Joint alignment and steering to manage interference

IF 7.5 2区计算机科学 Q1 TELECOMMUNICATIONS

Digital Communications and Networks Pub Date : 2024-04-01 DOI:10.1016/j.dcan.2022.09.001

Zhao Li , Xiujuan Liang , Yinghou Liu , Jia Liu , Zheng Yan

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引用次数: 0

Abstract

In wireless communication networks, mobile users in overlapping areas may experience severe interference, therefore, designing effective Interference Management (IM) methods is crucial to improving network performance. However, when managing multiple disturbances from the same source, it may not be feasible to use existing IM methods such as Interference Alignment (IA) and Interference Steering (IS) exclusively. It is because with IA, the aligned interference becomes indistinguishable at its desired Receiver (Rx) under the cost constraint of Degrees-of-Freedom (DoF), while with IS, more transmit power will be consumed in the direct and repeated application of IS to each interference. To remedy these deficiencies, Interference Alignment Steering (IAS) is proposed by incorporating IA and IS and exploiting their advantages in IM. With IAS, the interfering Transmitter (Tx) first aligns one interference incurred by the transmission of one data stream to a one-dimensional subspace orthogonal to the desired transmission at the interfered Rx, and then the remaining interferences are treated as a whole and steered to the same subspace as the aligned interference. Moreover, two improved versions of IAS, i.e., IAS with Full Adjustment at the Interfering Tx (IAS-FAIT) and Interference Steering and Alignment (ISA), are presented. The former considers the influence of IA on the interfering user-pair's performance. The orthogonality between the desired signals at the interfered Rx can be maintained by adjusting the spatial characteristics of all interferences and the aligned interference components, thus ensuring the Spectral Efficiency (SE) of the interfering communication pairs. Under ISA, the power cost for IS at the interfered Tx is minimized, hence improving SE performance of the interfered communication-pairs. Since the proposed methods are realized at the interfering and interfered Txs cooperatively, the expenses of IM are shared by both communication-pairs. Our in-depth simulation results show that joint use of IA and IS can effectively manage multiple disturbances from the same source and improve the system's SE.

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关节对准和转向，以管理干扰

在无线通信网络中，重叠区域的移动用户可能会受到严重干扰，因此，设计有效的干扰管理（IM）方法对于提高网络性能至关重要。然而，在管理来自同一干扰源的多个干扰时，完全使用干扰对齐（IA）和干扰转向（IS）等现有 IM 方法可能并不可行。这是因为使用 IA 时，在自由度（DoF）的成本约束下，对齐的干扰在其所需的接收器（Rx）处变得无法区分，而使用 IS 时，在对每个干扰直接和重复应用 IS 时将消耗更多的发射功率。为了弥补这些不足，我们提出了干扰对齐转向（IAS），它结合了 IA 和 IS，并利用了它们在 IM 中的优势。使用 IAS 时，干扰发射机（Tx）首先将一个数据流传输产生的干扰对齐到与受干扰 Rx 的预期传输正交的一维子空间，然后将其余干扰作为一个整体处理，并引导到与对齐干扰相同的子空间。此外，还提出了 IAS 的两个改进版本，即在干扰发射机上进行全面调整的 IAS（IAS-FAIT）和干扰引导与对齐（ISA）。前者考虑了 IA 对干扰用户对性能的影响。通过调整所有干扰和对齐干扰分量的空间特性，可保持受干扰 Rx 上所需信号之间的正交性，从而确保干扰通信对的频谱效率（SE）。在 ISA 下，受干扰 Tx 的 IS 功率成本最小，从而提高了受干扰通信对的 SE 性能。由于所提出的方法是在干扰和被干扰的 Tx 上合作实现的，因此 IM 的费用由两个通信对分担。我们的深入仿真结果表明，联合使用 IA 和 IS 可以有效管理来自同一干扰源的多个干扰，并改善系统的 SE。

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

Digital Communications and Networks Computer Science-Hardware and Architecture

CiteScore

12.80

自引率

5.10%

发文量

915

审稿时长

30 weeks

期刊介绍： Digital Communications and Networks is a prestigious journal that emphasizes on communication systems and networks. We publish only top-notch original articles and authoritative reviews, which undergo rigorous peer-review. We are proud to announce that all our articles are fully Open Access and can be accessed on ScienceDirect. Our journal is recognized and indexed by eminent databases such as the Science Citation Index Expanded (SCIE) and Scopus. In addition to regular articles, we may also consider exceptional conference papers that have been significantly expanded. Furthermore, we periodically release special issues that focus on specific aspects of the field. In conclusion, Digital Communications and Networks is a leading journal that guarantees exceptional quality and accessibility for researchers and scholars in the field of communication systems and networks.