Taming Adversarial Domain Transfer with Structural Constraints for Image Enhancement
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The goal of this work is to clarify images of traffic scenes that are degraded by natural causes such as fog, rain and limited visibility during the night. For these applications, it is next to impossible to get pixel perfect pairs of the same scene, with and without the degrading conditions. This makes it unsuitable for conventional supervised learning approaches. It is however easy to collect a dataset of unpaired images of the scenes in a perfect and in a degraded condition. To enhance the images taken in a poor visibility condition, domain transfer models can be trained to transform an image from the degraded to the clear domain. A well-known concept for unsupervised domain transfer are cycle consistent generative adversarial models. Unfortunately, the resulting generators often change the structure of the scene. This causes an undesirable change in the semantics of the traffic situation. We propose three ways to cope with this problem depending on the type of degradation: forcing the same perception in both domains, forcing the same edges in both domains or guiding the generator to produce semantically sound transformations.
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