基于分层双树复小波表示和矛盾信道损失的单幅图像去雪算法

Wei-Ting Chen, H. Fang, Cheng-Lin Hsieh, Cheng-Che Tsai, I-Hsiang Chen, Jianwei Ding, Sy-Yen Kuo
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引用次数: 71

摘要

雪是一种高度复杂的大气现象,通常包含雪花、雪条和遮蔽效应(类似于雾霾或薄雾)。在这篇文献中,我们提出了一种单图像降雪算法来解决雪颗粒在形状和大小上的多样性。首先,为了更好地表征复杂雪形,我们采用双树小波变换,并在网络中提出复小波损失。其次,我们在我们的网络中提出了一个分层分解范式,以便更好地理解不同大小的雪颗粒。最后,我们提出了一种新的特征,称为矛盾通道(CC)的雪景。我们发现,在有雪的地区,CC的强度往往高于无雪地区。我们利用这种判别特征来构建矛盾信道损失,以提高除雪性能。此外,由于现有积雪数据集的局限性,为了全面模拟积雪情景,我们提出了一个大型数据集,称为综合积雪数据集(CSD)。实验结果表明,该方法在三种合成数据集和实际数据集上均优于现有方法。代码和数据集发布在https://github.com/weitingchen83/ICCV2021-Single-Image-Desnowing-HDCWNet。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ALL Snow Removed: Single Image Desnowing Algorithm Using Hierarchical Dual-tree Complex Wavelet Representation and Contradict Channel Loss
Snow is a highly complicated atmospheric phenomenon that usually contains snowflake, snow streak, and veiling effect (similar to the haze or the mist). In this literature, we propose a single image desnowing algorithm to address the diversity of snow particles in shape and size. First, to better represent the complex snow shape, we apply the dual-tree wavelet transform and propose a complex wavelet loss in the network. Second, we propose a hierarchical decomposition paradigm in our network for better under-standing the different sizes of snow particles. Last, we propose a novel feature called the contradict channel (CC) for the snow scenes. We find that the regions containing the snow particles tend to have higher intensity in the CC than that in the snow-free regions. We leverage this discriminative feature to construct the contradict channel loss for improving the performance of snow removal. Moreover, due to the limitation of existing snow datasets, to simulate the snow scenarios comprehensively, we propose a large-scale dataset called Comprehensive Snow Dataset (CSD). Experimental results show that the proposed method can favorably outperform existing methods in three synthetic datasets and real-world datasets. The code and dataset are released in https://github.com/weitingchen83/ICCV2021-Single-Image-Desnowing-HDCWNet.
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