Anonymous Editing Prevention Technique Using Gradient Method for High-Quality Video
Since the advances in digital imaging technologies have led to
development of high quality digital devices, there are a lot of illegal copies
of copyrighted video content on the Internet. Also, unauthorized editing is
occurred frequently. Thus, we propose an editing prevention technique for
high-quality (HQ) video that can prevent these illegally edited copies from
spreading out. The proposed technique is applied spatial and temporal gradient
methods to improve the fidelity and detection performance. Also, the scheme
duplicates the embedding signal temporally to alleviate the signal reduction
caused by geometric and signal-processing distortions. Experimental results
show that the proposed scheme achieves better performance than previously
proposed schemes and it has high fidelity. The proposed scheme can be used
in unauthorized access prevention method of visual communication or traitor
tracking applications which need fast detection process to prevent illegally
edited video content from spreading out.
[1] J. O. Ruanaidh and T. Pun, “Rotation, scale, and translation invariant
spread spectrum digital image watermarking,” Signal Processing, vol. 66,
no. 3, pp. 303–317, May. 1998.
[2] C. Lin, J. Bloom, I. Cox, M. Miller, and Y. Lui, “Rotation, scale,
and translation-resilient watermarking for images,” IEEE Trans. Image
Processing, vol. 10, no. 5, pp. 767–782, May. 2001.
[3] M. Alghoniemy and A. Tewfik, “Geometric distortion correction in image
watermarking,” in Proc. SPIE, vol. 3971, pp. 82–89, May. 2000.
[4] P. Bas, J. Chassery, and B. Macq, “Geometrically invariant watermarking
using feature points,” IEEE Trans. Image Processing, vol. 11, no. 9, pp.
1014–1028, Sep. 2002.
[5] S. Pereira and T. Pun, “Robust template matching for affine resistant
image watermarks,” IEEE Trans. Image Processing, vol. 9, no. 6, pp.
1123–1129, Jun. 2000.
[6] M. Kutter, “Watermarking resisting to translation, rotation, and scaling,”
in Proc. SPIE, vol. 3528, pp. 423–431. Jan. 1999.
[7] S. Voloshynovskiy, R. Deguillaume, and T. Pun, “Multibit digital
watermarking robust against local nonlinear geometrical distortions,” in
Proc. ICIP, vol. 3, pp. 999–1002, Oct. 2001.
[8] A. V. Leest, J. Haitsma, and T. Kalker, “On digital cinema and
watermarking,” in Proc. SPIE, vol. 5020, pp.526–535, Jun. 2003.
[9] M. J. Lee, K. S. Kim, H. Y. Lee, T. W. Oh, Y. H. Suh, and H. K. Lee,
“Robust watermark detection against d-a/a-d conversion for digital cinema
using local auto-correlation function,” in Proc. ICIP, vol. 37, pp.425–428.
Oct. 2008.
[1] J. O. Ruanaidh and T. Pun, “Rotation, scale, and translation invariant
spread spectrum digital image watermarking,” Signal Processing, vol. 66,
no. 3, pp. 303–317, May. 1998.
[2] C. Lin, J. Bloom, I. Cox, M. Miller, and Y. Lui, “Rotation, scale,
and translation-resilient watermarking for images,” IEEE Trans. Image
Processing, vol. 10, no. 5, pp. 767–782, May. 2001.
[3] M. Alghoniemy and A. Tewfik, “Geometric distortion correction in image
watermarking,” in Proc. SPIE, vol. 3971, pp. 82–89, May. 2000.
[4] P. Bas, J. Chassery, and B. Macq, “Geometrically invariant watermarking
using feature points,” IEEE Trans. Image Processing, vol. 11, no. 9, pp.
1014–1028, Sep. 2002.
[5] S. Pereira and T. Pun, “Robust template matching for affine resistant
image watermarks,” IEEE Trans. Image Processing, vol. 9, no. 6, pp.
1123–1129, Jun. 2000.
[6] M. Kutter, “Watermarking resisting to translation, rotation, and scaling,”
in Proc. SPIE, vol. 3528, pp. 423–431. Jan. 1999.
[7] S. Voloshynovskiy, R. Deguillaume, and T. Pun, “Multibit digital
watermarking robust against local nonlinear geometrical distortions,” in
Proc. ICIP, vol. 3, pp. 999–1002, Oct. 2001.
[8] A. V. Leest, J. Haitsma, and T. Kalker, “On digital cinema and
watermarking,” in Proc. SPIE, vol. 5020, pp.526–535, Jun. 2003.
[9] M. J. Lee, K. S. Kim, H. Y. Lee, T. W. Oh, Y. H. Suh, and H. K. Lee,
“Robust watermark detection against d-a/a-d conversion for digital cinema
using local auto-correlation function,” in Proc. ICIP, vol. 37, pp.425–428.
Oct. 2008.
@article{"International Journal of Information, Control and Computer Sciences:71637", author = "Jiwon Lee and Chanho Jung and Si-Hwan Jang and Kyung-Ill Kim and Sanghyun Joo and Wook-Ho Son", title = "Anonymous Editing Prevention Technique Using Gradient Method for High-Quality Video", abstract = "Since the advances in digital imaging technologies have led to
development of high quality digital devices, there are a lot of illegal copies
of copyrighted video content on the Internet. Also, unauthorized editing is
occurred frequently. Thus, we propose an editing prevention technique for
high-quality (HQ) video that can prevent these illegally edited copies from
spreading out. The proposed technique is applied spatial and temporal gradient
methods to improve the fidelity and detection performance. Also, the scheme
duplicates the embedding signal temporally to alleviate the signal reduction
caused by geometric and signal-processing distortions. Experimental results
show that the proposed scheme achieves better performance than previously
proposed schemes and it has high fidelity. The proposed scheme can be used
in unauthorized access prevention method of visual communication or traitor
tracking applications which need fast detection process to prevent illegally
edited video content from spreading out.", keywords = "Editing prevention technique, gradient method, high-quality
video, luminance change, visual communication.", volume = "10", number = "1", pages = "8-5", }