Title :
Carreau: CARrier REsource Access for mUle, DTN Applied to Hybrid WSN / Satellite System
Author :
Raveneau, Patrice ; Chaput, Emmanuel ; Dhaou, Riadh ; Dubois, Eric ; Gelard, Patrick ; Beylot, Andre-Luc
Abstract :
Both WSNs (Wireless Sensor Networks) and observation satellites are able to get measurements from a geographic area. To interconnect these technologies, we propose to use a store-carry-and-forward architecture relying on the DTN (Disruption and Delay Tolerant Networking) Bundle Protocol. This architecture aims at being generic, so it is application-agnostic and suits a wide range of scenarios. WSN may collect sporadically large data volume while terrestrial stations communicating with Low Earth Orbit (LEO) satellites have to endure long link disruptions when the satellite is not in the line of sight. These sporadic growths within the WSN coupled with the large latency on satellite links require to schedule data to provide quality of service to several flows. We propose a scheduling policy based on deadline of Bundles and compare it with classical DTN solutions.
Keywords :
delay tolerant networks; quality of service; routing protocols; satellite links; wireless sensor networks; Carreau; DTN; LEO satellite; Low Earth Orbit satellite; WSN; carrier resource access for mule; delay tolerant networking bundle protocol; disruption tolerant networking bundle protocol; long link disruption; observation satellite; quality of service; satellite link; satellite system; scheduling policy; store-carry-and-forward architecture; terrestrial station; wireless sensor network; Delays; Logic gates; Low earth orbit satellites; Routing protocols; Wireless sensor networks;
Conference_Titel :
Vehicular Technology Conference (VTC Fall), 2013 IEEE 78th
Conference_Location :
Las Vegas, NV
DOI :
10.1109/VTCFall.2013.6692123
