Running on uneven ground: leg adjustment to vertical steps and self-stability. The Journal of Experimental Biology, (211)Pt 18:2989-3000, 2008. [PUMA: cbb imported imsb myown]
Hill-type muscle model with serial damping and eccentric force-velocity relation. Journal of Biomechanics, (47)6:1531-1536, 2014. [PUMA: cbb imported imsb myown]
Energieabsorption, Energiespeicherung und Arbeit bei schneller Lokomotion über unebenes Terrain. In F Pfeiffer, and H Cruse (Eds.), Autonomes Laufen, 71-96, Springer, Berlin, Heidelberg, 2005. [PUMA: cbb imported imsb myown]
All leg joints contribute to quiet human stance: a mechanical analysis. Journal of Biomechanics, (42)16:2739-2746, 2009. [PUMA: cbb imported imsb myown]
Proof of concept of an artificial muscle: theoretical model, numerical model and hardware experiment. 1-6, 2011. [PUMA: cbb imported imsb myown]
Proof of concept: model based bionic muscle with hyperbolic force-velocity relation. Applied Bionics and Biomechanics, (9)3:267-274, 2012. [PUMA: cbb imported imsb myown]
Robustes Laufen: Biomechanische Grundlagenforschung für Biologie, Robotik und Sport. In H Riehle (Eds.), Biomechanik als Anwendungsforschung - Transfer zwischen Theorie und Praxis, (132):24-34, Czwalina, Hamburg, 2004. [PUMA: cbb imported imsb myown]
Computersimulationen zur Synthetisierung des muskulär erzeugten menschlichen Gehens unter Verwendung eines biomechanischen Mehrkörpermodells. Tübingen, Germany, 1997. [PUMA: cbb imported imsb myown]
Quantifying control effort of biological and technical movements: An information-entropy-based approach. Physical Review E, (89):012716, 2014. [PUMA: cbb imported imsb myown]
Robust behaviour of the human leg. In H Kimura, K Tsuchiya, A Ishiguro, and H Witte (Eds.), Adaptive Motion of Animals and Machines, 5-16, Springer, New York, 2006. [PUMA: cbb imported imsb myown]
A forward dynamics simulation of human lumbar spine flexion predicting the load sharing of intervertebral discs, ligaments, and muscles. Biomechanics and Modeling in Mechanobiology, (14)5:1081-1105, 2015. [PUMA: cbb imported imsb myown]
Electro-mechanical delay in Hill-type muscle models. Journal of Mechanics in Medicine and Biology, (12)5:85-102, 2012. [PUMA: cbb imported imsb myown]
Muscle force depends on the amount of transversal muscle loading. Journal of Biomechanics, (47)8:1822-1828, 2014. [PUMA: cbb imported imsb myown]
Human leg impact: energy dissipation of wobbling masses. Archive of Applied Mechanics, (81)7:887-897, 2011. [PUMA: cbb imported imsb myown]
Can quick release experiments reveal the muscle structure? A bionic approach. Journal of Bionic Engineering, (9)2:211-223, 2012. [PUMA: cbb imported imsb myown]
What does head movement tell about the minimum number of mechanical degrees of freedom in quiet human stance?. Archive of Applied Mechanics, (82)3:333-344, 2012. [PUMA: cbb imported imsb myown]
A 3D-geometric model for the deformation of a transversally loaded muscle. Journal of Theoretical Biology, (298):116-121, 2012. [PUMA: cbb imported imsb myown]
Synthesis of two-dimensional human walking: a test of the $łambda$-model. Biological Cybernetics, (89)2:89-106, 2003. [PUMA: cbb imported imsb myown]
A movement criterion for running. Journal of Biomechanics, (35)5:649-655, 2002. [PUMA: cbb imported imsb myown]
Inter-filament spacing mediates calcium binding to troponin: A simple geometric-mechanistic model explains the shift of force-length maxima with muscle activation. Journal of Theoretical Biology, (454):240-252, 2018. [PUMA: cbb imported imsb myown]