Learning to Sample

Oren Dovrat; Itai Lang; Shai Avidan

2019 CVPR CVPR 2019

Learning to Sample

Abstract

Processing large point clouds is a challenging task. Therefore, the data is often sampled to a size that can be processed more easily. The question is how to sample the data? A popular sampling technique is Farthest Point Sampling (FPS). However, FPS is agnostic to a downstream application (classification, retrieval, etc.). The underlying assumption seems to be that minimizing the farthest point distance, as done by FPS, is a good proxy to other objective functions. We show that it is better to learn how to sample. To do that, we propose a deep network to simplify 3D point clouds. The network, termed S-NET, takes a point cloud and produces a smaller point cloud that is optimized for a particular task. The simplified point cloud is not guaranteed to be a subset of the original point cloud. Therefore, we match it to a subset of the original points in a post-processing step. We contrast our approach with FPS by experimenting on two standard data sets and show significantly better results for a variety of applications. Our code is publicly available.

🌉 Interdisciplinary Bridge — Computer Vision and Deep Learning and Machine Learning

🧭 Keyword Pioneer — farthest point sampling

🐣 Hot Topic Early Bird — 3d point cloud

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Oren Dovrat , Itai Lang , Shai Avidan

Topics

Machine Learning > Core Methods > Representation Learning Machine Learning > Optimization & Theory > Optimization Machine Learning > Application Areas > Efficient Computing Deep Learning > Architectures > Neural Networks Computer Vision > Processing > Image Processing Deep Learning > Optimization & Theory > Model Compression Deep Learning > Learning Types > Representation Learning Computer Vision > Domain-Specific > 3D Vision

Keywords

feature learning point cloud 3d vision convolutional neural network downstream task 3d point cloud deep network farthest point sampling point cloud sampling point cloud simplification learned sampling

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