Title :
Evolutionary Generation of Subwavelength Planar Element Loaded Monopole Antenna
Author :
Ohira, Masataka ; Ban, Hiroshi ; Ueba, Masazumi
Author_Institution :
ATR Wave Eng. Labs., Keihanna Science City, Japan
fDate :
7/3/1905 12:00:00 AM
Abstract :
A very compact monopole antenna with an evolutionarily generated subwavelength planar element is proposed for the antenna miniaturization without using any lumped capacitors and inductors. The monopole antenna is composed of a coaxial-fed short line etched on one side of dielectric substrate and a subwavelength element on the other side, enabling an easy fabrication using a printed circuit technology. To design the arbitrarily shaped subwavelength element, an efficient genetic algorithm (GA) design technique is employed. As a design example, a monopole antenna with 1/23-wavelength height and 1/17-wavelength width at 430 MHz is demonstrated. The predicted results of the radiation pattern and the reflection characteristic are compared to measured data, and good agreement between the two results is achieved.
Keywords :
antenna radiation patterns; capacitors; genetic algorithms; inductors; monopole antennas; planar antennas; printed circuits; antenna miniaturization; arbitrarily shaped subwavelength element; dielectric substrate; evolutionarily generated subwavelength planar element; frequency 430 MHz; genetic algorithm design; inductors; lumped capacitors; monopole antenna; printed circuit technology; radiation pattern; Antenna measurements; Dielectric substrates; Gain; Genetic algorithms; Loaded antennas; Moment methods; Genetic algorithm (GA); monopole antennas; small antennas; subwavelength elements;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2011.2181307
