N. Soient and . {1, N d d puissances entières de 2 et N l'entier pair tel que, d} et tout m j ? {1, . . . , N j }

A. E. Formules, . Pour-l-'estimation, . De-la, D. Moyenne, . Vectoriel et al., Piccioli-Use of a reverberating enclosure for measurements of radiated power in the microwave range, IEEE Trans. Electromagn. Compat, vol.18, issue.1 2, pp.54-59, 1976.

D. A. Hill, M. T. Ma, A. R. Ondrejka, B. F. Riddle, M. L. Crawford et al., Aperture excitation of electrically large, lossy cavities, IEEE Transactions on Electromagnetic Compatibility, vol.36, issue.3, pp.169-177, 1994.
DOI : 10.1109/15.305461

P. Corona, G. Ferrara, and M. , Migliaccio-Reverberating chambers as sources of stochastic electromagnetic fields-IEEE Trans, Electromagn. Compat, vol.38, issue.1, p.138, 1995.

U. Carlberg, P. S. Kildal, and A. A. , Kishk-Fast numerical Model of Reverberation Chambers with metal stirrers using moment method and cavity Green's function calculated by Ewald summation, IEEE AP-S International Symposium, 2006.

J. H. Beggs and K. S. , Yee-Finite-Difference Time-Domain implementation of surface impedance boundary conditions-IEEE Trans, 1992.

J. Lefèvre, J. V. Hagen, D. Lecointe, and W. , Tabbara-Coupling of electromagnetic energy to a scatterer inside a cavity : a combined statistical and integral representation approach- Radio Science, pp.427-434, 2000.

R. Holland and R. H. St, Statistical EM field models in an externally illuminated, overmoded cavity, IEEE Transactions on Electromagnetic Compatibility, vol.43, issue.1, pp.56-66, 2001.
DOI : 10.1109/15.917938

R. H. St and R. John, Holland-Field-component statistics of externally illuminated overmoded cavities-IEEE Trans, Electromagn. Compat, vol.42, issue.2, pp.125-134, 2000.

R. H. St and R. John, Holland-Statistical response of em-driven cables inside an overmoded enclosure-IEEE Trans, Electromagn. Compat, vol.40, issue.4, pp.311-324, 1998.

C. Fiachetti, Modèles du champ électromagnétique aléatoire pour le calcul du couplage sur un équipement électronique en chambre réverbérante à brassage de modes et validation expérimentale, Thèse université de Limoges, 2002.

J. G. Kostas and B. , Boverie-Statistical model for a Mode-Stirred Chamber-IEEE Trans, Electromagn. Compat, vol.33, issue.4, 1991.

F. J. Jr, Massey-A note on the estimation of distribution function by confidence limits - Annals of Mathematical Statistics, 1950.

F. J. Jr and . Massey-, The Kolmogorov-Smirnov test for goodness of fit-Journal of the American Statistical Association -253-Mars, pp.1951-68

R. H. Price, H. T. Davis, and E. P. , Wenass-Determination of the statistical distribution of electromagnetic field amplitudes in complex cavities-Physical Review, pp.4716-4729, 1993.

F. Paladian, K. Kerroum, and J. , Fontaine-Prise en compte de l'influence des brins verticaux d'une ligne aéro-souterraine dans le formalisme des lignes de transmission-Actes du 8ème colloque international et exposition sur la compatibilité électromagnétique, pp.70-74, 1996.

J. M. Ladbury and K. , Goldsmith-Reverberation chamber verification procedures, or, how to check if your chamber ain't broke and suggestions on how to fix it if it is, IEEE International Symposium on EMC, vol.1, pp.17-22, 2000.

B. -. Jansson, Directivity of Equipment and its effect on testing in Mode-Stirred and Anechoic Chamber-Proc.of IEEE, Intl.Symp.on EMC, vol.1, pp.17-22, 1999.

. Freyer, Bäckström-Comparison of anechoic and reverberation chamber coupling data as a function of directivity pattern-Proc, 2000.

. Freyer, Bäckström-Comparison of anechoic and reverberation chamber coupling data as a function of directivity pattern -Part II-Proc, 2001.

R. Vernet-, Approches mixtes théorie/expérimentation pour la modélisation numérique de chambres réverbérantes à brassages de modes-Thèse de doctorat de l, 2006.

L. Musso, V. Berat, F. Canavero, and B. , Demoulin-Etude pour l'utilisation d'une chambre réverbérante dans le domaine industriel automobile-11ème Colloque International de Compatibilité Electromagnétique, CEM'02, pp.12-14, 2002.

F. Petit, Modélisation et simulation d'une chambre réverbérante à brassage de modes à l'aide de la méthode des différences finies dans le domaine temporel-Thèse de doctorat, 2002.

P. Corona, G. Ferrara, and M. , A spectral approach for the determination of the reverberating chamber quality factor, IEEE Transactions on Electromagnetic Compatibility, vol.40, issue.2, pp.145-153, 1998.
DOI : 10.1109/15.673620

L. K. Warne, K. S. Lee, G. Hudson, W. A. Johnson, R. E. Jorgenson et al., Stronach- Statistical properties of linear antenna impedance in an Electrically Large Cavity, IEEE Transactions on antennas and propagation, vol.51, issue.5, 2003.

K. S. Oh and J. , Schutt-Aine-An efficient Implementation of Surface Impedance Boundary Conditions for the finite-difference time domain method, IEEE Transactions on antennas and propagation, vol.43, issue.7, 1995.

J. G. Maloney and G. S. , Smith-The use of surface impedance concepts in the finite-difference time-domain method, IEEE Transactions on antennas and propagation, vol.40, issue.1, 1992.

F. Moglie and A. P. , Pastore-FDTD Analysis of Plane Wave superposition to simulate susceptibility tests in reverberation Chambers, IEEE Transactions on electromagnetic compatibility, vol.48, issue.1, 2006.

C. Chauvière, J. S. Hesthaven, and L. , Wilcox-Efficient Computation of RCS from Scatterers of Uncertain Shapes, IEEE Trans. Antennas Propagation, vol.55, issue.5, 2007.

G. E. Karniadakis and S. J. , Sherwin-Spectral/hp Element Methods for CFD, 1999.

M. J. Park, J. Park, and S. , Nam-Efficient calculation of the Green's function for the rectangular cavity -IEEE Microwave and Guided Wave letters, p.3, 1998.

D. I. Wu and D. C. , Chang-A Hybrid representation of the Green's Function in an Overmoded Rectangular cavity, IEEE Transactions on Microwave theory and Techniques, pp.36-45, 1988.

F. Marliani and A. , Computationally Efficient Expressions of the Dyadic Green's Function for Rectangular Enclosures, Progress In Electromagnetics Research, vol.31, pp.195-223, 2001.
DOI : 10.2528/PIER00062901

A. Kustepeli, Analysis and implementation of the Ewald method for waveguide and cavity structures-PhD dissertation, 1999.

A. Borji and S. , Safavi-Naeini-Fast convergent Green's function in a rectangular enclosure- IEEE, 2003.

W. P. Wheless and L. , Wurtz-Introducing undergraduates to the moment method, p.4, 1995.

C. M. Butler and D. R. , Wilton-A useful transformation of the free-space Green's function with applications to analyses of wire structures, IEEE Transactions on Antennas and Propagation, 1980.

F. Diouf, P. Paladian, M. Bonnet, and C. Fogli, Chauvière-Numerical Simulation of a Reverberation Chamber with a Stochastic Collocation Method-Piers, 2007.

F. Diouf, P. Paladian, M. Bonnet, and C. Fogli, Chauvière-Emission in Reverberation Chamber : Numerical Evaluation of the total radiated power by a dipole with a stochastic collocation method-EMC Europe Zurich, 2007.

S. Diouf, F. Lalléchère, M. Paladian, and M. Klingler, Fogli-Etude probabiliste de l'environnement électromagnétique généré dans un véhicule automobile-Journée URSI, 2008.

F. Diouf, P. Bonnet, S. Lalléchère, F. Paladian, M. Fogli et al., Chauvière-Modélisation des Chambres Réverbérantes par une méthode de collocation stochastique-CEM'08, 2008.

P. Lalléchère, F. Bonnet, and F. Diouf, Paladian-Simulation hybride en temporel d'une chambre réverbérante-CEM'08, 2008.

F. Diouf, P. Paladian, M. Bonnet, and C. Fogli, Chauvière-Improvement of Reverberation Chamber's Simulation : A Stochastic Collocation Approach-Piers Cambridge-MIT, Etats-Unis, 2008.