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Dehaze on small-scale datasets via self-supervised learning
by
Feng, Huajun
, Xu, Zhihai
, Chen, Zhaojie
, Jiang, Tingting
, Chen, Yueting
, Li, Qi
in
Algorithms
/ Artificial Intelligence
/ Computer Graphics
/ Computer Science
/ Datasets
/ Deep learning
/ Haze
/ Image contrast
/ Image enhancement
/ Image Processing and Computer Vision
/ Networks
/ Neural networks
/ Original Article
/ Self-supervised learning
/ Success
2024
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Dehaze on small-scale datasets via self-supervised learning
by
Feng, Huajun
, Xu, Zhihai
, Chen, Zhaojie
, Jiang, Tingting
, Chen, Yueting
, Li, Qi
in
Algorithms
/ Artificial Intelligence
/ Computer Graphics
/ Computer Science
/ Datasets
/ Deep learning
/ Haze
/ Image contrast
/ Image enhancement
/ Image Processing and Computer Vision
/ Networks
/ Neural networks
/ Original Article
/ Self-supervised learning
/ Success
2024
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Do you wish to request the book?
Dehaze on small-scale datasets via self-supervised learning
by
Feng, Huajun
, Xu, Zhihai
, Chen, Zhaojie
, Jiang, Tingting
, Chen, Yueting
, Li, Qi
in
Algorithms
/ Artificial Intelligence
/ Computer Graphics
/ Computer Science
/ Datasets
/ Deep learning
/ Haze
/ Image contrast
/ Image enhancement
/ Image Processing and Computer Vision
/ Networks
/ Neural networks
/ Original Article
/ Self-supervised learning
/ Success
2024
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Dehaze on small-scale datasets via self-supervised learning
Journal Article
Dehaze on small-scale datasets via self-supervised learning
2024
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Overview
Real-world dehazing datasets usually suffer from small scales because of high collection costs. If networks are trained with such insufficient data, it leads to not only low performance on objective metrics, but also visually insufficient contrast enhancement. Self-supervised learning helps networks learn useful knowledge from unlabeled data and further achieve better performance on small-scale data, which has achieved great success on high-level vision tasks. However, there are rare works to develop self-supervised learning on low-level vision tasks, such as dehazing. In this paper, we propose a simple but effective self-supervised learning method for dehazing, to improve networks’ performance on small-scale real-world datasets. Our useful observations are twofold. First, generating visually pleasing haze-free images from real-world hazy images is very difficult, but generating visually pleasing denser hazy images is much easier. Second, forcing networks to reduce dense haze will enhance the contrast enhancement capability of networks, and it is beneficial for further dehazing. Therefore, we generate numerous denser hazy images
rehazy
from a real-world
hazy
image. With pretraining on image pairs [
rehazy
,
hazy
], networks learn key capabilities of enhancing contrast. Experiments show that it stably outperforms directly supervised learning by a considerable margin, but only spends a cheap extra pretraining time cost.
Publisher
Springer Berlin Heidelberg,Springer Nature B.V
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