Parallel Multi-Resolution Fusion Network for Image Inpainting

Wentao Wang, Jianfu Zhang, Li Niu, Haoyu Ling, Xue Yang, Liqing Zhang
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引用次数: 20

Abstract

Conventional deep image inpainting methods are based on auto-encoder architecture, in which the spatial details of images will be lost in the down-sampling process, leading to the degradation of generated results. Also, the structure information in deep layers and texture information in shallow layers of the auto-encoder architecture can not be well integrated. Differing from the conventional image inpainting architecture, we design a parallel multi-resolution inpainting network with multi-resolution partial convolution, in which low-resolution branches focus on the global structure while high-resolution branches focus on the local texture details. All these high- and low-resolution streams are in parallel and fused repeatedly with multi-resolution masked representation fusion so that the reconstructed images are semantically robust and textually plausible. Experimental results show that our method can effectively fuse structure and texture information, producing more realistic results than state-of-the-art methods.
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并行多分辨率融合网络用于图像绘制
传统的深度图像绘制方法是基于自编码器架构,在下采样过程中会丢失图像的空间细节,导致生成结果的退化。此外,自编码器结构的深层结构信息和浅层纹理信息不能很好地融合。与传统的图像补图架构不同,我们设计了一个多分辨率局部卷积的并行多分辨率补图网络,其中低分辨率分支关注全局结构,高分辨率分支关注局部纹理细节。这些高分辨率和低分辨率数据流是并行的,并通过多分辨率掩码表示融合进行重复融合,使重建图像具有语义鲁棒性和文本可信度。实验结果表明,该方法可以有效地融合结构和纹理信息,得到比现有方法更真实的结果。
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