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Link quality ranking: Getting the best out of unreliable links.

, , , , , и . DCOSS, стр. 1-8. IEEE Computer Society, (2011)

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Carlo Alberto Copetti

Carlo Alberto Lamoni

Teresa Carlomagno

Lothar Carlowitz

Horst Carlowitz

 

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Low-Power Radio Communication in Industrial Outdoor Deployments: The Impact of Weather Conditions and ATEX-Compliance., , , , и . SENSAPPEAL, том 29 из Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, стр. 159-176. Springer, (2009)Mitigating Radio Interference in Large IoT Networks through Dynamic CCA Adjustment., , , и . Open J. Internet Things, 3 (1): 103-113 (2017)A Competition to Push the Dependability of Low-Power Wireless Protocols to the Edge., , , и . EWSN, стр. 54-65. Junction Publishing, Canada / ACM, (2017)Radio Link Quality Estimation in Low-Power Wireless Networks, , , , , , , , , и 2 other автор(ы). Springer Briefs in Electrical and Computer Engineering Springer, (2013)Environmental Impact on the Long-Term Connectivity and Link Quality of an Outdoor LoRa Network., , , , , , и . SenSys, стр. 565-568. ACM, (2021)OSF: An Open-Source Framework for Synchronous Flooding over Multiple Physical Layers., , , , и . EWSN, стр. 180-185. Junction Publishing / ACM, (2022)Poster: Improving the Reliability of BLE Communications through Packet-level Adaptations on a Per-Channel Basis., , и . EWSN, стр. 210-211. Junction Publishing / ACM, (2022)Ensuring End-to-End Dependability Requirements in Cloud-based Bluetooth Low Energy Applications., , , и . EWSN, стр. 55-66. ACM, (2021)JamLab-NG: Benchmarking Low-Power Wireless Protocols under Controllable and Repeatable Wi-Fi Interference., , , , , и . EWSN, стр. 83-94. ACM, (2019)Automatic configuration of controlled interference experiments in sensornet testbeds., , , и . SenSys, стр. 342-343. ACM, (2014)