Image Super-Resolution Using Dense Skip Connections

T. Tong, Gen Li, Xiejie Liu, Qinquan Gao
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引用次数: 989

Abstract

Recent studies have shown that the performance of single-image super-resolution methods can be significantly boosted by using deep convolutional neural networks. In this study, we present a novel single-image super-resolution method by introducing dense skip connections in a very deep network. In the proposed network, the feature maps of each layer are propagated into all subsequent layers, providing an effective way to combine the low-level features and high-level features to boost the reconstruction performance. In addition, the dense skip connections in the network enable short paths to be built directly from the output to each layer, alleviating the vanishing-gradient problem of very deep networks. Moreover, deconvolution layers are integrated into the network to learn the upsampling filters and to speedup the reconstruction process. Further, the proposed method substantially reduces the number of parameters, enhancing the computational efficiency. We evaluate the proposed method using images from four benchmark datasets and set a new state of the art.
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使用密集跳过连接的图像超分辨率
最近的研究表明,使用深度卷积神经网络可以显著提高单图像超分辨率方法的性能。在这项研究中,我们提出了一种新的单图像超分辨率方法,通过在一个非常深的网络中引入密集的跳跃连接。在该网络中,每一层的特征映射被传播到所有后续层,提供了一种有效的方法来结合低级特征和高级特征来提高重建性能。此外,网络中密集的跳跃连接使得从输出到每一层可以直接建立短路径,缓解了非常深的网络的梯度消失问题。此外,在网络中加入反卷积层来学习上采样滤波器,加快重建过程。此外,该方法大大减少了参数的数量,提高了计算效率。我们使用来自四个基准数据集的图像来评估所提出的方法,并设置了一个新的技术状态。
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