Qing Sheng Li, Jian-Ping Li, Quan Liu, and Li Zhang


  1. [1] Z. Jalil, A. Mirza, and M. Sabir, Content based zero-watermarking algorithm for authentication of text documents, International Journal of Computer Science and Information Security, 7(2), 2010, 212–217.
  2. [2] B.-Sh. Zhu, J.K. Wu, and M.S. Kankanhalli, Render sequence encoding for document protection, IEEE Transactions on Multimedia, 9(1), 2007.
  3. [3] V.M. Mandolkar, RSE for electronic text document protection, Second International Conference on Computer Engineering and Technology, Chengdu, China, Vol. 1, 2010, 30–43.
  4. [4] Y.J. Meng, S. Lei, and J. Sh-Yi, A Chinese texts zero-watermarking algorithm based on vector graphics, Journal ofComputer Research and Development, 46(suppl), 2009, 22–26.
  5. [5] Y.J. Meng, G. Tao, Zh-H. Guo, and L.-M. Gao, Chinese text zero-watermark based on sentence’s entropy, ICMT2010: Proc. Int. Conf. Multimedia Technology, IEEE Computer Society, Osaka, Japan, 2010, 864–867.
  6. [6] Q.-Sh. Li, L. Zhang, and X.-P. Tian, A content-based protection model for Chinese characters information, 10th Int. Conf. Computer Science & Education (ICCSE 2015), Fitzwilliam College, Cambridge University, July 22–24, 2015, 273–278.
  7. [7] J.M. Zhang and Z.D. Zhang, The new processed data basedmethod of information security for intelligent, Control andIntelligent Systems, 201(2), 2015, 105–110.
  8. [8] HowNet. http://www.keenage.com (accessed Feb. 20, 2014).
  9. [9] N. S.-H. Chu and C.-L. Tai, Real-time painting with anexpressive virtual Chinese brush, IEEE Computer Graphicsand Applications, 24(5), 2004, 76–85.
  10. [10] J. Lee, Diffusion rendering of black ink painting using new paper and ink models, Computer and Graphics, 25(2), 2001, 295–308.
  11. [11] S.-H. Xu, F.C.M. Lau, W.K. Cheung, and Y.-H. Pan, Automatic generation of artistic Chinese calligraphy, IEEE Intelligent Systems, 20(3), 2005, 32–39.
  12. [12] S.T.S. Wong and H. Leung, Device model-based analysisof Chinese calligraphy images, Computer Vision and ImageUnderstanding, 109, 2008, 69–85.
  13. [13] T. Hira and K. Iida, A study of calligraphic skill by virtual brush-writing with haptic device—hidden Markov modeling of writing strokes, Int. Conf. Control, Automation and Systems, Nara, Japan, 27–30 Oct. 2010, 1751–1754.
  14. [14] L. Min, R. Song, and S.-L. Ge, A research on the stroke-segment-mesh (SSM) glyph depiction method of Chinese character, Advanced Language Processing and Web Information Technology, 2008 (ALPIT ’08) Int. Conf. Digital Object Identifier, Beijing, China, 2008, 269–278.
  15. [15] Q.-Sh. Li and Y.-X. Yang, A human–computer interactivedynamic description method for Jiaguwen characters, 2012 Int. Workshop Information and Electronics Engineering (IWIEE), Harbin, 2012, 1013–1017.

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