Print Email Facebook Twitter Velocity Obstacle Based Conflict Avoidance in Urban Environment with Variable Speed Limit Title Velocity Obstacle Based Conflict Avoidance in Urban Environment with Variable Speed Limit Author Ribeiro, M.J. (TU Delft Control & Simulation) Ellerbroek, Joost (TU Delft Control & Simulation) Hoekstra, J.M. (TU Delft Control & Operations) Department Control & Operations Date 2021 Abstract Current investigations into urban aerial mobility, as well as the continuing growth of global air transportation, have renewed interest in conflict detection and resolution (CD&R) methods. The use of drones for applications such as package delivery, would result in traffic densities that are orders of magnitude higher than those currently observed in manned aviation. Such densities do not only make automated conflict detection and resolution a necessity, but will also force a re-evaluation of aspects such as coordination vs. priority, or state vs. intent. This paper looks into enabling a safe introduction of drones into urban airspace by setting travelling rules in the operating airspace which benefit tactical conflict resolution. First, conflicts resulting from changes of direction are added to conflict resolution with intent trajectory propagation. Second, the likelihood of aircraft with opposing headings meeting in conflict is reduced by separating traffic into different layers per heading–altitude rules. Guidelines are set in place to make sure aircraft respect the heading ranges allowed at every crossed layer. Finally, we use a reinforcement learning agent to implement variable speed limits towards creating a more homogeneous traffic situation between cruising and climbing/descending aircraft. The effects of all of these variables were tested through fast-time simulations on an open source airspace simulation platform. Results showed that we were able to improve the operational safety of several scenarios Subject Air traffic control (ATC)BlueSky ATC SimulatorConflict detection and resolution (CD&R)Deep deterministic policy gradient (DDPG)Reinforcement learning (RL)Self-separationSolution space diagram (SSD)U-spaceVariable speed limit (VSL)Velocity obstacles (VOs) To reference this document use: http://resolver.tudelft.nl/uuid:d16515b5-0166-408f-9784-8c888330f085 DOI https://doi.org/10.3390/aerospace8040093 ISSN 2226-4310 Source Aerospace — Open Access Aeronautics and Astronautics Journal, 8 (4) Part of collection Institutional Repository Document type journal article Rights © 2021 M.J. Ribeiro, Joost Ellerbroek, J.M. Hoekstra Files PDF aerospace_08_00093.pdf 944.67 KB Close viewer /islandora/object/uuid:d16515b5-0166-408f-9784-8c888330f085/datastream/OBJ/view