Learning From Noisy Large-Scale Datasets With Minimal Supervision - Robotics Institute Carnegie Mellon University

Learning From Noisy Large-Scale Datasets With Minimal Supervision

Andreas Veit, Neil Alldrin, Gal Chechik, Ivan Krasin, Abhinav Gupta, and Serge Belongie
Conference Paper, Proceedings of (CVPR) Computer Vision and Pattern Recognition, pp. 6575 - 6583, July, 2017

Abstract

We present an approach to effectively use millions of images with noisy annotations in conjunction with a small subset of cleanly-annotated images to learn powerful image representations. One common approach to combine clean and noisy data is to first pre-train a network using the large noisy dataset and then fine-tune with the clean dataset. We show this approach does not fully leverage the information contained in the clean set. Thus, we demonstrate how to use the clean annotations to reduce the noise in the large dataset before fine-tuning the network using both the clean set and the full set with reduced noise. The approach comprises a multi-task network that jointly learns to clean noisy annotations and to accurately classify images. We evaluate our approach on the recently released Open Images dataset, containing ~9 million images, multiple annotations per image and over 6000 unique classes. For the small clean set of annotations we use a quarter of the validation set with ~40k images. Our results demonstrate that the proposed approach clearly outperforms direct fine-tuning across all major categories of classes in the Open Image dataset. Further, our approach is particularly effective for a large number of classes with wide range of noise in annotations (20-80% false positive annotations).

BibTeX

@conference{Veit-2017-113313,
author = {Andreas Veit and Neil Alldrin and Gal Chechik and Ivan Krasin and Abhinav Gupta and Serge Belongie},
title = {Learning From Noisy Large-Scale Datasets With Minimal Supervision},
booktitle = {Proceedings of (CVPR) Computer Vision and Pattern Recognition},
year = {2017},
month = {July},
pages = {6575 - 6583},
}