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SCORES: Shape Composition with Recursive Substructure Priors

Authors :
Zhu, Chenyang
Xu, Kai
Chaudhuri, Siddhartha
Yi, Renjiao
Zhang, Hao
Source :
ACM Transactions on Graphics, 2018
Publication Year :
2018

Abstract

We introduce SCORES, a recursive neural network for shape composition. Our network takes as input sets of parts from two or more source 3D shapes and a rough initial placement of the parts. It outputs an optimized part structure for the composed shape, leading to high-quality geometry construction. A unique feature of our composition network is that it is not merely learning how to connect parts. Our goal is to produce a coherent and plausible 3D shape, despite large incompatibilities among the input parts. The network may significantly alter the geometry and structure of the input parts and synthesize a novel shape structure based on the inputs, while adding or removing parts to minimize a structure plausibility loss. We design SCORES as a recursive autoencoder network. During encoding, the input parts are recursively grouped to generate a root code. During synthesis, the root code is decoded, recursively, to produce a new, coherent part assembly. Assembled shape structures may be novel, with little global resemblance to training exemplars, yet have plausible substructures. SCORES therefore learns a hierarchical substructure shape prior based on per-node losses. It is trained on structured shapes from ShapeNet, and is applied iteratively to reduce the plausibility loss.We showresults of shape composition from multiple sources over different categories of man-made shapes and compare with state-of-the-art alternatives, demonstrating that our network can significantly expand the range of composable shapes for assembly-based modeling.<br />Comment: Accepted to SIGGRAPH Asia 2018. Corresponding Author: Kai Xu (kevin.kai.xu@gmail.com)

Details

Database :
arXiv
Journal :
ACM Transactions on Graphics, 2018
Publication Type :
Report
Accession number :
edsarx.1809.05398
Document Type :
Working Paper