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An Efficient Probabilistic 3D Mapping Framework Based on Octrees
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TLDR
In this paper, an open-source framework is presented to generate volumetric 3D environ- ment models based on octrees and uses probabilistic occupancy estimation, which explicitly repre- sents not only occupied space, but also free and unknown areas.Abstract:
Three-dimensional models provide a volumetric representation of space which is important for a variety of robotic applications including flying robots and robots that are equipped with manipulators. In this paper, we present an open-source framework to generate volumetric 3D environ- ment models. Our mapping approach is based on octrees and uses probabilistic occupancy estimation. It explicitly repre- sents not only occupied space, but also free and unknown areas. Furthermore, we propose an octree map compression method that keeps the 3D models compact. Our framework is available as an open-source C++ library and has already been successfully applied in several robotics projects. We present a series of experimental results carried out with real robots and on publicly available real-world datasets. The re- sults demonstrate that our approach is able to update the representation efficiently and models the data consistently while keeping the memory requirement at a minimum.read more
Citations
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Autonomous UAV Exploration of Dynamic Environments via Incremental Sampling and Probabilistic Roadmap
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Real-Time Information-Theoretic Exploration with Gaussian Mixture Model Maps
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Segmenting areas of potential contamination for adaptive robotic disinfection in built environments.
TL;DR: A novel framework is proposed to enable robotic disinfection in built environments to reduce pathogen transmission and exposure, and a deep-learning method is developed to segment and map areas of potential contamination in three dimensions based on the object affordance concept.
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Supervised Autonomy for Exploration and Mobile Manipulation in Rough Terrain with a Centaur-Like Robot
Max Schwarz,Marius Beul,David Droeschel,Sebastian Schüller,Arul Selvam Periyasamy,Christian Lenz,Michael Schreiber,Sven Behnke +7 more
TL;DR: This work developed autonomous capabilities for Momaro, a Centaur-like mobile manipulation robot that can solve complex tasks when teleoperated, and developed a ground station with suitable operator interfaces.
Posted Content
Robust Vision-based Obstacle Avoidance for Micro Aerial Vehicles in Dynamic Environments
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