Kuramoto-desynch: Distributed and fair re- source allocation in a wireless network.IEEE Ac- cess, 7:104769–104776, 2019

Ueon-Sang Yu, Hyung-Ho Choi, Jung-Ryun Lee · 2019

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Contextual Chain: Single-State Ledger Design for Mobile/IoT Networks with Frequent Partitions

cs.DC · 2026-04-08 · unverdicted · novelty 6.0

Simulation at N=20 across 500 seeds finds that adaptive synchronization, not quarantine, primarily drives final agreement and recovery-time improvement after partitions in noisy regimes.

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Contextual Chain: Single-State Ledger Design for Mobile/IoT Networks with Frequent Partitions cs.DC · 2026-04-08 · unverdicted · none · ref 27
Simulation at N=20 across 500 seeds finds that adaptive synchronization, not quarantine, primarily drives final agreement and recovery-time improvement after partitions in noisy regimes.

Kuramoto-desynch: Distributed and fair re- source allocation in a wireless network.IEEE Ac- cess, 7:104769–104776, 2019

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