Litcius/Paper detail

GAN-Based Unpaired Chinese Character Image Translation via Skeleton Transformation and Stroke Rendering

Yiming Gao, Jiangqin Wu

2020Proceedings of the AAAI Conference on Artificial Intelligence70 citationsDOIOpen Access PDF

Abstract

The automatic style translation of Chinese characters (CH-Char) is a challenging problem. Different from English or general artistic style transfer, Chinese characters contain a large number of glyphs with the complicated content and characteristic style. Early methods on CH-Char synthesis are inefficient and require manual intervention. Recently some GAN-based methods are proposed for font generation. The supervised GAN-based methods require numerous image pairs, which is difficult for many chirography styles. In addition, unsupervised methods often cause the blurred and incorrect strokes. Therefore, in this work, we propose a three-stage Generative Adversarial Network (GAN) architecture for multi-chirography image translation, which is divided into skeleton extraction, skeleton transformation and stroke rendering with unpaired training data. Specifically, we first propose a fast skeleton extraction method (ENet). Secondly, we utilize the extracted skeleton and the original image to train a GAN model, RNet (a stroke rendering network), to learn how to render the skeleton with stroke details in target style. Finally, the pre-trained model RNet is employed to assist another GAN model, TNet (a skeleton transformation network), to learn to transform the skeleton structure on the unlabeled skeleton set. We demonstrate the validity of our method on two chirography datasets we established.

Topics & Concepts

Computer scienceRendering (computer graphics)Artificial intelligenceSkeleton (computer programming)Image translationTranslation (biology)Computer visionPattern recognition (psychology)Transformation (genetics)Generative adversarial networkImage (mathematics)Natural language processingBiochemistryGeneMessenger RNAProgramming languageChemistryGenerative Adversarial Networks and Image SynthesisComputer Graphics and Visualization TechniquesHandwritten Text Recognition Techniques
GAN-Based Unpaired Chinese Character Image Translation via Skeleton Transformation and Stroke Rendering | Litcius