Abstract
Watermarking stays the main technical safeguard of electronic copyright. This paper presents the first public-domain oblivious watermarking scheme for images which survives scaling and geometric distortion attacks. Previous proposals are either proprietary, non-oblivious or require scaling or geometric distortion to be undone prior to mark recovery, which may not be practical in oblivious watermarking. The new scheme uses a tile-based embedding technique that allows mark recovery from a scaled or geometrically distorted watermarked image. Other properties of the scheme presented here are that it operates on the spatial domain, supports multiple marking and does not require previous knowledge of the embedded copyright sequence. The latter property makes the proposed watermarking suitable for fingerprinting purposes.
This work is partly funded by the Spanish CICYT under contract no. TEL98-0699-C02-02.
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References
F. Alturki and R. Mersereau, “Robust oblivious digital watermarking using image transform phase modulation”, in International Conference on Image Processing-ICIP’2000, IEEE Signal Processing Society, 2000.
M. Caramma, R. Lancini, F. Mapelli and S. Tubaro, “A blind & readable watermarking scheme for color images”, in International Conference on Image Processing-ICIP’2000, IEEE Signal Processing Society, 2000.
P.-M. Chen, “A robust digital watermarking based on a statistical approach”, in International Conference on Information Technology: Coding and Computing-ITCC’2000, IEEE Computer Society, 2000, pp. 116–121.
Digimarc, http://www.digimarc.com
J. Domingo-Ferrer and J. Herrera-Joancomartí, “Short collusion-secure fingerprints based on dual binary Hamming codes” Electronics Letters, 36(20): 1697–1699, Sep. 2000.
F. Hartung and B. Girod, “Watermarking of uncompressed and compressed video”, Signal Processing, 66(3): 283–301, May 1998.
C.-S. Lu and H.-Y. Mark Liao, “Oblivious cocktail watermarking by sparse code shrinkage: a regional-and global-based scheme”, in International Conference on Image Processing-ICIP’2000, IEEE Signal Processing Society, 2000.
C.-S. Lu and H.-Y. Mark Liao, “An oblivious and robust watermarking scheme using communications-with-side-information mechanism”, in International Conference on Information Technology: Coding and Computing-ITCC’2001, IEEE Computer Society, 2001, pp. 103–107.
F. A. P. Petitcolas, R. J. Anderson and M. G. Kuhn, StirMark v3.1 http://www.cl.cam.ac.uk/~fapp2/watermarking/stirmark/
M. Ramkumar and A. N. Akansu, “A robust oblivious watermarking scheme”, in International Conference on Image Processing-ICIP’2000, IEEE Signal Processing Society, 2000.
N. R. Wagner, “Fingerprinting”, in 1983 IEEE Symposium on Security and Privacy, Oakland CA: IEEE, 1983, pp. 18–22.
http://www.cl.cam.ac.uk/~fapp2/watermarking/benchmark/imagedatabase.html
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© 2001 Springer-Verlag Berlin Heidelberg
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Sebé, F., Domingo-Ferrer, J. (2001). Oblivious Image Watermarking Robust against Scaling and Geometric Distortions. In: Davida, G.I., Frankel, Y. (eds) Information Security. ISC 2001. Lecture Notes in Computer Science, vol 2200. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-45439-X_29
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DOI: https://doi.org/10.1007/3-540-45439-X_29
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