Cognitive-Radio Functionality: A Novel Configuration for STAR-RIS assisted RSMA Networks

TL;DR

This paper introduces a novel STAR-RIS-based cognitive radio framework for RSMA networks, enabling adaptive signal control to improve secondary user throughput while ensuring primary user QoS.

Contribution

It proposes a new CR functionality for STAR-RIS that partitions the surface for adaptive transmission and reflection, enhancing interference management and system performance.

Findings

Effective interference management demonstrated

Primary user QoS guaranteed through analytical expressions

Secondary user throughput significantly improved

Abstract

Cognitive radio rate-splitting multiple access (CR-RSMA) has emerged as a promising multiple access framework that can efficiently manage interference and adapt dynamically to heterogeneous quality-of-service (QoS) requirements. To effectively support such demanding access schemes, programmable wireless environments have attracted considerable attention, especially through simultaneously transmitting and reflecting reconfigurable intelligent surfaces (STAR-RISs), which can enable full-space control of signal propagation in asymmetric user deployments. In this paper, we propose the cognitive radio (CR) functionality for STAR-RIS-assisted CR-RSMA systems, leveraging the unique capability of the STAR-RIS to combine element and power splitting for adaptive control of transmission and reflection in CR scenarios. Specifically, the proposed CR functionality partitions the STAR-RIS into two regions independently controlling the transmission and reflection of signals, simultaneously ensuring the required QoS for the primary user and enhancing the performance of the secondary user. To accurately characterize the system performance, we derive analytical expressions for the ergodic rate of the secondary user and the outage rate of the primary user under Nakagami-m fading. Finally, simulation results show that the proposed approach effectively manages interference, guarantees the QoS of the primary user, and significantly improves the throughput of the secondary user, highlighting STAR-RIS as an efficient solution for CR-RSMA-based services.