Dr.-Ing. Christian Kleinbach

Menschmodelle für die aktive und passive Fahrzeugsicherheit

Kleinbach, C.: Simulation of Occupant Kinematics using Active Human Body Models. Schriften aus dem Institut für Technische und Numerische Mechanik der Universität Stuttgart, Nr. 60. Aachen: Shaker, 2019.

• Kleinbach, C.: Modellierung und Messung der nichtlinearen Steifigkeitseigenschaften des Ringbands, Studienarbeit STUD-371. Institut für Technische und Numerische Mechanik, Universität Stuttgart, 2012.
• Kleinbach, C.: Mehrkörpersimulation zur Ermittlung von dynamischen Lagerkräften, Studienarbeit IMA2013-AN-5. Institut für Maschinenelemente, Universität Stuttgart, 2013.
• Kleinbach, C.: Stabilitätsuntersuchung eines mechanischen reibbehafteten dynamischen Systems im Zeitbereich, Diplomarbeit DIPL-211. Institut für Technische und Numerische Mechanik, Universität Stuttgart, 2014.
• Fehr, J.; Köhler, J.; Kleinbach, C.: Optimal Forces for the Deceleration of the ES-2 Dummy. Proceedings of the 10th European LS-DYNA Conference 2015, Würzburg, Deutschland
• Fehr, J.; Kleinbach, C.: A Comparison between Finite Element Models and MBS Models in Automotive Safety Applications. Proceedings of the ECCOMAS Thematic Conference on Multibody Dynamics, Barcelona, Catalonia, Spain, Juni 29 - Juli 2, 2015
• Feller, L.; Kleinbach, C.; Fehr, J.; Schmitt, S.: Incorporating Muscle Activation Dynamics into the Global Human Body Model. Proceedings of IRCOBI Conference, 2016. Awarded The Best SimTech PhD Student Publication 2016.
• Fehr, J.; Fuhrer, J.; Kleinbach, C.; Hanss, M.; Eberhard, P.: Fuzzy-Based Analysis of a Hill-Type Muscle Model, PAMM Proceedings in Applied Mathematics and Mechanics, Vol. 16, pp. 31–34, 2016, (DOI: 10.1002/pamm.201610009).
• Kleinbach, C.; Fehr, J.: Optimal Deceleration of Surrogate Models in a Generic Side Impact Setup. International Journal of Crashworthiness, 2017. (DOI: 10.1080/13588265.2017.1287525).
• Kleinbach, C.; Martynenko, O.; Promies, J.; Haeufle, D.F.B.; Fehr, J.; Schmitt, S.: Implementation and Validation of the Extended Hill-type Muscle Model with Robust Routing Capabilities in LS-DYNA for Active Human Body Models. BioMedical Engineering OnLine, Vol. 16, Issue 109 , 2017. (DOI: 10.1186/s12938-017-0399-7, supplementary material is available here: DOI: 10.5281/zenodo.826209).
• Martynenko, O.; Kleinbach, C.; Hammer, M.; Haeufle, D.F.B.; Mayer, C.; Schmitt, S.: Advanced Hill-type Muscle model as User Defined Material in LS-DYNA with Routing Capability for Application in Active Human Body Models. Proceedings of IRCOBI Conference, 2017.
• Fehr, J.; Kempter, F.; Kleinbach, C.; Schmitt, S.: Guiding Strategy for an Open Source Hill-type Muscle Model in LS-Dyna and Implementation in the Upper Extremity of a HBM. Proceedings of IRCOBI Conference, 2017.
• Kleinbach, C.; Fehr, J.: Comparison of Muscle Activated HBMs in a Lane Change Manoeuvre. Proceedings of IRCOBI Conference, 2017.
• Kleinbach, C.; Fehr, J.; Brolin, K.: Simulation of Average Female Rear-End Volunteer Tests using the Active ViVA OpenHBM. Proceedings of IRCOBI Conference, 2018.
• Martynenko, O.; Kempter, F.; Kleinbach, C.; Schmitt, S.; Fehr, J.: Integrated Physiologically Motivated Controller for the Open‐Source Extended Hill‐type Muscle Model in LS‐DYNA. Proceedings of IRCOBI Conference, 2018.
• Martynenko, O.; Kempter, F.; Kleinbach, C.; Schmitt, S.; Fehr, J.: Development of an Internal Physiological Muscle Controller Within an Open-source Hill-type Material Model in LS-DYNA. PAMM Proceedings in Applied Mathematics and Mechanics, Vol. 18, 2018.