INTEGRATION OF 2D IMAGES AND RANGE DATA FOR OBJECT SEGMENTATION AND RECOGNITION

In the field of vision based robot actuation, in order to manipulate objects in an environment, background separation and object selection are fundamental tasks that should be carried out in a fast and efficient way. In this paper, we propose a method to segment possible object locations in the scene and rec-ognize them via local-point based representation. Exploiting the resulting 3D structure of the scene via a time-of-flight camera, background regions are elimi-nated with the assumption that the objects are placed on planar surfaces. Next, object, recognition is performed using scale invariant features in the captured high resolution images via standard camera. The preliminary experimental re-sults show that the proposed system gives promising results for background segmentation and object recognition, especially for the service robot environ-ments, which could also be utilized as a pre-processing step in path planning and 3D scene map generation.