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An open‐source system for vision‐based micro‐aerial vehicle mapping, planning, and flight in cluttered environments

Helen Oleynikova, Christian Lanegger, Zachary Taylor, Michael Pantic, Alexander Millane, Roland Siegwart, Juan Nieto

2020Journal of Field Robotics74 citationsDOIOpen Access PDF

Abstract

Abstract We present an open‐source system for Micro‐Aerial Vehicle (MAV) autonomous navigation from vision‐based sensing. Our system focuses on dense mapping, safe local planning, and global trajectory generation, especially when using narrow field‐of‐view sensors in very cluttered environments. In addition, details about other necessary parts of the system and special considerations for applications in real‐world scenarios are presented. We focus our experiments on evaluating global planning, path smoothing, and local planning methods on real maps made on MAVs in realistic search‐and‐rescue and industrial inspection scenarios. We also perform thousands of simulations in cluttered synthetic environments, and finally validate the complete system in real‐world experiments.

Topics & Concepts

Motion planningComputer visionArtificial intelligenceComputer scienceSmoothingTrajectoryFocus (optics)Field (mathematics)Real-time computingEngineeringRobotPhysicsOpticsAstronomyMathematicsPure mathematicsRobotics and Sensor-Based LocalizationRobotic Path Planning AlgorithmsUAV Applications and Optimization
An open‐source system for vision‐based micro‐aerial vehicle mapping, planning, and flight in cluttered environments | Litcius