LODE: Deep Local Deblurring and A New Benchmark
- URL: http://arxiv.org/abs/2109.09149v1
- Date: Sun, 19 Sep 2021 15:57:28 GMT
- Title: LODE: Deep Local Deblurring and A New Benchmark
- Authors: Zerun Wang, Liuyu Xiang, Fan Yang, Jinzhao Qian, Jie Hu, Haidong
Huang, Jungong Han, Yuchen Guo, Guiguang Ding
- Abstract summary: We propose a novel framework, termed BLur-Aware DEblurring network (BladeNet)
BladeNet contains three components: the Local Blur Synthesis module generates locally blurred training pairs, the Local Blur Perception module automatically captures the locally blurred region and the Blur-guided Spatial Attention module guides the deblurring network with spatial attention.
We carry out extensive experiments on REDS and LODE datasets showing that BladeNet improves PSNR by 2.5dB over SotAs for local deblurring while keeping comparable performance for global deblurring.
- Score: 106.80269193462712
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: While recent deep deblurring algorithms have achieved remarkable progress,
most existing methods focus on the global deblurring problem, where the image
blur mostly arises from severe camera shake. We argue that the local blur,
which is mostly derived from moving objects with a relatively static
background, is prevalent but remains under-explored. In this paper, we first
lay the data foundation for local deblurring by constructing, for the first
time, a LOcal-DEblur (LODE) dataset consisting of 3,700 real-world captured
locally blurred images and their corresponding ground-truth. Then, we propose a
novel framework, termed BLur-Aware DEblurring network (BladeNet), which
contains three components: the Local Blur Synthesis module generates locally
blurred training pairs, the Local Blur Perception module automatically captures
the locally blurred region and the Blur-guided Spatial Attention module guides
the deblurring network with spatial attention. This framework is flexible such
that it can be combined with many existing SotA algorithms. We carry out
extensive experiments on REDS and LODE datasets showing that BladeNet improves
PSNR by 2.5dB over SotAs for local deblurring while keeping comparable
performance for global deblurring. We will publish the dataset and codes.
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