Application of Metaheuristic Optimization Algorithm and 3D Printing Technique in 3D Bandpass Frequency Selective Structure
Author:
Funder
Kongju National University
Publisher
Springer Science and Business Media LLC
Subject
Electrical and Electronic Engineering
Link
http://link.springer.com/content/pdf/10.1007/s42835-020-00370-4.pdf
Reference36 articles.
1. Chen H, Hou X, Deng L (2009) Design of frequency selective surfaces radome for a planar slotted waveguide antenna. IEEE Antennas Wirel Propag Lett 8:1231–1233
2. Liu N, Sheng X, Zhang C, Guo D (2018) Design of frequency selective surface structure with high angular stability for radome application. IEEE Antennas Wirel Propag Lett 17(1):138–141
3. Son DC, Shin H, Kim YJ, Hong IC, Chun HJ, Choo HS, Park YB (2019) Design of a multi-layered reconfigurable frequency selective surface using water channel. J Electr Eng Technol 14(1):331–337
4. Li D, Li T, Li E, Zhang Y (2018) A 2.5-D angularly stable frequency selective surface using via-based structure for 5G EMI shielding. IEEE Trans Electromagn Compat 60(3):768–775
5. Syed IS, Ranga Y, Matekovits L, Esselle P, Hay S (2014) A single-layer frequency-selective surface for ultrawideband electromagnetic shielding. IEEE Trans Electromagn Compat 56(6):1404–1411
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