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New Technology of Library and Information Service  2014, Vol. 30 Issue (6): 87-93    DOI: 10.11925/infotech.1003-3513.2014.06.10
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An Image Zero-Watermarking Algorithm Using Block Compressive Sensing for Libraries, Museums and Archives
Hao Shibo, Zhu Xuefang
School of Information Management, Nanjing University, Nanjing 210093, China
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[Objective] In order to keep the fidelity of digital information resources in libraries, museums and archives during the process of copyright protection.[Methods] The zero-watermarking scheme based on block compressive sensing and Arnold transformation is proposed. The proposed scheme uses important features of original image and the meaningful copyright information to construct zero watermark. [Results] The acquired zero watermark has good discrimination. Also, this scheme possesses the robust ability to resist on image-manipulation attacks under consideration. [Limitations] Since the subjects in this study are gray level images, there are some limitations. [Conclusions] The optimized scheme using block compressive sensing, in a manner, contributes to the copyright protection of digital information resources in libraries, museums and archives.

Key wordsDigital information resources      Zero-watermarking      Block compressive sensing      Arnold transformation     
Received: 31 December 2013      Published: 09 July 2014
:  TP391  

Cite this article:

Hao Shibo, Zhu Xuefang. An Image Zero-Watermarking Algorithm Using Block Compressive Sensing for Libraries, Museums and Archives. New Technology of Library and Information Service, 2014, 30(6): 87-93.

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[1] 朱学芳. 图博档信息资源数字化建设及服务融合探讨[J]. 情报资料工作, 2011(5): 57-60. (Zhu Xuefang. On the Digitalized Construction and Service Integration of the Information Resources of Libraries,Museums and Archives[J]. Information and Documentation Services, 2011 (5): 57-60.)
[2] 吉宇宽. 图书馆信息资源共享与知识产权保护和谐统一[J]. 图书情报工作, 2011, 55(9): 27-30,39. (Ji Yukuan. Harmony and Unity Between Information Resource Sharing and Intellectual Property Protection of Library[J]. Library and Information Service, 2011, 55(9): 27-30,39.)
[3] 尹浩, 林闯, 邱锋, 等. 数字水印技术综述[J]. 计算机研究与发展, 2005, 42(7): 1093-1099. (Yin Hao, Lin Chuang, Qiu Feng, et al. A Survey of Digital Watermarking[J]. Journal of Computer Research and Development, 2005, 42(7): 1093-1099.)
[4] 陈海英, 于金辉. 过程式多媒体作品版权保护技术[J]. 情报学报, 2002, 21(5): 598-602. (Chen Haiying, Yu Jinhui. Procedural Marks of Multimedia for Copyright Protection[J]. Journal of the China Society for Scientific and Technical Information, 2002, 21(5): 598-602.)
[5] 朱学芳. 数字档案信息开发及应用管理中的图像水印保护技术[J]. 档案学通讯, 2010(5): 72-75. (Zhu Xuefang. The Image Watermarking Protection Technology in the Development and Application Management of Digital Archives[J]. Archives Science Bulletin, 2010 (5): 72-75.)
[6] 张军亮, 朱学芳. 基于二值图像水印的古籍数字化图像版权保护及其实现[J]. 现代图书情报技术, 2010(9): 79-83. (Zhang Junliang, Zhu Xuefang. The Implementation of Copyright Protection for Digitalizing Ancient Books Image Based on Binary Image Watermarking[J]. New Technology of Library and Information Service, 2010(9): 79-83.)
[7] 温泉, 孙锬锋, 王树勋. 零水印的概念与应用[J]. 电子学报, 2003, 31(2): 214-216. (Wen Quan, Sun Tanfeng, Wang Shuxun. Concept and Application of Zero-Watermark[J]. Acta Electronica Sinica, 2003, 31(2): 214-216.)
[8] Tsai H H, Lai Y S, Lo S C. A Zero-watermark Scheme with Geometrical Invariants Using SVM and PSO Against Geometrical Attacks for Image Protection[J]. Journal of Systems and Software, 2013, 86(2): 335-348.
[9] Gao G Y, Jiang G P. A Lossless Copyright Authentication Scheme Based on Bessel-Fourier Moment and Extreme Learning Machine in Curvature-feature Domain[J]. Journal of Systems and Software, 2013, 86(1): 222-232.
[10] 叶天语. 抗JPEG压缩和几何攻击的鲁棒零水印算法[J]. 光子学报, 2012, 41(2): 210-217. (Ye Tianyu. A Robust Zero-watermarking Algorithm Resisting JPEG Compression and Geometric Attacks[J]. Acta Photonica Sinica, 2012, 41(2): 210-217.)
[11] Donoho D L. Compressed Sensing[J]. IEEE Transactions on Information Theory, 2006, 52(4): 1289-1306.
[12] Candes E J, Wakin M B. An Introduction to Compressive Sampling: A Sensing/Sampling Paradigm that Goes Against the Common Knowledge in Data Acquisition[J]. IEEE Signal Processing Magazine, 2008, 25(2): 21-30.
[13] Romberg J. Imaging via Compressive Sampling[J]. IEEE Signal Processing Magazine, 2008, 25(2): 14-20.
[14] 赵春晖, 刘巍. 基于分块压缩感知的图像半脆弱零水印算法[J]. 自动化学报, 2012, 38(4): 609-617. (Zhao Chunhui, Liu Wei. Block Compressive Sensing Based Image Semi-fragile Zero-watermarking Algorithm[J]. Acta Automatica Sinica, 2012, 38(4): 609-617.)
[15] Khalili M, Asatryan D. Colour Spaces Effects on Improved Discrete Wavelet Transform-based Digital Image Watermar­king Using Arnold Transform Map[J]. IET Signal Processing, 2013, 7(3): 177-187.
[16] Gao Z R, Xiong C Y, Ding L X, et al. Image Representation Using Block Compressive Sensing for Compression Applications[J]. Journal of Visual Communication and Image Representation, 2013, 24(7): 885-894.
[17] Sadeghigol Z, Kahaei M H, Haddadi F. Tree-structured Complex Wavelet-based Bayesian Compressive Sensing Method[J]. Electronics Letters, 2013, 49(23): 1489-1491.
[18] 叶天语, 马兆丰, 钮心忻, 等. 强鲁棒零水印技术[J]. 北京邮电大学学报, 2010, 33(3): 126-129. (Ye Tianyu, Ma Zhaofeng, Niu Xinxin, et al. A Zero-Watermark Technology with Strong Robustness[J]. Journal of Beijing University of Posts and Telecommunications, 2010, 33(3): 126-129.)

[1] Zhu Guang. Copyright Protection Scheme of Color Images for Libraries, Museums and Archives Based on Zero-Watermarking[J]. 现代图书情报技术, 2015, 31(12): 89-94.
[2] Jin Dawei,Zhou Ning,Chen Yongyue. Digital Water Marking for Digital Anti-forgery Applied Research[J]. 现代图书情报技术, 2007, 2(6): 24-28.
[3] Xu Hong,Zhao Manhua. On the Digital Library Construction of the Harbin Institute of Technology[J]. 现代图书情报技术, 2001, 17(4): 82-83.
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