Rong Zhou, Zhengqing Yuan, Zhiling Yan, Weixiang Sun, Kai Zhang, Yiwei Li, Yanfang Ye, Xiang Li, Lifang He, Lichao Sun
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引用次数: 0
Abstract
Biomedical image segmentation is crucial for accurately diagnosing and
analyzing various diseases. However, Convolutional Neural Networks (CNNs) and
Transformers, the most commonly used architectures for this task, struggle to
effectively capture long-range dependencies due to the inherent locality of
CNNs and the computational complexity of Transformers. To address this
limitation, we introduce TTT-Unet, a novel framework that integrates Test-Time
Training (TTT) layers into the traditional U-Net architecture for biomedical
image segmentation. TTT-Unet dynamically adjusts model parameters during the
testing time, enhancing the model's ability to capture both local and
long-range features. We evaluate TTT-Unet on multiple medical imaging datasets,
including 3D abdominal organ segmentation in CT and MR images, instrument
segmentation in endoscopy images, and cell segmentation in microscopy images.
The results demonstrate that TTT-Unet consistently outperforms state-of-the-art
CNN-based and Transformer-based segmentation models across all tasks. The code
is available at https://github.com/rongzhou7/TTT-Unet.
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