CloudWalker: 3D Point Cloud Learning by Random Walks for Shape Analysis
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Point clouds are gaining prominence as a method for representing 3D shapes, but its irregular structure poses a challenge for deep learning methods. In this paper we propose CloudWalker, a novel method for learning 3D shapes using random walks. Previous works attempt to adapt Convolutional Neural Networks (CNNS) or impose a grid or mesh structure to 3D point clouds. This work presents a different approach to represent and learn the shape from a given point set. The key idea is to impose structure on the point set by multiple random walks through the cloud for exploring different regions of the 3D object. Then we learn a per-point and per-walk representation and aggregate multiple walk predictions at inference. Our approach achieves state-of-the-art results for two 3D shape analysis tasks: classification and retrieval. Furthermore, we propose a shape complexity indicator function that uses cross-walk and inter-walk variance measures to subdivide the shape space.
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