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Nour El Houda Bahloul, Saadi Boudjit, Marwen Abdennebi, Djallel Eddine Boubiche. A Flocking-Based on Demand Routing Protocol for Unmanned Aerial Vehicles[J]. Journal of Computer Science and Technology, 2018, 33(2): 263-276. DOI: 10.1007/s11390-018-1818-3
Citation: Nour El Houda Bahloul, Saadi Boudjit, Marwen Abdennebi, Djallel Eddine Boubiche. A Flocking-Based on Demand Routing Protocol for Unmanned Aerial Vehicles[J]. Journal of Computer Science and Technology, 2018, 33(2): 263-276. DOI: 10.1007/s11390-018-1818-3

A Flocking-Based on Demand Routing Protocol for Unmanned Aerial Vehicles

  • The interest shown by some community of researchers to autonomous drones or UAVs (unmanned aerial vehicles) has increased with the advent of wireless communication networks. These networks allow UAVs to cooperate more efficiently in an ad hoc manner in order to achieve specific tasks in specific environments. To do so, each drone navigates autonomously while staying connected with other nodes in its group via radio links. This connectivity can deliberately be maintained for a while constraining the mobility of the drones. This will be suitable for the drones involved in a given path of a given transmission between a source and a destination. This constraint could be removed at the end of the transmission process and the mobility of each concerned drone becomes again independent from the others. In this work, we proposed a flocking-based routing protocol for UAVs called BR-AODV. The protocol takes advantage of a well known ad hoc routing protocol for on-demand route computation, and the Boids of Reynolds mechanism for connectivity and route maintaining while data is being transmitted. Moreover, an automatic ground base stations discovery mechanism has been introduced for a proactive drones and ground networks association needed for the context of real-time applications. The performance of BR-AODV was evaluated and compared with that of classical AODV routing protocol and the results show that BR-AODV outperforms AODV in terms of delay, throughput and packet loss.
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