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A novel approach to achieving end-to-end QoS for avionic applications
Citation Link: https://doi.org/10.15480/882.3938
Publikationstyp
Journal Article
Publikationsdatum
2021
Sprache
English
Institut
Enthalten in
Volume
80
Start Page
1
End Page
5
Citation
Electronic communications of the EASST 80: 1-5 (2021)
Contribution to Conference
Publisher DOI
Scopus ID
Publisher
Techn. Univ. Berlin
Future Internet of Things (IoT) applications, such as connected industry 4.0, become more challenging with the strict Quality of Service (QoS) requirements, including reliability and delay guarantees. Several mechanisms in the communication stack to match the expected QoS are already discussed and specified at different layers, with the goal to make the communication more reliable. They focus on the layer-specific enhancements. For example, Time-Slotted Channel Hopping (TSCH) is a link layer mechanism to avoid narrowband interference. On the network layer, several multi-path routing schemes are proposed to distribute the traffic load or to have backup paths with the purpose of making data transmissions more robust to link failures. In addition to the layer-specific improvements, an integration of the cross-layer information can guarantee an end-to-end QoS for communication in dynamic environments. In this work we propose and evaluate a cross-layer framework for celldisjoint routing, which eliminates overlapping resource scheduling in both time and frequency. It enables the end-to-end QoS for wireless sensor networks under the IPv6 Over the TSCH Mode of IEEE 802.15.4 (6TiSCH). The proposed framework,
called 6TiSCH stack with cross-layer information exchange (6TiSCH-CLX), is validated on a selected set of aviation industry applications using both simulations and analytical model.
called 6TiSCH stack with cross-layer information exchange (6TiSCH-CLX), is validated on a selected set of aviation industry applications using both simulations and analytical model.
Schlagworte
End-to-end QoS
WAIC
TSCH
RPL routing
Cross-layer
Avionic
6TiSCH
Wireless sensor networks
Delay minimization
DDC Class
004: Informatik
Funding Organisations
Bundesministerium für Wirtschaft und Technologie (BMWi)
More Funding Information
This publication is funded by the BMWi as part of the Retrofitbare Sensorsystem-Architektur für prädiktive Instandhaltung (ReSA) project, for ultra-resilient, retrofittable wireless sensor networks for use in commercial aircraft, funding identifier 20X1721C.
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