This paper presents a design methodology leading to optimize an electromagnetic metasurface structure usable in a wide band frequency. The structure consists of identical unit cells realized in microstrip technology, being one of them fed by a coaxial cable. The employed approach is the bottomup optimization (BUO) that is implemented by increasing the number of radiators following a squared scheme of n×n nature. The proposed methodology leads to design optimal complex structures exhibiting a wideband feature. For validating the use of BUO method, the number of radiators has been increased from 1 to 25, i.e., n has been varied form n=1, to n=5. The initial design parameters of antennas are obtained through particle swarm optimization (PSO) algorithm. The simulation results show that the optimized metasurface with the aid of BUO method has a wideband frequency answer in the range from 13 GHz to 22.66 GHz.
Design of Wideband Metasurface Structure with the Aid of Bottom-Up Optimization / Ozer, Sercan; Kouhalvandi, Lida; Matekovits, Ladislau; Alibakhshikenari, Mohammad. - ELETTRONICO. - (2024), pp. 316-319. (Intervento presentato al convegno International Conference on Electromagnetics in Advanced Applications (ICEAA) tenutosi a Lisbon (Portugal) nel 02-06 September 2024) [10.1109/iceaa61917.2024.10701815].
Design of Wideband Metasurface Structure with the Aid of Bottom-Up Optimization
Matekovits, Ladislau;
2024
Abstract
This paper presents a design methodology leading to optimize an electromagnetic metasurface structure usable in a wide band frequency. The structure consists of identical unit cells realized in microstrip technology, being one of them fed by a coaxial cable. The employed approach is the bottomup optimization (BUO) that is implemented by increasing the number of radiators following a squared scheme of n×n nature. The proposed methodology leads to design optimal complex structures exhibiting a wideband feature. For validating the use of BUO method, the number of radiators has been increased from 1 to 25, i.e., n has been varied form n=1, to n=5. The initial design parameters of antennas are obtained through particle swarm optimization (PSO) algorithm. The simulation results show that the optimized metasurface with the aid of BUO method has a wideband frequency answer in the range from 13 GHz to 22.66 GHz.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2994326