Hybrid approach for denoising and segmentation: N2S with swin transformerenhanced U-net

Accurate segmentation in medical imaging, particularly for modalities such as Chest X-rays, CT scans, and microscopic images, is critical for diagnosis and treatment. However, noisy and low-quality data can significantly affect performance. This paper presents a novel framework that integrates Noise...

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Bibliographic Details
Published inI-manager's Journal on Image Processing Vol. 12; no. 1; p. 50
Main Authors Ashwini, G., Ramashri, T.
Format Journal Article
LanguageEnglish
Published Nagercoil iManager Publications 01.03.2025
Subjects
Accuracy
Computed tomography
Datasets
Deep learning
Image segmentation
Medical imaging
Methods
Neural networks
Noise reduction
X-rays
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ISSN2349-4530
2349-6827
DOI10.26634/jip.12.1.21658

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Summary:Accurate segmentation in medical imaging, particularly for modalities such as Chest X-rays, CT scans, and microscopic images, is critical for diagnosis and treatment. However, noisy and low-quality data can significantly affect performance. This paper presents a novel framework that integrates Noise2Split denoising with a Hybrid Swin Transformer U-Net to enhance segmentation accuracy in these challenging medical imaging tasks. By combining Noise2Split's effective noise reduction with the Swin Transformer's advanced feature extraction and U-Net's robust segmentation architecture, the model efficiently addresses both noise and segmentation challenges. The Swin Transformer effectively captures both local and global context, while the skip connections in U-Net contribute to recovering detailed high- resolution features. Extensive experiments on Chest X-rays, CT scans, and microscopic images demonstrate that this integrated model performs better than traditional methods in terms of segmentation accuracy, making it a valuable tool for clinical applications where imaging quality is compromised.
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ISSN:2349-4530
2349-6827
DOI:10.26634/jip.12.1.21658