Dr. Robert Rockenfeller
Mathematisches Institut, Universität Koblenz
- 0261/2872307
Rockenfeller, Robert; Günther, Michael; Hooper, Scott L.
Muscle active force-length curve explained by an electrophysical model of interfilament spacingBiophysical Journal. Bd. 121. H. 10. Cambridge, MA: Cell Press 2022 S. 1823 - 1855
Rockenfeller, Robert
Muscles, Spines, CoViD–19, and Child Games: Mathematical Modeling in Biomechanics, Epidemiology, and TeachingKoblenz: Universität Koblenz 2022
Rockenfeller, Robert; Müller, Andreas
Three-dimensional analysis of individual whole spine postureThe Spine Journal. Bd. under review. 2022
Günther, Michael; Mörl, Falk; Rockenfeller, Robert
Where have the dead gone?Frontiers in Medicine. Bd. 9. Lausanne: Frontiers Research Foundation 2022 S. 837287 (4 pages)
Bock, Wolfgang; Jayathunga, Yashika; Götz, Thomas et al.
Are the upper bounds for new SARS-CoV-2 infections in Germany useful?Computational and Mathematical Biophysics. Bd. 9. H. 1. Berlin: De Gruyter 2021 S. 242 - 260
Rockenfeller, Robert; Hammer, Maria; Riede, Julia M. et al.
Intuitive assessment of modeled lumbar spinal motion by clustering and visualization of finite helical axesComputers in Biology and Medicine. Bd. 135. Amsterdam: Elsevier 2021 S. 104528 (23 pages)
Rockenfeller, Robert
Kinder-Brettspiele aus mathematischer Sicht - Modellierung und Simulation von '(Erster) Obstgarten' und 'Eins, Vier, Viele'Stochastik in der Schule. Bd. 41. H. 1. Dortmund: Universität Dortmund 2021 S. 9 - 18
Müller, Andreas; Rockenfeller, Robert; Damm, Nicolas et al.
Load distribution in subject-specific lumbar spine models during compression depends on the lordotic angleFrontiers in Bioengineering and Biotechnology. Bd. 9. Lausanne: Frontiers Research Foundation 2021 S. 661258 (12 pages)
Götz, Thomas; Mohrmann, Silja; Rockenfeller, Robert et al.
Calculation of a local COVID-19 reproduction number for the northern Rhineland-PalatinateAArxiv. 2020
Rockenfeller, Robert; Günther, Michael; Stutzig, Norman et al.
Exhaustion of Skeletal Muscle Fibers Within Seconds: Incorporating Phosphate Kinetics Into a Hill-Type ModelFrontiers in Physiology. Bd. 11. Lausanne: Frontiers Research Foundation 2020 S. 306
Rockenfeller, Robert
How to invert your classroom: Ein Leitfaden zur konkreten Umsetzung video-basierter Hochschullehre (nicht nur) in MathematikNeues Handbuch Hochschullehre. Berlin: DZU Verlags- und Medienhaus 2020 S. D 3.38
Damm, Nicolas; Rockenfeller, Robert; Gruber, Karin
Lumbar spinal ligament characteristics extracted from stepwise reduction experiments allow for preciser modeling than literature dataBiomechanics and Modeling in Mechanobiology. Bd. 19. H. 3. Berlin: Springer 2020 S. 893 - 910
Rockenfeller, Robert; Müller, Andreas; Damm, Nicolas et al.
Muscle-driven and torque-driven centrodes during modeled flexion of individual lumbar spines are disparateBiomechanics and Modeling in Mechanobiology. Bd. 20. H. 1. Berlin: Springer 2020 S. 267 - 279
Rockenfeller, Robert; Mueller, Andreas; Damm, Nicolas et al.
Muscle-driven and torque-driven centrodes during modeled flexion of individual lumbar spines are disparateBIOMECHANICS AND MODELING IN MECHANOBIOLOGY. 2020
Rockenfeller, Robert; Herold, J.L.; Götz, Thomas
Parameter estimation and experimental design for Hill-type muscles: Impulses from optimization-based modelingMathematical Biosciences. Bd. 327. New York, NY: Elsevier 2020 S. 108432 (12 pages)
Osterroth, Andreas; Rockenfeller, Robert; Müller, Philip
Flipped/Inverted Classrooms in Mathematik und Germanistik an der Universität Koblenz-LandauKoblenzer eLearning Tage. Koblenz. 2018
Rockenfeller, Robert; Günther, Michael
Inter-filament spacing mediates calcium binding to troponin: A simple geometric-mechanistic model explains the shift of force-length maxima with muscle activationJournal of Theoretical Biology. Bd. 454. Amsterdam: Elsevier 2018 S. 240 - 252
Rockenfeller, Robert; Guenther, Michael; Schmitt, Syn et al.
Corrigendum to “Comparative Sensitivity Analysis of Muscle Activation Dynamics”Computational and Mathematical Methods in Medicine. Bd. 2017. New York, NY: Hindawi 2017 S. 2
Rockenfeller, Robert; Günther, Michael
Hill equation and Hatze's muscle activation dynamics complement each other: enhanced pharmacological and physiological interpretability of modelled activity-pCa curvesJournal of Theoretical Biology. Bd. 431. Amsterdam: Elsevier 2017 S. 11 - 24
Rockenfeller, Robert; Günther, Michael
How to model a muscle’s active force–length relation: A comparative studyComputer Methods in Applied Mechanics and Engineering. Bd. 313. Amsterdam: Elsevier 2017 S. 321 - 336
Götz, Thomas; Altmeier, Nicole; Bock, Wolfgang et al.
Modeling dengue data from Semarang, IndonesiaEcological Complexity. Bd. 30. Amsterdam: Elsevier 2017 S. 57 - 62
Goetz, Thomas; Altmeier, Nicole; Bock, Wolfgang et al.
Modeling dengue data from Semarang, IndonesiaECOLOGICAL COMPLEXITY. Bd. 30. 2017 S. 57 - 62
Rockenfeller, Robert; Günther, Michael
Extracting low-velocity concentric and eccentric dynamic muscle properties from isometric contraction experimentsMathematical Biosciences. Bd. 278. H. 8. New York, NY: Elsevier 2016 S. 77 - 93
Rockenfeller, Robert
On the application of mathematical methods in Hill-type muscle modeling: stability, sensitivity and optimal controlKoblenz: Universität Koblenz-Landau 2016
Rockenfeller, Robert; Götz, Thomas; Schmitt, Syn et al.
Comparative Sensitivity Analysis of Muscle Activation DynamicsComputational and Mathematical Methods in Medicine. H. Article ID 585409. 2015 S. 16