MetalGAN: a Cluster-based Adaptive Training for Few-Shot Adversarial Colorization

Add code
Sep 17, 2019
Tomaso Fontanini, Eleonora Iotti, Andrea Prati
Figure 1 for MetalGAN: a Cluster-based Adaptive Training for Few-Shot Adversarial Colorization
Figure 2 for MetalGAN: a Cluster-based Adaptive Training for Few-Shot Adversarial Colorization
Figure 3 for MetalGAN: a Cluster-based Adaptive Training for Few-Shot Adversarial Colorization
Figure 4 for MetalGAN: a Cluster-based Adaptive Training for Few-Shot Adversarial Colorization

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

In recent years, the majority of works on deep-learning-based image colorization have focused on how to make a good use of the enormous datasets currently available. What about when the data at disposal are scarce? The main objective of this work is to prove that a network can be trained and can provide excellent colorization results even without a large quantity of data. The adopted approach is a mixed one, which uses an adversarial method for the actual colorization, and a meta-learning technique to enhance the generator model. Also, a clusterization a-priori of the training dataset ensures a task-oriented division useful for meta-learning, and at the same time reduces the per-step number of images. This paper describes in detail the method and its main motivations, and a discussion of results and future developments is provided.

View paper onarxiv icon

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon