A self-replicating single-shape tiling technique for the design of highly modular planar phased arrays—The case of L-shaped rep-tiles
The design of irregular planar phased arrays (PAs) characterized by a highly modular
architecture is addressed. By exploiting the property of self-replicating tile shapes, also …
architecture is addressed. By exploiting the property of self-replicating tile shapes, also …
A Self-Replicating Single-Shape Tiling Technique for the Design of Highly Modular Planar Phased Arrays—The Case of L-Shaped Rep-Tiles
N Anselmi, L Tosi, P Rocca, G Toso… - IEEE Transactions on …, 2023 - ui.adsabs.harvard.edu
The design of irregular planar phased arrays (PAs) characterized by a highly-modular
architecture is addressed. By exploiting the property of self-replicating tile shapes, also …
architecture is addressed. By exploiting the property of self-replicating tile shapes, also …
A Self-Replicating Single-Shape Tiling Technique for the Design of Highly Modular Planar Phased Arrays--The Case of L-Shaped Rep-Tiles
N Anselmi, L Tosi, P Rocca, G Toso… - arXiv preprint arXiv …, 2022 - arxiv.org
The design of irregular planar phased arrays (PAs) characterized by a highly-modular
architecture is addressed. By exploiting the property of self-replicating tile shapes, also …
architecture is addressed. By exploiting the property of self-replicating tile shapes, also …
A Self-Replicating Single-Shape Tiling Technique for the Design of Highly Modular Planar Phased Arrays-The Case of L-Shaped Rep-Tiles
N Anselmi, L Tosi, P Rocca, G Toso… - IEEE TRANSACTIONS ON …, 2023 - iris.unitn.it
The design of irregular planar phased arrays (PAs) characterized by a highly modular
architecture is addressed. By exploiting the property of self-replicating tile shapes, also …
architecture is addressed. By exploiting the property of self-replicating tile shapes, also …