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"Improving Error Detection in Deep Learning based Radiotherapy Autocontours using Bayesian Uncertainty"
Prerak P. Mody, Nicolas F. Chaves-de-Plaza, Klaus Hildebrandt and Marius Staring
Abstract
Bayesian Neural Nets (BNN) are increasingly used for robust organ auto-contouring. Uncertainty heatmaps extracted from BNNs have been shown to correspond to inaccurate regions. To help speed up the mandatory quality assessment (QA) of contours in radiotherapy, these heatmaps could be used as stimuli to direct visual attention of clinicians to potential inaccuracies. In practice, this is non-trivial to achieve since many accurate regions also exhibit uncertainty. To influence the output uncertainty of a BNN, we propose a modified accuracy-versus-uncertainty (AvU) metric as an additional objective during model training that penalizes both accurate regions exhibiting uncertainty as well as inaccurate regions exhibiting certainty. For evaluation, we use an uncertainty-ROC curve that can help differentiate between Bayesian models by comparing the probability of uncertainty in inaccurate versus accurate regions. We train and evaluate a FlipOut BNN model on the MICCAI2015 Head and Neck Segmentation challenge dataset and on the DeepMind-TCIA dataset, and observed an increase in the AUC of uncertainty-ROC curves by 5.6% and 5.9%, respectively, when using the AvU objective. The AvU objective primarily reduced false positives regions (uncertain and accurate), drawing less visual attention to these regions, thereby potentially improving the speed of error detection.
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Copyright © 2022 by the authors.
Published version © 2022 by Springer Lecture Notes in Computer Science.
Personal use of this material is permitted. However, permission to reprint or republish this material for advertising or promotional purposes or for creating new collective works for resale or redistribution to servers or lists, or to reuse any copyrighted component of this work in other works, must be obtained from the copyright holder.
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BibTeX entry
@inproceedings{Mody:2022, |
author |
= {Mody, Prerak P. and Chaves-de-Plaza, Nicolas F. and Hildebrandt, Klaus and Staring, Marius}, |
title |
= {Improving Error Detection in Deep Learning based Radiotherapy Autocontours using Bayesian Uncertainty}, |
booktitle |
= {Uncertainty for Safe Utilization of Machine Learning in Medical Imaging, MICCAI workshop}, |
address |
= {Singapore}, |
series |
= {Lecture Notes in Computer Science}, |
volume |
= {13563}, |
pages |
= {70 - 79}, |
month |
= {September}, |
year |
= {2022}, |
} |
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last modified: 26-10-2022 |
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