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Semi-supervised 3D shape segmentation with multilevel consistency and part substitution

Chunyu Sun, Yu-Qi Yang, Haoxiang Guo, Peng‐Shuai Wang, Xin Tong, Yang Liu, Heung‐Yeung Shum

2023Computational Visual Media22 citationsDOIOpen Access PDF

Abstract

The lack of fine-grained 3D shape segmentation data is the main obstacle to developing learning-based 3D segmentation techniques. We propose an effective semi-supervised method for learning 3D segmentations from a few labeled 3D shapes and a large amount of unlabeled 3D data. For the unlabeled data, we present a novel multilevel consistency loss to enforce consistency of network predictions between perturbed copies of a 3D shape at multiple levels: point level, part level, and hierarchical level. For the labeled data, we develop a simple yet effective part substitution scheme to augment the labeled 3D shapes with more structural variations to enhance training. Our method has been extensively validated on the task of 3D object semantic segmentation on PartNet and ShapeNetPart, and indoor scene semantic segmentation on ScanNet. It exhibits superior performance to existing semi-supervised and unsupervised pre-training 3D approaches.

Topics & Concepts

SegmentationConsistency (knowledge bases)Computer scienceArtificial intelligenceSubstitution (logic)Pattern recognition (psychology)Scheme (mathematics)Scale-space segmentationObject (grammar)Point (geometry)Image segmentationMathematicsMathematical analysisProgramming languageGeometry3D Shape Modeling and Analysis3D Surveying and Cultural HeritageComputer Graphics and Visualization Techniques
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