THEME: Problème de diffraction d'onde
[34] A. Aubakirov, P. Soudais, C. Daveau, ''High-order Impedance Boundary Conditions for Coated Objects'' PIERS
2011 in Suzhou Progress in Electromagnetics Research
Symposium, 12-16 September 2011, Suzhou, China.
THEME: Problème inverse pour les équations de Maxwell
[33] C. Daveau, A. Khelifi, A. Shuschenko, D Manuel Douady, "On the
Numerical Inverse Problem of the Detection of Inhomogeneities for the
Maxwell's Equations'',
PIERS
2011 in Suzhou Progress in Electromagnetics Research
Symposium, 12-16 September 2011, Suzhou, China.
[32] C. Daveau, A. Khelifi, A. Shuschenko, ” "Numerical solution
of an inverse initial boundary value problem for the full dependent
Maxwell's equations
in presence of small inhomogeneties", soumis dans Applicable Analysis, juin 2011, [pdf].
[31] C. Daveau, A. Khelifi, ”Asymptotic behaviour of the energy
for electromagnetic systems in the presence of small
inhomogeneities, Applicable analysis,
fev 2011. [pdf]
[30] C. Daveau, "Asymptotic behaviour of the energy for electromagnetic
systems in the presence of small inhomogeneities", International
Conference
on Inverse Problems, April 25 - 29, 2010, Wuhan University, Wuhan.
[29] C. Daveau, A. Khelifi, "On an inverse problem of reconstructing an
unknown coefficientr in a second order hyperbolic equation from partial
boundary
measurements",Methods and Applications of Analysis, Vol 17, No 4 pp 1-12, december 2010, [pdf]
[28] C. Daveau, A. Khelifi, Diane Manuel Douady, ” On a hyperbolic coefficient inverse
problem via partial dynamic boundary measurements”, J. Applied
Mathematics, 2010. [pdf]
[27] Christian Daveau : "On an inverse problem for a linear heat condution problem",7th International ISAAC Congress, 2009.
[26] C. Daveau, A. Khelifi, A. Shuschenko, ” Reconstruction of
closely spaced small inhomogeneities via boundary measurements for the
full time-dependent
Maxwells equations”, Applied Model, no. 3, 1719-1728, 2009. [pdf]
[25] C. Daveau, A. Khelifi, A. Shuschenko, ” Reconstruction of
closely spaced small inhomogeneities for the full time-dependent
Maxwells equations”,
Proceedings, Aplimat, fév 2009. [pdf]
[24] C. Daveau, A. Khelifi, “ On the perturbation of the
electromagnetic energy due to the presence of inhomogeneities with
small diameters,” CRAS, 2008.[pdf]
THEME: Problème inverse pour les équations en acoustique
[23] C. Daveau, A. Khelifi, Anton Sushchenko, ''Identifying of
the refractive index for the acoustic equation at fixed frequence,
Syst. Theory: Model.
Anal. and Control, Fez, 2009.
[22] C Daveau, A. Kheli, A. Sushchenko, An inverse problem of
identifying locations of small volume perturbations of the refractive
index for the acoustic
equation at fixed frequency, CIRM09, Marseille,
fev 2009.
THEME: Tomographie
[21] Renard F.., Nguyen M.K., Sushchenko A, Daveau C., ”New
Methods for non destructive evaluation using scattered gamma
ray”, Proceedings,
Cofrend, Toulouse, 2008.
THEME : METHODE DISCONTINUE DE GALERKIN POUR LES EQUATIONS DE MAXWELL
[20] C. Daveau, A. Zaghdani, “ Mixed discontinuous
Galerkin Method for the Three electrostatic problem”. The International Journal of pure and Applied
Mathematics, Vol 69, No 4, pp 357-367, 2011, [pdf].
[19]
C. Daveau, A. Riaz '' A New symmetric Discontinuous Galerkin
Formulation for the time dependent Maxwell's equation'', AIP Conf
Proc.,
1821, 317 (2010).
[18] C .Daveau, Azba Riaz, "A New Symmetric Discontinuous Galerkin Formulation For Maxwell's equations, ICNAAM, Greece, 2010.
[17] C. Daveau, A. Zaghdani, “On the coupling of LDG-FEM and BEM
methods for
the Three Dimensional Magnetostatic problem”, Applied
Mathematics and
Computation, Volume 217, Issue 5, 1 Novembre
2010, Pages 1791-1810.[pdf]
[16] C. Daveau, Essayed," Local Discontinuous Galerkin Method for
scalar conservative laws", Far East
Journal of Applied Mathematics, fev 2010.
[15] C. Daveau, A. Zaghdani, '' A hp-Discontinuous
Galerkin Method for the the time dependent Maxwell's equation:
error a priori Estimate'',
AIP Conf. Proc. 1148, 756 (2009) .
[14] C. Daveau, Construction of an interpolant operator. Application to
the three dimensional electrostatic problem”, Applied
Mathematical Letters, vol 22,
Issue 11, Nov 2009, Pages 1685-1689. [pdf]
[13] C. Daveau, A. Zaghdani, “ A hp-Discontinuous Galerkin Method
for the time dependent Maxwell’s Equations: a priori error
estimate,” Journal of Applied
Mathematics and Computing, 2009.
[12] C. Daveau, A.Zaghdani, “ Two Discrete Inequalities of
Poincaré-Friedrichs in Discontinuous Spaces for Maxwell’s
Equations,”. C. Acad. Sci, Paris,
Ser. I 342 (2006). [pdf]
THEME : METHODES INTEGRALE ET DES ELEMENTS FINIS MIXTES POUR LA MAGNETOSTATIQUE
[11] C. Daveau, M. Menad, “Comparison of several discretization
methods of the Steklov-Poincar´e operator,”, Int. J. of
Numer. Model. 2006; 19:271-287.
[10] C. Daveau et M. Menad, “Mixed FEM and BEM Coupling for the
Three Dimensional Magnetostatic Problem, Num. Meth. For Partial
Differential Equ., 2003
[9] C. Daveau, J. Laminie, “ Mixed and Hybrid Formulations For
The Three-Dimensional Magnetostatic Problem,” Num. Methods For
Partial Differential
Equation, Mai 2001, pp 85-104.
[8] C. Daveau, “Analyse d’une formulation mixte en
magnétostatique linéaire”, Revue Europ´eenne
des Eléments Finis, mars 2000, pp 612-620
[7] B. Bandelier, C. Daveau, J. Laminie, S. M. Mefire, F.
Rioux-Damidau, Three-Dimensional Magnetostatic Problem , Int. J. Numer, Meth. Engng., vol 46, 1999, pp.117-130.
[6] B. Bandelier, C. Daveau, F. Rioux-Damidau, “An h-formulation
for the computation of magnetic fields. Implementation by combining a
finite element method and a boundary element method,” J. Phys III France, (3)
1993, pp 995-1004.
[5] B. Bandelier, C. Daveau, P. Ashtiani, A. Rais, F. Rioux-Damidau,
“ Use of stream functions for the computation of currents in thin
circuits. Determination of the impedances”, IEEE Trans. Mag-36,
2000, pp.760-764.
[4] C. Daveau, F. Rioux-Damidau, “ A New (e-h) Formulation
Coupling a Finite Element Method and a Boundary Integral Method for the
Computation
of the Interaction of Waves with a Conducting Domain,” IEEE Trans.Mag, Vol 35, No.2, march 1999.
[3] B. Bandelier, C. Daveau, F. Rioux-Damidau, “Several Mixed
Finite Element Techniques for Magnetostatics,” IEEE Trans. Mag.,
35, may 1999, pp 1175-1178.
[2] B. Bandelier, C. Daveau, F. Rioux-Damidau, “Specific
Formulation for High Frequency Eddy-Current,” IEEE Trans. Mag.,
35, may 1999, pp 1171-1174.
[1] B. Bandelier, C. Daveau, F. Rioux-Damidau, “A New
h-Formulation for Nonlinear Magnetostatics in R3,” IEEE Trans.
Mag., 30, 1994, pp 2889-2892.