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Three-Dimensional Point Cloud Recognition via Distributions of Geometric Distances

机译：基于几何色散分布的三维点云识别

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A geometric framework for the recognition of three-dimensional objects represented by point clouds is introduced in this paper. The proposed approach is based on comparing distributions of intrinsic measurements on the point cloud. In particular, intrinsic distances are exploited as signatures for representing the point clouds. The first signature we introduce is the histogram of pairwise diffusion distances between all points on the shape surface. These distances represent the probability of traveling from one point to another in a fixed number of random steps, the average intrinsic distances of all possible paths of a given number of steps between the two points. This signature is augmented by the histogram of the actual pairwise geodesic distances in the point cloud, the distribution of the ratio between these two distances, as well as the distribution of the number of times each point lies on the shortest paths between other points. These signatures are not only geometric but also invariant to bends. We further augment these signatures by the distribution of a curvature function and the distribution of a curvature weighted distance. These histograms are compared using the 2 or other common distance metrics for distributions. The presentation of the framework is accompanied by theoretical and geometric justification and state-of-the-art experimental results with the standard Princeton 3D shape benchmark, ISDB, and nonrigid 3D datasets. We also present a detailed analysis of the particular relevance of each one of the different proposed histogram-based signatures. Finally, we briefly discuss a more local approach where the histograms are computed for a number of overlapping patches from the object rather than the whole shape, thereby opening the door to partial shape comparisons.

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作者
Mahmoudi, M.; Sapiro, G.;
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年度 2008
页码 1-22
总页数 22
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Clouds ; Three dimensional ; Pattern recognition ; Geometry ; Augmentation ; Weighting functions ; Geodesics ; Artificial intelligence ; Measurement ; Histograms ; State of the art ; Distribution ; Recognition;

机译：云;三维;模式识别;几何;增强;加权函数;测地线;人工智能;测量;直方图;最新技术;分布;识别;

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专利

1. Three-dimensional point cloud recognition via distributions of geometric distances [J] . Mona Mahmoudi, Guillermo Sapiro Graphical models . 2009,第期

机译：通过几何距离分布的三维点云识别
2. Patent Application Titled "Geometric Feature Extracting Device, Geometric Feature Extracting Method, Storage Medium, Three-Dimensional Measurement Apparatus, and Object Recognition Apparatus" Under Re [J] . Robotics and Machine Learning . 2012,第50期

机译：在专利申请中，标题为“几何特征提取装置，几何特征提取方法，存储介质，三维测量设备和物体识别设备”的专利申请
3. Modeling Habitat Suitability for Complex Species Distributions by Environmental-Distance Geometric Mean [J] . Alexandre H. Hirzel, Raphael Arlettaz Environmental Management . 2003,第5期

机译：利用环境距离几何均值对复杂物种分布的生境适宜性建模
4. Three-dimensional point cloud recognition via distributions of geometric distances [C] . Mahmoudi M., Sapiro G. IEEE Computer Society Conference on Computer Vision and Pattern Recognition . 2008

机译：通过几何距离分布的三维点云识别
5. Three dimensional model based recognition using multidimensional Hausdorff distance and geometrical invariants [D] . Rahman, Mohammad Tayabur. 2006

机译：基于多维Hausdorff距离和几何不变量的基于三维模型的识别
6. Differences in Three-Dimensional Geometric Recognition by Non-Cancerous and Cancerous Epithelial Cells on Microgroove-Based Topography [O] . Keiichiro Kushiro, Tomohiro Yaginuma, Akihide Ryo, -1

机译：基于微槽形地形图的非癌性和癌性上皮细胞三维几何识别的差异
7. Three-dimensional Point Cloud Recognition via Distributions of Geometric Distances [O] . Mona Mahmoudi, Guillermo Sapiro 2008

机译：几何距离分布的三维点云识别

Three-Dimensional Point Cloud Recognition via Distributions of Geometric Distances

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