Mixed RF/FSO Cooperative Relaying Systems with Co-Channel Interference
Elyes Balti, Mohsen Guizani

TL;DR
This paper analyzes a dual-hop RF/FSO relay system with multiple relays, proposing generalized fading models and deriving analytical performance metrics to evaluate system reliability and capacity under various conditions.
Contribution
It introduces a comprehensive analytical framework for mixed RF/FSO relaying systems with generalized fading models and partial relay selection, providing closed-form performance expressions.
Findings
Derived closed-form outage probability and capacity expressions.
Validated analytical results with Monte Carlo simulations.
Provided high SNR asymptotic analysis for system insights.
Abstract
In this paper, we provide a global framework analysis of a dual-hop mixed Radio Frequency (RF)/Free Space Optical (FSO) system with multiple branches/relays wherein the first and second hops, respectively, consist of RF and FSO channels. To cover various cases of fading, we propose generalized channels' models for RF and FSO links that follow the Nakagami-m and the Double Generalized Gamma (DGG) distributions, respectively. Moreover, we suggest Channel State Information (CSI)-assisted relaying or variable relaying gain based Amplifiy-and-Forward (AF) amplification. Partial relay selection with outdated CSI is assumed as a relay selection protocol based on the knowledge of the RF CSI. In order to derive the end-to-end Signal-to-Interference-plus-Noise Ratio (SINR) statistics such as the Cumulative Distribution Function (CDF), the Probability Density Function (PDF), the higher order…
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Taxonomy
TopicsOptical Wireless Communication Technologies · Advanced Wireless Communication Technologies · Optical Network Technologies
