Range Conditioned Dilated Convolutions for Scale Invariant 3D Object Detection

Alex Bewley; Pei Sun; Thomas Mensink; Dragomir Anguelov; Cristian Sminchisescu

2020 CORL CoRL 2020

Range Conditioned Dilated Convolutions for Scale Invariant 3D Object Detection

Abstract

This paper presents a novel 3D object detection framework that processes LiDAR data directly on its native representation: range images. Benefiting from the compactness of range images, 2D convolutions can efficiently process dense LiDAR data of the scene. To overcome scale sensitivity in this perspective view, a novel range-conditioned dilation (RCD) layer is proposed to dynamically adjust a continuous dilation rate as a function of the measured range. Furthermore, localized soft range gating combined with a 3D box-refinement stage improves robustness in occluded areas, and produces overall more accurate bounding box predictions. On the public large-scale Waymo Open Dataset, our method sets a new baseline for range-based 3D detection, outperforming multiview and voxel-based methods over all ranges with unparalleled performance at long range detection.

🐝 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

Alex Bewley , Pei Sun , Thomas Mensink , Dragomir Anguelov , Cristian Sminchisescu

Topics

Computer Vision > Analysis > 3D Vision Computer Vision > Analysis > Object Detection Computer Vision > Domain-Specific > Autonomous Driving

Keywords

depth estimation 3d object detection convolutional neural network range image

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