Intelligent reflective surfaces (IRSs) are invoked for improving both spectral efficiency (SE) and energy efficiency (EE). Specifically, an IRS-aided multiple-input multiple-output network is considered, where the performance of randomly roaming users is analyzed by utilizing stochastic geometry tools. As such, to distinguish the superposed signals at each user, the passive beamforming weight at the IRSs and detection weight vectors at the users are jointly designed. As a benefit, by adopting a zero-forcing-based design, the intra-cell interference imposed by the IRS can be suppressed. In order to evaluate the performance of the proposed network, we first derive the approximated channel statistics in the high signal-to-noise-ratio (SNR) regime. Then, we derive the closed-form expressions both for the outage probability and for the ergodic rate of users. Both the high-SNR slopes of ergodic rate and the diversity orders of outage probability are derived for gleaning further insights. The network's SE and EE are also derived. Our numerical results are provided to confirm that: i) the high-SNR slope of the proposed network is one; ii) the SE and EE can be significantly enhanced by increasing the number of IRS elements.
翻译:为了提高光谱效率(SE)和能源效率(EE),使用智能反射表面(IRS)来提高光谱效率(IRS)。具体地说,可以考虑使用随机漫游用户的性能,利用随机漫游用户的几何工具分析随机漫游用户的性能。因此,为了区分每个用户的超信号,IRS的被动波束成形重量和用户的检测载体重量是联合设计的。通过采用零推进型设计,可以抑制IRS施加的细胞内干扰。为了评估拟议网络的性能,我们首先从高信号到神经系统(SNR)系统中得出大致的频道统计数据。然后,我们从每个用户的外向概率和异向率的封闭式表达方式中得出。通过采用零推进型设计,可以推导出IRS的高分辨率斜度和异位概率命令,以进一步透析。网络的SE和EE-E-E(E)的测算结果也可以显著地显示E-S-E-E(E-E-E-E-E-E-E-E-E-I-I-I-I-I-IL)的测算。
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