DESIGN OF AN EFFICIENT METHOD FOR MULTIRESOLUTION WATERMARKING ALGORITHM TO IMPROVE THE ROBUSTNESS

R. Ganesh; S. Thabasu Kannan

doi:10.51611/iars.irj.v5i1.2015.44

Authors

R. Ganesh NMSSVN College, Madurai, INDIA
S. Thabasu Kannan Pannai College of Engg& Tech, Sivagangai, Tamilnadu - INDIA

DOI:

https://doi.org/10.51611/iars.irj.v5i1.2015.44

Keywords:

BARNI-DWT, CORVI, KUNDUR, MULTIRESOLUTION, WANG, XIA

Abstract

Now-a-days watermarking plays a pivotal role in most of the industries for providing security to their own as well as hired or leased data. This paper its main aim is to study the multiresolution watermarking algorithms and also choosing the effective and efficient one for improving the resistance in data compression. Computational savings from such a multiresolution watermarking framework is obvious. The multiresolutional property makes our watermarking scheme robust to image/video down sampling operation by a power of two in either space or time. There is no common framework for multiresolutional digital watermarking of both images and video. A multiresolution watermarking based on the wavelet transformation is selected in each frequency band of the Discrete Wavelet Transform (DWT) domain and therefore it can resist the destruction of image processing.

The rapid development of Internet introduces a new set of challenging problems regarding security. One of the most significant problems is to prevent unauthorized copying of digital production from distribution. Digital watermarking has provided a powerful way to claim intellectual protection. We proposed an idea for enhancing the robustness of extracted watermarks. Watermark can be treated as a transmitted signal, while the destruction from attackers is regarded as a noisy distortion in channel. For the implementation, we have used minimum nine coordinate positions. The watermarking algorithms to be taken for this study are Corvi algorithm and Wang algorithm. In all graph, we have plotted X axis as peak signal to noise ratio (PSNR) and y axis as Correlation with original watermark. The threshold value ? is set to 5. The result is smaller than the threshold value then it is feasible, otherwise it is not.

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References

"MULTIRESOLUTION VIDEO WATERMARKING USING PERCEPTUAL MODELS AND SCENE SEGMENTATION,â€ in Proc. ICIP10, Santa Barbara, CA, 2010, vol. II, pp. 1151â€“1154.
Bors, A. G. and Pitas, I., â€œIMAGE WATERMARKING USING DCT DOMAIN CONSTRAINTSâ€ Proc. of Int. Conf. on Image Processing, Vol. 3, pp. 231-234 (1996).
Dr. S.Thabasu Kannan and R.Ganesh, â€œA REVIEW ON SPATIAL AND FRACTAL WATERMARKING ALGORITHMSâ€ International Journal of Computing (IJC), ISSN No â€“ 2248-5462, Volume 3, Issue 2, June 2013, Pages 26-33.
Dr.S.Thabasu Kannan and R.Ganesh, â€œA REVIEW ON SPATIAL AND FRACTAL WATERMARKING ALGORITHMSâ€, Proceeding of National Seminar on Imminent Trends in Advanced Computing and Technology, conducted by Dept of Computer Science and Applications, Senthamarai College of Arts and Science, Madurai. April 2013, ISBN No 978-81-924922-3-0.
Dr.S.Thabasu Kannan and R.Ganesh, â€œPERFORMANCE EVALUATION OF SPATIAL AND FRACTAL WATERMARKING ALGORITHMâ€ International Journal of Innovative Research in Advanced Engineering (IJIRAE), ISSN: 2278-2311, Volume 1 Issue 1 (March 2014), Page â€“ 72
Hsieh, C. T., Lu, Y. L., Luo, C. P. and Kuo, F. J., â€œA STUDY OF ENHANCING THE ROBUSTNESS OF WATERMARKâ€ Proc. IEEE Int. Sym. on Multimedia Software Engineering, Taiwan, pp. 325-327 (2000).
Hsu, C. T. and Wu, J. L., â€MULTIRESOLUTION WATERMARKING FOR DIGITAL IMAGES,â€ CIRCUITS AND SYSTEMS II: ANALOG AND DIGITAL SIGNAL PROCESSING, IEEE Trans.,Vol. 45, pp. 1097-1101 (1998).
Kuo, C. J. and Chen, M. S., â€œA NEW SIGNAL ENCRYPTION TECHNIQUE AND ITS ATTACK STUDY, PROC. INT. CONF. ON SECURITY TECHNOLOGYâ€ Taipei, Taiwan, pp. 149-153 (1991).
Luo, C. P., â€œA STUDY OF THE ROBUSTNESS OF WATERMARK,â€ Master Thesis, University of Tamkang, Taiwan, R. O. C. (2001).
Niu, X. M., Lu, Z. M. and Sun, S. H., "DIGITAL IMAGE WATERMARKING BASED ON MULTIRESOLUTION DECOMPOSITION, ELECTRONICS LETTERS", Vol. 36, pp. 1108-1110 (2000).
W. Zhu, Z. Xiong, and Y.-Q. Zhang, â€œMULTIRESOLUTION WATERMARKING FOR IMAGES AND VIDEO: A UNIFIED APPROACH,â€ in Proc. ICIP98, Chicago, IL, Oct. 1998.
Wei, Z. H., Qin, P. and Fu, Y. Q., â€œPERCEPTUAL DIGITAL WATERMARK OF IMAGES USING WAVELET TRANSFORM,â€ Consumer Electronics, IEEE Trans., Vol. 44, pp. 1267-1272 (1998).
Xia, X. G., Boncelet, C. G. and Arce, G. R., â€œA MULTIRESOLUTION WATERMARK FOR DIGITAL IMAGESâ€ Proc. Int. Conf. on Image Processing 97, Santa Barbara, CA, U. S. A. Vol. I, pp. 548-551, (1997).