Pierre JOLI

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

France

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

Short resume

2015 Qualified Professor at Université d'Evry - Val d'Essonne to supervise PhD students
2008 Associate Professor at Université d'Evry - Val d'Essonne, Laboratory LMEE
1994 Assistant Professor at Université d'Evry - Val d'Essonne, Laboratory IBISC
1993 Ph.D. of the University of Pierre and Marie Curie (Paris 6)

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

1989 Master in Structural Dynamics of Paris 6 /INSTN.
1987 Bachelor in Mechanics Applied to Construction of Paris 6

Teaching activity

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

Applied mathematics
Fluid dynamics
Modeling of structures and solids
Nonlinear mechanics
Structure dynamics

Recent administrative and collective responsibilities

Since 2014 Pedagogy Responsible for the 3rd year Bachelor of Engineering Sciences
2007-2011 Communication Responsible for the UFR Science & Technology

Forum E4 Organizer
Coordinator of the Science Festivals and Open Days

2007-2008 Team leader RVH laboratory IBISC (4 permanents, 3 PhD students)
Since 2014 Member of the Director Board of the UFR Science & Technology
Since 2014 Project Manager for the implementation of a MOOC on Robotics.
2011-2013 Project Manager for the "Competence approach" of the Evry University.

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:

Lotfi Beji “Modeling, identification and control of a parallel robot”, defended on June 12, 1997
Nicolas Séguy “Modular modeling of articulated systems and design of object-oriented simulation platforms”, defended on December 5, 2003
Nadjet Talbi “Interactive simulation with haptic feedback of deformable objects in contact”, defended on December 11, 2008
Zhuowei Chen “Numerical simulation of the dynamic behavior of the pelvic organs”, defended on June 27, 2013

Projects investigated

European project Touch HapSys – Development of soft-tissue integration demonstrator
French national project ANR/MoDyPe – Modélisation de la mobilité des organes pelviens (vessie, rectum, utérus et vagin) chez la femme
MATEO – Modélisations Artérielles et Thérapeutiques Endovasculaires assistées par Ordinateur
SINFOR Automation – Modélisation et simulation d’une boucle de régulation pour un système hydrau-mécanique, dépose de pipe-line en Mer du Nord
SINFOR Automation – Régulation d’un robot d’assemblage de tôles minces par soudage laser
BTPRincent – Modélisation et implantation sous Labview du traitement des données acoustiques d’un système d’auscultation non destructif de fondations profondes

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)