← Back to papers
2021 CVPR CVPR 2021

FlowStep3D: Model Unrolling for Self-Supervised Scene Flow Estimation

Abstract

Estimating the 3D motion of points in a scene, known as scene flow, is a core problem in computer vision. Traditional learning-based methods designed to learn end-to-end 3D flow often suffer from poor generalization. Here we present a recurrent architecture that learns a single step of an unrolled iterative alignment procedure for refining scene flow predictions. Inspired by classical algorithms, we demonstrate iterative convergence toward the solution using strong regularization. The proposed method can handle sizeable temporal deformations and suggests a slimmer architecture than competitive all-to-all correlation approaches. Trained on FlyingThings3D synthetic data only, our network successfully generalizes to real scans, outperforming all existing methods by a large margin on the KITTI self-supervised benchmark.

🌉 Interdisciplinary Bridge — Computer Vision and Machine Learning
🐝 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

Yair Kittenplon , Yonina C. Eldar , Dan Raviv

Topics

Machine Learning > Learning Types > Self-Supervised Learning Computer Vision > Analysis > 3D Vision

Keywords

self-supervised learning point cloud iterative alignment scene flow 3d motion estimation
Download PDF

Related papers

Learning To Reconstruct High Speed and High Dynamic Range Videos From Events 2021
DeFLOCNet: Deep Image Editing via Flexible Low-Level Controls 2021
Vx2Text: End-to-End Learning of Video-Based Text Generation From Multimodal Inputs 2021
Coming Down to Earth: Satellite-to-Street View Synthesis for Geo-Localization 2021
Pose-Guided Human Animation From a Single Image in the Wild 2021