F. Articles-de-revues-?-yacine-bennani, A. Comblet, . Khenchaf, . Member, and . Ieee, RCS of complex targets : original representation validate by measurements -Application to ISAR imagery, IEEE Transactions on Geoscience and remote sensing

?. Communications-dans-les-conférences-internationales, Y. Bennani, A. Khenchaf, F. Comblet, and A. Ali-yahia, Bistatic Radar Cross Section of an complex target on sea surface, Geoscience and Remote Sensing Symposium (IGARSS), IEEE International, 2010.

?. Bennani, Y. Khenchaf, A. Comblet, and F. , Geometrical problems in calculation of Bistatic RCS of complex at X-band, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00518515

?. Bennani, Y. Khenchaf, A. Comblet, and F. , Modélisation par OP-OG/MCE du calcul de la SER d'une cible complexe présente sur la surface de la mer, 2011.

?. Bennani, Y. A. Toumi, A. Khenchaf, and F. Comblet, Estimation de la SER d'une cible complexe par maillage en parallélépipèdes

?. Rapports-de-recherche, Y. Bennani, A. Toumi, A. Khenchaf, and F. Comblet, Description de la base de données de calcul de la signature électromagnétique de cibles navales, Projet MODENA, 2009.

?. Bennani, Y. Khenchaf, A. Comblet, and F. , Modélisation des observations ondes/objets. Document D12.1 version 1, Etude théorique, Solutions retenues, I/F Simu, 2009.

?. Bennani and Y. , Synthèse bibliographique sur le calcul de la surface équivalente radar de cibles canoniques et complexes par lés méthodes asymptotiques, 2008.

. [. Bibliographie, ]. A. Arnold-bosabkm07a, A. Arnold-bos, A. Khenchaf, and . Martin, La surveillance maritime en imagerie radar bistatique : théorie, simulation,contribution à la détection automatique du sillage des navires Bistatic radar imaging of the marine environment -part i : Theoretical background. Geoscience and Remote Sensing, IEEE transactions on, issue.11, pp.453372-3383, 2007.

A. Arnold-bos, A. Khenchaf, A. B. Martinaw05-]-g, H. J. Arfken, and . Weber, Bistatic radar imaging of the marine environment -part ii : Simulation and results analysis. Geoscience and Remote Sensing Mathematical methods for physicists 6th edition, IEEE transactions on, issue.11, pp.453384-3396, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00494320

A. Awadaaya06 and ]. M. Ayari, Application à la surface maritime Détection éléctromagnétique d'éléments polluants au dessus de la surface maritime Etude de méthodes de couplage pour la résolution des équations de maxwell application au calcul de la signature radar d'aéronefs par hybridation de méthodes exactes et asymptotiques Rcs of complex targets : original representation validate by measurements -application to isar imagery Géometrical problems in calculation of bistatic rcs of complex targets at x-band, Diffusion bistatique des ondes électromagnétiques par les surfaces rugueuses en utilisant l'approximation SSA Bennani, A. khenchaf, and F. Comblet Scientific Computing in Electrical Engineering, 2005.

Y. Bennani, A. Khenchaf, F. Comblet, A. Bouche, and F. Molinet, Bistatic radar cross section of a complex target on sea surface Méthodes Asymptotiques en electromagnetiques Numerical electromagnetic code : method of moment, IEEE Geoscience and remote sensing SymposiumBou99] C. Bourlier. Rayonnement Infrarouge d'une surface stochastique -Application au Domaine Océanique Thèse de doctoratBP81] GJ Burke and AJ Poggio, 1981.

B. Burkholder, M. Pino, and D. Kwon, Development of ray-optical methods for studying the rcs of 2d targets on a rough sea surface, 1999.

M. [. Baussard, A. Rochdi, and . Khenchaf, PO/MEC-BASED SCATTERING MODEL FOR COMPLEX OBJECTS ON A SEA SURFACE, Progress In Electromagnetics Research, vol.111, pp.229-251, 2011.
DOI : 10.2528/PIER10083005

URL : https://hal.archives-ouvertes.fr/hal-00636368

D. [. Bhattacharyya and . Sengupta, Radar Cross Section Analysis and Control, Principles of optics, 1959.

. G. Cgm-]-w, R. S. Carrara, R. M. Goodman, and . Majewski, Spotlight synthetic aperture radar-Signal processing algorithms Development of code for a physical optics radar cross section prediction and analysis application, 2004.

[. Jr and K. M. Siegel, Methods of radar cross-section analysis, 1969.

A. [. Comblet, A. Khenchaf, F. Baussard, and . Pellen, Bistatic Synthetic Aperture Radar Imaging: Theory, Simulations, and Validations, IEEE Transactions on Antennas and Propagation, vol.54, issue.11, pp.3529-3540, 1954.
DOI : 10.1109/TAP.2006.884223

URL : https://hal.archives-ouvertes.fr/hal-00518654

F. Comblet, détection, localisation et identification de cible radar par imagerie EM bistatique, 2005.

]. E. Con05 and . Conil, Propagation électromagnétique en milieu complexe du champ proche au champ lointain, 2005.

]. P. Deb29 and . Debye, Polar molecules, 1929.

]. M. Drp-+-95, F. Domingo, J. Rivas, R. P. Pérez, M. F. Torres et al., Computation of the rcs of complex bodies using nurbs surfaces, IEEE Antennas Propag. Mag, vol.37, pp.36-47, 1995.

B. [. Elfouhaily, K. Chapron, and . Katsaros, A unified directional spectrum for long and short wind-driven waves, Journal of Geophysical Research: Oceans, vol.289, issue.4, pp.15-781, 1997.
DOI : 10.1029/97JC00467

E. F. Knott, S. J. , and T. M. , Radar Cross Section, 2003.
DOI : 10.1049/SBRA026E

R. [. Escarieu and P. Y. Vauzelle, Modélisation d'obstacles diffractant de formes complexes tels que le coin et la pointe, 2000.

K. [. Fung and . Lee, A semi-empirical sea-spectrum model for scattering coefficient estimation, IEEE Journal of Oceanic Engineering, vol.7, issue.4, pp.166-176, 1982.
DOI : 10.1109/JOE.1982.1145535

]. J. Gal98, . [. Gallaghe, C. Griesser, and . Balanis, Facets prediction code Backscatter analysis of dihedral corner reflectors using physical optics and the physical theory of diffraction Bistatic scattering from a three-dimensional object above a two-dimensional randomly rough surface modeled with the parallel fdtd approach, RTO SCI Symposium on Non- Cooperative Air Target Identification Using Radar, pp.1137-1147, 1987.

A. [. Guo, J. Wang, and . Ma, STUDY ON EM SCATTERING FROM 2-D TARGET ABOVE 1-D LARGE SCALE ROUGH SURFACE WITH LOW GRAZING INCIDENCE BY PARALLEL MOM BASED ON PC CLUSTERS, Progress In Electromagnetics Research, pp.149-166, 2009.
DOI : 10.2528/PIER08121002

]. R. Har68 and . Harrington, Field computation by method of moments, 1968.

L. [. Heiden and . Ewijk, A comparison on radar range profiles between in-flight measurments and rcs predictions, TNO physics and electronics laboratory, 1997.

]. Ish and . Ishimaru, Wave propagation and scattering in random media Academic press, p.1978

C. David and . Jenn, Radar and Laser Cross Section Enginnering, 1995.

]. P. Joh96 and . Johansen, Uniform physical theory of diffraction equivalent edge currents for truncated wedge strips, IEEE Transactions on Antennas and Propagation, vol.44, issue.7, p.989995, 1996.

]. J. Joh02 and . Johnson, A numerical study of scattering from an object above a rough surface, IEEE Transactions on Antennas and Propagation, vol.50, issue.10, pp.1361-1367, 2002.

O. [. Khenchaf and . Airiau, Bistatic radar moving returns from sea surface, IEICE Trans. on Electronics, issue.12, pp.1827-1835, 2000.
URL : https://hal.archives-ouvertes.fr/hal-00518884

J. Kellerkhe00 and ]. A. Khenchaf, Geometrical theory of diffraction Modélisation électromagnétique, radar bistatique et traitement de l'information. Hdr, Ecole Polytechnique de l The relationship between mitzner's ildc michaeli's equivalent currents, Journal of the Optical Society of America IEEE Trans. On Antennas and propagation, vol.52, issue.33, pp.116-130112, 1962.

]. J. Kon90 and . Kong, Electromagnetic Wave Theory, 1990.

[. Kouyoumjian and P. Pathak, A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface, Proceedings of the IEEE, pp.1448-1461, 1974.
DOI : 10.1109/PROC.1974.9651

[. Laybros, Utilisation du lancer de rayons pour le calcul de l'interaction d'un rayonnement électromagnétique avec des objets complexes métalliques et diélectriques Efficient evaluation of the half-space green's function for fast-multipole scattering models. Microwave and Optical Technology Letters, pp.29388-392, 2001.

B. Luebbers, A heuristic UTD slope diffraction coefficient for rough lossy wedges, IEEE Transactions on Antennas and Propagation, vol.37, issue.2, pp.206-211, 1989.
DOI : 10.1109/8.18707

A. [. Mahafza and . Elsherbeni, MATLAB Simulations for Radar Systems Design. Chapman and Hall/CRC, Men91] D. L. Mensa. High Resolution Radar Cross-Section Imaging, 1991.

]. A. Mic84, ]. Michaelimic86a, and . Michaeli, Equivalent edge currents for arbitrary aspects of observation Antennas and Propagation Elimination of infinities in equivalent edge currents, part i : Fringe current components. Antennas and Propagation Elimination of infinities in equivalent edge currents, part ii : Physical optics components, IEEE Transactions on IEEE Transactions on IEEE Transactions on Antennas and Propagation, vol.32, issue.34, pp.252-258912, 1984.

]. R. Mil57 and . Millar, An approximate theory of the diffraction of an electromagnetique wave by an aperture in a plane screen, Proceeding of the IEEE, pp.87-95, 1957.

N. [. Morita, J. R. Kumagai, and . Mautz, Integral equation methods for electromagnetics . Artech house, 1990.

C. [. Mcnamara, J. Pistorius, C. Malherbe, T. S. Ma, Q. Yeo et al., Introduction to the uniform geometrical theory of diffraction Artech House Three-dimensional isar imaging based on antenna array, OQ98] C. Olivier and S. Quegan. Understanding Synthetic Aperture Radar Images, pp.504-515, 1990.

M. [. Pastina, P. Bucciarelli, . Lombardopc80, C. Prickett, and . Chen, Multistatic and mimo distributed isar for enhanced cross-range resolution of rotating targets Principle of inverse synthetic aperture radar (isar) imaging, IEEE Transactions on Geoscience and Remote Sensing IEEE EASCON, vol.48, issue.8, pp.3000-3317, 1980.

R. [. Pérez, R. Carles, . J. Fleckingerpm64-]-w, L. Pierson, and . Moskowitz, Electromagnétisme : fondements et applications. Dunod A proposed spectral form for fully developped wind sea based on the similarity theory od s. a. kitaigorodskii, Geophys Res, vol.69, pp.5181-5190, 1964.

]. J. Pér04 and . Pérez, Optique : Fondements et applications. Dunod, 2004.

P. [. Ramiere, H. Combes, P. Mametsa, and . Pitot, Couplage du lancer de rayons et des intéractions arete-surface pour une analyse 3d rapide de cibles complexes, Ann. Télécommunication, vol.55, pp.11-12633, 2000.

M. [. Rius, L. Ferrando, and . Jofre, High-frequency RCS of complex radar targets in real-time, IEEE Transactions on Antennas and Propagation, vol.41, issue.9, pp.1308-1319, 1993.
DOI : 10.1109/8.247759

[. Jr, L. Peters-jr, . Ros66-]-r, and . Ross, Reflection of electromagnetic waves from slightly rough surfaces Theory of Electromagnetic Waves Evaluation of edge-diffracted fields including equivalent currents for the caustic regions. Antennas and Propagation Radar cross section of rectangular flat plates as a function of aspect angle. Antennas and Propagation, IEEE Transactions on IEEE Transactions on, vol.17, issue.14, pp.351-378292, 1951.

]. G. Ruc70 and . Ruck, Radar Cross Section Handbook, 1970.

[. Sajjad, Bistatic scattering of electromagneticwaves from rough surface by using second order two-scale model. Applicationto sea and bare soil surface, 2011.

L. [. Stratton, L. Chu, K. Sevgihong, K. Hyo-tae, and . Kyung-tae, Diffraction theory of electromagnetic waves Radar cross section (rcs) prediction techniques : From high-frequency asymptotics to numerical simulations. Electronics and Communication Engineering Department Segmentation of isar images of targets moving in formation, Sil49] S. Silver. Microwave antenna theory and design. MIT Rad Lab Series, pp.99-1072099, 1939.

]. M. Sko80 and . Skolnik, Introduction to radar systems, 1980.

]. M. Sko90 and . Skolnik, Radar Handbook, 1990.

]. M. Sou99 and . Soumekh, Synthetic aperture radar signal processing with MATLAB algorithms, 1999.

[. Santos and N. Rabelo, On the Ludwig integration algorithm for triangular subregions, Proceedings of the IEEE, vol.74, issue.10, p.14551456, 1986.
DOI : 10.1109/PROC.1986.13646

H. Hasnain, J. L. Syed, J. M. Volakis, M. G. Taboada, J. M. Araujo et al., Ptd analysis of impedance structures Mlfma-fft parallel algorithm for the solution of large-scale problems in electromagnetics, Progress In Electromagnetics Research, pp.983-98715, 1996.

[. Tomas, P. C. Ab, and B. Trumbore, Fast, minimum storage ray/triangle intersection, 1997.

C. [. Griesser and . Balanis, Dihedral cornet reflector backscatter using higher order reflections and diffractions, IEEE Trans. On Antennas and propagation, vol.35, 1987.

]. E. Tho88 and . Thorsos, The validity of the kirchhoff approximation for rough surface scattering using a gaussian roughness spectrum, The Journal of the Acoustical Society of America, vol.83, p.78, 1988.

A. Toumi, Intégration des bases de connaissances dans les systèmes d'aide à la décision : Application à l'aide à la reconnaissance de cibles radar non-coopératives, Tri05] G. L. Trigg. Mathematical tools for physicists, 2005.

C. [. Ulaby and . Elachi, Radar polarimetry for geoscience applications Artech House, 1, 1990. [Ufi57] P. Ia Ufimtsev. Approximate computation of the diffraction of plane electromagnetic waves at certain metal bodies : Pt.i. diffraction patterns at a wedge and a ribbon, Zh.Tekhn.Fiz.(USSR), vol.27, pp.1708-1718, 1957.

]. P. Ufi71 and . Ufimtsev, Method of Edge Waves in the Physical Theory of Diffraction, DTIC Research Report, vol.0733203, 1971.

P. Ya and . Ufimtsev, Fundamentals of the Physical Theory of Diffraction, 2007.

R. [. Ulaby, A. K. Moore, and . Fun, Microwave remote sensing : Active and passive. Volume 2-Radar remote sensing and surface scattering and emission theory Artech House, 1986. [Wei06] F. Weinmann. Ray tracing with po/ptd for rcs modeling of large complex objects. Antennas and Propagation, IEEE Transactions on, vol.54, pp.1797-1806, 2006.

. Joe and . Wiart, propagation des ondes radio-électriques en milieu urbain dans un contexte micro cellulaire.analyse par la TGD, 1995.

L. [. Wang and . Li, NUMERICAL CHARACTERIZATION OF BISTATIC SCATTERING FROM PEC CYLINDER PARTIALLY EMBEDDED IN A DIELECTRIC ROUGH SURFACE INTERFACE: HORIZONTAL POLARIZATION, Progress In Electromagnetics Research, vol.91, pp.35-51, 2009.
DOI : 10.2528/PIER09013001

I. [. Wiley and . Sons, Finite difference methods for partial differential equations, 1960.

Y. [. Xu and . Jin, Bidirectional Analytic Ray Tracing for Fast Computation of Composite Scattering From Electric-Large Target Over a Randomly Rough Surface, IEEE Transactions on Antennas and Propagation, vol.57, issue.5, pp.1495-1505, 2009.
DOI : 10.1109/TAP.2009.2016691

K. [. Yoshimori, Y. Itoh, and . Ichioka, Optical charateristics of a wind-roughned water surface : a two-dimensional theory A hybrid analytic-numerical algorithm of scattering from an object above a rough surface, Applied Optics IEEE Transactions on Geoscience and Remote Sensing, vol.34, issue.275, pp.6236-6247, 1995.

]. N. You89 and . Youssef, Radar cross section of complex target. proceeding of the IEEE, 1989.

Z. [. Yang and . Zhao, ITERATIVE HYBRID METHOD FOR ELECTROMAGNETIC SCATTERING FROM A 3-D OBJECT ABOVE A 2-D RANDOM DIELECTRIC ROUGH SURFACE, Progress In Electromagnetics Research, vol.117, issue.7, pp.435-448, 2009.
DOI : 10.2528/PIER11043001