OSF: An Open-Source Framework for Synchronous Flooding over Multiple Physical Layers

Michael  Baddeley; Yevgen Gyl; Markus Schuß; Xiaoyuan Ma; Carlo Alberto Boano

doi:10.5555/3578948.3578965

OSF: An Open-Source Framework for Synchronous Flooding over Multiple Physical Layers

Michael Baddeley, Yevgen Gyl, Markus Schuß, Xiaoyuan Ma, Carlo Alberto Boano

Institut für Technische Informatik (4480)

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

Flooding protocols based on concurrent transmissions are regarded as the most reliable way to collect or disseminate data across a multi-hop low-power wireless mesh network. Recent works have shown that such protocols are effective for narrowband communication not only over IEEE 802.15.4, but also over the BLE 5 physical layers (PHYs). However, to date, existing literature has only built synchronous flooding solutions on top of a single PHY, and there has been no attempt to leverage different PHYs at runtime to increase performance. This paper fills this gap and presents OSF, an open-source framework that enables the design of multi-PHY synchronous flooding solutions thanks to a novel radio driver and middle-ware architecture capable of dynamically switching the underlying physical layer. This allows exploitation of the specific benefits of each PHY (e.g., higher data-rate, increased robustness) on-demand during each flood, increasing performance. We tailor OSF to the off-the-shelf nRF52840 platform, and showcase its benefits by comparing single-PHY and multi-PHY synchronous flooding solutions on a real-world testbed

Originalsprache	englisch
Titel	EWSN '22: Proceedings of the 19th International Conference on Embedded Wireless Systems and Networks
Herausgeber (Verlag)	Association of Computing Machinery
Seiten	180-185
Seitenumfang	6
DOIs	https://doi.org/10.5555/3578948.3578965
Publikationsstatus	Veröffentlicht - Jan. 2023
Veranstaltung	19th International Conference on Embedded Wireless Systems and Networks: EWSN 2022 - Linz, Linz, Österreich Dauer: 3 Okt. 2022 → 5 Okt. 2022 https://ewsn2022.jku.at/

Konferenz

Konferenz	19th International Conference on Embedded Wireless Systems and Networks
Kurztitel	EWSN 2022
Land/Gebiet	Österreich
Ort	Linz
Zeitraum	3/10/22 → 5/10/22
Internetadresse	https://ewsn2022.jku.at/

Fields of Expertise

Information, Communication & Computing

Zugriff auf Dokument

10.5555/3578948.3578965

SPiDR - Sichere, leistungsfähige, zuverlässige und widerstandsfähige drahtlose Mesh-Netzwerke
Römer, K. U., Schuß, M., Boano, C. A., Gallacher, M., Schuh, M. P. & Basic, F.
1/07/21 → 31/12/24
Projekt: Forschungsprojekt
Intelligent & Networked Embedded Systems
Boano, C. A., Römer, K. U., Schuß, M., Cao, N., Saukh, O., Hofmann, R., Stocker, M., Schuh, M. P., Papst, F., Salomon, E., Brunner, H., Gallacher, M., Mohamed Hydher, M. H., Wang, D., Corti, F., Krisper, M., Basic, F. & Petrovic, K.
1/09/13 → …
Projekt: Arbeitsgebiet

Dieses zitieren

OSF: An Open-Source Framework for Synchronous Flooding over Multiple Physical Layers. / Baddeley, Michael ; Gyl, Yevgen; Schuß, Markus et al.
EWSN '22: Proceedings of the 19th International Conference on Embedded Wireless Systems and Networks . Association of Computing Machinery, 2023. S. 180-185.

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Baddeley, M, Gyl, Y, Schuß, M, Ma, X & Boano, CA 2023, OSF: An Open-Source Framework for Synchronous Flooding over Multiple Physical Layers. in EWSN '22: Proceedings of the 19th International Conference on Embedded Wireless Systems and Networks . Association of Computing Machinery, S. 180-185, 19th International Conference on Embedded Wireless Systems and Networks, Linz, Österreich, 3/10/22. https://doi.org/10.5555/3578948.3578965

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abstract = "Flooding protocols based on concurrent transmissions are regarded as the most reliable way to collect or disseminate data across a multi-hop low-power wireless mesh network. Recent works have shown that such protocols are effective for narrowband communication not only over IEEE 802.15.4, but also over the BLE 5 physical layers (PHYs). However, to date, existing literature has only built synchronous flooding solutions on top of a single PHY, and there has been no attempt to leverage different PHYs at runtime to increase performance. This paper fills this gap and presents OSF, an open-source framework that enables the design of multi-PHY synchronous flooding solutions thanks to a novel radio driver and middle-ware architecture capable of dynamically switching the underlying physical layer. This allows exploitation of the specific benefits of each PHY (e.g., higher data-rate, increased robustness) on-demand during each flood, increasing performance. We tailor OSF to the off-the-shelf nRF52840 platform, and showcase its benefits by comparing single-PHY and multi-PHY synchronous flooding solutions on a real-world testbed",

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publisher = "Association of Computing Machinery",

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AU - Boano, Carlo Alberto

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N2 - Flooding protocols based on concurrent transmissions are regarded as the most reliable way to collect or disseminate data across a multi-hop low-power wireless mesh network. Recent works have shown that such protocols are effective for narrowband communication not only over IEEE 802.15.4, but also over the BLE 5 physical layers (PHYs). However, to date, existing literature has only built synchronous flooding solutions on top of a single PHY, and there has been no attempt to leverage different PHYs at runtime to increase performance. This paper fills this gap and presents OSF, an open-source framework that enables the design of multi-PHY synchronous flooding solutions thanks to a novel radio driver and middle-ware architecture capable of dynamically switching the underlying physical layer. This allows exploitation of the specific benefits of each PHY (e.g., higher data-rate, increased robustness) on-demand during each flood, increasing performance. We tailor OSF to the off-the-shelf nRF52840 platform, and showcase its benefits by comparing single-PHY and multi-PHY synchronous flooding solutions on a real-world testbed

AB - Flooding protocols based on concurrent transmissions are regarded as the most reliable way to collect or disseminate data across a multi-hop low-power wireless mesh network. Recent works have shown that such protocols are effective for narrowband communication not only over IEEE 802.15.4, but also over the BLE 5 physical layers (PHYs). However, to date, existing literature has only built synchronous flooding solutions on top of a single PHY, and there has been no attempt to leverage different PHYs at runtime to increase performance. This paper fills this gap and presents OSF, an open-source framework that enables the design of multi-PHY synchronous flooding solutions thanks to a novel radio driver and middle-ware architecture capable of dynamically switching the underlying physical layer. This allows exploitation of the specific benefits of each PHY (e.g., higher data-rate, increased robustness) on-demand during each flood, increasing performance. We tailor OSF to the off-the-shelf nRF52840 platform, and showcase its benefits by comparing single-PHY and multi-PHY synchronous flooding solutions on a real-world testbed

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OSF: An Open-Source Framework for Synchronous Flooding over Multiple Physical Layers

Abstract

Konferenz

Fields of Expertise

Zugriff auf Dokument

Fingerprint

Projekte

SPiDR - Sichere, leistungsfähige, zuverlässige und widerstandsfähige drahtlose Mesh-Netzwerke

Intelligent & Networked Embedded Systems

Dieses zitieren