RIS 辅助 FDD MIMO 通信系统的联合下行链路和上行链路优化

arXiv - CS - Information Theory Pub Date : 2024-01-21 DOI:arxiv-2401.11429

Gyoseung Lee, Hyeongtaek Lee, Donghwan Kim, Jaehoon Chung, A. Lee. Swindlehurst, Junil Choi

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引用次数: 0

摘要

本文研究了可重构智能表面（RIS）辅助频分双工（FDD）通信系统。由于下行链路和上行链路信号在 FDD 中同时传输，因此 RIS 的相移设计应支持这两种传输。考虑到单用户多输入多输出系统，我们提出了一个加权和速率最大化问题，以共同实现下行链路和上行链路系统性能的最大化。为了解决这个非凸优化问题，我们采用了模拟优化（AO）算法，其中开发了两种相移优化技术来处理由 RIS 上的反射系数引起的单位模数约束。第一种技术利用了基于流形优化的算法，而第二种技术则使用了复杂度较低的 AO 方法。数值结果证明，与现有的基准方案相比，所提出的技术能迅速收敛到局部最优，并显著提高系统的整体性能。

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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Joint Downlink and Uplink Optimization for RIS-Aided FDD MIMO Communication Systems

This paper investigates reconfigurable intelligent surface (RIS)-aided frequency division duplexing (FDD) communication systems. Since the downlink and uplink signals are simultaneously transmitted in FDD, the phase shifts at the RIS should be designed to support both transmissions. Considering a single-user multiple-input multiple-output system, we formulate a weighted sum-rate maximization problem to jointly maximize the downlink and uplink system performance. To tackle the non-convex optimization problem, we adopt an alternating optimization (AO) algorithm, in which two phase shift optimization techniques are developed to handle the unit-modulus constraints induced by the reflection coefficients at the RIS. The first technique exploits the manifold optimization-based algorithm, while the second uses a lower-complexity AO approach. Numerical results verify that the proposed techniques rapidly converge to local optima and significantly improve the overall system performance compared to existing benchmark schemes.

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arXiv - CS - Information Theory

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