Wireless Picosecond Time Synchronization for Distributed Antenna Arrays with Dynamic Connectivity
Abstract
Phase, time, and frequency coordination are crucial for the coherent operation of distributed antenna arrays. This paper demonstrates a high accuracy decentralized time synchronization method for arrays with dynamic connectivity. To overcome challenges such as alteration in network topology, system scaling, and single- or multiple-node failures, we present a decentralized time synchronization method implementing the average consensus algorithm and two-way time transfer. Our approach supports decentralized time synchronization with picosecond accuracy (< 13 ps), unbiased convergence, resilience to node failures, and robustness to other network connection adversities. A time synchronization precision of under 3 ps was achieved for a fully connected frequency syntonized network. The algorithm ensured convergence in time even for a network with only one link connecting two randomly chosen nodes at each iteration; however, the speed of convergence decreased along with the number of connected links. The method is exhibited for a six-node distributed array, by both simulation and experimental implementation using software defined radios.
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