ROAD: Learning an Implicit Recursive Octree Auto-Decoder to Efficiently Encode 3D Shapes

Conference on Robot Learning Pub Date : 2022-12-12 DOI:10.48550/arXiv.2212.06193

Sergey Zakharov, Rares Ambrus, Katherine Liu, Adrien Gaidon

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引用次数: 3

Abstract

Compact and accurate representations of 3D shapes are central to many perception and robotics tasks. State-of-the-art learning-based methods can reconstruct single objects but scale poorly to large datasets. We present a novel recursive implicit representation to efficiently and accurately encode large datasets of complex 3D shapes by recursively traversing an implicit octree in latent space. Our implicit Recursive Octree Auto-Decoder (ROAD) learns a hierarchically structured latent space enabling state-of-the-art reconstruction results at a compression ratio above 99%. We also propose an efficient curriculum learning scheme that naturally exploits the coarse-to-fine properties of the underlying octree spatial representation. We explore the scaling law relating latent space dimension, dataset size, and reconstruction accuracy, showing that increasing the latent space dimension is enough to scale to large shape datasets. Finally, we show that our learned latent space encodes a coarse-to-fine hierarchical structure yielding reusable latents across different levels of details, and we provide qualitative evidence of generalization to novel shapes outside the training set.

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ROAD:学习一个隐式递归八叉树自动解码器来有效地编码3D形状

紧凑和准确的3D形状表示是许多感知和机器人任务的核心。最先进的基于学习的方法可以重建单个对象，但对大型数据集的扩展能力很差。本文提出了一种递归隐式表示，通过递归遍历隐式八叉树，有效准确地对复杂三维形状的大型数据集进行编码。我们的隐式递归八叉树自动解码器(ROAD)学习了一个分层结构的潜在空间，在压缩比超过99%的情况下实现了最先进的重建结果。我们还提出了一种有效的课程学习方案，该方案自然地利用了底层八叉树空间表示的从粗到精的特性。我们探索了潜在空间维数、数据集大小和重建精度之间的比例规律，表明增加潜在空间维数足以扩展到大型形状数据集。最后，我们证明了我们学习到的潜在空间编码了一个从粗到细的层次结构，在不同的细节层次上产生了可重用的潜在，并且我们提供了定性的证据，证明了我们对训练集之外的新形状的泛化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Conference on Robot Learning

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