A microstrip grid array antenna optimized by a parallel genetic algorithm

## Abstract A compact ultra‐wideband (UWB) slot antenna based on a mesh‐grid structure is designed. A genetic algorithm is used to optimize the mesh‐grid structure as well as other parameters of the proposed antenna for good impedance matching in the UWB band. The optimized UWB antenna has a compac

## Abstract In this paper, the synthesis of a stacked patch antenna for circular polarization is presented. The antenna is analyzed by the full‐wave approach based on the method of moments in the spectral domain. In order to find the optimal antenna parameters, a hybrid genetic algorithm that combi

## Abstract A compact wideband high‐gain microstrip grid array antenna is presented.The antenna is printed on a dielectric substrate, backed by a metal board, and directly fed from a 50 Ω coaxial cable. It adopts elliptical radiation elements to enhance its impedance, gain bandwidths, and sinusoid

mum is in the end-fire direction with higher cross-polar level and a gain of 3 dBi is observed over the VSWR BW. The area of the proposed compact MSA is 15 cm 2 , which is only 6% of the corresponding unslotted RMSA, which results in a better BW but a reduced gain. ## 6. CONCLUSION A compact varia

## Abstract A new application of genetic algorithms (GAs) for feed point optimization of a coaxial probe fed E‐shape microstrip patch antenna is presented. The GA shows excellent results for finding the best feed point in a given antenna structure. The method of moments is used in this paper, emplo

## Abstract This paper presents the design of a wideband corrugated multisectional conical horn using a genetic algorithm (GA). The GA optimizes the length, flare angle, and first slot depth of each section of the horn in order to match the admittance, reduce the voltage standing wave ratio (VSWR)