Performance Analysis of RIS-SSK in the Presence of Hardware Impairments

2021 IEEE 32nd Annual International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC) Pub Date : 2021-09-13 DOI:10.1109/PIMRC50174.2021.9569436

Asma Bouhlel, Malek M. Alsmadi, Emad Saleh, S. Ikki, A. Sakly

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引用次数: 8

Abstract

Reconfigurable Intelligent Surface-based Space Shift Keying (RIS-SSK) was recently proposed as a promising transmission technique. In order to design strategic radio environments, this system takes advantage of RIS-based communication and adjusts the propagation channels. Furthermore, using SSK as a special case of the Spatial Modulation (SM) reduces the detection complexity by using only the index of the active antenna to transmit the data. However, when considering an effective RIS-SSK system, the transmit antenna is modeled by spatial constellation points with different weights. This requires the knowledge of Channel State Information (CSI), including the index of the activated antenna at each transmission which is impractical. In contrast, blind RIS-SSK does not require this information, decreasing its complexity and increasing its practicality. In this paper, a blind RIS-SSK system without phase-adjusting is studied in the presence of hardware impairments and compared to the standard SSK. Additionally, analytically error probability expressions based on the Maximum Likelihood (ML) detector are developed and proven with simulations. The results illustrate the negative effects of modeling the hardware impairments for robust RIS-SSK system implementation.

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存在硬件损伤时RIS-SSK的性能分析

可重构智能地面空间移位键控(RIS-SSK)是近年来提出的一种很有前途的传输技术。为了设计战略无线电环境，该系统利用基于ris的通信方式，对传播信道进行调整。此外，将SSK作为空间调制(SM)的一种特殊情况，仅使用有源天线的索引来传输数据，从而降低了检测复杂度。然而，在考虑有效的RIS-SSK系统时，发射天线采用不同权重的空间星座点建模。这需要了解信道状态信息(CSI)，包括每次传输时激活天线的索引，这是不切实际的。相比之下，盲RIS-SSK不需要这些信息，降低了它的复杂性，增加了它的实用性。本文研究了存在硬件缺陷的无相位调整盲RIS-SSK系统，并与标准SSK系统进行了比较。此外，基于最大似然(ML)检测器的分析误差概率表达式被开发并通过仿真验证。结果说明了硬件损伤建模对稳健的RIS-SSK系统实现的负面影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 IEEE 32nd Annual International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC)

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