Christian Duriez
Research Scientist
INRIA Futurs, projet ALCOVE

Address:
Bâtiment IRCICA
Parc Scientifique de la Haute Borne
50, avenue Halley B.P. 70478
59655 Villeneuve d’Ascq Cedex France

Phone: +33 (0)3.62.53.15.71
Email: christian . duriez @ inria. fr


- Projects - Research Publications - Writing -


SOFA

I am a member of the team that creates the SOFA framework
SOFA is an Open Source framework primarily targeted at real-time simulation, with an emphasis on medical simulation. It is mostly intended for the research community to help develop newer algorithms, but can also be used as an efficient prototyping tool.

Associate publications

  • Jérémie Allard, Stéphane Cotin, François Faure, Pierre-Jean Bensoussan, François Poyer, Christian Duriez, Hervé Delingette and Laurent Grisoni SOFA - an Open Source Framework for Medical Simulation Medecine Meets Virtual Reality (MMVR'15), pp. 13-18, 2007.
  • Maud Marchal, Jérémie Allard, Christian Duriez, and Stéphane Cotin Towards a Framework for Assessing Deformable Models in Medical Simulation Proceedings of the International Symposium on Computational Models for Biomedical Simulation (ISBMS), 2008


PASSEPORT: European project

PASSPORT for Liver Surgery is a european FP7 project . It aims at offering a patient-specific modelling of the liver that combines anatomical, mechanical, appearance and biological preoperative modelled information in a unified model of the patient. This first complete "Virtual liver" will be developed in the Open Source Framework SOFA allowing vertical integration of biomedical data, from macroscopic to microscopic patient information.



SIMPLE: SIMulation for PLanning the Embolization of intracranial aneurisms

In this project, we develop a prototype of a simulation tool for planning a coil embolization with interventional radiology. This simulation tool would be available in the operating room, reliable, adapted to the patient's anatomy and physiology and would help to plan the coil placement.
The SIMPLE project, is an INRIA cooperative research action (ARC), aims at developing methods to simulate coil deployment in an intracranial aneurism, running in real time and adaptable to any patient data.

Associate publications

  • Jérémie Dequidt, Maud Marchal, Christian Duriez, Erwan Kerrien, and Stéphane Cotin Interactive Simulation of Embolization Coils: Modeling and Experimental Validation Proceedings of the International Conference on Medical Image Computing and Computer Assisted Intervention (MICCAI), 2008


VORTISS: ANR project

The VORTISS project aims at designing a robust and unified model which allows a faithful restitution of the shape and behaviour of organs in surgical simulators. This model relies on a coupling between several components: a precise geometric and visually realistic model of the organ which is reconstructed from medical images, a rigorous topological model allowing incisions, cuttings, tearings and destruction while assuming the structure consistency, a hybrid mechanical model and an interaction model which is adapted to deformable bodies with variable topology and allows the control of haptic devices.

Associate publications

  • Guillaume Saupin, Christian Duriez, Stéphane Cotin Contact model for haptic medical simulation Proceedings of the International Symposium on Computational Models for Biomedical Simulation (ISBMS), 2008


Reactive: ANR project

The Reactive project is focused on using VR technics for patient rehabilitation.

Associate publications

  • Christian Duriez, Hadrien Courtecuisse, Juan-Pablo de la Plata Alcalde, Pierre-Jean Bensoussan Contact skinning short paper in the proceedings of Eurographics 2008