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References

  • Bérenger, J.-P. (2006), A Huygens subgridding for the FDTD method, IEEE Trans. Antennas Propag., 54(12), 37973804.
  • Heinrich, W., K. Beilenhoff, P. Mezzanotte, and L. Roselli (1996), Optimum mesh grading for finite-difference method, IEEE Trans. Microwave Theory Tech., 44, 15691574.
  • Higdon, R. L. (1986), Absorbing boundary conditions for difference approximations to the multidimensional wave equation, Math. Comput., 47, 437459.
  • Jiang, H., and H. Arai (1998), 3D-FDTD analysis by using non-uniform mesh, IEEE ICMMT Proc., 947950.
  • Kermani, M. H., and O. M. Ramahi (2005), Reducing truncation error of non-uniform grid size in FDTD methods using the complementary derivatives method (CDM), in Proceedings of 18th International Conference on Applied Electromagnetics and Communications, ICECOM 2005, pp. 14, IEEE Press, Piscataway, N. J.
  • Kermani, M. H., and O. M. Ramahi (2006a), The complementary derivatives method: A second-order accurate interpolation scheme for non-uniform grid in FDTD simulation, Microwave Wireless Compon. Lett., 16(2), 6062.
  • Kermani, M. H., and O. M. Ramahi (2006b), The complementary derivatives method for high-accuracy finite-difference time-domain simulations, in Proceedings of 2006 IEEE AP-S International Symposium and USNC/URSI National Radio Science Meeting, Albuquerque, New Mexico, USA, pp. 27752778, IEEE Press, Piscataway, N. J.
  • Lee, C. F. (1990), Finite difference method for electromagnetic scattering problems, Ph.D. dissertation, Mass. Inst. of Technol., Cambridge.
  • Li, K., C. F. Lee, S. Y. Poh, R. T. Shin, and J. A. Kong (1993), Application of FDTD method to analysis of electromagnetic radiation from VLSI heatsink configuration, IEEE Trans. Electromagn. Compat., 35, 204214.
  • Mitchell, A. R., and D. F. Griffiths (1980), The Finite Difference Method in Partial Differential Equations, Wiley, New York.
  • Namiki, T., and K. Ito (2001), Accuracy improvement technique applied to non-uniform FDTD cells using high-order implicit scheme, IEEE AP-S Proc., 1, 5659.
  • Okoniewski, M., E. Okoniewska, and M. A. Stuchly (1997), Three-dimensional subgridding algorithm for FDTD, IEEE Trans. Antennas Propag., 45(3), 422429.
  • Pierantoni, L., and T. Rozzi (2007), A general multigrid-subgridding formulation for the transmission line matrix method, IEEE Trans. Microwave Theory Tech., 55(8), 17091716.
  • Sheen, D. (1991), Numerical modeling of microstrip circuits and antennas, Ph.D. dissertation, Mass. Inst. of Technol., Cambridge, June.
  • Taflove, A., and S. C. Hagness (2005), Computational Electrodynamics: The Finite-Difference Time-Domain Method, 3rd ed., Artech House, Norwood, Mass.
  • Vichnevetsky, R. (1981a), Energy and group velocity in semidiscretizations of hyperbolic equations, Math. Comput. Sim., 23, 333343.
  • Vichnevetsky, R. (1981b), Propagation through numerical mesh refinement for hyperbolic equations, Math. Comput. Sim., 23, 344353.
  • Xiao, S., and R. Vahldieck (1993), An improved 2D-FDTD algorithm for hybrid mode analysis of quasi-planar transmission lines, IEEE MTT-S Dig., 1, 421424.
  • Yee, K. S. (1966), Numerical solution of initial boundary value problems involving Maxwell's equations in isotropic media, IEEE Trans. Antennas Propag., 14, 302307.