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Frontiers of Information Technology & Electronic Engineering
ISSN 2095-9184 (print), ISSN 2095-9230 (online)
2024 Vol.25 No.12 P.1742-1749
Analysis of spatial power synthesis efficiency based on the near-field cross-beam theory for distributed UAV interference applications
Abstract: This paper discusses a novel method for calculating near-field spatial power synthesis efficiency based on the cross-beam synthesis theory for the application of unmanned aerial vehicle (UAV) swarms in electronic countermeasure systems. The model of a UAV array and the working principle of the near-field spatial power synthesis are used to explain the power synthesis efficiency of UAV interference. The influence of location parameters, such as the positioning and attitude accuracy of UAVs, is analyzed. The influences of UAVs in actual situations, including the jitter of platforms, damage rate, and time synchronization accuracy in real conditions, are also analyzed. Finally, a test scenario based on fiber-optic synchronization is constructed to measure the spatial power synthesis efficiency with high-precision time synchronization. The results provide further evidence of the effectiveness and reliability of the proposed near-field cross-beam calculation method for distributed UAV interference applications.
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1南京理工大学电子工程与光电技术学院,中国南京市,210094
2南湖实验室,中国嘉兴市,314050
摘要:本文讨论了一种基于交叉波束合成理论计算近场空间功率合成效率的方法,用于无人机集群在电子对抗系统中的应用。通过建立无人机阵列物理模型和近场空间功率合成的工作原理解释无人机干扰的功率合成效率。分析了无人机定位和姿态精度等参数对合成效率的影响,以及无人机在实际场景下的影响因子,包括平台抖动、损伤率和时间同步精度。最后,构建了一个基于光纤同步的测试场景,以测量具有高精度时间同步下的空间功率合成效率。研究结果进一步证明了所提近场交叉波束计算方法在分布式无人机干扰应用中的有效性和可靠性。
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DOI:
10.1631/FITEE.2400401
CLC number:
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On-line Access:
2025-01-24
Received:
2024-05-16
Revision Accepted:
2024-08-12
Crosschecked:
2025-01-24