Uncertainty Estimation for Multi-View Data: The Power of Seeing the Whole Picture
Abstract
Uncertainty estimation is essential to make neural networks trustworthy in real-world applications. Extensive research efforts have been made to quantify and reduce predictive uncertainty. However, most existing works are designed for unimodal data, whereas multi-view uncertainty estimation has not been sufficiently investigated. Therefore, we propose a new multi-view classification framework for better uncertainty estimation and out-of-domain sample detection, where we associate each view with an uncertainty-aware classifier and combine the predictions of all the views in a principled way. The experimental results with real-world datasets demonstrate that our proposed approach is an accurate, reliable, and well-calibrated classifier, which predominantly outperforms the multi-view baselines tested in terms of expected calibration error, robustness to noise, and accuracy for the in-domain sample classification and the out-of-domain sample detection tasks
Cite
Text
Jung et al. "Uncertainty Estimation for Multi-View Data: The Power of Seeing the Whole Picture." Neural Information Processing Systems, 2022.Markdown
[Jung et al. "Uncertainty Estimation for Multi-View Data: The Power of Seeing the Whole Picture." Neural Information Processing Systems, 2022.](https://mlanthology.org/neurips/2022/jung2022neurips-uncertainty/)BibTeX
@inproceedings{jung2022neurips-uncertainty,
title = {{Uncertainty Estimation for Multi-View Data: The Power of Seeing the Whole Picture}},
author = {Jung, Myong Chol and Zhao, He and Dipnall, Joanna and Gabbe, Belinda and Du, Lan},
booktitle = {Neural Information Processing Systems},
year = {2022},
url = {https://mlanthology.org/neurips/2022/jung2022neurips-uncertainty/}
}