Pierre Joli

Qualified Professor, PhD Supervisor

Mechanical Engineering

Université d'Evry - Val d'Essonne

Laboratoire de Mécanique et d’Energétique d’Evry

40 rue du Pelvoux                 

91020 Evry


Email: pierre.joli@ufrst.univ-evry.fr

Short resume

Title: Contribution to the modeling of multi-body systems including contact interface

Teaching activity

I have given lectures since 1994 at Université d'Evry - Val d'Essonne, UFR Science & Technology  

Recent administrative and collective responsibilities       

Research activities

My area of expertise is the dynamic modeling of multi-body systems, especially the numerical solution of differential-algebraic systems linked to the equations of motion. One of my areas of application is the real-time simulation with haptic feedback for assistance to surgical procedures. Recently I specialized in the modeling in biomechanics involving contact and large deformation.  

I have supervised 4 PhD students:      

Projects investigated

Selected publications

·         Chen Z. W., Joli P., Feng Z.-Q., Rahim M., Pirró N., Bellemare M. E., Female patient-specific finite element modeling of pelvic organ prolapse (POP), Journal of Biomechanics, 48, 238-245 (2015)

·         Chen Z. W., Joli P., Feng Z.-Q., On the anisotropic hyperelastic behavior of soft biological tissues, Computer Methods in Biomechanics and Biomedical Engineering, PMID: 25127194, 1-9 (2014)

·         Chen Z. W., Joli P., Feng Z.-Q., Finite element modeling for the study of pelvic organ, Journal of Biomechanics, 45(1), S66 (2012)

·         Bay T., Chen Z.-W., Raffin R., Daniel M., Joli P., Feng Z.-Q.,  Bellemare M.-E., Geometric modeling of pelvic organs with thickness, Three-Dimensional Image Processing (3DIP) and Applications II, 1-14 (2012)

·         Feng Z.-Q., He Q.-C., Zeng Q.-F., Joli P., Theory of Nanoindentation, Chapter 26, Handbook of Nanophysics: Functional Nanomaterials, K. D. Sattler (Ed.), CRC Press, Taylor & Francis, (2010)

·         Feng Z.-Q., Zei M., Joli P., Mechanical and Nanomechanical Properties (Computer Modelling), Nanomaterials and Nanochemistry, C. Bréchignac, P. Houdy, M. Lahmani (Eds.), Springer (2008)

·         Joli P., Séguy N., Feng Z.-Q., A modular modeling approach to simulate interactively multibody systems with a Baumgarte/Uzawa formulation, ASME Journal of Computational and Nonlinear Dynamics, 3, 011011, 1-8 (2008)

·         Joli P., Feng Z.-Q., Uzawa and Newton algorithms to solve frictional contact problems within the bi-potential framework, International Journal for Numerical Methods in Engineering,  73, 317-330 (2008)

·         Feng Z.-Q., Magnain B., Cros J.-M., Joli P., Bi-First: A simple and efficient algorithm to identify dissipated energy in impact problems, International Journal for Simulation and Multidisciplinary Design Optimization, 1, 9-17 (2007)

·         Feng Z.-Q., Zei M., Joli P., An elasto-plastic contact model applied to nanoindentation, Computational Materials Science, 38, 807-813 (2007)

·         Feng Z.-Q., Zei M., Joli P., La Nanomécanique, Modéisation, Partie B, Chapitre IX, Nanosciences 2: Nanomatériaux et Nanochimie, M. Lahmani, C. Bréchignac, P. Houdy (Eds.), Belin (2006)

·         Feng Z.-Q., Zei M., Joli P., Simulation mécanique à micro-nano échelles, Dix Moins Neuf - La revue des nanosciences & des nanotechnologies, Techniques de l'Ingénieur, 3, 47-59 (2006)

·         Feng Z.-Q., Joli P., Cros J.-M., Magnain B., The bi-potential method applied for the modeling of dynamic problems with friction, Computational Mechanics, 36, 375 - 383 (2005)

·         Feng Z.-Q., Joli P., Séguy N., FER/Mech - A software with interactive graphics for the dynamic analysis of multibody systems, Advances in Engineering Software,  35, 1-8 (2004)