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Enhancing Octree-Based Context Models for Point Cloud Geometry Compression With Attention-Based Child Node Number Prediction

Chang Sun, Hui Yuan, Xiaolong Mao, Xin Lu, Raouf Hamzaoui

2024IEEE Signal Processing Letters17 citationsDOIOpen Access PDF

Abstract

In point cloud geometry compression, most octree-based context models use the cross-entropy between the one-hot encoding of node occupancy and the probability distribution predicted by the context model as the loss. This approach converts the problem of predicting the number (a regression problem) and the position (a classification problem) of occupied child nodes into a 255-dimensional classification problem. As a result, it fails to accurately measure the difference between the one-hot encoding and the predicted probability distribution. We first analyze why the cross-entropy loss function fails to accurately measure the difference between the one-hot encoding and the predicted probability distribution. Then, we propose an attention-based child node number prediction (ACNP) module to enhance the context models. The proposed module can predict the number of occupied child nodes and map it into an 8-dimensional vector to assist the context model in predicting the probability distribution of the occupancy of the current node for efficient entropy coding. Experimental results demonstrate that the proposed module enhances the coding efficiency of octree-based context models.

Topics & Concepts

OctreeContext (archaeology)Computer sciencePoint cloudNode (physics)Point (geometry)Compression (physics)Data compressionCloud computingComputational geometryArtificial intelligenceAlgorithmTheoretical computer scienceMathematicsGeometryBiologyOperating systemComposite materialMaterials scienceStructural engineeringPaleontologyEngineering3D Shape Modeling and Analysis3D Surveying and Cultural HeritageOptical measurement and interference techniques
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