Sidelobe reduction in array-pattern synthesis using genetic algorithm

## Abstract Aiming at increasing the radiation bandwidth and reducing the antenna size, this article designs the stacked patch antenna and forms the spherical antenna array by virtue of fractal geometry. To minimize the sidelobe level and improve the convergence speed, a hybrid genetic algorithm in

## Abstract A genetic algorithm (GA) finds complex weights that yield low‐sidelobe levels for spherical arrays. The first example is a spherical–planar array with an initial high sidelobe of −13 dB, and which has an optimized pattern with a maximum sidelobe level of −27 dB. The second example is a

## Abstract A numerical procedure based on a genetic algorithm is proposed in order to synthesize a linear, sparse, and aperiodic array to be used in a beamforming processor. The method is aimed to minimize the sidelobe peak of the beam pattern acting on the elements' positions and weights. Obtaine

## Abstract A method of minimizing the sidelobe level for linear array patterns by amplitude‐only adjustment in element excitations, which involves combining B‐spline techniques and genetic algorithms, is considered. We demonstrate this technique using a 30‐element linear array. It is also capable

Interruptions in the regular lattice of a phased array antenna can lead to elevated sidelobe levels in the resulting antenna pattern. A method for reducing the sidelobe level in such an array is presented, based on the use of a genetic algorithm that modifies the element weights in the array. Result