Multiple Unmanned Aerial Vehicles (multi-UAVs) applications are recently growing in several fields, ranging from military and rescue missions, remote sensing, and environmental surveillance, to meteorology, logistics, and farming. Overcoming the limitations on battery lifespan and on-board processor capabilities, the coordinated use of multi-UAVs is indeed more suitable than employing a single UAV in certain tasks. Hence, the research on swarm of UAVs is receiving increasing attention, including multidisciplinary aspects, such as coordination, aggregation, network communication, path planning, information sensing, and data fusion. The focus of this paper is on defining novel control strategies for the deployment of multi-UAV systems in a distributed time-varying set-up, where UAVs rely on local communication and computation. In particular, modeling the dynamics of each UAV by a discrete-time integrator, we analyze the main swarm intelligence strategies, namely flight formation, swarm tracking, and social foraging. First, we define a distributed control strategy for steering the agents of the swarm towards a collection point. Then, we cope with the formation control, defining a procedure to arrange agents in a family of geometric formations, where the distance between each pair of UAVs is predefined. Subsequently, we focus on swarm tracking, defining a distributed mechanism based on the so-called leader-following consensus to move the entire swarm in accordance with a predefined trajectory. Moreover, we define a social foraging strategy that allows agents to avoid obstacles, by imposing on-line a time-varying formation pattern. Finally, through numerical simulations we show the effectiveness of the proposed algorithms.

Consensus-Based Algorithms for Controlling Swarms of Unmanned Aerial Vehicles / Carli, Raffaele; Cavone, Graziana; Epicoco, Nicola; Di Ferdinando, Mario; Scarabaggio, Paolo; Dotoli, Mariagrazia. - STAMPA. - 12338:(2020), pp. 84-99. (Intervento presentato al convegno 19th International Conference on Ad-Hoc Networks and Wireless, ADHOC-NOW tenutosi a Bari, Italy nel October 19-21, 2020) [10.1007/978-3-030-61746-2_7].

Consensus-Based Algorithms for Controlling Swarms of Unmanned Aerial Vehicles

Carli, Raffaele;Cavone, Graziana;Scarabaggio, Paolo;Dotoli, Mariagrazia
2020-01-01

Abstract

Multiple Unmanned Aerial Vehicles (multi-UAVs) applications are recently growing in several fields, ranging from military and rescue missions, remote sensing, and environmental surveillance, to meteorology, logistics, and farming. Overcoming the limitations on battery lifespan and on-board processor capabilities, the coordinated use of multi-UAVs is indeed more suitable than employing a single UAV in certain tasks. Hence, the research on swarm of UAVs is receiving increasing attention, including multidisciplinary aspects, such as coordination, aggregation, network communication, path planning, information sensing, and data fusion. The focus of this paper is on defining novel control strategies for the deployment of multi-UAV systems in a distributed time-varying set-up, where UAVs rely on local communication and computation. In particular, modeling the dynamics of each UAV by a discrete-time integrator, we analyze the main swarm intelligence strategies, namely flight formation, swarm tracking, and social foraging. First, we define a distributed control strategy for steering the agents of the swarm towards a collection point. Then, we cope with the formation control, defining a procedure to arrange agents in a family of geometric formations, where the distance between each pair of UAVs is predefined. Subsequently, we focus on swarm tracking, defining a distributed mechanism based on the so-called leader-following consensus to move the entire swarm in accordance with a predefined trajectory. Moreover, we define a social foraging strategy that allows agents to avoid obstacles, by imposing on-line a time-varying formation pattern. Finally, through numerical simulations we show the effectiveness of the proposed algorithms.
2020
19th International Conference on Ad-Hoc Networks and Wireless, ADHOC-NOW
978-3-030-61745-5
Consensus-Based Algorithms for Controlling Swarms of Unmanned Aerial Vehicles / Carli, Raffaele; Cavone, Graziana; Epicoco, Nicola; Di Ferdinando, Mario; Scarabaggio, Paolo; Dotoli, Mariagrazia. - STAMPA. - 12338:(2020), pp. 84-99. (Intervento presentato al convegno 19th International Conference on Ad-Hoc Networks and Wireless, ADHOC-NOW tenutosi a Bari, Italy nel October 19-21, 2020) [10.1007/978-3-030-61746-2_7].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/206742
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