The Potential of Multilayered Hierarchical Nonterrestrial Networks for 6G: A Comparative Analysis Among Networking Architectures

TL;DR

This paper evaluates multi-layered hierarchical non-terrestrial networks for 6G, comparing different configurations to identify optimal designs balancing flexibility and performance.

Contribution

It provides a comparative analysis of various multi-layered NTN architectures and offers guidelines for optimal deployment strategies.

Findings

Identifies configurations with the best performance-flexibility trade-offs

Provides performance benchmarks for different hierarchical NTN architectures

Suggests optimal working points for network deployment

Abstract

6th generation (6G) communication research is currently focusing on non-terrestrial networks (NTNs) to promote ubiquitous and ultra-high-capacity global connectivity. Specifically, multi-layered hierarchical networks, i.e., the orchestration among different aerial/space platforms, including Low and High Altitude Platforms (LAPs and HAPs), and satellites co-operating at different altitudes, currently represent one the most attractive technological options to solve coverage and latency constraints associated with the NTN paradigm. However, there are still several issues to be resolved for proper network design. In this work, we evaluate the performance of different multi-layered non-terrestrial configurations, and provide guidelines on the optimal working point(s) for which it is possible to achieve a good compromise between improved system flexibility and network performance, with respect to a baseline standalone deployment.