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Main Authors: Wu, Shaoxuan, Zhang, Xiao, Wang, Bin, Jin, Zhuo, Li, Hansheng, Feng, Jun
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.14050
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author Wu, Shaoxuan
Zhang, Xiao
Wang, Bin
Jin, Zhuo
Li, Hansheng
Feng, Jun
author_facet Wu, Shaoxuan
Zhang, Xiao
Wang, Bin
Jin, Zhuo
Li, Hansheng
Feng, Jun
contents Deep neural networks have demonstrated remarkable performance in medical image analysis. However, its susceptibility to spurious correlations due to shortcut learning raises concerns about network interpretability and reliability. Furthermore, shortcut learning is exacerbated in medical contexts where disease indicators are often subtle and sparse. In this paper, we propose a novel gaze-directed Vision GNN (called GD-ViG) to leverage the visual patterns of radiologists from gaze as expert knowledge, directing the network toward disease-relevant regions, and thereby mitigating shortcut learning. GD-ViG consists of a gaze map generator (GMG) and a gaze-directed classifier (GDC). Combining the global modelling ability of GNNs with the locality of CNNs, GMG generates the gaze map based on radiologists' visual patterns. Notably, it eliminates the need for real gaze data during inference, enhancing the network's practical applicability. Utilizing gaze as the expert knowledge, the GDC directs the construction of graph structures by incorporating both feature distances and gaze distances, enabling the network to focus on disease-relevant foregrounds. Thereby avoiding shortcut learning and improving the network's interpretability. The experiments on two public medical image datasets demonstrate that GD-ViG outperforms the state-of-the-art methods, and effectively mitigates shortcut learning. Our code is available at https://github.com/SX-SS/GD-ViG.
format Preprint
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Gaze-directed Vision GNN for Mitigating Shortcut Learning in Medical Image
Wu, Shaoxuan
Zhang, Xiao
Wang, Bin
Jin, Zhuo
Li, Hansheng
Feng, Jun
Computer Vision and Pattern Recognition
Deep neural networks have demonstrated remarkable performance in medical image analysis. However, its susceptibility to spurious correlations due to shortcut learning raises concerns about network interpretability and reliability. Furthermore, shortcut learning is exacerbated in medical contexts where disease indicators are often subtle and sparse. In this paper, we propose a novel gaze-directed Vision GNN (called GD-ViG) to leverage the visual patterns of radiologists from gaze as expert knowledge, directing the network toward disease-relevant regions, and thereby mitigating shortcut learning. GD-ViG consists of a gaze map generator (GMG) and a gaze-directed classifier (GDC). Combining the global modelling ability of GNNs with the locality of CNNs, GMG generates the gaze map based on radiologists' visual patterns. Notably, it eliminates the need for real gaze data during inference, enhancing the network's practical applicability. Utilizing gaze as the expert knowledge, the GDC directs the construction of graph structures by incorporating both feature distances and gaze distances, enabling the network to focus on disease-relevant foregrounds. Thereby avoiding shortcut learning and improving the network's interpretability. The experiments on two public medical image datasets demonstrate that GD-ViG outperforms the state-of-the-art methods, and effectively mitigates shortcut learning. Our code is available at https://github.com/SX-SS/GD-ViG.
title Gaze-directed Vision GNN for Mitigating Shortcut Learning in Medical Image
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2406.14050