APNet: Adaptive projection network for medical image denoising.

IF 1.7 3区 医学 Q3 INSTRUMENTS & INSTRUMENTATION Journal of X-Ray Science and Technology Pub Date : 2024-01-01 DOI:10.3233/XST-230181
Qiyi Song, Xiang Li, Mingbao Zhang, Xiangyi Zhang, Dang N H Thanh
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Abstract

Background: In clinical medicine, low-dose radiographic image noise reduces the quality of the detected image features and may have a negative impact on disease diagnosis.

Objective: In this study, Adaptive Projection Network (APNet) is proposed to reduce noise from low-dose medical images.

Methods: APNet is developed based on an architecture of the U-shaped network to capture multi-scale data and achieve end-to-end image denoising. To adaptively calibrate important features during information transmission, a residual block of the dual attention method throughout the encoding and decoding phases is integrated. A non-local attention module to separate the noise and texture of the image details by using image adaptive projection during the feature fusion.

Results: To verify the effectiveness of APNet, experiments on lung CT images with synthetic noise are performed, and the results demonstrate that the proposed approach outperforms recent methods in both quantitative index and visual quality. In addition, the denoising experiment on the dental CT image is also carried out and it verifies that the network has a certain generalization.

Conclusions: The proposed APNet is an effective method that can reduce image noise and preserve the required image details in low-dose radiographic images.

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APNet:用于医学图像去噪的自适应投影网络。
背景:在临床医学中,低剂量的放射线图像噪声降低了检测到的图像特征的质量,并可能对疾病诊断产生负面影响。目的:本研究提出了自适应投影网络(APNet)来降低低剂量医学图像的噪声。方法:APNet是基于U型网络的架构开发的,用于捕获多尺度数据并实现端到端的图像去噪。为了在信息传输期间自适应地校准重要特征,在整个编码和解码阶段集成了双注意力方法的残差块。一个非局部注意力模块,用于在特征融合过程中使用图像自适应投影来分离图像细节的噪声和纹理。结果:为了验证APNet的有效性,在具有合成噪声的肺部CT图像上进行了实验,结果表明,所提出的方法在定量指标和视觉质量方面都优于最近的方法。此外,还对牙齿CT图像进行了去噪实验,验证了该网络具有一定的泛化能力。结论:所提出的APNet是一种有效的方法,可以在低剂量放射线图像中降低图像噪声并保留所需的图像细节。
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来源期刊
CiteScore
4.90
自引率
23.30%
发文量
150
审稿时长
3 months
期刊介绍: Research areas within the scope of the journal include: Interaction of x-rays with matter: x-ray phenomena, biological effects of radiation, radiation safety and optical constants X-ray sources: x-rays from synchrotrons, x-ray lasers, plasmas, and other sources, conventional or unconventional Optical elements: grazing incidence optics, multilayer mirrors, zone plates, gratings, other diffraction optics Optical instruments: interferometers, spectrometers, microscopes, telescopes, microprobes
期刊最新文献
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