Communication Dans Un Congrès Année : 2025

Adaptive Orbital Direct-to-Device: Rethinking Satellite IoT Architecture

Résumé

Current satellite Direct-to-Device (D2D) architectures often hard-commit to an orbital regime, forcing suboptimal tradeoffs between latency, reliability, and energy. We present, to our knowledge, the first adaptive orbital D2D architecture that dynamically switches among LEO, GEO, and hybrid paths based on real-time Doppler, load, and application QoS. Validated via a LoRa satellite-IoT implementation, our approach improves capacity 3× (936 vs. 312 nodes per gateway at 95% PDR), reduces tail latency by 62% (95th percentile: 342ms vs. 892ms), and lowers energy consumption by 31% via retransmission avoidance. Treating orbital choice as a dynamic optimization addresses core limitations of static designs and generalizes beyond LoRa to cellular and NB-IoT D2D systems, charting a path toward resilient, efficient space-terrestrial IoT.

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Dates et versions

hal-05423910 , version 1 (18-12-2025)

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Hannaneh B. Pasandi, Mohammad Hosseini, Sina Darabi, Franck Rousseau, Juan A Fraire. Adaptive Orbital Direct-to-Device: Rethinking Satellite IoT Architecture. ACM MobiCom 2025 - 31st Annual International Conference on Mobile Computing and Networking, Nov 2025, Hong Kong China, France. pp.38-43, ⟨10.1145/3737897.3767293⟩. ⟨hal-05423910⟩
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