Albert Salmi, Miloslav Capek, Lukas Jelinek, Anu Lehtovuori, Ville Viikari
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Optimization of Embedded Element Patterns of Reactively Loaded Antenna Arrays
This paper introduces a framework for synthesizing reactively loaded antennas
and antenna arrays. The framework comprises two main components: computing the
fundamental bound using the semi-definite relaxation and finding a realizable
solution via optimization on a Riemannian manifold. The embedded element
patterns are subject to the optimization with two distinct goals under study:
focusing the radiation in a single direction or synthesizing patterns with
desired shapes. The reactive terminations of passive antenna elements serve as
optimization variables. We demonstrate the framework using a connected
bowtie-slot antenna and antenna array with both beam-focusing and beam-shaping
targets. The tests show that the optimization on the Riemannian manifold yields
superior results compared to existing methods, such as the genetic algorithm.
This is particularly evident in the most complex and extensive problem, which
requires the synthesis of shaped embedded element patterns for a sparse
reactively loaded antenna array with a limited field of view.
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