CoMoGAN is a continuous GAN relying on the unsupervised reorganization of the target data on a functional manifold. To that matter, we introduce a new Functional Instance Normalization layer and residual mechanism, which together disentangle image content from position on target manifold. We rely on naive physics-inspired models to guide the training while allowing private model/translations features. CoMoGAN can be used with any GAN backbone and allows new types of image translation, such as cyclic image translation like timelapse generation, or detached linear translation. On all datasets, it outperforms the literature. Our code is available at http://github.com/cv-rits/CoMoGAN .
CoMoGAN: continuous model-guided image-to-image translation
CoMoGAN, a continuous GAN using Functional Instance Normalization and residual mechanisms, enables disentangled image content and position, supporting novel image translations and outperforming existing methods.
- Year
- 2021
- Venue
- CVPR 2021 1
- Authors
- 3
- Hosting
- Abstract onlyARXIV-DEFAULT
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- Abstract & full text
- arxiv.org/abs/2103.06879v3ARXIV-DEFAULT
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