Prior-DualGAN: Rain rendering from coarse to fine

The success of deep neural networks (DNN) in deraining has led to increased research in rain rendering. In this paper, we introduce a novel Prior-DualGAN algorithm to synthesize diverse and realistic rainy/non-rainy image pairs to improve DNN training for deraining. More precisely, the rain streak p...

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Vydané v:Signal processing. Image communication Ročník 129; s. 117170
Hlavní autori: Hu, Mingdi, Yang, Jingbing, Yu, Jianxun, Jing, Bingyi
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier B.V 01.11.2024
Predmet:
Data-driven deep learning
Generative adversarial network
Multi-scale convolutional sparse coding
Rain rendering
Single image deraining
Data-driven deep learning
0000
Rain rendering
1111
Generative adversarial network
Single image deraining
Multi-scale convolutional sparse coding
ISSN:0923-5965
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Shrnutí:The success of deep neural networks (DNN) in deraining has led to increased research in rain rendering. In this paper, we introduce a novel Prior-DualGAN algorithm to synthesize diverse and realistic rainy/non-rainy image pairs to improve DNN training for deraining. More precisely, the rain streak prior is first generated using essential rain streak attributes; then more realistic and diverse rain streak patterns are rendered by the first generator; finally, the second generator naturally fuses the background and generated rain streaks to produce the final rainy images. Our method has two main advantages: (1) the rain streak prior enables the network to incorporate physical prior knowledge, accelerating network convergence; (2) our dual GAN approach gradually improves the naturalness and diversity of synthesized rainy images from rain streak synthesis to rainy image synthesis. We evaluate existing deraining algorithms using our generated rain-augmented datasets Rain100L, Rain14000, and Rain-Vehicle, verifying that training with our generated rain-augmented datasets significantly improves the deraining effect. The source code will be released shortly after article’s acceptance. [Display omitted] The pipeline of the proposed framework. The flow chart on the left illustrates our proposed method, while the illustration of each module is displayed on the right and introduced in detail below. •Construction of rain streak prior as illustrated in Fig.2 ①.•The flowchat of synthesized rain streaks is illustrated in Fig.2 ②.•Further, the flowchat of synthesized rainy images is illustrated in Fig.2 ③.•A new joint discriminator is designed as in Fig.2 ④.
ISSN:0923-5965
DOI:10.1016/j.image.2024.117170