Inpainting vs denoising for dose reduction in scanning-beam microscopies.

IF 10.8 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE IEEE Transactions on Image Processing Pub Date : 2019-07-17 DOI:10.1109/TIP.2019.2928133
Toby Sanders, Christian Dwyer
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Abstract

We consider sampling strategies for reducing the radiation dose during image acquisition in scanning-beam microscopies, such as SEM, STEM, and STXM. Our basic assumption is that we may acquire subsampled image data (with some pixels missing) and then inpaint the missing data using a compressed-sensing approach. Our noise model consists of Poisson noise plus random Gaussian noise. We include the possibility of acquiring fully-sampled image data, in which case the inpainting approach reduces to a denoising procedure. We use numerical simulations to compare the accuracy of reconstructed images with the "ground truths." The results generally indicate that, for sufficiently high radiation doses, higher sampling rates achieve greater accuracy, commensurate with well-established literature. However, for very low radiation doses, where the Poisson noise and/or random Gaussian noise begins to dominate, then our results indicate that subsampling/inpainting can result in smaller reconstruction errors. We also present an information-theoretic analysis, which allows us to quantify the amount of information gained through the different sampling strategies and enables some broader discussion of the main results.

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在扫描光束显微镜中减少剂量的涂色与去噪。
我们考虑了在扫描电子显微镜、STEM 和 STXM 等扫描光束显微镜的图像采集过程中降低辐射剂量的采样策略。我们的基本假设是,我们可以获取子采样图像数据(部分像素缺失),然后使用压缩传感方法对缺失数据进行补绘。我们的噪声模型包括泊松噪声和随机高斯噪声。我们还考虑到了获取全采样图像数据的可能性,在这种情况下,内绘方法简化为去噪程序。我们使用数值模拟来比较重建图像与 "地面实况 "的准确性。结果普遍表明,对于足够高的辐射剂量,较高的采样率能获得更高的精度,这与已发表的文献相符。然而,对于极低的辐射剂量,泊松噪声和/或随机高斯噪声开始占主导地位,那么我们的结果表明,子采样/绘制可以带来较小的重建误差。我们还进行了信息理论分析,从而量化了通过不同采样策略获得的信息量,并对主要结果进行了更广泛的讨论。
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来源期刊
IEEE Transactions on Image Processing
IEEE Transactions on Image Processing 工程技术-工程:电子与电气
CiteScore
20.90
自引率
6.60%
发文量
774
审稿时长
7.6 months
期刊介绍: The IEEE Transactions on Image Processing delves into groundbreaking theories, algorithms, and structures concerning the generation, acquisition, manipulation, transmission, scrutiny, and presentation of images, video, and multidimensional signals across diverse applications. Topics span mathematical, statistical, and perceptual aspects, encompassing modeling, representation, formation, coding, filtering, enhancement, restoration, rendering, halftoning, search, and analysis of images, video, and multidimensional signals. Pertinent applications range from image and video communications to electronic imaging, biomedical imaging, image and video systems, and remote sensing.
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