Self-augmented Unpaired Image Dehazing via Density and Depth Decomposition

Yang, Yang; Wang, Chaoyue; Liu, Risheng; Zhang, Lin; Guo, Xiaojie; Tao, Dacheng

doi:10.1109/cvpr52688.2022.00208

article2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)Jun 1, 2022Closed access

Self-augmented Unpaired Image Dehazing via Density and Depth Decomposition

YYYang Yang CWChaoyue Wang RLRisheng Liu LZLin Zhang XGXiaojie Guo

Tianjin University · University of Sydney · +3 more institutions

Indexed incrossref

Abstract

To overcome the overfitting issue of dehazing models trained on synthetic hazy-clean image pairs, many recent methods attempted to improve models' generalization ability by training on unpaired data. Most of them simply formulate dehazing and rehazing cycles, yet ignore the physical properties of the real-world hazy environment, i.e. the haze varies with density and depth. In this paper, we propose a self-augmented image dehazing framework, termed D4 (Dehazing via Decomposing transmission map into Density and Depth) for haze generation and removal. Instead of merely estimating transmission maps or clean content, the proposed framework focuses on exploring scattering coefficient and depth information contained…

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284

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Topics & keywords

Topics

Keywords

Computer science
Haze
Artificial intelligence
Overfitting
Image (mathematics)
Rendering (computer graphics)
Computer vision
Generalization

UN Sustainable Development Goals

Industry, innovation and infrastructure

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