Institut de Biomécanique Humaine Georges Charpak (IBHGC)

 


L'Institut de Biomécanique Humaine Georges Charpak fait suite au Laboratoire de Biomécanique (LBM) de l’ENSAM crée en 1979 et est situé sur le Campus parisien d’ARTS ET MÉTIERS ParisTech.

L'Institut est certifié ISO 9001 depuis le 27 juillet 2009 dans un périmètre couvrant Recherche, Formation, Relations Industrielles et Valorisation. La recherche partenariale ou les prestations de valorisation sont gérées dans le cadre de l'Institut Carnot ARTS.


Voir le site du laboratoire :
http://biomecanique.ensam.eu/

Soumissions récentes

  • Human Head and Neck Kinematics during Autonomous and Human Braking in Three Initial Head Positions 
    Article dans une revue avec comité de lecture
    MACKENZIE, Jamie; DUTSCHKE, Jeffrey; DI LORETO, Cédric; FORREST, Matthew; VAN DEN BERG, Andrew; MERIENNE, Frédéric; CHARDONNET, Jean-Rémy; SANDOZ, Baptiste (SAE International, 2022-03-28)
    Whiplash injuries resulting from vehicle collisions are still a significant socio-economic issue across the world. Years of research has resulted in the development of injury criteria, restraint systems and a deeper ...
  • A penalty method for constrained Multibody kinematics optimisation using a Levenberg-Marquardt algorithm 
    Article dans une revue avec comité de lecture
    LIVET, Claire; ROUVIER, Théo; SAURET, Christophe; PILLET, Hélène; DUMONT, Georges; PONTONNIER, Charles (Taylor & Francis, 2022)
    An alternative method for solving constrained Multibody kinematics optimisation using a penalty method on constraints and a Levenberg-Marquardt algorithm is proposed. It is compared to an optimisation resolution with hard ...
  • Manual wheelchair biomechanics while overcoming environmental barriers: a systematic review 
    Article dans une revue avec comité de lecture
    ROUVIER, Théo; LOUESSARD, Aude; HYBOIS, Samuel; SIMONETTI, Emeline; BASCOU, Jospeh; PONTONNIER, Charles; PILLET HÉLÈNE, /; SAURET, Christophe (Public Library of Science, 2022-06-23)
    During manual wheelchair (MWC) locomotion, the user's upper limbs are subject to heavy stresses and fatigue because the upper body is permanently engaged to propel the MWC. These stresses and fatigue vary according to the ...
  • Finite element analysis of the stump-ischial containment socket interaction: a technical note 
    Article dans une revue avec comité de lecture
    FOUGERON, Nolwenn; ROHAN, Pierre-Yves; ROSE, Jean-Loïc; BONNET, Xavier; PILLET, Hélène (Elsevier BV, 2022-07)
    The role of the above-knee socket is to ensure the load transfer via the coupling of residual limb-prosthesis with minimal discomfort and without damaging the soft tissues. Modelling is a potential tool to predict socket ...
  • How Was Studied the Effect of Manual Wheelchair Configuration on Propulsion Biomechanics: A Systematic Review on Methodologies 
    Article dans une revue avec comité de lecture
    FRITSCH, Capucine; POULET, Yoann; BASCOU, Joseph; THOREUX, Patricia; SAURET, Christophe (Frontiers Media SA, 2022-05)
    Background : For both sports and everyday use, finding the optimal manual wheelchair (MWC) configuration can improve a user's propulsion biomechanics. Many studies have already investigated the effect of changes in MWC ...
  • The rib cage: a new element in the spinopelvic chain 
    Article dans une revue avec comité de lecture
    KHALIFÉ, Marc; VERGARI, Claudio; FERRERO, Emmanuelle; ATTALI, Valérie; HEIDSIECK, Cécile; ASSI, Ayman; SKALLI, Wafa (Springer Science and Business Media LLC, 2022-05-02)
    Introduction: This study analyzes anatomical variations of the thoracic cage (TC) according to spinopelvic alignment, age and gender using stereoradiography in erect position. Methods: This retrospective multicentric ...
  • Cortex tissue relaxation and slow to medium load rates dependency can be captured by a two-phase flow poroelastic model 
    Article dans une revue avec comité de lecture
    URCUN, Stéphane; ROHAN, Pierre-Yves; SCIUMÈ, Giuseppe; BORDAS, Stéphane P.A. (Elsevier BV, 2021)
    This paper investigates the complex time-dependent behavior of cortex tissue, under adiabatic condition, using a two-phase flow poroelastic model. Motivated by experiments and Biot’s consolidation theory, we tackle ...

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