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| FPGA Prototype of Robust Image Watermarking for JPEG 2000 with Dual Detection
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Full
text: |
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Source |
International Journal of Computer Science and Security (IJCSS) |
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Table of Contents |
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Complete Issue PDF(4.92MB) |
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Volume: 4 Issue: 2 |
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Pages: 149-264 |
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Publication
Date: May 2010 |
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ISSN
(Online): 1985-1553 |
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Pages |
226 - 236 |
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Author(s) |
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Published
Date |
10-06-2010 |
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Publisher |
CSC
Journals, Kuala Lumpur,
Malaysia |
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ADDITIONAL
INFORMATION |
| Keywords Abstract References Cited by Related Articles Collaborative
Colleague |
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KEYWORDS: cdf 5/3 wavelet, watermarking, fpga |
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| This paper presents a novel robust invisible watermarking method for still images. The
scheme is implemented on hardware, and it can be incorporated with the lossless JPEG2000
compression standard. We have implemented Cohen-Daubechies-Favreau (CDF) 5/3 wavelet
filters with lifting scheme which requires less hardware and they are also the basis of lossless
JPEG2000. Its modular structure is well suitable for hardware implementation and it is more
efficient use of power and chip area. The objective of the hardware assisted watermarking is to
achieve low power usage, real-time performance, robust and ease of integration with existing
consumer electronic devices such as scanners, cameras and handy camcorders. The proposed
scheme of watermarking is tested with StirMark software which is a one of the benchmarking
software for watermarking scheme. The experimental result shows that the proposed scheme of
watermarking is robust against most of the geometric attacks such as scaling and rotation. We
have proposed a dual detection technique for watermark detection which is a novelty of our
algorithm. |
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| 1 |
Er-Hsinen, “Literature Survey on Digital Image Watermarking,”EE381K-Multidimentional Signal Processing 8/19/98.
|
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| 2 |
S. Katzenbeisser and F. A. P. Petitcolas: Information Hiding techniques for steganography and digital watermarking, Artech House, Inc., MA, USA, 2000.
|
|
|
| 3 |
N. Memon and P. W. Wong.:Protecting Digital Media Content. Communications of the ACM, vol. 41, no. 7, pp. 34–43, Jul 1998.
|
|
|
| 4 |
C.C. Chang and J. C. Chuan, “An image intellectual property protection scheme for gray-level images using visual secret sharing strategy,” Pattern Reconition Letters, vol. 23, pp. 931-941, June 2002.
|
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| 5 |
S. P. Mohanty.:Watermarking of Digital Images.M.S. Thesis, Indian Institute of Science, Bangalore, India, 1999.
|
|
|
| 6 |
N. Nikolaidis, I. Pitas, “Robust Image Watermarking in Spatial Domain”, International journal of signal processing, 66(3),385-403,1998.
|
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|
| 7 |
Pankaj U. Lande,Sanjay N.Talbar and G.N. shinde “Adaptive DCT Domain Watermarking For Still Images”, Internatational Conference RACE-07,Bikaner, Rajastan, India
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| 8 |
Pankaj U.lande,Sanjay N.Talbar and G.N. shinde “Hiding A Digital Watermark Using Spread Spectrum At Multi-Resolution Representation”, Internatational conference ACVIT07, Aurangabad, India.
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| 9 |
Juan R.Hernandez,Martin Amado,Fernando Perez-Gonzalez ”DCT Domain watermarking technique for still Image :Detectors Performance analysis and New Structure”,IEEE transaction on image processing,VOL.9,no.1,Jan 2000.
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| 10 |
Juan R. Hernandez, Martin Amado, Fernando Perez-Gonzalez “DCT Domain watermarking technique for still Image: Detectors Performance analysis and New Structure”, IEEE Transaction on Image Processing, VOL.9,No.1, Jan 2000.
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| 11 |
Pik Wah Chan,Michael R.lyu and Roland T. Chin, “A Novel scheme For Hybrid Digital Video Watermarking : Approach, Evaluation And Experimentation”, IEEE Transactions on circuits and system for video technology,VOL 15,No. 12,Dec 2005.
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| 12 |
Pankaj U.Lande,S.N. Talbar,G.N. Shinde, “FPGA iplimentation of image adaptive watermarking using human visual model”,ICGST-PDCS,Vol.9,Issue1,Oct. 2009.
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| 13 |
I. J. Cox, J. Kilian, T. Shamoon, T. Leighton, Secure Spread Spectrum Watermarking of Images, Audio and Video, in: Proc IEEE International Conf on Image Processing, Vol. 3, 1996, pp. 243–246.
|
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| 14 |
I. J. Cox, J. Kilian, T. Shamoon, T. Leighton, A Secure Robust Watermarking for Multimedia, in: Proc. of First International Workshop on Information Hiding, Vol. 1174, 1996, pp. 185–206.
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| 15 |
P. Meerwald and A. Uhl,(2001) “A survey of wavelet-domain watermarking algorithms,” Proceedings of SPIE, Electronic Imaging, Security and Watermarking of Multimedia Contents III, San Jose, California, vol. 4314.
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| 16 |
Burrus, C., Gopinath, R., and Guo, H.: Introduction to Wavelets and Wavelet Transforms: A Primer.: Prentice Hall 1998.
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| 17 |
R. Dugad, K. Ratakonda, and N. Ahuja,(1998) “A new wavelet-based scheme for watermarking images,” Proceedings of the IEEE International Conference on Image Processing, ICIP ’98, Chicago, Illinois, pp. 419-423.
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| 18 |
D. Taubman and M. Marcellin.: JPEG2000: Image compression fundamentals, standards, and practice.:springer, 2002.
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| 19 |
19.T. Ebrahimi and F. Pereira.: The MPEG-4 Book.: Prentice Hall 2002.
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| 20 |
20 Y. H. Seo, D. W. Kim, Real-Time Blind Watermarking Algorithm and its Hardware Implementation for Motion JPEG2000 Image Codec, in: Proceedings of the 1stWorkshop on Embedded Systems for Real-Time Multimedia, 2003, pp. 88–93.
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| 21 |
S. P. Mohanty, R. K. C., S. Nayak, FPGA Based Implementation of an Invisible-Robust Image WatermarkingEncoder, in: Lecture Notes in Computer Science, Vol. 3356, 2004, pp. 344–353.
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| 22 |
S. P. Mohanty, O. B. Adamo, and E. Kougianos, "VLSI Architecture of an Invisible Watermarking Unit for a Biometric-Based Security System in a Digital Camera", in Proceedings of the 25th IEEE International Conference on Consumer Electronics (ICCE), pp. 485-486, 2007.
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| 23 |
S. P. Mohanty, “A Secure Digital Camera Architecture for Integrated Real-Time Digital Rights Management”, Elsevier Journal of Systems Architecture (JSA), Volume 55, Issues 10-12, October-December 2009, pp. 468-480.Kanchan H. Wagh, Pravin K. Dakhole, Vinod G. Adhau.: Design & Implementation of JPEG2000 Encoder using VHDL. Proceedings of the World Congress on Engineering 2008 Vol I, WCE 2008, , London, U.K July 2 - 4, 2008.
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| 24 |
Kanchan H. Wagh, Pravin K. Dakhole, Vinod G. Adhau.: Design & Implementation of JPEG2000 Encoder using VHDL. Proceedings of the World Congress on Engineering 2008 Vol I, WCE 2008, , London, U.K July 2 - 4, 2008.
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| 25 |
Petitcolas, “A Fair Benchmark for Image Watermarking Systems”,Electronic imaging ,Security and Watermarking of Multimedia Contents, VOL. 3657, 25-32,1999.
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| Pankaj U.Lande : Colleagues
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| Sanjay N. Talbar : Colleagues
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| G.N. Shinde : Colleagues
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