The past few years have witnessed unprecedented proliferation of Unmanned Aerial Vehicles (UAVs).They are employed in a growing number of scenarios, from parcel delivery to search and rescue operations, requiring coordinated missions of a fleet of drones. Recently, there has been growing interest in optimized techniques to assign tasks and related trajectories to drones. While these techniques promise high coverage of inspected area, their applicability in real scenarios is precluded by unconsidered constraints. Among these, the limited amount of power of UAVs, and the consequent need of performing multiple trips to provide complete monitoring coverage, with battery replacement/charging and data offloading in between.To address this problem we develop Gen-Path, a genetic algorithm for efficient scheduling of multi-round UAV missions, under several objective functions.By means of simulations we show that Gen-Path fits various scenarios, improving existing solutions in terms of covered points, and energetic cost.
Genpath - A genetic multi-round path planning algorithm for aerial vehicles / Bartolini, N.; Coletta, A.; Maselli, G.; Piva, M.; Silvestri, D.. - (2021), pp. 1-6. (Intervento presentato al convegno 2021 IEEE Conference on Computer Communications Workshops, INFOCOM WKSHPS 2021 tenutosi a Chicago) [10.1109/INFOCOMWKSHPS51825.2021.9484505].
Genpath - A genetic multi-round path planning algorithm for aerial vehicles
Bartolini N.;Coletta A.;Maselli G.;Piva M.;Silvestri D.
2021
Abstract
The past few years have witnessed unprecedented proliferation of Unmanned Aerial Vehicles (UAVs).They are employed in a growing number of scenarios, from parcel delivery to search and rescue operations, requiring coordinated missions of a fleet of drones. Recently, there has been growing interest in optimized techniques to assign tasks and related trajectories to drones. While these techniques promise high coverage of inspected area, their applicability in real scenarios is precluded by unconsidered constraints. Among these, the limited amount of power of UAVs, and the consequent need of performing multiple trips to provide complete monitoring coverage, with battery replacement/charging and data offloading in between.To address this problem we develop Gen-Path, a genetic algorithm for efficient scheduling of multi-round UAV missions, under several objective functions.By means of simulations we show that Gen-Path fits various scenarios, improving existing solutions in terms of covered points, and energetic cost.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.