通过高斯核混杂学习实现深度单图像去焦模糊

Yuhui Quan;Zicong Wu;Ruotao Xu;Hui Ji
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摘要

本文提出了一种端到端的深度学习方法,用于消除单张失焦图像中的失焦模糊。散焦模糊是数码摄影中的一个常见问题,由于其空间变化和巨大的模糊效应而构成挑战。为了解决这一难题,我们提出了一种像素级高斯核混合物(GKM)模型,以精确而紧凑的方式为空间变化的离焦点扩散函数(PSF)提供参数。我们进一步提出了分组 GKM(GGKM)模型,将 GKM 中的系数解耦,从而以经济的方式提高建模精度。随后,我们通过对基于 GGKM 的图像去模糊进行定点迭代,开发出一种名为 GGKMNet 的深度神经网络,避免了现有解卷 DNN 的效率问题。GGKMNet 采用轻量级规模递归架构,并采用从粗到细的估算方案来预测 GGKM 中的系数,因此能有效地从失焦图像中恢复出全焦图像。我们在五个基准数据集上进行了大量实验,证明了 GGKMNet 的这些优势,它在恢复质量方面优于现有的去焦方法,同时在模型复杂度和计算效率方面也表现出优势。
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Deep Single Image Defocus Deblurring via Gaussian Kernel Mixture Learning
This paper proposes an end-to-end deep learning approach for removing defocus blur from a single defocused image. Defocus blur is a common issue in digital photography that poses a challenge due to its spatially-varying and large blurring effect. The proposed approach addresses this challenge by employing a pixel-wise Gaussian kernel mixture (GKM) model to accurately yet compactly parameterize spatially-varying defocus point spread functions (PSFs), which is motivated by the isotropy in defocus PSFs. We further propose a grouped GKM (GGKM) model that decouples the coefficients in GKM, so as to improve the modeling accuracy with an economic manner. Afterward, a deep neural network called GGKMNet is then developed by unrolling a fixed-point iteration process of GGKM-based image deblurring, which avoids the efficiency issues in existing unrolling DNNs. Using a lightweight scale-recurrent architecture with a coarse-to-fine estimation scheme to predict the coefficients in GGKM, the GGKMNet can efficiently recover an all-in-focus image from a defocused one. Such advantages are demonstrated with extensive experiments on five benchmark datasets, where the GGKMNet outperforms existing defocus deblurring methods in restoration quality, as well as showing advantages in terms of model complexity and computational efficiency.
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