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References

  • Bretones, A. R., R. Mittra, and R. G. Martín, A hybrid technique combining the method of moments in the time domain and FDTD, IEEE Microwave Guided Wave Lett., 8(8), 281283, 1998.
  • Eibert, T. F., J. L. Volakis, D. R. Wilton, and D. R. Jackson, Hybrid FE/BI modeling of 3-D doubly periodic structures utilizing triangular prismatic elements and an MPIE formulation accelerated by the Ewald transformation, IEEE Trans. Antennas Propag., 47(5), 843850, 1999.
  • Gedney, S. D., J. Lee, and R. Mittra, A combined FEM/MoM approach to analyse the plane wave diffraction by arbitrary gratings, IEEE Trans. Microwave Theory Tech., 40(2), 363370, 1992.
  • Johnson, J. M., and Y. Rahmat-Samii, MR/FDTD: A multiple-region finite-difference–time-domain method, Microwave Opt. Technol. Lett., 14(2), 101105, 1997.
  • McGrath, D. T., and V. P. Pyati, Periodic structure analysis using a hybrid finite element method, Radio Sci., 31(5), 11731179, 1996.
  • Naishadham, K., and K. Esselle, A hybrid implementation of the FDTD and moment methods, in Proceedings of IEEE AP-S International Symposium, pp. 574577, IEEE Press, Piscataway, N. J., 1998.
  • Poggio, A. J., E. K. Miller, and R. Mittra, Computer Techniques for Electromagnetics and Antennas, vol. 2, Dan. Assoc. of Prof. Eng., Copenhagen, 1971.
  • Prescott, D. T., and N. V. Shuley, Reducing solution time in monochromatic FDTD waveguide simulations, IEEE Trans. Microwave Theory Tech., 42(8), 15821584, 1994.
  • Rogier, H., F. Olyslager, and D. De Zutter, A hybrid FE/IE approach for the eigenmode analysis of complex anisotropic dielectric waveguides, Radio Sci., 31(4), 9991010, 1996.
  • Rogier, H., D. De Zutter, and F. Olyslager, Modelling radiation from complex structures using a hybrid FDTD-BIE technique, in Proceedings of IEEE AP-S International Symposium, pp. 18081811, IEEE Press, Piscataway, N. J., 1998a.
  • Rogier, H., F. Olyslager, and D. De Zutter, A new hybrid FDTD-BIE approach to model electromagnetic scattering problems, IEEE Microwave Guided Wave Lett., 8(3), 138140, 1998b.
  • Rogier, H., B. Baekelandt, F. Olyslager, and D. De Zutter, The FE-BIE technique applied to some 2-D problems relevant to electromagnetic compatibility: Optimal choice of mechanisms to take into account periodicity, IEEE Trans. Electromagn. Compat., 42(3), 246256, 2000a.
  • Rogier, H., D. De Zutter, and F. Olyslager, A parallel implementation of the hybrid FDTD-BIE technique, in Proceedings of IEEE AP-S International Symposium, vol. 1, pp. 224227, IEEE Press, Piscataway, N. J., 2000b.
  • Rogier, H., D. De Zutter, and F. Olyslager, A new hybrid FDTD-BIE technique with BiCG solver for the analysis of EM scattering problems, Int. J. Electr. Commun., 54(4), 227232, 2000c.
  • Rogier, H., D. De Zutter, and F. Olyslager, Rigorous analysis of frequency selective surfaces of finite extent using a hybrid finite difference time domain-boundary integral equation technique, Radio Sci., 35(2), 483494, 2000d.
  • Volakis, J., T. Özdemir, and J. Gong, Hybrid Finite Element methodologies for antennas and scattering, IEEE Trans. Antennas Propag., 45(3), 493507, 1997.