Litcius/Paper detail

Decentralized traffic management of autonomous drones

B. Balázs, Tamás Vicsek, Gergő Somorjai, Tamás Nepusz, Gábor Vásárhelyi

2024Swarm Intelligence12 citationsDOIOpen Access PDF

Abstract

Abstract Coordination of local and global aerial traffic has become a legal and technological bottleneck as the number of unmanned vehicles in the common airspace continues to grow. To meet this challenge, automation and decentralization of control is an unavoidable requirement. In this paper, we present a solution that enables self-organization of cooperating autonomous agents into an effective traffic flow state in which the common aerial coordination task—filled with conflicts—is resolved. Using realistic simulations, we show that our algorithm is safe, efficient, and scalable regarding the number of drones and their speed range, while it can also handle heterogeneous agents and even pairwise priorities between them. The algorithm works in any sparse or dense traffic scenario in two dimensions and can be made increasingly efficient by a layered flight space structure in three dimensions. To support the feasibility of our solution, we show stable traffic simulations with up to 5000 agents, and experimentally demonstrate coordinated aerial traffic of 100 autonomous drones within a 250 m wide circular area.

Topics & Concepts

DroneBottleneckComputer scienceDistributed computingScalabilityPairwise comparisonAutomationTask (project management)Decentralised systemRange (aeronautics)Air traffic controlAir traffic managementControl (management)Artificial intelligenceSystems engineeringEngineeringAerospace engineeringDatabaseBiologyGeneticsMechanical engineeringEmbedded systemEvacuation and Crowd DynamicsTraffic control and managementTransportation Planning and Optimization