Pointing-and-Acquisition for Optical Wireless in 6G: From Algorithms to Performance Evaluation

TL;DR

This paper analyzes and improves pointing-and-acquisition techniques for free-space optical communication in 6G, proposing algorithms that enhance link reliability between gateways and aircraft through simulations.

Contribution

It introduces a novel algorithm combining RF-based AoA estimation with beam tracking, advancing optical wireless communication for 6G air and space applications.

Findings

Proposed method outperforms baseline in link acquisition

Enhanced beam tracking stability demonstrated in simulations

Improved link maintenance for airborne FSO communications

Abstract

The increasing demand for wireless communication services has led to the development of non-terrestrial networks, which enables various air and space applications. Free-space optical (FSO) communication is considered one of the essential technologies capable of connecting terrestrial and non-terrestrial layers. In this article, we analyze considerations and challenges for FSO communications between gateways and aircraft from a pointing-and-acquisition perspective. Based on the analysis, we first develop a baseline method that utilizes conventional devices and mechanisms. Furthermore, we propose an algorithm that combines angle of arrival (AoA) estimation through supplementary radio frequency (RF) links and beam tracking using retroreflectors. Through extensive simulations, we demonstrate that the proposed method offers superior performance in terms of link acquisition and maintenance.