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PQ-NET: A Generative Part Seq2Seq Network for 3D Shapes

Rundi Wu, Yixin Zhuang, Kai Xu, Hao Zhang, Baoquan Chen

2020139 citationsDOI

Abstract

We introduce PQ-NET, a deep neural network which represents and generates 3D shapes via sequential part assembly. The input to our network is a 3D shape segmented into parts, where each part is first encoded into a feature representation using a part autoencoder. The core component of PQ-NET is a sequence-to-sequence or Seq2Seq autoencoder which encodes a sequence of part features into a latent vector of fixed size, and the decoder reconstructs the 3D shape, one part at a time, resulting in a sequential assembly. The latent space formed by the Seq2Seq encoder encodes both part structure and fine part geometry. The decoder can be adapted to perform several generative tasks including shape autoencoding, interpolation, novel shape generation, and single-view 3D reconstruction, where the generated shapes are all composed of meaningful parts.

Topics & Concepts

AutoencoderSequence (biology)Interpolation (computer graphics)Computer scienceEncoderArtificial intelligenceArtificial neural networkRepresentation (politics)Net (polyhedron)Pattern recognition (psychology)Feature (linguistics)AlgorithmGenerative modelFeature vectorGenerative grammarMathematicsGeometryImage (mathematics)Political sciencePoliticsLinguisticsBiologyPhilosophyOperating systemLawGenetics3D Shape Modeling and AnalysisImage Processing and 3D ReconstructionComputer Graphics and Visualization Techniques
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