Bibliographic Information: Zhou, L., Zhou, Z., Huang, X., Zhang, X., Wang, H., & Li, G. (2024). Neighboring Slice Noise2Noise: Self-Supervised Medical Image Denoising from Single Noisy Image Volume. arXiv preprint arXiv:2411.10831.
Research Objective: This paper introduces NS-N2N, a self-supervised denoising method for medical images that addresses the challenge of requiring large noisy-clean image pairs for training, a common limitation in existing supervised methods.
Methodology: NS-N2N utilizes neighboring slices within a single noisy image volume to construct weighted training data. It employs a self-supervised training scheme incorporating regional consistency loss and inter-slice continuity loss to train a denoising network (U-Net). The method leverages the inherent spatial continuity of tissue structures in medical image volumes, assuming that matched regions across neighboring slices should ideally have the same true values.
Key Findings: Experiments on synthetic MRI data with Rician noise and real-world low-dose CT data demonstrate that NS-N2N outperforms state-of-the-art self-supervised denoising methods in both denoising performance (PSNR, SSIM) and processing efficiency. Notably, NS-N2N achieves comparable results to supervised methods while only requiring a single noisy image volume for training.
Main Conclusions: NS-N2N offers a practical and effective solution for medical image denoising, particularly in scenarios where acquiring large paired datasets is impractical. Its ability to operate solely in the image domain, free from device-specific limitations, enhances its clinical applicability.
Significance: This research significantly contributes to the field of medical image denoising by introducing a self-supervised method that achieves high-quality denoising with minimal data requirements, potentially improving clinical workflows and diagnostic accuracy.
Limitations and Future Research: While NS-N2N demonstrates promising results, further exploration into its applicability across diverse medical imaging modalities and noise types is warranted. Investigating the potential of incorporating anatomical priors or other regularization techniques to further enhance denoising performance could be valuable avenues for future research.
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by Langrui Zhou... klokken arxiv.org 11-19-2024
https://arxiv.org/pdf/2411.10831.pdfDypere Spørsmål