Accéder directement au contenu Accéder directement à la navigation
Bienvenue dans la collection du Laboratoire de Mathématiques
J.A. Dieudonné - UMR 7351




A partir de cette page, vous pouvez :

 

DERNIERS DÉPÔTS

Chargement de la page

 


 

NOMBRE DE DOCUMENTS

2 891

NOMBRE DE NOTICES

1 672

EVOLUTION DES DÉPÔTS

RÉPARTITION DES DÉPÔTS PAR TYPE DE DOCUMENT

Open Access LJAD

77 %

 

Mots clés

Inverse problems Fractional BV spaces Wave propagation Finite volume methods Numerical analysis Image segmentation Finite volumes Maxwell equations Nonlinear water waves Équations de Maxwell Finite element method Large deviations Shallow water Stability Isogeometric analysis Chaos Data completion CFD Stabilité Implicitization Seismic imaging Scalar conservation laws Game theory Harmonic domain Dynamical systems Modélisation Entropy solution Optimal control Classification Well-balanced scheme Convergence Finite element NAVIER-STOKES EQUATIONS Chemotaxis Maxwell's equations Finite elements Discontinuous Galerkin methods Model selection Gibbs distributions Elastic waves Bifurcations Electromagnetics Euler equations Normal forms Source terms Hyperbolic systems PDE Nonlinear vibrations Optimisation Finite volume Level sets Interpolation Convergence analysis Plasma equilibrium Partial differential equations Asymptotic analysis Coextrusion Nonlinear elliptic equations Descent direction Finite volume scheme Domain decomposition methods EDP Operad Periodic solutions Conservation laws Operads Discontinuous Galerkin method Bifurcation theory Finite volume schemes Parallel computing Hydrostatic reconstruction Shape optimization VOLUMES FINIS Density estimation Complexity Hybridizable discontinuous Galerkin method Aerodynamics Water waves Adaptive estimation Optimization Normal form Tokamak Small divisors Boundary conditions Nanophotonics Shallow water equations Discontinuous Galerkin Blow-up Domain decomposition Finite volume method Interacting particle systems Simulation Harmonic numbers Solitary waves Turbulence Segmentation Friction Workflows Consistency Inverse problem