Generic Reversible Visible Watermarking via Regularized Graph Fourier Transform Coding

Reversible visible watermarking (RVW) is an active copyright protection mechanism. It not only transparently superimposes copyright patterns on specific positions of digital images or video frames to declare the copyright ownership information, but also completely erases the visible watermark image and thus enables restoring the original host image without any distortion. However, existing RVW algorithms mostly construct the reversible mapping mechanism for a specific visible watermarking scheme, which is not versatile. Hence, we propose a generic RVW framework to accommodate various visible watermarking schemes. In particular, we obtain a reconstruction data packet—the compressed difference image between the watermarked image and the original host image, which is embedded into the watermarked image via any conventional reversible data hiding method to facilitate the blind recovery of the host image. The key is to achieve compact compression of the difference image for efficient embedding of the reconstruction data packet. To this end, we propose regularized Graph Fourier Transform (GFT) coding, where the difference image is smoothed via the graph Laplacian regularizer for more efficient compression and then encoded by multi-resolution GFTs in an approximately optimal manner. Experimental results show that the proposed framework has much better versatility than state-of-the-art methods. Due to the small amount of auxiliary information to be embedded, the visual quality of the watermarked image is also higher.

[1]  Chien-Chang Chen,et al.  Difference-expansion based reversible and visible image watermarking scheme , 2017, Multimedia Tools and Applications.

[2]  Ruifeng Li,et al.  A Scheme of Reversible Data Hiding for the Encryption-Then-Compression System , 2021, IEICE Trans. Inf. Syst..

[3]  Chuan Qin,et al.  Visible watermark removal scheme based on reversible data hiding and image inpainting , 2018, Signal Process. Image Commun..

[4]  Oscar C. Au,et al.  Multiresolution Graph Fourier Transform for Compression of Piecewise Smooth Images , 2015, IEEE Transactions on Image Processing.

[5]  Cheng-Hsing Yang,et al.  Visible watermarking with reversibility of multimedia images for ownership declarations , 2014, The Journal of Supercomputing.

[6]  Chin-Chen Chang,et al.  Contrast-Adaptive Removable Visible Watermarking (CARVW) mechanism , 2013, Image Vis. Comput..

[7]  Pierre Vandergheynst,et al.  Wavelets on Graphs via Spectral Graph Theory , 2009, ArXiv.

[8]  Christian Roux,et al.  Reversible Watermarking for Knowledge Digest Embedding and Reliability Control in Medical Images , 2009, IEEE Transactions on Information Technology in Biomedicine.

[9]  Byeungwoo Jeon,et al.  Reversible Visible Watermarking and Lossless Recovery of Original Images , 2006, IEEE Transactions on Circuits and Systems for Video Technology.

[10]  Tong Zhang,et al.  Optimal Reversible Data Hiding Scheme Based on Multiple Histograms Modification , 2020, IEEE Transactions on Circuits and Systems for Video Technology.

[11]  Cheng-Hsing Yang,et al.  More secure lossless visible watermarking by DCT , 2018, Multimedia Tools and Applications.

[12]  Xin Chen,et al.  Multiple Histograms-Based Reversible Data Hiding: Framework and Realization , 2020, IEEE Transactions on Circuits and Systems for Video Technology.

[13]  Gene Cheung,et al.  Graph Laplacian Regularization for Image Denoising: Analysis in the Continuous Domain , 2016, IEEE Transactions on Image Processing.

[14]  Beng Chin Ooi,et al.  Tailored reversible watermarking schemes for authentication of electronic clinical atlas , 2005, IEEE Transactions on Information Technology in Biomedicine.

[15]  Jau-Ji Shen,et al.  Reversible Data Hiding Scheme Based on Difference Expansion Using Shiftable Block Strategy for Enhancing Image Fidelity , 2019, 2019 IEEE 10th International Conference on Awareness Science and Technology (iCAST).

[16]  Seungwu Han,et al.  A location map-free visible and reversible watermarking method with authentication ability , 2008, APCCAS 2008 - 2008 IEEE Asia Pacific Conference on Circuits and Systems.

[17]  Pascal Frossard,et al.  The emerging field of signal processing on graphs: Extending high-dimensional data analysis to networks and other irregular domains , 2012, IEEE Signal Processing Magazine.

[19]  Wen Gao,et al.  Predictive Generalized Graph Fourier Transform for Attribute Compression of Dynamic Point Clouds , 2019, IEEE Transactions on Circuits and Systems for Video Technology.

[20]  Mohan S. Kankanhalli,et al.  A DCT domain visible watermarking technique for images , 2000, 2000 IEEE International Conference on Multimedia and Expo. ICME2000. Proceedings. Latest Advances in the Fast Changing World of Multimedia (Cat. No.00TH8532).

[21]  Bin Ma,et al.  Reversible data hiding: Advances in the past two decades , 2016, IEEE Access.

[22]  Long-Wen Chang,et al.  A High Secure Reversible Visible Watermarking Scheme , 2007, 2007 IEEE International Conference on Multimedia and Expo.

[23]  Pascal Frossard,et al.  Graph Signal Processing , 2018 .

[24]  Xingming Sun,et al.  Lossless visible watermarking based on adaptive circular shift operation for BTC-compressed images , 2016, Multimedia Tools and Applications.

[25]  Oscar C. Au,et al.  Depth map compression using multi-resolution graph-based transform for depth-image-based rendering , 2012, 2012 19th IEEE International Conference on Image Processing.

[26]  Wen-Hsiang Tsai,et al.  Generic Lossless Visible Watermarking—A New Approach , 2010, IEEE Transactions on Image Processing.

[27]  Kejiang Chen,et al.  Reversible Data Hiding in Color Image With Grayscale Invariance , 2019, IEEE Transactions on Circuits and Systems for Video Technology.

[28]  Antonio Ortega,et al.  Intra-Prediction and Generalized Graph Fourier Transform for Image Coding , 2015, IEEE Signal Processing Letters.

[29]  Fu-Hao Yeh,et al.  Removable Visible Watermarking in JPEG Compression Domain , 2008, 2008 IEEE Asia-Pacific Services Computing Conference.

[30]  Héctor M. Pérez Meana,et al.  Adaptive removable visible watermarking technique using dual watermarking for digital color images , 2017, Multimedia Tools and Applications.

[31]  Rongrong Ni,et al.  Improved reversible data hiding based on PVO and adaptive pairwise embedding , 2019, Journal of Real-Time Image Processing.

[32]  U. Feige,et al.  Spectral Graph Theory , 2015 .

[33]  Weiming Zhang,et al.  Efficient Reversible Data Hiding Based on Multiple Histograms Modification , 2015, IEEE Transactions on Information Forensics and Security.

[34]  José M. F. Moura,et al.  Discrete Signal Processing on Graphs , 2012, IEEE Transactions on Signal Processing.

[35]  Tong Zhang,et al.  Location-Based PVO and Adaptive Pairwise Modification for Efficient Reversible Data Hiding , 2020, IEEE Transactions on Information Forensics and Security.

[36]  Jaejoon Lee,et al.  Edge-adaptive transforms for efficient depth map coding , 2010, 28th Picture Coding Symposium.

[37]  Wen Gao,et al.  Cluster-Based Point Cloud Coding with Normal Weighted Graph Fourier Transform , 2018, 2018 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP).

[38]  Jianping Yin,et al.  A secure removable visible watermarking for BTC compressed images , 2013, Multimedia Tools and Applications.

[39]  Dong Tian,et al.  Graph Signal Processing for Geometric Data and Beyond: Theory and Applications , 2020, IEEE Transactions on Multimedia.

[40]  Hitoshi Kiya,et al.  An MSB Prediction-Based Method with Marker Bits for Reversible Data Hiding in Encrypted Images , 2021, 2021 IEEE 3rd Global Conference on Life Sciences and Technologies (LifeTech).

[41]  Min-Shiang Hwang,et al.  A reversible data hiding method by histogram shifting in high quality medical images , 2013, J. Syst. Softw..

[42]  Nasir D. Memon,et al.  Protecting digital media content , 1998, CACM.

[43]  Zongming Guo,et al.  Improved reversible visible image watermarking based on HVS and ROI-selection , 2018, Multimedia Tools and Applications.

[44]  Xingming Sun,et al.  Removable visible image watermarking algorithm in the discrete cosine transform domain , 2008, J. Electronic Imaging.

[45]  Teruya Minamoto,et al.  A Recoverable Visible Digital Image Watermarking Based on the Dyadic Lifting Scheme , 2014, 2014 11th International Conference on Information Technology: New Generations.

[46]  Xingming Sun,et al.  A Contrast-Sensitive Reversible Visible Image Watermarking Technique , 2009, IEEE Transactions on Circuits and Systems for Video Technology.