TY - GEN
T1 - Enhancing RIS-Aided OTFS-NOMA Communications through Phase Shift Optimization
AU - Li, Aoying
AU - Liang, Wei
AU - Li, Lixin
AU - Lin, Wensheng
AU - Li, Xu
AU - Wei, Baoguo
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - Non-orthogonal multiple access (NOMA) and orthogonal time frequency space (OTFS) are two important technologies of the sixth generation mobile communication (6G) networks for the sake of enhancing spectral efficiency, and a much more reliable and low-latency integration system is developed, namely OTFS-NOMA networks. In this paper, the reconfigurable intelligent surfaces (RIS) aided OTFS-NOMA networks are concived, and the comperhensive collbrative optimization problem of the transmission rate and phase configurations is established. In order to resolve this objective function, a heuristic phase reconstruction arrangment (HPRA) algorithm is proposed, aim to maximize the overall system's transmission rate while satisfy the minimum rate requirement as well as phase constraints.In addition to phase optimization, we have integrated a power optimization approach into the HPRA algorithm, which further optimizes system performance by optimizing the power coefficient first and then putting the resulting coefficient into the HPRA algorithm. The HPRA algorithm utilizes penalty function techniques to effectively handle minimum rate constraints. Through an iterative search, the algorithm determines the approximate optimal phase configuration that maximizes the transmission rate.Based on the simulation experiments, the effectiveness of the proposed algorithm is verified. Furthermore, by comparing with the conventional methods, our HPRA algorithm could significantly improve the overall transmission rate while ensuring the constraints.
AB - Non-orthogonal multiple access (NOMA) and orthogonal time frequency space (OTFS) are two important technologies of the sixth generation mobile communication (6G) networks for the sake of enhancing spectral efficiency, and a much more reliable and low-latency integration system is developed, namely OTFS-NOMA networks. In this paper, the reconfigurable intelligent surfaces (RIS) aided OTFS-NOMA networks are concived, and the comperhensive collbrative optimization problem of the transmission rate and phase configurations is established. In order to resolve this objective function, a heuristic phase reconstruction arrangment (HPRA) algorithm is proposed, aim to maximize the overall system's transmission rate while satisfy the minimum rate requirement as well as phase constraints.In addition to phase optimization, we have integrated a power optimization approach into the HPRA algorithm, which further optimizes system performance by optimizing the power coefficient first and then putting the resulting coefficient into the HPRA algorithm. The HPRA algorithm utilizes penalty function techniques to effectively handle minimum rate constraints. Through an iterative search, the algorithm determines the approximate optimal phase configuration that maximizes the transmission rate.Based on the simulation experiments, the effectiveness of the proposed algorithm is verified. Furthermore, by comparing with the conventional methods, our HPRA algorithm could significantly improve the overall transmission rate while ensuring the constraints.
KW - Non-orthgonal multiple access
KW - OTFS modulation
KW - Reconfigurable intelligent surface
UR - http://www.scopus.com/inward/record.url?scp=86000193394&partnerID=8YFLogxK
U2 - 10.1109/MECOM61498.2024.10881246
DO - 10.1109/MECOM61498.2024.10881246
M3 - 会议稿件
AN - SCOPUS:86000193394
T3 - 2024 IEEE Middle East Conference on Communications and Networking, MECOM 2024
SP - 386
EP - 391
BT - 2024 IEEE Middle East Conference on Communications and Networking, MECOM 2024
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2024 IEEE Middle East Conference on Communications and Networking, MECOM 2024
Y2 - 17 November 2024 through 20 November 2024
ER -