[1]WANG Yuzhuo,MIN Huasong.Robot calligraphy system based on brush modeling[J].CAAI Transactions on Intelligent Systems,2021,16(4):707-716.[doi:10.11992/tis.202006033]
Copy

Robot calligraphy system based on brush modeling

References:
[1] GAN Lin, FANG Wubing, CHAO Fei, et al. Towards a robotic Chinese calligraphy writing framework[C]//Proceedings of 2018 IEEE International Conference on Robotics and Biomimetics. Kuala Lumpur, Malaysia, 2018: 493-498.
[2] GAO Xingen, ZHOU Changle, CHAO Fei, et al. A data-driven robotic Chinese calligraphy system using convolutional auto-encoder and differential evolution[J]. Knowledge-based systems, 2019, 182: 104802.
[3] LI Quanfeng, FEI Chao, GAO Xingen, et al. A robotic Chinese stroke generation model based on competitive swarm optimizer[C]//Proceedings of Contributions Presented at the 19th UK Workshop on Computational Intelligence. Portsmouth, UK, 2019: 92-103.
[4] WU Ruiqi, FANG Wubing, CHAO Fei, et al. Towards deep reinforcement learning based Chinese calligraphy robot[C]//Proceedings of 2018 IEEE International Conference on Robotics and Biomimetics. Kuala Lumpur, Malaysia, 2018: 507-512.
[5] LI Jie, MIN Huasong, ZHOU Haotian, et al. Robot brush-writing system of Chinese calligraphy characters[C]//Proceedings of the 12th International Conference on Intelligent Robotics and Applications. Shenyang, China, 2019: 86-96.
[6] MUELLER S, HUEBEL N, WAIBEL M, et al. Robotic calligraphy—learning how to write single strokes of Chinese and Japanese characters[C]//Proceedings of 2013 IEEE/RSJ International Conference on Intelligent Robots and Systems. Tokyo, Japan, 2013: 1734-1739.
[7] XU Pengfei, WANG Lei, GUAN Ziyu, et al. Evaluating brush movements for Chinese calligraphy: a computer vision based approach[C]//Proceedings of the 27th International Joint Conference on Artificial Intelligence. Stockholm, Sweden, 2018: 1050-1056.
[8] WANG Mengdi, FU Qian, WANG Xingce, et al. Evaluation of Chinese calligraphy by using DBSC vectorization and ICP algorithm[J]. Mathematical problems in engineering, 2016, 2016: 4845092.
[9] ZHOU Dajun, GE Jiamin, WU Ruiqi, et al. A computational evaluation system of Chinese calligraphy via extended possibility-probability distribution method[C]//Proceedings of the 2017 13th International Conference on Natural Computation, Fuzzy Systems and Knowledge Discovery. Guilin, China, 2017: 884-889.
[10] 宓晓峰, 唐敏, 林建贞, 等. 基于经验的虚拟毛笔模型[J]. 计算机研究与发展, 2003, 40(8): 1244-1251
MI Xiaofeng, TANG Min, LIN Jianzhen, et al. An experience based virtual brush model[J]. Journal of computer research and development, 2003, 40(8): 1244-1251
[11] 张俊松, 张悠苗, 周昌乐. 书法临摹过程的交互式动画建模方法[J]. 计算机辅助设计与图形学学报, 2014, 26(6): 963-972
ZHANG Junsong, ZHANG Youmiao, ZHOU Changle. Simulating the writing process from chinese calligraphy image[J]. Journal of computer-aided design & computer graphics, 2014, 26(6): 963-972
[12] PIEPER D. The kinematics of manipulators under computer control[D]. California: Stanford University, 1968.
[13] 闵华松. AUBOi5运动学仿真[EB/OL]. (2018-12-02)[2020-06-20] https://github.com/mhuasong/AUBO-Robot-on-ROS/blob/master/ch4_2_v1.pdf
MIN Huasong. AUBO i5 Kinematics Simulation[EB/OL]. (2018-12-02)[2020-06-20] https://github.com/mhuasong/AUBO-Robot-on-ROS/blob/master/ch4_2_v1.pdf
Similar References:

Memo

-

Last Update: 1900-01-01

Copyright © CAAI Transactions on Intelligent Systems