Salucci, M. and Oliveri, G. and Anselmi, N. and Massa, A. (2018) Lens Thickness Impact on the Performance of Conformal Miniaturized Arrays Designed through a Material‐by‐Design Approach. Technical Report. ELEDIA Research Center - University of Trento.
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Lens Thickness Impact on the Performance of Conformal Miniaturized Arrays Designed through a Material‐by‐Design Approach .pdf Download (9MB) | Preview |
Abstract
This work deals with the conformal miniaturization of linear antenna arrays. A novel design methodology based on the Material-by-Design (MbD) paradigm is proposed. More precisely, the presented approach exploits a two-step quasi-conformal transformation optics (QCTO) algorithm in order to match linear arrays onto arbitrary surfaces. The synthesized meta-material lens, covering the conformal array, ensures that its radiation features are kept as much as possible equal to those of the reference antenna in free-space. Moreover, a source inversion (SI) strategy is adopted in order to achieve a reduction of the radiators in the final conformal arrangement. A study of the impact of the lens thickness on the achievable performance is presented, making use of full-wave simulations in order to carefully analyze the electromagnetic behavior of the synthesized radiating architectures.
Item Type: | Monograph (Technical Report) |
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Uncontrolled Keywords: | Material-by-Design (MbD), Array Synthesis, Conformal Arrays, Quasi-Conformal Transformation Optics (QCTO), Array Miniaturization, Source Inversion (SI) |
Subjects: | A Areas > A WC Next Generation Wireless Communications M Methodologies > M AT Analytic Techniques M Methodologies > M EA Evolutionary Algorithms |
URI: | http://www.eledia.org/students-reports/id/eprint/772 |
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