A new adaptive co-site broadband interference cancellation method with auxiliary channel

IF 7.5 2区计算机科学 Q1 TELECOMMUNICATIONS Digital Communications and Networks Pub Date : 2024-08-01 DOI:10.1016/j.dcan.2022.10.025

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Abstract

With the boom of the communication systems on some independent platforms (such as satellites, space stations, airplanes, and vessels), co-site interference is becoming prominent. The adaptive interference cancellation method has been adopted to solve the co-site interference problem. But the broadband interference cancellation performance of traditional Adaptive Co-site Interference Cancellation System (ACICS) with large delay mismatching and antenna sway is relatively poor. This study put forward an Adaptive Co-site Broadband Interference Cancellation System With Two Auxiliary Channels (ACBICS-2A). The system model was established, and the steady state weights and Interference Cancellation Ratio (ICR) were deduced by solving a time-varying differential equation. The relationship of ICR, system gain, modulation factor, interference signal bandwidth and delay mismatching degree was acquired through an in-depth analysis. Compared with traditional adaptive interference cancellation system, the proposed ACBICS-2A can improve broadband interference cancellation ability remarkably with large delay mismatching and antenna sway for the effect of auxiliary channel. The maximum improved ICR is more than 25 dB. Finally, the theoretical and simulation results were verified by experiments.

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一种带辅助信道的自适应同站宽带干扰消除方法

随着一些独立平台（如卫星、空间站、飞机和船舶）上通信系统的蓬勃发展，同址干扰问题日益突出。人们采用自适应干扰消除方法来解决同址干扰问题。但传统的自适应同址干扰消除系统（ACICS）在延迟失配和天线摇摆较大的情况下，宽带干扰消除性能相对较差。本研究提出了双辅助信道自适应同址宽带干扰消除系统（ACBICS-2A）。建立了系统模型，并通过求解时变微分方程推导出稳态权值和干扰消除比（ICR）。通过深入分析，获得了干扰消除比、系统增益、调制因子、干扰信号带宽和延迟失配度之间的关系。与传统的自适应干扰消除系统相比，ACBICS-2A 在大延迟失配和天线摇摆的辅助信道效应下，能显著提高宽带干扰消除能力。最大改进的 ICR 超过 25 dB。最后，实验验证了理论和仿真结果。

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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.