研究目的
Investigating the performance of joint user and relay selection scheme for a multi-user relayed network over mixed radio-frequency (RF) and free space optical (FSO) system.
研究成果
The paper presents a joint user and relay selection scheme for RF/FSO systems over EW fading channels, deriving closed-form outage and error probability expressions. The results, validated with Monte-Carlo simulations, show that user and relay selection can enhance system performance, with diversity gain depending on the number of relays and fading severity parameters. The theoretical results provide a quick insight into system performance without complex prototypes or derivations.
研究不足
The study assumes perfect line-of-sight (LOS) conditions for the FSO path and does not account for potential misalignment or pointing errors in practical scenarios. The analysis is also limited to specific fading models (Rayleigh for RF and Exponentiated Weibull for FSO).
1:Experimental Design and Method Selection:
The study involves a dual-hop RF/FSO system with joint user and relay selection to maximize the end-to-end SNR. The RF link is modeled with Rayleigh fading, and the FSO path is modeled with Exponentiated Weibull distribution.
2:Sample Selection and Data Sources:
Multiple users at the source terminal communicate with the destination over multiple decode and forward relays.
3:List of Experimental Equipment and Materials:
The system setup includes RF and FSO communication links, with specific parameters for the optical part such as wavelength, receive aperture size, and link distance.
4:Experimental Procedures and Operational Workflow:
Users send pilot signals to the destination through relay terminals, and the best user and relay are selected based on SNR maximization.
5:Data Analysis Methods:
Closed-form outage and error probability expressions are derived, and asymptotic analysis is performed to understand system parameters.
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