Under this assumption, we propose a method to separately encode content and style features of the input image by introducing the scene text recognizer that is trained by text information.
This paper introduces a method that efficiently reduces the computational cost and parameter size of Transformer.
This architecture is formed by utilizing detection outputs in the recognizer and propagating the recognition loss through the detection stage.
We believe that our metrics can play a key role in developing and analyzing state-of-the-art text detection and recognition methods.
no code implementations • 3 May 2020 • Kai Zhang, Shuhang Gu, Radu Timofte, Taizhang Shang, Qiuju Dai, Shengchen Zhu, Tong Yang, Yandong Guo, Younghyun Jo, Sejong Yang, Seon Joo Kim, Lin Zha, Jiande Jiang, Xinbo Gao, Wen Lu, Jing Liu, Kwangjin Yoon, Taegyun Jeon, Kazutoshi Akita, Takeru Ooba, Norimichi Ukita, Zhipeng Luo, Yuehan Yao, Zhenyu Xu, Dongliang He, Wenhao Wu, Yukang Ding, Chao Li, Fu Li, Shilei Wen, Jianwei Li, Fuzhi Yang, Huan Yang, Jianlong Fu, Byung-Hoon Kim, JaeHyun Baek, Jong Chul Ye, Yuchen Fan, Thomas S. Huang, Junyeop Lee, Bokyeung Lee, Jungki Min, Gwantae Kim, Kanghyu Lee, Jaihyun Park, Mykola Mykhailych, Haoyu Zhong, Yukai Shi, Xiaojun Yang, Zhijing Yang, Liang Lin, Tongtong Zhao, Jinjia Peng, Huibing Wang, Zhi Jin, Jiahao Wu, Yifu Chen, Chenming Shang, Huanrong Zhang, Jeongki Min, Hrishikesh P. S, Densen Puthussery, Jiji C. V
This paper reviews the NTIRE 2020 challenge on perceptual extreme super-resolution with focus on proposed solutions and results.
Scene text recognition (STR) is the task of recognizing character sequences in natural scenes.
Ranked #2 on Scene Text Recognition on ICDAR 2003
Many new proposals for scene text recognition (STR) models have been introduced in recent years.
Ranked #6 on Scene Text Recognition on ICDAR 2003