Exploiting Low-Density Signal Structure via Approximate Message Passing With Side Information for Grant-Free NOMA

IF 10.7 1区计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Wireless Communications Pub Date : 2025-01-23 DOI:10.1109/TWC.2025.3529935

Kohei Ueda;Takanori Hara;Koji Ishibashi

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Abstract

This paper studies an uplink grant-free non-orthogonal multiple access (GF-NOMA) system using low-density signature orthogonal frequency division multiplexing (LDS-OFDM), where each user transmits non-orthogonal pilots and data symbols that are mapped onto a small number of subcarriers determined by the LDS sequence. After an initial estimation based on pilot symbols, our proposed receiver utilizes the low-density signal structure to improve active user detection, channel estimation, and multi-user detection accuracy. To achieve this, a birth-death drift process is applied to model the information exchange between two estimation modules for pilot and data symbols, and a corresponding side information (SI) calculation and denoiser design are proposed for SI-aided multiple measurement vector approximate message passing (MMV-AMP). Moreover, the asymptotic performance of the proposed SI-aided MMV-AMP is analyzed based on state evolution. Numerical results confirm that the proposed method outperforms state-of-the-art methods and that it can perform predictions using the derived state evolution.

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利用带有侧信息的近似消息传递的低密度信号结构实现无授权NOMA

本文研究了一种采用低密度签名正交频分复用（LDS- ofdm）的上行链路无授权非正交多址（GF-NOMA）系统，其中每个用户传输非正交导频和数据符号，这些导频和数据符号映射到由LDS序列确定的少量子载波上。在基于导频符号的初始估计之后，我们提出的接收机利用低密度信号结构来提高主动用户检测、信道估计和多用户检测精度。为此，采用生-死漂移过程对导频和数据符号两个估计模块之间的信息交换进行建模，并提出了SI辅助多测量向量近似消息传递（MMV-AMP）的相应侧信息（SI）计算和去噪设计。此外，基于状态演化分析了si辅助MMV-AMP的渐近性能。数值结果证实了所提出的方法优于目前最先进的方法，并且可以使用衍生状态演化进行预测。

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来源期刊

IEEE Transactions on Wireless Communications 工程技术-电信学

CiteScore

18.60

自引率

10.60%

发文量

708

审稿时长

5.6 months

期刊介绍： The IEEE Transactions on Wireless Communications is a prestigious publication that showcases cutting-edge advancements in wireless communications. It welcomes both theoretical and practical contributions in various areas. The scope of the Transactions encompasses a wide range of topics, including modulation and coding, detection and estimation, propagation and channel characterization, and diversity techniques. The journal also emphasizes the physical and link layer communication aspects of network architectures and protocols. The journal is open to papers on specific topics or non-traditional topics related to specific application areas. This includes simulation tools and methodologies, orthogonal frequency division multiplexing, MIMO systems, and wireless over optical technologies. Overall, the IEEE Transactions on Wireless Communications serves as a platform for high-quality manuscripts that push the boundaries of wireless communications and contribute to advancements in the field.