Uncoordinated Interference Avoidance Between Terrestrial and Non-Terrestrial Communications
Abstract
This paper proposes an algorithm that uses geospatial analytics and the muting of physical resources in next-generation base stations (BSs) to avoid interference between cellular (or terrestrial) and satellite communication (non-terrestrial) systems. The information exchange between satellite and terrestrial stations is minimal, but a hybrid edge cloud node with access to estimated satellite trajectories can enable these BSs to take proactive steps to avoid interference. To validate the superiority of our proposed algorithm over a conventional method, we show the performance of the algorithm using two measures: number of concurrent uses of Doppler corrected radio frequency resources and the sum-rate capacity of the BSs. Our algorithm not only provides significant sum-rate capacity gains in both directions enabling better use of the spectrum, but also runs in polynomial time, making it suitable for real-time interference avoidance.
Cite
@article{arxiv.2304.07129,
title = {Uncoordinated Interference Avoidance Between Terrestrial and Non-Terrestrial Communications},
author = {Faris B. Mismar and Aliye Ozge Kaya},
journal= {arXiv preprint arXiv:2304.07129},
year = {2024}
}
Comments
6 pages, 6 figures, submitted to IEEE International Conference on Communications 2024