Adaptive power optimization in IRS-assisted hybrid OFDMA-NOMA cognitive radio networks with dynamic TDMA slot allocation

IF 4.4 3区计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS

Ad Hoc Networks Pub Date : 2025-01-27 DOI:10.1016/j.adhoc.2025.103778

Haythem Bany Salameh , Haitham Al-Obiedollah , Yaser Jararweh , Waffa abu Eid , Sharief Abdel-Razeq

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引用次数: 0

Abstract

The large-scale advancement of beyond-fifth-generation (B5G) wireless networks cannot be achieved without addressing the unprecedented requirements of IoT networks, such as massive connectivity, spectrum efficiency, and energy efficiency. Accordingly, integrating non-orthogonal multiple access (NOMA) with cognitive radio (CR) has been identified as a potential solution for B5G due to its ability to support massive number of IoT devices while improving the spectrum utilization. In particular, CR networks (CRNs) permit spectrum sharing by allowing a set of secondary users to under-utilize the available spectrum without interfering with primary users (i.e., licensed users), which improves spectral efficiency. Furthermore, unlike orthogonal multiple access (OMA), NOMA can serve more than one user at each orthogonal resource block (i.e., time or frequency) through power-domain multiplexing, which supports the massive connectivity requirements of B5G networks. Incorporating intelligent-reflecting surfaces (IRS) into NOMA-enabled CRNs can improve coverage, data rates, and power efficiency, especially when CR users lack direct line-of-sight to base stations. However, this IRS-assisted NOMA CRN system cannot be fully exploited without an efficient power-allocation framework that reduces power consumption while adhering to IRS, CR, NOMA, and quality of service (QoS) constraints. This paper introduces an IRS-assisted OMA-NOMA power allocation framework for CRNs that utilizes time and frequency domains with NOMA and IRS to serve more CR users with minimal power by optimizing power allocation and IRS reflection coefficients. The proposed framework dynamically divides every idle channel into time slots, creating adaptive frequency–time resource blocks (RBs) to accommodate more users using power-domain NOMA. The power-minimization problem over these adaptive RBs, considering IRS, CR, NOMA, and QoS constraints, is formulated as a non-convex optimization problem. An iterative approach is applied to convert the problem into a solvable convex optimization. Simulation results demonstrate that the proposed framework significantly outperforms traditional IRS-based approaches across multiple metrics.

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具有动态TDMA时隙分配的irs辅助OFDMA-NOMA混合认知无线网络自适应功率优化

如果不解决物联网网络前所未有的需求，如大规模连接、频谱效率和能源效率，就无法实现超第五代（B5G）无线网络的大规模发展。因此，将非正交多址（NOMA）与认知无线电（CR）相结合已被确定为B5G的潜在解决方案，因为它能够支持大量物联网设备，同时提高频谱利用率。特别是，CR网络（crn）允许一组辅助用户在不干扰主用户（即授权用户）的情况下充分利用可用频谱，从而实现频谱共享，从而提高了频谱效率。此外，与正交多址（OMA）不同，NOMA可以通过功率域多路复用在每个正交资源块（即时间或频率）上为多个用户服务，从而支持B5G网络的大量连接需求。将智能反射面（IRS）集成到支持noma的crn中可以提高覆盖率、数据速率和功率效率，特别是当CR用户与基站缺乏直接视线时。然而，如果没有一个有效的功率分配框架来降低功耗，同时遵守IRS、CR、NOMA和服务质量（QoS）约束，这个IRS辅助的NOMA CRN系统就不能被充分利用。本文介绍了一种IRS辅助下的crn OMA-NOMA功率分配框架，该框架通过优化功率分配和IRS反射系数，利用NOMA和IRS的时频域，以最小的功率为更多的crn用户服务。提出的框架将每个空闲信道动态划分为时隙，创建自适应频时资源块（RBs），以适应使用功率域NOMA的更多用户。考虑到IRS、CR、NOMA和QoS约束，这些自适应RBs上的功率最小化问题被表述为非凸优化问题。采用迭代法将该问题转化为可解的凸优化问题。仿真结果表明，该框架在多个指标上明显优于传统的基于irs的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ad Hoc Networks 工程技术-电信学

CiteScore

10.20

自引率

4.20%

发文量

131

审稿时长

4.8 months

期刊介绍： The Ad Hoc Networks is an international and archival journal providing a publication vehicle for complete coverage of all topics of interest to those involved in ad hoc and sensor networking areas. The Ad Hoc Networks considers original, high quality and unpublished contributions addressing all aspects of ad hoc and sensor networks. Specific areas of interest include, but are not limited to: Mobile and Wireless Ad Hoc Networks Sensor Networks Wireless Local and Personal Area Networks Home Networks Ad Hoc Networks of Autonomous Intelligent Systems Novel Architectures for Ad Hoc and Sensor Networks Self-organizing Network Architectures and Protocols Transport Layer Protocols Routing protocols (unicast, multicast, geocast, etc.) Media Access Control Techniques Error Control Schemes Power-Aware, Low-Power and Energy-Efficient Designs Synchronization and Scheduling Issues Mobility Management Mobility-Tolerant Communication Protocols Location Tracking and Location-based Services Resource and Information Management Security and Fault-Tolerance Issues Hardware and Software Platforms, Systems, and Testbeds Experimental and Prototype Results Quality-of-Service Issues Cross-Layer Interactions Scalability Issues Performance Analysis and Simulation of Protocols.