In frequency division duplexing systems, the base station (BS) acquires downlink channel state information (CSI) via channel feedback, which has not been adequately investigated in the presence of RIS. In this study, we examine the limited channel feedback scheme by proposing a novel cascaded codebook and an adaptive bit partitioning strategy. The RIS segments the channel between the BS and mobile station into two sub-channels, each with line-of-sight (LoS) and non-LoS (NLoS) paths. To quantize the path gains, the cascaded codebook is proposed to be synthesized by two sub-codebooks whose codeword is cascaded by LoS and NLoS components. This enables the proposed cascaded codebook to cater the different distributions of LoS and NLoS path gains by flexibly using different feedback bits to design the codeword structure. On the basis of the proposed cascaded codebook, we derive an upper bound on ergodic rate loss with maximum ratio transmission and show that the rate loss can be cut down by optimizing the feedback bit allocation during codebook generation. To minimize the upper bound, we propose a bit partitioning strategy that is adaptive to diverse environment and system parameters. Extensive simulations are presented to show the superiority and robustness of the cascaded codebook and the efficiency of the adaptive bit partitioning scheme.
翻译:在频率分解系统中,基站(BS)通过频道反馈获取下链接频道状态信息(CSI),而这种反馈没有在RIS在场的情况下得到充分调查。在本研究中,我们通过提出一个新的级联代码簿和适应性位分割战略来检查有限的频道反馈计划。RIS将BS和移动站之间的频道分成两个子通道,每个通道都有直线(LOS)和非LOS路径。为了量化路径收益,建议由两个子代码集对级联代码集进行综合,其代码集由LOS和NLOS组成,这样,拟议的级联代码集就可以通过灵活使用不同反馈点来设计代码结构,适应LOS和NLOS的不同分布分布。根据拟议的分级联代码集路径,我们得出一条以最大比例传输为主的ERgodic率损失上限,并表明通过在生成代码集过程中优化反馈比比分分配可以减少损失率。为了最大限度地优化该比例分配,我们提议的级联调度和最高级联度战略的升级化,我们提议了一种适应性环境的升级和升级规则。我们提议了一种升级到升级的升级的升级的升级。