MBW: Multi-view Bootstrapping in the WildDownload PDF

01 Jun 2022, 19:27 (modified: 11 Oct 2022, 00:19)NeurIPS 2022 Datasets and Benchmarks Readers: Everyone
Keywords: Auto labeling, Multi-view 2D-3D, Keypoint Detection, Self-supervision
TL;DR: Obtaining high-fidelity 2D and 3D landmark labels from videos with only two or three uncalibrated, handheld cameras moving in the wild.
Abstract: Labeling articulated objects in unconstrained settings has a wide variety of applications including entertainment, neuroscience, psychology, ethology, and many fields of medicine. Large offline labeled datasets do not exist for all but the most common articulated object categories (e.g., humans). Hand labeling these landmarks within a video sequence is a laborious task. Learned landmark detectors can help, but can be error-prone when trained from only a few examples. Multi-camera systems that train fine-grained detectors have shown significant promise in detecting such errors, allowing for self-supervised solutions that only need a small percentage of the video sequence to be hand-labeled. The approach, however, is based on calibrated cameras and rigid geometry, making it expensive, difficult to manage, and impractical in real-world scenarios. In this paper, we address these bottlenecks by combining a non-rigid 3D neural prior with deep flow to obtain high-fidelity landmark estimates from videos with only two or three uncalibrated, handheld cameras. With just a few annotations (representing $1-2\%$ of the frames), we are able to produce 2D results comparable to state-of-the-art fully supervised methods, along with 3D reconstructions that are impossible with other existing approaches. Our Multi-view Bootstrapping in the Wild (MBW) approach demonstrates impressive results on standard human datasets, as well as tigers, cheetahs, fish, colobus monkeys, chimpanzees, and flamingos from videos captured casually in a zoo. We release the codebase for MBW as well as this challenging zoo dataset consisting of image frames of tail-end distribution categories with their corresponding 2D and 3D labels generated from minimal human intervention.
Supplementary Material: pdf
URL: https://github.com/mosamdabhi/MBW
Dataset Url: https://github.com/mosamdabhi/MBW-Data
License: CC-BY-NC
Author Statement: Yes
Contribution Process Agreement: Yes
In Person Attendance: Yes
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