Abstract:The integration of Non-Terrestrial Networks (NTN) with Terrestrial Networks (TN) is a key enabler for resilient 5G-Advanced and future 6G backhaul infrastructures. However, managing traffic across these highly asymmetric links remains a significant routing challenge, as systems must support heterogeneous network slices with conflicting service-level agreements (SLAs) while selectively utilizing costly NTN resources. This paper presents a computationally lightweight SLA-aware traffic-steering framework for a hybrid TN-NTN backhaul that models the load-balancing problem as an exact potential game. This mathematical foundation inherently enables decentralized coordination between uplink and downlink load-balancing agents without control-message overhead. By formulating traffic steering as a coupled optimization problem, per-slice (or per-user group) traffic fractions are dynamically distributed across terrestrial and satellite paths based on utility functions that capture throughput, latency, packet loss, and SLA penalties. The resulting game admits a pure Nash equilibrium, ensuring stable and predictable traffic adaptation under non-stationary load conditions. The framework is evaluated on a geographically distributed 5G testbed, using bidirectional traffic generated for five representative slices. Experimental results show that the proposed controller significantly outperforms heuristic and conventional baselines, reducing SLA violations to 1.7% for V2X and 0.7% for the emergency slice while completely eliminating them for video, IoT, and best-effort traffic.
| Subjects: | Networking and Internet Architecture (cs.NI) |
| Cite as: | arXiv:2605.26673 [cs.NI] |
| (or arXiv:2605.26673v1 [cs.NI] for this version) | |
| https://doi.org/10.48550/arXiv.2605.26673 arXiv-issued DOI via DataCite (pending registration) |
From: Hojjat Navidan [view email]
[v1]
Tue, 26 May 2026 08:12:50 UTC (263 KB)
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