Integrating Reconfigurable Intelligent Surface and AAV for Enhanced Secure Transmissions in IoT-Enabled RSMA Networks
Authors: Wang, D., Li, J., Lv, Q., He, Y., Li, L., Hua, Q., Alfarraj, O., Zhang, J.
Journal: IEEE Internet of Things Journal
Publication Date: 01/01/2025
Volume: 12
Issue: 8
Pages: 9405-9419
eISSN: 2327-4662
DOI: 10.1109/JIOT.2024.3523500
Abstract:Autonomous aerial vehicle (AAV)-enabled Internet of Things (IoT) exhibits great application potential with its wide coverage, flexible network topology, and diversified services. However, ensuring communication security and efficient spectrum resource utilization in multiuser access scenarios is challenging, given the open nature of AAV channels and the proliferation of communication devices in IoT. To address the above challenges, this article proposes a novel reconfigurable intelligent surface (RIS)-aided AAV collaborative communication framework, where RIS-equipped AAV flexibly serves multiple users. In this work, a rate splitting multiple access (RSMA)-based secure transmission scheme is proposed, where the split public information serves both as useful signals and noise to disrupt eavesdropping. For the proposed scheme, a sum secrecy rate maximization problem is formulated and solved by optimally deploying the AAV’s location, designing the RIS’s phase shift, and power allocation. For this nonconvex problem with a couple of variables, we decompose it and form three separate subissues. Specifically, leveraging the successive convex approximation (SCA) and semidefinite relaxation (SDR) techniques, we first exploit an iterative algorithm for optimizing beamforming vectors and phase-shift matrix of RIS, and the optimal position of the AAV is obtained according to the deep deterministic policy gradient (DDPG). Then, we design an alternating optimization (AO) framework for joint solving. Finally, simulation results validate the efficacy of the proposed scheme in enhancing security, e.g., relative to the nonorthogonal multiple access (NOMA) scheme and benchmark scheme, the secrecy rate of the proposed scheme increased by 29.7% and 71.9%, respectively.
https://eprints.bournemouth.ac.uk/40711/
Source: Scopus
Integrating Reconfigurable Intelligent Surface and AAV for Enhanced Secure Transmissions in IoT-Enabled RSMA Networks
Authors: Wang, D., Li, J., Lv, Q., He, Y., Li, L., Hua, Q., Alfarraj, O., Zhang, J.
Journal: IEEE Internet of Things Journal
Publication Date: 01/01/2025
Volume: 12
Issue: 8
Pages: 9405-9419
eISSN: 2327-4662
DOI: 10.1109/JIOT.2024.3523500
Abstract:Autonomous aerial vehicle (AAV)-enabled Internet of Things (IoT) exhibits great application potential with its wide coverage, flexible network topology, and diversified services. However, ensuring communication security and efficient spectrum resource utilization in multiuser access scenarios is challenging, given the open nature of AAV channels and the proliferation of communication devices in IoT. To address the above challenges, this article proposes a novel reconfigurable intelligent surface (RIS)-aided AAV collaborative communication framework, where RIS-equipped AAV flexibly serves multiple users. In this work, a rate splitting multiple access (RSMA)-based secure transmission scheme is proposed, where the split public information serves both as useful signals and noise to disrupt eavesdropping. For the proposed scheme, a sum secrecy rate maximization problem is formulated and solved by optimally deploying the AAV’s location, designing the RIS’s phase shift, and power allocation. For this nonconvex problem with a couple of variables, we decompose it and form three separate subissues. Specifically, leveraging the successive convex approximation (SCA) and semidefinite relaxation (SDR) techniques, we first exploit an iterative algorithm for optimizing beamforming vectors and phase-shift matrix of RIS, and the optimal position of the AAV is obtained according to the deep deterministic policy gradient (DDPG). Then, we design an alternating optimization (AO) framework for joint solving. Finally, simulation results validate the efficacy of the proposed scheme in enhancing security, e.g., relative to the nonorthogonal multiple access (NOMA) scheme and benchmark scheme, the secrecy rate of the proposed scheme increased by 29.7% and 71.9%, respectively.
https://eprints.bournemouth.ac.uk/40711/
Source: Scopus
Integrating Reconfigurable Intelligent Surface and AAV for Enhanced Secure Transmissions in IoT-Enabled RSMA Networks
Authors: Wang, D., Li, J., Lv, Q., He, Y., Li, L., Hua, Q., Alfarraj, O., Zhang, J.
Journal: IEEE INTERNET OF THINGS JOURNAL
Publication Date: 2025
Volume: 12
Issue: 8
Pages: 9405-9419
ISSN: 2327-4662
DOI: 10.1109/JIOT.2024.3523500
https://eprints.bournemouth.ac.uk/40711/
Source: Web of Science