The reduction of the number of Transmit/Receive Modules (TRMs) is addressed for an array with elements arranged in a regular triangular lattice. The savings of sources is pursued by using a partition of the array into subarrays defined by using a Penrose tessellation algorithm. The conflicting objectives of minimizing the number of TRMs and the peak side lobe level and, at the same time, providing a wide scan with high gain is faced by using a Pareto multiobjective optimization.
Penrose-Inspired Irregular Subarrays-based Phased Arrays with Less Energy-Hungry for Future 6G Wireless Communications
Dicandia F. A.;Genovesi S.;Manara G.
2023-01-01
Abstract
The reduction of the number of Transmit/Receive Modules (TRMs) is addressed for an array with elements arranged in a regular triangular lattice. The savings of sources is pursued by using a partition of the array into subarrays defined by using a Penrose tessellation algorithm. The conflicting objectives of minimizing the number of TRMs and the peak side lobe level and, at the same time, providing a wide scan with high gain is faced by using a Pareto multiobjective optimization.File in questo prodotto:
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