Reconfigurable Intelligent Surfaces Relying on Non-Diagonal Phase Shift Matrices

被引:43
|
作者
Li, Qingchao [1 ]
El-Hajjar, Mohammed [1 ]
Hemadeh, Ibrahim [2 ]
Shojaeifard, Arman [2 ]
Mourad, Alain A. M. [2 ]
Clerckx, Bruno [3 ]
Hanzo, Lajos [1 ]
机构
[1] Univ Southampton, Elect & Comp Sci, Southampton SO17 1BJ, Hants, England
[2] InterDigital, London EC2A 3QR, England
[3] Imperial Coll London, Dept Elect & Elect Engn, Commun & Signal Proc Grp, London SW7 2AZ, England
基金
英国工程与自然科学研究理事会; 欧洲研究理事会;
关键词
Transmission line matrix methods; Optimization; Array signal processing; Simulation; Rician channels; Power system reliability; Matrix converters; Average bit error ratio (BER); channel gain; joint beamforming; outage probability; reconfigurable intelligent surfaces (RIS); REFLECTING SURFACE; WIRELESS COMMUNICATION; CHANNEL ESTIMATION; NETWORK; DESIGN; CHALLENGES; CIRCULATOR;
D O I
10.1109/TVT.2022.3160364
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Reconfigurable intelligent surfaces (RIS) have been actively researched as a potential technique for future wireless communications, which intelligently ameliorate the signal propagation environment. In the conventional design, each RIS element configures and reflects its received signal independently of all other RIS elements, which results in a diagonal phase shift matrix. By contrast, we propose a novel RIS architecture, where the incident signal impinging on one element can be reflected from another element after an appropriate phase shift adjustment, which increases the flexibility in the design of RIS phase shifts, hence, potentially improving the system performance. The resultant RIS phase shift matrix also has off-diagonal elements, as opposed to the pure diagonal structure of the conventional design. Compared to the state-of-art fully-connected/group-connected RIS structures, our proposed RIS architecture has lower complexity, while attaining a higher channel gain than the group-connected RIS structure, and approaching that of the fully-connected RIS structure. We formulate and solve the problem of maximizing the achievable rate of our proposed RIS architecture by jointly optimizing the transmit beamforming and the non-diagonal phase shift matrix based on alternating optimization and semi-define relaxation (SDR) methods. Moreover, the closed-form expressions of the channel gain, the outage probability and bit error ratio (BER) are derived. Simulation results demonstrate that our proposed RIS architecture results in an improved performance in terms of the achievable rate compared to the conventional architecture, both in single-user as well as in multi-user scenarios.
引用
收藏
页码:6367 / 6383
页数:17
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