PRECISe : Prototype-Reservation for Explainable Classification Under Imbalanced and Scarce-Data Settings
Abstract
Deep learning models used for medical image classification tasks are often constrained by the limited amount of training data along with severe class imbalance. Despite these problems, models should be explainable to enable human trust in the models’ decisions to ensure wider adoption in high risk situations. In this paper, we propose PRECISe, an explainable-by-design model meticulously constructed to concurrently address all three challenges. Evaluation on 2 imbalanced medical image datasets reveals that PRECISe outperforms the current state-of-the-art methods on data efficient generalization to minority classes, achieving an accuracy of 87% in detecting pneumonia in chest x-rays upon training on <60 images only. Additionally, a case study is presented to highlight the model’s ability to produce easily interpretable predictions, reinforcing its practical utility and reliability for medical imaging tasks.
Cite
Text
Ganatra and Goel. "PRECISe : Prototype-Reservation for Explainable Classification Under Imbalanced and Scarce-Data Settings." Proceedings of the 9th Machine Learning for Healthcare Conference, 2024.Markdown
[Ganatra and Goel. "PRECISe : Prototype-Reservation for Explainable Classification Under Imbalanced and Scarce-Data Settings." Proceedings of the 9th Machine Learning for Healthcare Conference, 2024.](https://mlanthology.org/mlhc/2024/ganatra2024mlhc-precise/)BibTeX
@inproceedings{ganatra2024mlhc-precise,
title = {{PRECISe : Prototype-Reservation for Explainable Classification Under Imbalanced and Scarce-Data Settings}},
author = {Ganatra, Vaibhav and Goel, Drishti},
booktitle = {Proceedings of the 9th Machine Learning for Healthcare Conference},
year = {2024},
volume = {252},
url = {https://mlanthology.org/mlhc/2024/ganatra2024mlhc-precise/}
}