Motion planning of unmanned aerial vehicles in dynamic 3D space: a potential force approach

Abstract: This research focuses on a collision-free real-time motion planning system for unmanned aerial vehicles (UAVs) in complex three-dimensional (3D) dynamic environments based on generalized potential force functions. The UAV must survive in such a complex heterogeneous environment while tracking a dynamic target and avoiding multiple stationary or dynamic obstacles, especially at low hover flying conditions. The system framework consists of two parts. The first part is the target tracking part employing a general… Show more

“…In addition, various ways of operation in such difficult conditions are suggested. For example, in [4,5,18], the authors propose to bypass dangerous areas in order to minimize the probability of loss of UAVs. Part of the work [8] is devoted to compare UAV control methods in dangerous area in order to increase the probability of successful flight.…”

New algorithm for calculating the required number of unmanned aerial vehicles and the duration of their stay in dangerous area

“…In addition, various ways of operation in such difficult conditions are suggested. For example, in [4,5,18], the authors propose to bypass dangerous areas in order to minimize the probability of loss of UAVs. Part of the work [8] is devoted to compare UAV control methods in dangerous area in order to increase the probability of successful flight.…”

New algorithm for calculating the required number of unmanned aerial vehicles and the duration of their stay in dangerous area

An Intelligent Navigation Control Approach for Autonomous Unmanned Vehicles via Deep Learning-Enhanced Visual SLAM Framework

An Automatic Collision Avoidance with Disturbance Interval Observer for Unmanned Aerial Vehicle