Quadrifilar helical antenna design for satellite-mobile handsets using genetic algorithms

## Abstract A novel quadrifilar spiral antenna is proposed for use in personal communications mobile terminals exploiting the “big low earth orbit” (big‐LEO) satellite system (uplink 1.61–1.63 GHz; downlink 2.48–2.5 GHz). Feeding of the antenna from the outer periphery is proposed, to avoid the com

## Abstract This paper presents design simulation, implementation, and measurement of a miniaturized GPS/K‐PCS dual‐band LTCC chip antenna for mobile communication handsets. The dimensions of the LTCC chip antenna is 9 × 15 × 1.2 mm. The meander‐type radiating patch for dual‐band operation is reali

A linear array antenna design with desired radiation pattern has been presented based on genetic algorithm (GA) approach. Examples of cosecant and flat-topped beam patterns are illustrated to show the flexibility of GA to solve complex antenna synthesis problems by suitably selecting the fitness fun

## Abstract This paper presents the application of a genetic algorithm (GA) to the design and optimization of a nonplanar dipole array in light of its application at a cell‐site antenna for mobile communication. Cell‐site antennas demand widely different radiation patterns depending upon the geogra

A genetic algorithm GA has been de¨eloped for designing single-shaped reflector antennas for the synthesis of shaped contour beams. The graphical processing technique is used in order to obtain the antenna radiation patterns ¨ery efficiently. Results comparing with the classical conjugate gradient a