This letter analyzes the ergodic rates of a simultaneously transmitting and reflecting reconfigurable intelligent surface (STAR-RIS) aided non-orthogonal multiple access (NOMA) system, where the direct links from the base station to cell-edge users are non-line-of-sight due to obstacles, and STAR-RIS is used to provide line-of-sight links to these cell-edge users. By fitting the distribution of the composite channel power gain to a gamma distribution, we derive the closed-form expressions of ergodic rates and high signal-to-noise ratio (SNR) slopes for cell-edge users. Numerical results reveal that 1) the ergodic rates increase with the number of STAR-RIS elements, and the high SNR slopes are fixed as constants; 2) STAR-RIS aided NOMA systems achieve higher ergodic rates than conventional RIS aided NOMA systems.
翻译:本信分析了同时传输和反映可重新配置智能表面(STAR-RIS)辅助的非垂直多存系统(NOMA)的ERGidic 率,在该系统中,由于障碍,基地站与细胞边缘用户的直接连接是非直线的,而STAR-RIS被用来向这些细胞边缘用户提供直线链接。通过将复合信道功率的分布与伽马分布相匹配,我们得出了ERGID率和高信号-音频率(SNR)斜坡的封闭式表达方式,供细胞边缘用户使用。数字结果显示,1)电离率随着STAR-RIS元素的数量而增加,高的SNR斜坡固定为常数;2) StAR-RIS辅助的NOMA系统达到高于常规的RIS辅助NOMA系统的ERGD率。
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