New reconfigurable intelligent surface (RIS) based amplitude and phase modulation schemes are proposed as an evolution how the phase-only modulation schemes available in the literature. Explicitly, both the amplitude-phase shift keying (A-PSK) and quadrature amplitude-phase shift keying (QA-PSK) are conceived, where the RIS is assumed to be part of a transmitter to deliver information to the multi-antenna aided downlink receiver. In the proposed design, the RIS is partitioned into multiple blocks, and the information bits are conveyed by controlling both the ON-OFF state and the phase shift of the RIS elements in each block. Since the propagation paths spanning from each RIS block to the receiver can be coherently combined as a benefit of appropriately configuring the phase of the RIS elements, the received signal constellations can be designed by controlling both the ON-OFF pattern of the RIS blocks as well as the phase shift of the RIS elements. Both the theoretical analysis and the simulation results show that our proposed RIS-aided modulation schemes outperform the state-of-the-art RIS-based PSK modulation both in terms of its discrete-input-continuous-output memoryless channel (DCMC) capacity and its symbol error probability, especially in the high signal-to-noise-ratio (SNR) region, when considering realistic finite resolution RIS phase shifts.
翻译:以智能表面(RIS)为基础的新的可重新校准智能振幅和阶段调制方案是作为文献中可用的阶段性调制方案的一种演进而提出的。清晰地说,对振动阶段转换键(A-PSK)和二次振动阶段转换键(QA-PSK)都进行了构思,从而适当地将振动阶段变化键(QA-PSK)与二次振动阶段变化键(QA-PSK)相融合,假设其接收的信号星座是将信息传送到多屏蔽辅助下链接接收器的一个发射机的一部分。在拟议的设计中,RIS分为多个区,通过控制O-OFF模式,通过控制O-OFF状态分解,通过控制O-OFF状态,通过控制O-O-FF状态分解器元素的阶段转换传递信息。理论分析和模拟结果都表明,我们提议的RIS-FF状态调整周期性调整系统(IMIS-MAS-S-S-S-delive Silental Silental-resental MS-lamoduction Silal-modal-modal-Promodal-modal-Promodal-Promoudal-S-Promoducal-S-S-Promodal-moduction-S-S-S-real-real-Promoduction-S-S-S-S-real-S-S-real-modal-real-real-Promodal-real-real-modal-real-modal-modal-modal-modal-mo化系统)系统系统,可以设计出其高调制成成成的系统。
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