Pouya Agheli scite author profile

Free-space optic (FSO) is a promising solution to provide broadband Internet access for high-speed trains (HSTs). Besides, reconfigurable intelligent surfaces (RIS) are considered as hardware technology to improve performance of optical wireless communication systems. In this paper, we propose a RIS-assisted FSO system to provide access connectivity for HTSs, as an upgrade for the existing direct and relay-assisted FSO access setups. Our motivation is mainly based on well-proven results indicating that a RIS-assisted optical wireless system, with a large enough number of RIS elements, outperforms a relay-assisted one thanks to its programmable structure. We firstly compute the statistical expressions of the considered RISassisted FSO channels under weak and moderate-to-strong fading conditions. Then, the network's average signal-to-noise ratio and outage probability are formulated based on the assumed fading conditions, and for two fixed-and dynamic-oriented RIS coverage scenarios. Our results reveal that the proposed access network offers up to around 44% higher data rates and 240% wider coverage area for each FSO base station (FSO-BS) compared to those of the relay-assisted one. The increase of coverage area, on average, reduces 67% the number of required FSO-BSs for a given distance, which results in fewer handover processes compared to the alternative setups. Finally, the results are verified through Monte-Carlo simulations.

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Semantic Source Coding for Two Users with Heterogeneous Goals

Agheli¹,

pappas²,

Kountouris³

2022

Preprint

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We study a multiuser system in which an information source provides status updates to two monitors with heterogeneous goals. Semantic filtering is first performed to select the most useful realizations for each monitor. Packets are then encoded and sent so that each monitor can timely fulfill its goal. In this regard, some realizations are important for both monitors, while every other realization is informative for only one monitor. We determine the optimal real codeword lengths assigned to the selected packet arrivals in the sense of maximizing a weighted sum of semantics-aware utility functions for the monitors. Our analytical and numerical results provide the optimal design parameters for different arrival rates and highlight the improvement in timely status update delivery using semantic filtering and source coding.

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High-Speed Trains Access Connectivity Through RIS-Assisted FSO Communications

Agheli¹,

Beyranvand²,

Emadi

2022

J. Lightwave Technol.

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Cognitive RF-FSO Fronthaul Assignment in Cell-Free and User-Centric mMIMO Networks

Agheli¹,

Emadi²,

Beyranvand³

2020

Preprint

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Pouya Agheli

UAV-Assisted Underwater Sensor Networks Using RF and Optical Wireless Links

High-Speed Trains Access Connectivity Through RIS-Assisted FSO Communications

Semantic Source Coding for Two Users with Heterogeneous Goals

High-Speed Trains Access Connectivity Through RIS-Assisted FSO Communications

Cognitive RF-FSO Fronthaul Assignment in Cell-Free and User-Centric mMIMO Networks

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