Stabilizing and Optimizing Inter-Shell Routing in LEO Networks with Integrated Routing Cost

July 11, 2025 Β· Declared Dead Β· πŸ› 2025 IEEE/CIC International Conference on Communications in China (ICCC Workshops)

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Authors Yaojia Wang, Qi Zhang, Kun Qiu, Yue Gao arXiv ID 2507.08549 Category cs.NI: Networking & Internet Citations 1 Venue 2025 IEEE/CIC International Conference on Communications in China (ICCC Workshops) Last Checked 4 months ago
Abstract
The low Earth orbit (LEO) mega-constellation network (LMCN), which uses thousands of satellites across multi-shell architectures to deliver different services, is facing challenges in inter-shell routing stability due to dynamic network topologies and frequent inter-satellite link (ISL) switching. Existing strategies, such as the Minimum Hop Path set, prioritize minimizing hop counts to reduce latency, but ignore ISL switching costs, which leads to high instability. To overcome this, the Adaptive Path Routing Scheme introduces path similarity thresholds to reduce the ISL switching frequency between shells. However, the greedy approach of Adaptive Path Routing Scheme is often trapped in local optima, sacrificing inter-shell path distance efficiency. To address these limitations, we propose the Dynamic Programming-based Integrated Routing Cost (DP-IRC) algorithm, which is designed explicitly for inter-shell routing optimization. By formulating multi-shell paths as a multistage decision problem, DP-IRC balances hop counts and ISL stability through an Integrated Routing Cost (IRC) metric, combining inter-/intra-shell hops and switching costs. Experiments over 60 time slots with real-world Starlink and OneWeb configurations show that DP-IRC reduces inter-shell ISL switching rates by 39.1% and 22.0% compared to the Minimum Hop Path set strategy and Adaptive Path Routing Scheme, respectively, while still maintaining near-optimal end-to-end distances.
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