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All You Need is LUV: Unsupervised Collection of Labeled Images Using UV-Fluorescent Markings

Brijen Thananjeyan, Justin Kerr, Huang Huang, Joseph E. Gonzalez, Ken Goldberg

Year
2022
Citations
13

Abstract

Learning-based perception systems in robotics often requires large-scale image segmentation annotation. Current approaches rely on human labelers, which can be expensive, or simulation data, which can visually differ from real data. This paper proposes Labels from UltraViolet (LUV), a novel framework that enables rapid, automated, inexpensive, high quality data collection in real. LUV uses transparent, UV-fluorescent paint with programmable UV LEDs to collect paired images of a scene in standard and UV lighting. This makes it possible to autonomously extract segmentation masks and keypoints via color thresholding. We apply LUV to a suite of diverse robot perception tasks: locating fabric keypoints, cable segmentation, and surgical needle detection to evaluate its labeling quality, flexibility, and data collection rate. Results suggest that LUV is 180–2500 times faster than a human labeler across the tasks while retaining accuracy and strong task performance. Code, datasets, visualizations, and supplementary material can be found at https://sites.google.com/berkeley.edu/luv.

Keywords

Computer scienceArtificial intelligenceSegmentationThresholdingComputer visionImage segmentationCode (set theory)AnnotationImage (mathematics)

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