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Lossy Geometry Compression Of 3d Point Cloud Data Via An Adaptive Octree-Guided Network

Xuanzheng Wen, Xu Wang, Junhui Hou, Lin Ma, Yu Zhou, Jianmin Jiang

202058 citationsDOI

Abstract

In this paper, we propose a deep learning based framework for point cloud geometry lossy compression via hybrid representation of point cloud. First, the input raw 3D point cloud data is adaptively decomposed into non-overlapping local patches through adaptive Octree decomposition and clustering. Second, a framework of point cloud auto-encoder network with quantization layer is proposed for learning compact latent feature representation from each patch. Specifically, the proposed point cloud auto-encoder networks with different input size are trained for achieving optimal rate-distortion (RD) performance. Final, bitstream specifications of proposed compression systems with additional signaled meta-data and header information are designed to support parallel decoding and successive reconstruction. Experimental results shows that our proposed method can achieve 40.20% bitrate saving in average than the existing standard Geometry based Point Cloud Compression (G-PCC) codec.

Topics & Concepts

Lossy compressionOctreeComputer sciencePoint cloudCodecQuantization (signal processing)Data compressionCluster analysisAlgorithmEncoderComputer visionArtificial intelligenceComputer hardwareOperating system3D Shape Modeling and AnalysisAdvanced Numerical Analysis TechniquesComputer Graphics and Visualization Techniques
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