relation: http://www.eledia.org/students-reports/827/
title: Design Isophoric Phased Arrays Using an Irregular Two-size Square Tiling Approach
creator: ROCCA, Paolo
creator: ANSELMI, Nicola
creator: POLO, Alessandro
creator: MASSA, Andrea
subject: A WC Next Generation Wireless Communications
subject: M DSCP Deterministic Strategies for Combinatorial Problems
description: The design of isophoric phased arrays composed of two-sized square-shaped tiles that fully cover rectangular apertures is dealt with. The number and the positions of the tiles within the array aperture are optimized to fit desired  specifications on the power pattern features. Toward this end, starting from the derivation of theoretical conditions for the complete tileability of the aperture, an ad hoc coding of the admissible arrangements, which implies a drastic reduction of the cardinality of the solution space, and their compact representation with a graph are exploited to profitably apply an effective optimizer based on an integer-coded genetic algorithm. A set of representative numerical examples, concerned with state-of-the-art benchmark problems, is reported and discussed to give some insights on the effectiveness of both the proposed tiled architectures and the synthesis strategy.
publisher: ELEDIA Research Center - University of Trento
date: 2019
type: Monograph
type: NonPeerReviewed
format: text
language: en
identifier: http://www.eledia.org/students-reports/827/7/Design_Isophoric_Phased_Arrays_Using_an_Irregular_Two-size_Square_Tiling_Approach.pdf
identifier:   ROCCA, Paolo and ANSELMI, Nicola and POLO, Alessandro and MASSA, Andrea  (2019) Design Isophoric Phased Arrays Using an Irregular Two-size Square Tiling Approach.  Technical Report. ELEDIA Research Center - University of Trento.