In this paper, we propose GeoSaW, a delay-tolerant routing protocol for Airborne Networks in Search and Rescue scenarios. The protocol exploits the geographical information of UAVs to make appropriate message forwarding decisions. More precisely, the information about the future UAV’s motion path is exploited to select the best UAV carrying the message towards the destination. Simulation results show that the proposed solution outperforms the classic DTN routing protocols in terms of several performance metrics.
Bujari, A., Calafate, C.T., Cano, J., Manzoni, P., Palazzi, C., Ronzani, D. (2018). A location-aware waypoint-based routing protocol for airborne DTNs in search and rescue scenarios. SENSORS, 18(11), 1-14 [10.3390/s18113758].
A location-aware waypoint-based routing protocol for airborne DTNs in search and rescue scenarios
Bujari, Armir
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2018
Abstract
In this paper, we propose GeoSaW, a delay-tolerant routing protocol for Airborne Networks in Search and Rescue scenarios. The protocol exploits the geographical information of UAVs to make appropriate message forwarding decisions. More precisely, the information about the future UAV’s motion path is exploited to select the best UAV carrying the message towards the destination. Simulation results show that the proposed solution outperforms the classic DTN routing protocols in terms of several performance metrics.File | Dimensione | Formato | |
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