通过网格变形去除无监督非刚性图像畸变

Nianyi Li, Simron Thapa, Cameron Whyte, Albert W. Reed, Suren Jayasuriya, Jinwei Ye
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引用次数: 11

摘要

由于光的折射和散射,许多计算机视觉问题在通过湍流折射介质(如空气和水)成像时面临困难。这些影响导致几何扭曲,需要手工制作的物理先验或监督学习方法来消除。在本文中,我们提出了一种新的无监督网络来恢复潜在的无失真图像。关键思想是将非刚性变形建模为可变形网格。我们的网络由一个估计失真场的网格变形器和一个输出无失真图像的图像生成器组成。利用位置编码算子,可以简化网络结构,同时保持恢复图像的精细空间细节。我们的方法不需要在标记数据上进行训练,并且在具有不同类型失真的各种湍流图像数据集之间具有良好的可移植性。在模拟和实际捕获的湍流图像上进行的大量实验表明,我们的方法可以消除空气和水的畸变,而无需太多定制。
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Unsupervised Non-Rigid Image Distortion Removal via Grid Deformation
Many computer vision problems face difficulties when imaging through turbulent refractive media (e.g., air and water) due to the refraction and scattering of light. These effects cause geometric distortion that requires either handcrafted physical priors or supervised learning methods to remove. In this paper, we present a novel unsupervised network to recover the latent distortion-free image. The key idea is to model non-rigid distortions as deformable grids. Our network consists of a grid deformer that estimates the distortion field and an image generator that outputs the distortion-free image. By leveraging the positional encoding operator, we can simplify the network structure while maintaining fine spatial details in the recovered images. Our method doesn't need to be trained on labeled data and has good transferability across various turbulent image datasets with different types of distortions. Extensive experiments on both simulated and real-captured turbulent images demonstrate that our method can remove both air and water distortions without much customization.
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