Over-the-Air OFDM-IM Through Frequency Mixing and Modulating Reconfigurable Intelligent Surfaces

IF 6.3 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of the Communications Society Pub Date : 2024-07-15 DOI:10.1109/OJCOMS.2024.3427639

Elvan Kuzucu Hidir;Ertugrul Basar;Hakan Ali Cirpan

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引用次数: 0

Abstract

Beyond fifth-generation (5G) wireless communication, reconfigurable intelligent surfaces (RIS) have emerged as a transformative technology that can redefine how we interact with and harness electromagnetic waves. Advancements in meta-materials and metasurfaces have brought about exceptional flexibility in controlling electromagnetic waves at scales smaller than the wavelength. The frequency-mixing RIS (FMx-RIS) has been introduced, considering the benefits of programmable metasurfaces. This method introduces additional frequencies into the original signal, making the communication environment non-linear. Among the different multicarrier transmission methods, orthogonal frequency division multiplexing (OFDM) has become the most commonly used option in wireless communications due to reducing intersymbol interference caused by the frequency selectivity of wireless channels. Upon examining the structure of FMx-RIS, it has been observed that signals similar to OFDM can be obtained at the receiver. This situation indicates the possibility of generating a signal in the air similar to OFDM using an RIS. Therefore, in this study, we propose a novel Over-the-Air OFDM system design by integrating frequency mixing and modulating RIS (FMMx-RIS) to exploit its ability to manipulate the incident wave’s magnitude and frequency. The most notable aspect of this innovative scheme is its ability to offer multi-carrier transmission with a straightforward transmitter structure rather than requiring the complex system design typical of OFDM. The novel concept of index modulation (IM), which leverages the spatial domain to transmit extra information more efficiently, enhancing energy and spectrum efficiency, has attracted considerable interest in both academic and industrial fields. Hence, we extend the system model into the Over-the-Air OFDM-IM system by toggling frequency-changing RIS on and off. Furthermore, we analytically assess the average bit error probability (ABEP) of the proposed Over-the-Air OFDM-IM system using the maximum likelihood (ML) decoder. Subsequently, we present comprehensive computer simulation results to demonstrate the significant improvement in bit error rate (BER) performance of the proposed Over-the-Air OFDM-IM system compared to reference systems employing RIS-aided OFDM.

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通过混频和调制可重构智能表面实现空中 OFDM-IM

除了第五代（5G）无线通信之外，可重构智能表面（RIS）已成为一种变革性技术，能够重新定义我们与电磁波的交互和利用方式。超材料和超表面技术的进步为在比波长更小的尺度上控制电磁波带来了非凡的灵活性。考虑到可编程元表面的优势，我们引入了频率混合 RIS（FMx-RIS）。这种方法在原始信号中引入额外频率，使通信环境变得非线性。在不同的多载波传输方法中，正交频分复用（OFDM）已成为无线通信中最常用的方法，因为它能减少无线信道频率选择性引起的符号间干扰。通过研究 FMx-RIS 的结构，我们发现接收器可以获得类似于 OFDM 的信号。这种情况表明，使用 RIS 有可能在空中产生类似于 OFDM 的信号。因此，在本研究中，我们提出了一种新颖的空中 OFDM 系统设计，通过整合混频和调制 RIS（FMMx-RIS）来利用其操纵入射波幅度和频率的能力。这种创新方案最显著的特点是，它能够以简单的发射机结构提供多载波传输，而不需要像 OFDM 那样复杂的系统设计。索引调制（IM）的新概念利用空间域更有效地传输额外信息，提高了能量和频谱效率，在学术和工业领域都引起了极大的兴趣。因此，我们通过切换频率变化 RIS 的开关，将系统模型扩展为空中 OFDM-IM 系统。此外，我们使用最大似然（ML）解码器分析评估了拟议空中 OFDM-IM 系统的平均比特误差概率（ABEP）。随后，我们展示了全面的计算机仿真结果，证明与采用 RIS 辅助 OFDM 的参考系统相比，拟议的空中 OFDM-IM 系统在误码率 (BER) 性能方面有显著改善。

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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来源期刊

IEEE Open Journal of the Communications Society Multiple-

CiteScore

13.70

自引率

3.80%

发文量

审稿时长

10 weeks

期刊介绍： The IEEE Open Journal of the Communications Society (OJ-COMS) is an open access, all-electronic journal that publishes original high-quality manuscripts on advances in the state of the art of telecommunications systems and networks. The papers in IEEE OJ-COMS are included in Scopus. Submissions reporting new theoretical findings (including novel methods, concepts, and studies) and practical contributions (including experiments and development of prototypes) are welcome. Additionally, survey and tutorial articles are considered. The IEEE OJCOMS received its debut impact factor of 7.9 according to the Journal Citation Reports (JCR) 2023. The IEEE Open Journal of the Communications Society covers science, technology, applications and standards for information organization, collection and transfer using electronic, optical and wireless channels and networks. Some specific areas covered include: Systems and network architecture, control and management Protocols, software, and middleware Quality of service, reliability, and security Modulation, detection, coding, and signaling Switching and routing Mobile and portable communications Terminals and other end-user devices Networks for content distribution and distributed computing Communications-based distributed resources control.

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