可扩展无小区大规模 MIMO 多播系统中的用户分组

Alejandro de la Fuente, Guillem Femenias, Felip Riera-Palou, Giovanni Interdonato
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引用次数: 0

摘要

无小区大规模多输入多输出(CF-mMIMO)是超越 5G 系统的突破性技术,旨在显著提高未来移动网络的能效和频谱效率,同时确保为所有用户提供一致的服务质量。此外,由于物理层组播提供了一种高效方法,可通过共享无线电资源同时为具有相同服务需求的多个用户提供服务,因此组播最近获得了相当大的关注。通常,组播服务是通过单播传输或单一组播传输提供的。然而,这项工作引入了一种新颖的以子组为中心的组播 CF-mMIMO 框架,该框架根据用户空间信道特性的相似性将用户分为多个组播子组。这种方法允许有效共享用于信道估计的先导序列和用于数据传输的编码滤波器。所提出的框架采用了两种可扩展的预编码策略:集中式改进部分 MMSE(IP-MMSE)和分布式共轭波束形成(CB)。数值结果表明,在用户均匀分布在整个服务区域的情况下,使用集中式 IP-MMSE 预编码的单播传输是最佳的。然而,在用户空间集群的情况下,与单播和单一组播传输相比,组播分组显著提高了组播服务的总频谱效率(SE)。值得注意的是,在用户集群的情况下,分布式 CB 预编码在单用户 SE 方面优于 IP-MMSE,使其成为传输组播内容的最佳解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
User Subgrouping in Scalable Cell-Free Massive MIMO Multicasting Systems
Cell-free massive multiple-input multiple-output (CF-mMIMO) is a breakthrough technology for beyond-5G systems, designed to significantly boost the energy and spectral efficiencies of future mobile networks while ensuring a consistent quality of service for all users. Additionally, multicasting has gained considerable attention recently because physical-layer multicasting offers an efficient method for simultaneously serving multiple users with identical service demands by sharing radio resources. Typically, multicast services are delivered either via unicast transmissions or a single multicast transmission. This work, however, introduces a novel subgroup-centric multicast CF-mMIMO framework that divides users into several multicast subgroups based on the similarities in their spatial channel characteristics. This approach allows for efficient sharing of the pilot sequences used for channel estimation and the precoding filters used for data transmission. The proposed framework employs two scalable precoding strategies: centralized improved partial MMSE (IP-MMSE) and distributed conjugate beam-forming (CB). Numerical results show that for scenarios where users are uniformly distributed across the service area, unicast transmissions using centralized IP-MMSE precoding are optimal. However, in cases where users are spatially clustered, multicast subgrouping significantly improves the sum spectral efficiency (SE) of the multicast service compared to both unicast and single multicast transmission. Notably, in clustered scenarios, distributed CB precoding outperforms IP-MMSE in terms of per-user SE, making it the best solution for delivering multicast content.
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