A mobile robot that accomplishes high level tasks needs to be able to classify the objects in the environment and to determine their location. In this paper, we address the problem of online object detection in 3D laser range data. The object classes are represented by 3D point-clouds that can be obtained from a set of range scans. Our method relies on the extraction of point features from range images that are computed from the point-clouds. Compared to techniques that directly operate on a full 3D representation of the environment, our approach requires less computation time while retaining the robustness of full 3D matching. Experiments demonstrate that the proposed approach is even able to deal with partially occluded scenes and to fulfill the runtime requirements of online applications. © 2009 IEEE.
Robust on-line model-based object detection from range images / Bastian, Steder; Grisetti, Giorgio; Mark Van, Loock; Wolfram, Burgard. - (2009), pp. 4739-4744. (Intervento presentato al convegno 2009 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2009 tenutosi a St. Louis, MO) [10.1109/iros.2009.5354400].
Robust on-line model-based object detection from range images
GRISETTI, GIORGIO;
2009
Abstract
A mobile robot that accomplishes high level tasks needs to be able to classify the objects in the environment and to determine their location. In this paper, we address the problem of online object detection in 3D laser range data. The object classes are represented by 3D point-clouds that can be obtained from a set of range scans. Our method relies on the extraction of point features from range images that are computed from the point-clouds. Compared to techniques that directly operate on a full 3D representation of the environment, our approach requires less computation time while retaining the robustness of full 3D matching. Experiments demonstrate that the proposed approach is even able to deal with partially occluded scenes and to fulfill the runtime requirements of online applications. © 2009 IEEE.File | Dimensione | Formato | |
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