CWT-Net: Super-resolution of Histopathology Images Using a Cross-scale Wavelet-based Transformer

Feiyang Jia, Zhineng Chen, Ziying Song, Lin Liu, Caiyan Jia
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Abstract

Super-resolution (SR) aims to enhance the quality of low-resolution images and has been widely applied in medical imaging. We found that the design principles of most existing methods are influenced by SR tasks based on real-world images and do not take into account the significance of the multi-level structure in pathological images, even if they can achieve respectable objective metric evaluations. In this work, we delve into two super-resolution working paradigms and propose a novel network called CWT-Net, which leverages cross-scale image wavelet transform and Transformer architecture. Our network consists of two branches: one dedicated to learning super-resolution and the other to high-frequency wavelet features. To generate high-resolution histopathology images, the Transformer module shares and fuses features from both branches at various stages. Notably, we have designed a specialized wavelet reconstruction module to effectively enhance the wavelet domain features and enable the network to operate in different modes, allowing for the introduction of additional relevant information from cross-scale images. Our experimental results demonstrate that our model significantly outperforms state-of-the-art methods in both performance and visualization evaluations and can substantially boost the accuracy of image diagnostic networks.
CWT-Net:使用基于小波的跨尺度变换器实现组织病理学图像的超级分辨率
超分辨率(SR)旨在提高低分辨率图像的质量,已被广泛应用于医学成像领域。我们发现,大多数现有方法的设计原则都受到基于真实世界图像的 SR 任务的影响,没有考虑到病理图像中多层次结构的重要性,即使它们能实现可观的客观度量评估。在这项工作中,我们深入研究了两种超分辨率工作模式,并提出了一种名为 CWT-Net 的新型网络,它利用了跨尺度图像小波变换和变换器架构。我们的网络由两个分支组成:一个专门学习超分辨率,另一个专门学习高频小波特征。为了生成高分辨率的组织病理学图像,变换器模块在不同阶段共享和融合来自两个分支的特征。值得注意的是,我们设计了专门的小波重构模块,以有效增强小波域特征,并使网络以不同模式运行,允许从跨尺度图像中引入额外的相关信息。实验结果表明,我们的模型在性能和可视化评估方面都明显优于最先进的方法,可以大大提高图像诊断网络的准确性。
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