm]
A 3D Continuum-Mechanical Model for Forward-Dynamics Simulations of the Upper Limb. October 2015. [PUMA: PhD-CBM cbm]
Multiscale modeling of the neuromuscular system: Coupling neurophysiology and skeletal muscle mechanics. Wiley Interdisciplinary Reviews: Systems Biology and Medicine, e1457, John Wiley & Sons, Inc. Hoboken, USA, 2019. [PUMA: CEM DiHu SimTech cbm myown review]
Bridging scales: An attempt to incorporate cellular responses within a three-dimensional FEM model of active muscle contraction. PAMM: Proceedings in Applied Mathematics and Mechanics, (7)1:4020013--4020014, 2007. [PUMA: abi cbm cem imported myown pamm]
Towards realistic HPC models of the neuromuscular system. arXiv preprint arXiv:1802.03211, 2018. [PUMA: archive cbm dihu exclude imported myown simtech]
Simulating the electro-mechanical behavior of skeletal muscles. Computing in Science & Engineering, (12)6:48--58, IEEE, 2010. [PUMA: abi cbm cem imported myown simtech]
POD-DEIM Model Order Reduction for the Monodomain Reaction-Diffusion Sub-Model of the Neuro-Muscular System. IUTAM Symposium on Model Order Reduction of Coupled Systems, Stuttgart, Germany, May 22--25, 2018, 177--190, Springer International Publishing, 2020. [PUMA: cbm conf-long dihu imported myown simtech]
Analysis of Physcomitrella chloroplasts to reveal adaptation principles leading to structural stability at the nano-scale. Biomimetic Research for Architecture and Building Construction, 261--275, Springer, Cham, 2016. [PUMA: book cbm chapter imported myown]
Gewichtete Finite Differenzenverfahren für Evolutionsprobleme. 2000. [PUMA: imported mymasterthesis myown]
Multiscale skeletal muscle modeling: from cellular level to a multi-segment skeletal muscle model of the upper limb. Computer models in biomechanics, 103--116, Springer, Dordrecht, 2013. [PUMA: book cbm chapter erc imported lead myown]
The virtual physiological human conference 2016. Journal of computational science, (24):65--67, 2018. [PUMA: cbm imported myown]