Title :
A simple and accurate mathematical model of electronically steerable parasitic array radiator antennas
Author :
Iigusa, Kyouichi ; Ohira, Takashi
Author_Institution :
ATR Adaptive Commun. Res. Labs., Kyoto, Japan
Abstract :
A new mathematical model of electronically steerable parasitic array radiator (ESPAR) antennas is proposed. The ESPAR antenna is a kind of adaptive array antenna expected to spread as a terminal antenna for home LANs or wireless ad-hoc networks. Parasitic elements loaded with variable-reactance terminations are excited by mutual-coupling, so the current distributions along each wire element are not in the ideal sinusoidal function. To consider the current distributions, an equivalent weight vector (EWV) model is modified by introducing a vector effective length (VEL) for each wire element. The vector effective length of a parasitic dipole can be calculated by the reactance value of the variable reactor loading the dipole. The directivity of ESPAR antennas can be calculated simply and accurately by the EWV-VEL model.
Keywords :
ad hoc networks; adaptive antenna arrays; antenna radiation patterns; antenna theory; current distribution; dipole antenna arrays; directive antennas; electric reactance; vectors; wire antennas; wireless LAN; ESPAR antennas; adaptive array antenna; antenna directivity; current distributions; electronically steerable parasitic array radiator antennas; equivalent weight vector model; home LAN; mathematical model; mutual-coupling; parasitic dipole; radiation pattern; variable-reactance terminations; vector effective length; wire element; wireless ad-hoc networks; Adaptive arrays; Antenna arrays; Antenna radiation patterns; Dipole antennas; Feeds; Impedance; Inductors; Mathematical model; Moment methods; Structural engineering;
Conference_Titel :
Consumer Communications and Networking Conference, 2004. CCNC 2004. First IEEE
Conference_Location :
Las Vegas, NV, USA
Print_ISBN :
0-7803-8145-9
DOI :
10.1109/CCNC.2004.1286878
