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Tangent-Based Path Planning for UAV in a 3-D Low Altitude Urban Environment

Huan Liu, Guohua Wu, Ling Zhou, Witold Pedrycz, Ponnuthurai Nagaratnam Suganthan

2023IEEE Transactions on Intelligent Transportation Systems37 citationsDOI

Abstract

Unmanned aerial vehicles (UAVs) have emerged as promising platforms for fast, energy-efficient, and cost-effective package delivery. Path planning in 3-D urban environments is critical to drone delivery. The paper proposes a novel tangent-based (3D-TG) method for UAV path planning in 3-D urban environments. When a drone encounters an obstacle, a tangent graph is constructed to generate three sub-paths from both sides and above to bypass an obstacle, one of which is selected according to sophistically designed heuristic rules. The selected sub-path would be constantly adjusted its direction via tangent graph to avoid obstacles until the path can extend to the goal without obstacle collision. To avoid moving obstacles, velocity obstacle is incorporated in the 3D-TG. The experimental results on synthetic and realistic scenarios illustrate that 3D-TG performs well under static, unknown and dynamic environments. More significantly, 3D-TG can also generate a collision-free path for a drone to navigate through simple mazes efficiently, within a reasonable time.

Topics & Concepts

Motion planningObstacleDroneTangentPath (computing)HeuristicObstacle avoidanceComputer scienceGraphMathematical optimizationSimulationReal-time computingArtificial intelligenceMobile robotRobotMathematicsGeographyGeometryTheoretical computer scienceArchaeologyGeneticsBiologyProgramming languageRobotic Path Planning AlgorithmsRobotics and Sensor-Based LocalizationUAV Applications and Optimization
Tangent-Based Path Planning for UAV in a 3-D Low Altitude Urban Environment | Litcius