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In this paper, a new palette-based image steganography is proposed. Palette-based images such as GIF files have been widely used on the Internet and web pages such that all browsers can recognize them. Palette-based images can be used as good carriers for transmitting secret messages. In this scheme, the Least Significant Bits (LSBs) of the palette-based image are utilized in order to hide the secret message by using the computational information hiding technique. The adaptive hiding capacity can be computed according to different sizes of the embedding block. Experimental results also show that existing artifacts in the traditional LSB-based method are unnoticeable. The number of modification pixels in the embedding process is decreased, while good stego-image quality is maintained, and the cover image is left unblemished by camouflaged information. Furthermore, the feature of adaptive hiding capacity provides the possibility of protecting different sizes of embedded secret messages.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
275--289
Opis fizyczny
Bibliogr. 16 poz., fot., tab., wykr.
Twórcy
autor
- Department of Computer Science and Information Management, Providence University, Taichung, Taiwan 433, R.O.C.
autor
- Department of Computer Science and Information Engineering, National United University, Miaoli, Taiwan 360, R.O.C.
autor
- Department of Computer Science and Information Management , Providence University, Taichung. Taiwan 433. R.O.C.
Bibliografia
- [1] Artz, D. : Digital Steganography: Hiding Data within Dala, IEEE Internet Computing. 5(3), 2001,75-80.
- 12] Chang, C. C., Chen, T. S., Chung, L. Z.: A Steganographic Method Based upon JPEG and Quantization Table Modification, Information Science, 141, 2002, 123-138.
- [3] Cheng, Q., Huang, T. S. : An Adaptive Approach to Transform-Do main Information Hiding and Optimum Detection Structure, IEEE Transactions on Multimedia, 3(3), 2001, 273-284.
- 14] Cheng, S. C, Yang, C. K. : A Fast and Novel Technique for Color Quantization Using Reduction of Color Space Dimensionality, Pattern Recognition Letters, 22(8), 2001, 845-856
- 151 Chung, K. L., Shen, C. H., Chang, L. C. : A Novel SVD- and VQ-based Image Hiding Scheme, Pattern Recognition Letters, 22(9), 2001, 1051-1058.
- 16] Davis, R. M. : The Data Encryption Standard in Perspective, Computer Security and the Data Encryption Standard, National Bureau of Standards Special Publication, 1978.
- [7] Fridrich, J. : A New Steganographic Method for Palette-Based Images, Proceedings of the IST PICS Conference, Savannah, Georgia, 1999, 285-289.
- [8] Lee, Y. K., Chen, L. H. : High Capacity Image Steganographic Model, Proceedings of IEE International Conference on Vision, Image and Signal Processing., 147(3), 2000, 288-294.
- 19] Lin. W. J., Lin, J. C.: Color Quantization by Preserving Color Distribution Features, Signal Processing, 78(2), 1999.201-214.
- [10] Linde, Y, Buzo, A., Gray, R. M. : An Algorithm for Vector Quantifier Design, IEEE Transactions on Communications, 28, 1980, 84-95.
- [11] Pan, G., Wu, Z., Pan, Y. : A Data Hiding Method for Few-Color Images, Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, 4, 2002, 3464-3472.
- [12] Pan, H. K., Chen, Y. Y, Tseng, Y C. : A Secure Data Hiding Scheme tor Two-Color Images, Proceedings of IEEE International Conference on Symposium on Computers and Communications, 2000, 750-755.
- [13] Rivest, R. L., Shamir, A., Adleman, L. : A Method for Obtaining Digital Signatures and Public Key Cryplosy sterns. Communications of ACM, 21, 1978, 120-126.
- [14] Spaulding, J., Noda, H., Shirazi, M. N., Kawaguchi, E. : BPCS Steganography Using EZW Lossy Compressed Images, Pattern Recognition Letters. 23(13), 2002, 1579-1587.
- [151 Tasdizen, T., Akamn, L., Ersoy, C. : Color Quantization with Genetic Algorithms. Signal Processing: Image Communication M, 1998, 49-57.
- [16] Wang, R. Z., Un, C. R. Un. J. C. : Image Hiding by Optimal LSB Substitution and Genetic. Pattern Recognition 34(3), 2001, 671-683.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS2-0005-0081