Title :
Higher-order finite-difference schemes for electromagnetic radiation, scattering, and penetration .2. Applications
Author :
Georgakopoulos, Stavros V. ; Birtcher, Craig R. ; Balanis, Constantine A. ; Renaut, R.A.
Author_Institution :
Dept. of Electr. Eng., Arizona State Univ., Tempe, AZ
fDate :
4/1/2002 12:00:00 AM
Abstract :
For pt.1 see ibid., vol.44, no.1, p.134-42 (2002). Higher-order schemes for the finite-difference time-domain (FDTD) method - in particular, a second-order-in-time, fourth-order-in-space method, FDTD(2,4) - are applied to a number of problems. The problems include array analysis, cavity resonances, antenna coupling, and shielding effectiveness case studies. The latter includes a simplified model of a commercial airliner, with a personal electronic device operating in the vicinity of the aircraft. The FDTD computations are also compared to measured data for this case. Incorporating PEC and other types of material boundaries into higher-order FDTD is problematic; a hybrid approach using the standard FDTD method in the proximity of the boundary is proposed, and shown to perform well
Keywords :
aircraft; antenna arrays; cavity resonators; conductors (electric); electromagnetic coupling; electromagnetic interference; electromagnetic shielding; electromagnetic wave scattering; finite difference time-domain analysis; monopole antennas; EMI; FDTD(2,4); PEC; aircraft; antenna coupling; array analysis; cavity resonances; commercial airliner; electromagnetic interference; electromagnetic penetration; electromagnetic radiation; electromagnetic scattering; finite ground plane; fourth-order-in-space method; higher-order finite-difference; hybrid approach; material boundaries; monopole antennas; perfect electric conductor; personal electronic device; radio-frequency signals; second-order-in-time method; shielding effectiveness; standard FDTD method; Aerospace electronics; Electromagnetic radiation; Electromagnetic scattering; Finite difference methods; Mathematics; Pattern analysis; Phased arrays; Resonance; Time domain analysis; USA Councils;
Journal_Title :
Antennas and Propagation Magazine, IEEE
DOI :
10.1109/MAP.2002.1003639
