基于可重构智能表面的反向散射通信资源分配

Zhifei Wang, Qihao Cao
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引用次数: 0

摘要

本文提出了一种结合非正交多址(NOMA)技术的双可重构智能表面(RIS)辅助环境后向散射通信(AmBC)网络,它不仅能成功地辅助基站(BS)连接小区边缘用户,还能提高后向散射通信速率、能效和频谱效率。为了获得最高的后向散射通信速率,我们设计了一个基于 RIS 和 BS 的资源分配问题,该问题通过确定 RIS 的最佳相移和 NOMA 用户信号的最佳功率分配来解决。为了找到最佳解决方案,我们将其分解为两个较小的挑战。首先,我们使用交替优化技术迭代两个 RIS 组合之间的最佳相移。另一方面,我们使用分段法为 NOMA 用户提供理想的功率分配。最后,模拟结果证明了建议方案的可行性。
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Resource allocation of backscatter communication based on reconfigurable intelligent surface

In this article, we propose a double reconfigurable intelligent surface (RIS)-aided ambient backscatter communication (AmBC) network combined with non-orthogonal multiple access (NOMA) technology, which not only successfully assists the base station (BS) in connecting with the cell edge user, but also enhances backscatter communication rate, energy efficiency, and spectrum efficiency. In an effort to obtain the highest backscatter communication rate, we design a RIS and BS-based resource allocation problem which is solved by determining the optimal phase shifts of RISs and the optimal power allocation for signals of NOMA users. We break it down into two smaller challenges in order to discover the best solution. For one thing, we iterate the optimal phase shifts between the two RIS combinations using an alternating optimization technique. For another, the bisection method is used to provide the NOMA user with the ideal power allocation. Finally, the results of the simulation substantiate the viability of the proposed scheme.

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