A Robust Watermarking Scheme for Digital Images Using Self Reference
Chapter
In recent years, transmission of digital multimedia via the Internet has become much easier and faster. The wide use of digital media has also led to an increase in digital piracy. In order to solve this problem, digital watermarking schemes that declare the ownership of digital media have received considerable attention. Digital watermarking is a process of permanently embedding a signature or a copyright message, such as a logo, or series number into digital media. Subsequently, the watermark can be extracted or detected from the watermarked media for copyright ownership identification.
Preview
Unable to display preview. Download preview PDF.
References
- 1.Barni M, Bartolini F, Piva A (2001) Improved wavelet-based watermarking through pixel-wise masking. IEEE Trans. Image Processing 10(5):783–791MATHCrossRefGoogle Scholar
- 2.Bender W, Gruhl D, Morimoto N, Lu A (1996) Techniques for data hiding. IBM Syst. J 35(3&4):313–336CrossRefGoogle Scholar
- 3.Chang CC, Tseng HW (2004) VQ-based image watermarking using anti-Gray coding. Informatica 15(2):147–160MATHGoogle Scholar
- 4.Chen TH, Horng G, Lee WB (2005) A publicly verifiable copyright-proving scheme resistant to malicious attacks. IEEE Trans. Industrial Electronics 52(1):327–334CrossRefGoogle Scholar
- 5.Chu WC (2003) DCT-based image watermarking using subsampling. IEEE Trans. Multimedia 5(1):34–38CrossRefGoogle Scholar
- 6.Cox IJ, Kilian J, Leighton FT, Shamoon T (1997) Secure spread spectrum watermark for multimedia. IEEE Trans. Image Processing (12):1673–1687Google Scholar
- 7.Hsieh MS, Tseng DC, Huang YH (2001) Hiding digital watermarks using multiresolution wavelet transform. IEEE Trans. Industrial Electronics 48(5):875–882CrossRefGoogle Scholar
- 8.Hsu CT, Wu JL (1999) Hidden digital watermarks in images. IEEE Trans. Image Processing 8(1):58–68CrossRefGoogle Scholar
- 9.Huang HC, Wang FH, Pan JS (2002) A VQ-based robust multi-watermarking algorithm. IEICE Trans. Fund. E85-A(7)1719–1726Google Scholar
- 10.Joo S, Suh Y, Shin J, Kikuchi H (2002) A new robust watermark embedding into wavelet DC components. ETRI Journal 24(5):401–414CrossRefGoogle Scholar
- 11.Liu JL, Lou DC, Chang MC, Tso HK (2006) A robust watermarking scheme using self-reference image. Computer Standards & Interface 28:356–367CrossRefGoogle Scholar
- 12.Nafornita C, Isar A, Borda M (2005) Image watermarking based on the discrete wavelet transform statistical characteristics. EUROCON 2:943–946Google Scholar
- 13.Ni R, Ruan Q, Cheng HD (2005) Secure semi-blind watermarking based on iteration mapping and image features. Pattern Recognit 38:357–368MATHCrossRefGoogle Scholar
- 14.Nikolaidis N, Pitas I (1998) Robust image watermarking in the spatial domain. Signal Processing (3):385–403Google Scholar
- 15.Reddy AA, Chatterji BN (2005) A new wavelet based logo-watermarking scheme. Pattern Recognit. Lett. 26:1019–1027CrossRefGoogle Scholar
- 16.Temi C, Choomchuay S, Lasakul A (2005) A robust image watermarking using multiresolution analysis of wavelet. International Symposium on Communications and information Technology (ISCIT) 1:623–626Google Scholar
- 17.Wang Y, Pearmain A (2004) Blind image data hiding based on self reference. Pattern Recognit. Lett. 25:1681–1689CrossRefGoogle Scholar
- 18.Xie G, Shen H (2005) Toward improved wavelet-based watermarking using the pixel-wise masking model. IEEE Int. Conf. Image Process. 1:I-689–92Google Scholar
- 19.Yuan Y, Huang D, Liu D (2006) An integer wavelet based multiple logo-watermarking scheme. International Multi-Symposiums on Computer and Computational Sciences (IMSCCS) 2:175–179CrossRefGoogle Scholar
Copyright information
© Springer Science+Business Media, LLC 2008