Efficient wide-band evaluation of mobile communications antennas using [Z] or [Y] matrix interpolation with the method of moments

The development of novel antennas for mobile communications often relies on performance simulations. The evaluation of the antenna surface currents for many frequencies using the method of moments (MoM) can take a long time since the impedance matrix must be computed for each new frequency. This paper investigates and compares two efficient methods for the computation of the broad-band performance of mobile communications antennas using frequency interpolation of either the MoM impedance matrix [Z] or admittance matrix [Y]. In either method, the elements of only a few matrices at relatively large frequency intervals are directly computed. These matrices are then used to interpolate the elements of the respective [Z] or [Y] matrices at the intermediate frequencies. Both methods reduce the time it takes to compute the antenna performance over a wide frequency band. The implementation of each method to evaluate the performance of several different antennas used for mobile communications is discussed. Examples with both frequency-domain and time-domain results are presented and both near-field and far-field quantities are considered. The accuracy, the simulation run times, and the computational requirements of direct MoM, [Z] matrix interpolation, and [Y] matrix interpolation are compared.

[1]  G. F. Herrmann,et al.  Note on interpolational basis functions in the method of moments (EM scattering) , 1990 .

[2]  V. Klema LINPACK user's guide , 1980 .

[3]  Yahya Rahmat-Samii,et al.  Performance analysis of antennas for hand-held transceivers using FDTD , 1994 .

[4]  F. X. Canning Direct solution of the EFIE with half the computation , 1991 .

[5]  Paola Pirinoli,et al.  Reduction of the filling time of method of moments matrices , 1995 .

[6]  E. H. Newman,et al.  Generation of wide-band data from the method of moments by interpolating the impedance matrix (EM problems) , 1988 .

[7]  G. J. Burke,et al.  Computer analysis of the bottom-fed fan antenna , 1976 .

[8]  Andrew F. Peterson,et al.  Higher-order surface patch basis functions for EFIE formulations , 1994, Proceedings of IEEE Antennas and Propagation Society International Symposium and URSI National Radio Science Meeting.

[9]  E. K. Miller,et al.  Using model-based parameter estimation to increase the efficiency of computing electromagnetic transfer functions , 1989 .

[10]  D. R. Wilton,et al.  REVIEW OF CURRENT STATUS AND TRENDS IN THE USE OF INTEGRAL EQUATIONS IN COMPUTATIONAL ELECTROMAGNETICS , 1992 .

[11]  E. K. Miller,et al.  Accurate computation of wide-band response of electromagnetic systems utilizing narrow-band information , 1991 .

[12]  Yahya Rahmat-Samii,et al.  Low-profile enhanced-bandwidth PIFA antennas for wireless communications packaging , 1997 .

[13]  Michael A. Jensen,et al.  Characterization of antennas for personal wireless communications applications , 1994, Int. J. Wirel. Inf. Networks.

[14]  D. Wilton,et al.  Electromagnetic scattering by surfaces of arbitrary shape , 1980 .

[15]  Gabriel F. Herrma Note on Interpolational Basis Functions in the Method of Moments , 1990 .

[16]  R. Hodges,et al.  An iterative current-based hybrid method for complex structures , 1997 .

[17]  Yahya Rahmat-Samii,et al.  Generation of Wideband Antenna Performance by [Z] and [Y] Matrix Interpolation in the Method of Moments , 1997 .

[18]  Usn,et al.  Electromagnetic Scattering and Radiation by Arbitrary Configurations of Conducting Bodies and Wires , 2022 .

[19]  Gregory J. Pottie,et al.  Evaluation of personal communications dual-antenna handset diversity performance , 1998 .

[20]  Raj Mittra,et al.  Spatial interpolation of the moment matrix in electromagnetic scattering and radiation problems , 1993, Proceedings of IEEE Antennas and Propagation Society International Symposium.

[21]  T. Sarkar,et al.  Survey of numerical methods for solution of large systems of linear equations for electromagnetic field problems , 1981 .

[22]  E. Newman,et al.  Scattering from a microstrip patch , 1987 .

[23]  Richard L. Burden,et al.  Numerical analysis: 4th ed , 1988 .

[24]  Tokio Taga,et al.  Performance Analysis of a Built-In Planar Inverted F Antenna for 800 MHz Band Portable Radio Units , 1987, IEEE J. Sel. Areas Commun..

[25]  J. Douglas Faires,et al.  Numerical Analysis , 1981 .

[26]  Donald R. Wilton,et al.  JUNCTION Code User's Manual. Electromagnetic Scattering and Radiation by Arbitrary Configurations of Conducting Bodies and Wires. , 1988 .