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On the Impact of Control Signaling in RIS-Empowered Wireless Communications

Fabio Saggese, Victor Croisfelt, Radosław Kotaba, Kyriakos Stylianopoulos, George C. Alexandropoulos, Petar Popovski

2024IEEE Open Journal of the Communications Society23 citationsDOIOpen Access PDF

Abstract

The research on Reconfigurable Intelligent Surfaces (RISs) has dominantly been focused on physical-layer aspects and analyses of the achievable adaptation of the wireless propagation environment. Compared to that, questions related to system-level integration of RISs have received less attention. We address this research gap by analyzing the control signaling operations needed to integrate the RIS as a new wireless infrastructure element. As the main contribution of the paper, we build a systematic procedure for evaluating the impact of control operations on communication performance along two dimensions: i) the rate selection for the data channel (multiplexing or diversity), and ii) the allocated bandwidth of the control channels (in-band and out-of-band). Specifically, the first dimension results in two generic transmission paradigms: one focuses on optimizing RIS setting according to the propagation environment, labeled as optimization based on channel estimation (OPT-CE); the other is based on sweeping through predefined RIS phase configurations, labeled as codebook-based beam sweeping (CB-BSW). We analyze the communication performance in multiple setups built along these two dimensions. While necessarily simplified, our analysis reveals the basic trade-offs in RIS-assisted communications and the associated control operations: CB-BSW is better suited for high mobility scenarios since its operation is not conditional on performing channel estimation within the coherence time; OPT-CE performs significantly better when the channel coherence time is sufficiently long, but it requires exchanging more control data, necessitating higher control reliability and profiting more from out-of-band control channel design. Our systematic procedure can be easily adapted to include more complex systems and transmission modes.

Topics & Concepts

Computer scienceWirelessChannel (broadcasting)Control channelBandwidth (computing)Coherence bandwidthComputer networkElectronic engineeringDistributed computingTransmission (telecommunications)TelecommunicationsEngineeringFadingDelay spreadAdvanced Wireless Communication TechnologiesSatellite Communication SystemsOptical Wireless Communication Technologies