Distributed Beamforming Using Decentralized Time Synchronization in a Six-Element Array

IF 4.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE journal of microwaves Pub Date : 2025-09-09 DOI:10.1109/JMW.2025.3601036

Naim Shandi;Jason M. Merlo;Jeffrey A. Nanzer

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Abstract

We demonstrate distributed beamforming and beamsteering from a six-node distributed phased array using fully wireless coordination with decentralized time synchronization. In wireless applications such as distributed beamforming, high-accuracy time synchronization across the array is crucial for high coherent gain. The decentralized time synchronization method employed is based on the average consensus algorithm and the two-way time transfer method presented in our previous work, which achieved picosecond-level time synchronization with a cabled frequency reference. The system presented in this paper utilizes a centralized wireless frequency transfer method to achieve wireless frequency syntonization in a fully wireless coordination and a distributed computing system architecture. We experimentally evaluate system performance through beamforming and beamsteering to a receiver 16.3 m away from the six-node non-uniformly distributed antenna array, achieving an average coherent gain of 98% of the ideal gain at a carrier frequency of 1.05 GHz. The average time synchronization accuracy achieved was less than 36 ps.

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基于分散时间同步的六元阵列分布式波束形成

我们演示了分布式波束形成和波束转向从一个六节点分布式相控阵使用完全无线协调分散时间同步。在分布式波束形成等无线应用中，跨阵列的高精度时间同步对于获得高相干增益至关重要。所采用的分散时间同步方法是基于平均共识算法和我们之前工作中提出的双向时间传输方法，在有线频率参考下实现皮秒级时间同步。本系统采用集中式无线频率传输方法，在全无线协调和分布式计算系统架构下实现无线频率同步。我们通过对距离六节点非均匀分布天线阵列16.3 m的接收器进行波束形成和波束导向实验来评估系统性能，在1.05 GHz载波频率下获得了理想增益的98%的平均相干增益。实现的平均时间同步精度小于36ps。

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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