Dmesh zoom5/1/2023 ![]() You can use a mouse to rotate the presented 3D model of the scene. A C++ code implementing our algorithm can be downloaded here.Ī 3D visualization of a segmented mesh obtained by applying our program to the depth map of the scene shown below is provided next to the image of this scene. The details of our algorithm are presented in the scientific paper. The proposed approach is designed as a mid-level processing stage in a vision-based perception system of a robot which should provide suitable geometric primitives for a high-level object recognition or robot localization algorithm. One such labelling is shown in the bottom right image below. The result is the labeling of each mesh triangle as well as each depth image pixel, where each pixel and each triangle is assigned to a approximately convex set. Then an iterative procedure based on the incremental convex hull algorithm and region growing is applied to detect approximately convex surfaces in the scene. An example of such a mesh is presented in the bottom left image below. ![]() the point cloud) is transformed into a triangle mesh using the method proposed by Schmitt and Chen. ![]() a depth image acquired by a Kinect sensor, such as the top right image shown below. We have developed a computationally efficient approach for segmenting an organized point cloud, i.e. However, for a computer vision system, segmentation of a scene from a single 2D image or a point cloud obtained by a 3D camera is still an open problem. A human can easily recognize separate objects in an image. In a standard image segmentation paradigm, an image of a scene is segmented into several regions potentially representing different objects. A useful preprocessing step in an object recognition process is image segmentation. Fast Segmentation of Range Images to Approximately Convex SurfacesĪ robot's ability to recognize objects is necessary for flexible object manipulation.
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