Biomechanics and Muscle Models
Zeitraum:
15.11.2011 -
31.10.2016
Status:
abgeschlossen
Muscles plays prominente role in human motion. The aim of this project is to develop, analyze and apply mathematical models for human muscles.
Projektpartner
MTI Mittelrhein, University Stuttgart
Beteiligte Einrichtungen
Mitarbeitende
- G 114
- +49 261 287 2306
- goetz at uni-koblenz.de
- H 108
- +49 0261 287-2402
- gruber at uni-koblenz.de
Literatur
Veröffentlichungen
2020
Rockenfeller2020EOS 
Rockenfeller, Robert; Günther, Michael; Stutzig, Norman; Haeufle, Daniel F. B.; Siebert, Tobias; Schmitt, Syn; Leichsenring, Kay; Böl, Markus; Götz, Thomas (2020): Exhaustion of Skeletal Muscle Fibers Within Seconds: Incorporating Phosphate Kinetics Into a Hill-Type Model. In: Frontiers in Physiology. Bd. 11. S. 306.
Rockenfeller, Robert; Günther, Michael; Stutzig, Norman; Haeufle, Daniel F. B.; Siebert, Tobias; Schmitt, Syn; Leichsenring, Kay; Böl, Markus; Götz, Thomas (2020): Exhaustion of Skeletal Muscle Fibers Within Seconds: Incorporating Phosphate Kinetics Into a Hill-Type Model. In: Frontiers in Physiology. Bd. 11. S. 306.
Rockenfeller2020PEA
Rockenfeller, Robert; Herold, J.L.; Götz, Thomas (2020): Parameter estimation and experimental design for Hill-type muscles: Impulses from optimization-based modeling. In: Mathematical biosciences. Bd. 327.
Rockenfeller, Robert; Herold, J.L.; Götz, Thomas (2020): Parameter estimation and experimental design for Hill-type muscles: Impulses from optimization-based modeling. In: Mathematical biosciences. Bd. 327.
2018
Rockenfeller2018ISM
Rockenfeller, Robert; Günther, Michael (2018): Inter-filament spacing mediates calcium binding to troponin: A simple geometric-mechanistic model explains the shift of force-length maxima with muscle activation. In: Journal of Theoretical Biology . Bd. 454. Nr. 1. S. 240-252.
Rockenfeller, Robert; Günther, Michael (2018): Inter-filament spacing mediates calcium binding to troponin: A simple geometric-mechanistic model explains the shift of force-length maxima with muscle activation. In: Journal of Theoretical Biology . Bd. 454. Nr. 1. S. 240-252.
2017
Rockenfeller2017CT“
Rockenfeller, Robert; Guenther, Michael; Schmitt, Syn; Götz, Thomas (2017): Corrigendum to “Comparative Sensitivity Analysis of Muscle Activation Dynamics”. In: Computational and Mathematical Methods in Medicine. Bd. 2017. S. 2.
Rockenfeller, Robert; Guenther, Michael; Schmitt, Syn; Götz, Thomas (2017): Corrigendum to “Comparative Sensitivity Analysis of Muscle Activation Dynamics”. In: Computational and Mathematical Methods in Medicine. Bd. 2017. S. 2.
2015
Goetz2015OPI
Götz, Thomas; Rockenfeller, Robert; Wijaya, Karunia Putra (2015): Optimization problems in epidemiology, biomechanics & medicine. In: International Journal of Advances in Engineering Sciences and Applied Mathematics. S. 25-32.
Götz, Thomas; Rockenfeller, Robert; Wijaya, Karunia Putra (2015): Optimization problems in epidemiology, biomechanics & medicine. In: International Journal of Advances in Engineering Sciences and Applied Mathematics. S. 25-32.
Rockenfeller2015OCO
Rockenfeller, Robert; Götz, Thomas (2015): Optimal Control of Isometric Muscle Dynamics. In: Journal of Mathematical and Fundamental Sciences. Nr. 1. S. 12-30.
Rockenfeller, Robert; Götz, Thomas (2015): Optimal Control of Isometric Muscle Dynamics. In: Journal of Mathematical and Fundamental Sciences. Nr. 1. S. 12-30.
Rockenfeller2015CSA
Rockenfeller, Robert; Götz, Thomas; Schmitt, Syn; Guenther, Michael (2015): Comparative Sensitivity Analysis of Muscle Activation Dynamics. In: Computational and Mathematical Methods in Medicine. Nr. Article ID 585409. S. 16.
Rockenfeller, Robert; Götz, Thomas; Schmitt, Syn; Guenther, Michael (2015): Comparative Sensitivity Analysis of Muscle Activation Dynamics. In: Computational and Mathematical Methods in Medicine. Nr. Article ID 585409. S. 16.
2014
Rockenfeller2014CDM
Rockenfeller, Robert; Guenther, Michael; Schmitt, Syn; Götz, Thomas (2014): Comparing different muscle activation dynamics using sensitivity analysis. In: arXiv.org.
Rockenfeller, Robert; Guenther, Michael; Schmitt, Syn; Götz, Thomas (2014): Comparing different muscle activation dynamics using sensitivity analysis. In: arXiv.org.
Qualifikationsarbeiten
Thjis Schütteler, M.Ed. Thesis, in progress
abgelegt unter:
Mathe-KO