Zaccardi_Cedric

Dr.-Ing. Cédric Zaccardi

  • Karlsruher Institut für Technologie (KIT)
    Kaiserstraße 10
    Gebäude: 10.23
    76131 Karlsruhe

Forschung

surface_deutsch

My research activities deal with the study of the pressure distribution involved in a contact between two stochastic surfaces. They concern :

  • numerical surface generation from experimental profile of lathe pieces of bearings
  • non-linear contact problem with stochastic surfaces with the half-space theory

My previous research activites were focused on the error estimation and the control of a deterministic-stochastic multiscale coupling in the Arlequin framework.

Publikationen

Zaccardi C., Chamoin L., Cottereau R., Ben Dhia H.
Error estimation and model adaptation for a stochastic-deterministic coupling method based on the Arlequin framework
International Journal for Numerical Methods in Engineering. 2013
DOI: 10.1002/nme.4540

Zaccardi C., Chamoin L., Cottereau R., Ben Dhia H.
Adaptive coupling between stochastic and deterministic continuum models in the framework of the Arlequin method.
ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering.

Zaccardi C., Chamoin L., Cottereau R., Ben Dhia H.
Adaptive coupling of a stochastic continuum model with a deterministic one in the framework of the Arlequin method.
MASCOT NUM 2011 Workshop. 2011

Zaccardi C., Chamoin L., Cottereau R., Ben Dhia H.
Couplage adaptatif d'un modèle stochastique discret et d'un modèle déterministe continu par la méthode Arlequin. (In french)
10e Colloque National En Calcul Des Structures. 2011

Zaccardi C., Chamoin L., Cottereau R., Ben Dhia H.
Error estimation for the coupling between a deterministic continuum model and a stochastic discrete model in the Arlequin framework.
ADMOS 2011 - International Conference on Adaptivite Modeling and Simulation. 2011

Zaccardi C., Cottereau R., Chamoin L., Ben Dhia H..
Multiscale stochastic model and coupling with the Arlequin method.
ECCM 2010 - European Conference on Computational Mechanics