Holographic RIS Empowered THz Communications With Hardware Imperfections Under Adverse Weather Conditions

Alexandros Apostolos A. Boulogeorgos; Stylianos E. Trevlakis; Theodoros A. Tsiftsis

doi:10.1109/TCOMM.2024.3432448

Holographic RIS Empowered THz Communications With Hardware Imperfections Under Adverse Weather Conditions

Alexandros Apostolos A. Boulogeorgos, Stylianos E. Trevlakis, Theodoros A. Tsiftsis

Research output: Journal Publication › Article › peer-review

1 Citation (Scopus)

Abstract

This paper focuses on providing a theoretical framework for the evaluation of the performance of holographic reconfigurable intelligent surface (HRIS) empowered terahertz (THz) wireless systems under fog conditions. In more detail, we present a comprehensive methodology for evaluating the geometric losses of the end-to-end channel. Moreover, the stochastic nature of the end-to-end channel is characterized by novel closed-form probability density and cumulative distribution functions. Building upon them, the outage probability and the throughput of the system are extracted in closed form. These formulas account for the impact of transceiver hardware imperfections and are expected to become useful tools for the design of HRIS empowered THz wireless systems due to its remarkable engineering insights.

Original language	English
Pages (from-to)	662-676
Number of pages	15
Journal	IEEE Transactions on Communications
Volume	73
Issue number	1
DOIs	https://doi.org/10.1109/TCOMM.2024.3432448
Publication status	Published - 2025
Externally published	Yes

Keywords

Fog
hardware imperfections
holographic reconfigurable intelligent surface (HRIS)
outage probability
stochastic characterization
throughput

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1109/TCOMM.2024.3432448

Cite this

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title = "Holographic RIS Empowered THz Communications With Hardware Imperfections Under Adverse Weather Conditions",

abstract = "This paper focuses on providing a theoretical framework for the evaluation of the performance of holographic reconfigurable intelligent surface (HRIS) empowered terahertz (THz) wireless systems under fog conditions. In more detail, we present a comprehensive methodology for evaluating the geometric losses of the end-to-end channel. Moreover, the stochastic nature of the end-to-end channel is characterized by novel closed-form probability density and cumulative distribution functions. Building upon them, the outage probability and the throughput of the system are extracted in closed form. These formulas account for the impact of transceiver hardware imperfections and are expected to become useful tools for the design of HRIS empowered THz wireless systems due to its remarkable engineering insights.",

keywords = "Fog, hardware imperfections, holographic reconfigurable intelligent surface (HRIS), outage probability, stochastic characterization, throughput",

author = "Boulogeorgos, \{Alexandros Apostolos A.\} and Trevlakis, \{Stylianos E.\} and Tsiftsis, \{Theodoros A.\}",

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year = "2025",

doi = "10.1109/TCOMM.2024.3432448",

language = "English",

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AU - Boulogeorgos, Alexandros Apostolos A.

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PY - 2025

Y1 - 2025

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AB - This paper focuses on providing a theoretical framework for the evaluation of the performance of holographic reconfigurable intelligent surface (HRIS) empowered terahertz (THz) wireless systems under fog conditions. In more detail, we present a comprehensive methodology for evaluating the geometric losses of the end-to-end channel. Moreover, the stochastic nature of the end-to-end channel is characterized by novel closed-form probability density and cumulative distribution functions. Building upon them, the outage probability and the throughput of the system are extracted in closed form. These formulas account for the impact of transceiver hardware imperfections and are expected to become useful tools for the design of HRIS empowered THz wireless systems due to its remarkable engineering insights.

KW - Fog

KW - hardware imperfections

KW - holographic reconfigurable intelligent surface (HRIS)

KW - outage probability

KW - stochastic characterization

KW - throughput

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M3 - Article

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Holographic RIS Empowered THz Communications With Hardware Imperfections Under Adverse Weather Conditions

Abstract

Keywords

ASJC Scopus subject areas

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