Reconfigurable intelligent surface (RIS) has gained much traction due to its potential to manipulate the propagation environment via nearly-passive reconfigurable elements. In our previous work, we have analyzed and proposed a beyond diagonal RIS (BD-RIS) model, which is not limited to traditional diagonal phase shift matrices, to unify different RIS modes/architectures. In this paper, we create a new branch of BD-RIS supporting a multi-sector mode. A multi-sector BD-RIS is modeled as multiple antennas connected to a multi-port group-connected reconfigurable impedance network. More specifically, antennas are divided into $L$ ($L \ge 2$) sectors and arranged as a polygon prism with each sector covering $1/L$ space. Different from the recently introduced concept of intelligent omni-surface (or simultaneously transmitting and reflecting RIS), the multi-sector BD-RIS not only achieves a full-space coverage, but also has significant performance gains thanks to the highly directional beam of each sector.We derive the constraint of the multi-sector BD-RIS and the corresponding channel model taking into account the relationship between antenna beamwidth and gain. With the proposed model, we first derive the scaling law of the received signal power for a multi-sector BD-RIS-assisted single-user system. We then propose efficient beamforming design algorithms to maximize the sum-rate of the multi-sector BD-RIS-assisted multiuser system. Simulation results verify the effectiveness of the proposed design and demonstrate the performance enhancement of the proposed multi-sector BD-RIS.
翻译:重新配置的智能表面(RIS)由于有可能通过近乎被动的重新配置元素来操纵传播环境,因此获得了很大的牵引力。在我们以往的工作中,我们分析并提出了一个超越对角的RIS(BD-RIS)模型,该模型不局限于传统的对角相相位转移矩阵,以统一不同的RIS模式/结构。在本文件中,我们建立了一个新的BD-RIS分支,支持一种多部门模式。一个多部门BD-RIS模型的模型是多个天线,与多端组合连接的可调整阻力网络连接。更具体地说,天线被分为一个$L$(Ge2$)的区,并被安排成一个覆盖1美元/L$空间的每个区段的多元光度调整模型。不同于最近引入的智能光度表(或同时传输和反映RIS)概念,多部门的BD-RIS分支不仅能够实现全空覆盖,而且由于每个区高度定向,也取得了显著的业绩增益。我们从多端用户用户界面模型中推导出多端系统设计BRO-SRIS-SLA模型的进度,我们收到了BRODS-S-S-S-S-S-S-S-S-S-SLA-S-S-SLA-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-SD-SD-SD-SD-SD-S-S-S-S-SD-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-SD-S-S-SD-SD-SD-S-SD-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-S-