为联合图像去污和去噪学习交错级联收缩场

IF 10.8 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Qingbo Wu, Wenqi Ren, Xiaochun Cao
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引用次数: 0

摘要

现有的大多数图像去噪方法在处理带有噪声的朦胧输入时都会出现不同程度的恶化。主要原因是,通常采用的两步策略往往会在除法传输的逆操作中放大噪声。为了解决这个问题,我们学习了一种交错级联收缩场(CSF),以减少从单幅朦胧图像中联合恢复透射图和场景辐射率时的噪声。具体地说,在拟议方案的每个级联中都集成了一个辅助收缩场(SF)模型,以减少传输估计过程中的不良伪影。与传统的 CSF 不同,我们学习的 SF 模型具有特殊的视觉模式,这有助于在去除雾霾的过程中完成降噪这一特定任务。此外,我们还提出了一种数值算法,用于在每个级联中有效地更新场景辐照度和传输图。在合成数据和真实世界数据上进行的大量实验表明,与最先进的去雾霾和噪声图像处理方法相比,所提出的算法性能更佳。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Learning Interleaved Cascade of Shrinkage Fields for Joint Image Dehazing and Denoising.

Most existing image dehazing methods deteriorate to different extents when processing hazy inputs with noise. The main reason is that the commonly adopted two-step strategy tends to amplify noise in the inverse operation of division by the transmission. To address this problem, we learn an interleaved Cascade of Shrinkage Fields (CSF) to reduce noise in jointly recovering the transmission map and the scene radiance from a single hazy image. Specifically, an auxiliary shrinkage field (SF) model is integrated into each cascade of the proposed scheme to reduce undesirable artifacts during the transmission estimation. Different from conventional CSF, our learned SF models have special visual patterns, which facilitate the specific task of noise reduction in haze removal. Furthermore, a numerical algorithm is proposed to efficiently update the scene radiance and the transmission map in each cascade. Extensive experiments on synthetic and real-world data demonstrate that the proposed algorithm performs favorably against state-of-the-art dehazing methods on hazy and noisy images.

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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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