Multiple spatial watermarking technique in color images

This paper presents a novel multiple digital watermarking technique for the copyright protection of digital color images. In order to improve the robustness against cropping attacks, a binary watermark image is divided into four parts. Each is encrypted by a secret key and embedded into different regions of the blue component of the color image in the spatial domain. Watermark extraction is based on the comparisons between the original intensity pixel values and the corresponding watermarked intensity pixel values in blocks of size 8 × 8. The watermark-extracted bits are determined using the probabilities of detecting bit ‘1’ or bit ‘0’. The watermark can be extracted in several parts depending on the size of the host image, but only four of these are selected by a correlation coefficient detector and used to reconstruct the extracted watermark. Experimental results show that the proposed scheme successfully makes the watermark perceptually invisible and robust for a wide range of attacks, including JPEG-loss compression, median filtering, low pass filtering, rotation, rotation-scaling, rotation-crop, image cropping, image scaling, and self-similarity attacks.

[1]  Fabien A. P. Petitcolas,et al.  Watermarking schemes evaluation , 2000, IEEE Signal Process. Mag..

[2]  Jean-François Delaigle,et al.  Low cost spatial watermarking , 1998, Comput. Graph..

[3]  Lee-Ming Cheng,et al.  Digital watermarking based on frequency random position insertion , 2004, ICARCV 2004 8th Control, Automation, Robotics and Vision Conference, 2004..

[4]  Chang-Hsing Lee,et al.  An adaptive digital image watermarking technique for copyright protection , 1999, IEEE Trans. Consumer Electron..

[5]  M. Raval,et al.  Discrete wavelet transform based multiple watermarking scheme , 2003, TENCON 2003. Conference on Convergent Technologies for Asia-Pacific Region.

[6]  Frank Hartung,et al.  Multimedia watermarking techniques , 1999, Proc. IEEE.

[7]  Jean-Francois Delaigle,et al.  Invisibility and application functionalities in perceptual watermarking an overview , 2002, Proc. IEEE.

[8]  Jan Geldmacher,et al.  Adaptive decoding of convolutional codes , 2007 .

[9]  Te-Ming Tu,et al.  Robust spatial watermarking technique for colour images via direct saturation adjustment , 2005 .

[10]  Qi Gao,et al.  A new watermarking method based on DWT green component of color image , 2004, Proceedings of 2004 International Conference on Machine Learning and Cybernetics (IEEE Cat. No.04EX826).

[11]  Ingemar J. Cox,et al.  Secure spread spectrum watermarking for multimedia , 1997, IEEE Trans. Image Process..

[12]  Markus G. Kuhn,et al.  Attacks on Copyright Marking Systems , 1998, Information Hiding.

[13]  S. Kimpan,et al.  Variable block size based adaptive watermarking in spatial domain , 2004, IEEE International Symposium on Communications and Information Technology, 2004. ISCIT 2004..

[14]  Cong Jin,et al.  Multiple Digital Watermarking Scheme Based on ICA , 2007, Eighth International Workshop on Image Analysis for Multimedia Interactive Services (WIAMIS '07).

[15]  Frank Bossen,et al.  Digital watermarking of color images using amplitude modulation , 1998, J. Electronic Imaging.

[16]  Xiaojun Qi,et al.  A robust content-based digital image watermarking scheme , 2007, Signal Process..

[17]  Markus G. Kuhn,et al.  Information hiding-a survey , 1999, Proc. IEEE.

[18]  Yeuan-Kuen Lee,et al.  High capacity image steganographic model , 2000 .

[19]  Mauro Barni,et al.  Multichannel watermarking of color images , 2002, IEEE Trans. Circuits Syst. Video Technol..