Most algorithms developed so far for the optimization of Intelligent Reflecting Surfaces (IRSs) require knowledge of full Channel State Information (CSI). However, the resulting acquisition overhead constitutes a major bottleneck for the realization of IRS-assisted wireless systems in practice. In contrast, in this paper, focusing on downlink transmissions from a Base Station (BS) to a Mobile User (MU) that is located in a blockage region, we propose to optimize the IRS for illumination of the area centered around the MU. Hence, the proposed design requires the estimation of the MU's position and not the full CSI. For a given IRS phase-shift configuration, the end-to-end BS-IRS-MU channel can then be estimated using conventional channel estimation techniques. The IRS reconfiguration overhead for the proposed scheme depends on the MU mobility as well as how wide the coverage of the IRS illumination is. Therefore, we develop a general IRS phase-shift design, which is valid for both the near- and far-field regimes and features a parameter for tuning the size of the illumination area. Moreover, we study a special case where the IRS illuminates the entire blockage area, which implies that the IRS phase shifts do not change over time leading to zero overhead for IRS reconfiguration.
翻译:迄今为止,为优化智能反射表面(IRS)而开发的多数算法都要求了解全频道国家信息(CSI)的知识。然而,由此产生的购置管理费构成了在实践中实现IRS辅助无线系统的一个主要瓶颈。与此形成对照的是,在本文件中,侧重于基地站(BS)向位于封锁区的移动用户(MU)的下行传输,我们提议优化IRS,以优化位于MU周围区域的照明。因此,拟议的设计需要估算MU的位置,而不是完整的CSI。对于特定的IRS阶段性配置而言,最终到终端的BS-IRS-MU频道可以使用常规频道估计技术来估计。拟议的计划IRS重组管理费取决于MU的流动性以及IRS照明的覆盖范围。因此,我们开发了IRS阶段性通用设计,这对MUF系统近场和远处都有效,并且具有调整IRS系统系统内部系统升级规模的参数。此外,我们还研究IRS系统升级整个阶段的IRS系统升级将意味着该阶段的升级。