Title :
Autonomous multi unmanned aerial vehicles path planning on 3 dimensional terrain
Author :
Ozalp, N. ; Sahingoz, Ozgur Koray ; Ayan, U.
Abstract :
Leave Secure route planning in environments with obstacles and threats, which is of first priority for single and multi-Unmanned Aerial Vehicles (UAVs), is the main focus of this study. Planning the optimum route by using genetic algorithms by considering kinematic constraints and terrain conditions is investigated. The terrain used in this study consists of real 3D satellite data of NASA. Thus, access to altitude data is achieved and mountains over the terrain are detected. Real geographic coordinate system is used and the geometric shape of the earth is considered for high precision calculations. While global route planning is made by the GA, local route planning is considered for transitions between waypoints. According to experimental result, usage of multi-UAV brings a great benefit in the fulfillment of the missions in terms of time and performance.
Keywords :
autonomous aerial vehicles; cartography; genetic algorithms; mobile robots; path planning; robot kinematics; 3D satellite data; 3D terrain; UAV; altitude data; autonomous multi-unmanned aerial vehicles; genetic algorithms; geographic coordinate system; geometric shape; kinematic constraints; leave secure route planning; path planning; single unmanned aerial vehicles; terrain conditions; three-dimensional terrain; Conferences; Genetic algorithms; Path planning; Planning; Radar; Signal processing; Unmanned aerial vehicles;
Conference_Titel :
Signal Processing and Communications Applications Conference (SIU), 2014 22nd
Conference_Location :
Trabzon
DOI :
10.1109/SIU.2014.6830207
