Screentone-Aware Manga Super-Resolution Using DeepLearning
This addresses the need for high-quality manga images on electronic devices without compromising transmission efficiency, though it is incremental as it builds on existing super-resolution techniques with a focus on screentone preservation.
The paper tackles the problem of manga super-resolution where traditional methods alter screentone density and lose meaning, by using deep learning to classify screentone regions and lines, applying tailored super-resolution models, and combining results to maintain screentone meaning while enhancing resolution.
Manga, as a widely beloved form of entertainment around the world, have shifted from paper to electronic screens with the proliferation of handheld devices. However, as the demand for image quality increases with screen development, high-quality images can hinder transmission and affect the viewing experience. Traditional vectorization methods require a significant amount of manual parameter adjustment to process screentone. Using deep learning, lines and screentone can be automatically extracted and image resolution can be enhanced. Super-resolution can convert low-resolution images to high-resolution images while maintaining low transmission rates and providing high-quality results. However, traditional Super Resolution methods for improving manga resolution do not consider the meaning of screentone density, resulting in changes to screentone density and loss of meaning. In this paper, we aims to address this issue by first classifying the regions and lines of different screentone in the manga using deep learning algorithm, then using corresponding super-resolution models for quality enhancement based on the different classifications of each block, and finally combining them to obtain images that maintain the meaning of screentone and lines in the manga while improving image resolution.