Utilize este identificador para referenciar este registo: http://hdl.handle.net/10071/35375
Autoria: Matos, S.
Ma, Y.
Luo, Q.
Deuermeier, J.
Lucci, L.
Gavriilidis, P.
Kiazadeh, A.
Lain-Rubio, V.
Phan, T.
Soh, P.
Clemente, A.
Pessoa, L.
Alexandropoulos, G.
Data: 2024
Título próprio: Reconfigurable intelligent surfaces for THz: Hardware impairments and switching technologies
Título e volume do livro: Proceedings of the International Conference on Electromagnetics in Advanced Applications, ICEAA
Paginação: 415 - 420
Título do evento: 25th International Conference on Electromagnetics in Advanced Applications, ICEAA 2024
Referência bibliográfica: Matos, S., Ma, Y., Luo, Q., Deuermeier, J., Lucci, L., Gavriilidis, P., Kiazadeh, A., Lain-Rubio, V., Phan, T., Soh, P., Clemente, A., Pessoa, L., & Alexandropoulos, G. (2024). Reconfigurable intelligent surfaces for THz: Hardware impairments and switching technologies. Proceedings of the International Conference on Electromagnetics in Advanced Applications, ICEAA (pp. 415-420). IEEE. https://doi.org/10.1109/ICEAA61917.2024.10701743
ISSN: 2835-1355
ISBN: 979-8-3503-6097-4
DOI (Digital Object Identifier): 10.1109/ICEAA61917.2024.10701743
Palavras-chave: Reconfigurable intelligent surfaces
Hardware impairments
Beam squint
Switches
D-band
Unit cell design
Use cases
Resumo: The demand for unprecedented performance in the upcoming 6 G wireless networks is fomenting the research on THz communications empowered by Reconfigurable Inteligent Surfaces (RISs). A wide range of use cases have been proposed, most of them, assuming high-level RIS models that overlook some of the hardware impairments that this technology faces. The expectation is that the emergent reconfigurable THz technologies will eventually overcome its current limitations. This disassociation from the hardware may mask nonphysical assumptions, perceived as hardware limitations. In this paper, a top-down approach bounded by physical constraints is presented, distilling from system-level specifications, hardware requirements, and upper bounds for the RIS-aided system performance. We consider D-band indoor and outdoor scenarios where a more realistic assessment of the state-of-the-art solution can be made. The goal is to highlight the intricacies of the design procedure based on sound assumptions for the RIS performance. For a given signal range and angular coverage, we quantify the required RIS size, number of switching elements, and maximum achievable bandwidth and capacity.
Arbitragem científica: yes
Acesso: Acesso Embargado
Aparece nas coleções:IT-CRI - Comunicações a conferências internacionais

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