L. Lucci scite author profile

336 Agastra et al.Abstract-By properly exciting higher order modes at an aperture it is possible to achieve higher aperture efficiencies. High efficiency antennas are mandatory in many applications, as discrete lenses, since the single element efficiency deeply affects the efficiency of the whole lens. In this contribution a genetic algorithm is applied to the mode matching analysis of square horns to achieve high radiation efficiency over a relatively wide band.

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Phase Centre Optimization in Profiled Corrugated Circular Horns With Parallel Genetic Algorithms

Lucci¹,

Nesti²,

Pelosi³

et al. 2004

PIER

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Abstract-Achieving a high stability of the phase centre position in horn antennas with respect to frequency is a very desirable aim in reflector antenna design; a highly stable phase centre reduces efficiency dropping for defocusing at the frequency band extremes. By using an appropriate profile for the horn antenna it is possible to obtain horns both compact and with a stable phase centre. In this paper an automatic design procedure, based on Genetic Algorithms, to obtain such horns is described. The algorithm operates on many horn profile parameters, including corrugations, and is based on an accurate fullwave mode matching/combined field integral equation analysis code. To keep computing time down a full parallel algorithm over a 12 CPU parallel virtual machine is described.

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A Novel Design for a Circular Waveguide Directional Coupler

Gentili¹,

Lucci

Nesti

et al. 2009

IEEE Trans. Microwave Theory Techn.

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Modified NSGA-II algorithm for multiobjective optimization of compact high-efficiency square horns

Agastra

Lucci

Nesti

et al. 2011

Int J RF and Microwave Comp Aid Eng

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High efficiency, compactness, light weight and low return loss are of high importance in antennas, especially in space applications. In this contribution a modified nondominated sorting genetic algorithm (NSGA-II) is applied to the design of Horn antennas for discrete lens applications to achieve a Pareto-optimal solution. Horn design is aimed not only towards higher possible efficiency but also towards large band and compactness.

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A Stackable Constant-Width Corrugated Horn Design for High-Performance and Low-Cost Feed Arrays at Millimeter Wavelengths

Lucci

Nesti

Pelosi

et al. 2012

Antennas Wirel. Propag. Lett.

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This letter presents a design technique for circular corrugated horns for focal plane radioastronomical arrays, based on the constancy of the corrugation width. The advantages of this solution are several: from the mechanical point of view, fabrication can be performed with an easy machining and low-cost processes; from the electromagnetic point of view, a careful optimization leads to high performance over the WR22 standard waveguide band.Index Terms-Feeds, microwave antenna arrays, corrugated horn antennas, radio astronomy.

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L. Lucci

Genetic Algorithm Optimization of High-Efficiency Wide-Band Multimodal Square Horns for Discrete Lenses

Phase Centre Optimization in Profiled Corrugated Circular Horns With Parallel Genetic Algorithms

A Novel Design for a Circular Waveguide Directional Coupler

Modified NSGA-II algorithm for multiobjective optimization of compact high-efficiency square horns

A Stackable Constant-Width Corrugated Horn Design for High-Performance and Low-Cost Feed Arrays at Millimeter Wavelengths

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