|
|
- 2018
基于插值图像的可逆信息隐藏算法
|
Abstract:
摘要: 为了提高可逆信息隐藏算法的容量,提出一种基于插值图像的可逆信息隐藏算法。将原始图像用最近邻插值算法放大,以放大后的图像作为载体图像进行隐藏。计算插值像素与相邻两个原始像素均值的差值,根据差值控制嵌入秘密信息的位数,根据秘密信息的数值修改插值像素实现秘密信息的隐藏。接收方提取秘密信息后,可对载密图像下采样恢复出载体图像,实现可逆信息隐藏。实验表明提出的算法可实现较大容量的信息隐藏,同时,在相同隐藏容量的情况下,具有较好的视觉效果。
Abstract: In order to improve the capacity of reversible data hiding algorithm, a new reversible data hiding algorithm based on interpolation images was proposed. The original image is enlarged with the nearest neighbor interpolation algorithm, and then the interpolation image is used as the cover image to embed the secret bits. The difference between the interpolated pixels and the original pixels are calculated and the number of the secret information is determined by the difference. The stego-image is obtained with the secret bits embedded into the interpolated pixels. After the secret information is extracted, the cover image can be recovered by down sampling the stego-image, and the reversible data hiding can be realized. Experiments result show that the proposed algorithm can achieve higher capacity and has good visual effects with the same payload than the other algorithms
| [1] | TIAN J. Reversible data embedding using a difference expansion [J]. IEEE Transactions on Circuits & Systems for Video Technology, 2003, 13(8):890-896. |
| [2] | LEE C F, HUANG Y L. An efficient image interpolation increasing payload in reversible data hiding [J]. Expert Systems with Applications, 2011, 38(7):6712-6719. |
| [3] | USC-SIPI Image Database [EB/OL]. [2017-05-21]. http://sipi.usc.edu/database/. |
| [4] | FRIDRICH A J, GOLJAN M, DU R. Lossless data embedding for all image formats [J]. Proceedings of SPIE-The International Society for Optical Engineering, 2002, 4675:572-583. |
| [5] | LEE C C, WU H C, TSAI C S, et al. Adaptive lossless steganographic scheme with centralized difference expansion [J]. Pattern Recognition, 2008, 41(6):2097-2106. |
| [6] | LIU Y C, WU H C, YU S S. Adaptive DE-based reversible steganographic technique using bilinear interpolation and simplified location map [J]. Multimedia Tools & Applications, 2011, 52(2-3):263-276. |
| [7] | CHANG C C, TAI W L, CHEN K N. Lossless data hiding based on histogram modification for image authentication [C] //International Conference on Embedded and Ubiquitous Computing. [S.l.] :IEEE Computer Society, 2008:506-511. |
| [8] | TAI W L, YEH C M, CHANG C C. Reversible data hiding based on histogram modification of pixel differences [J]. IEEE Transactions on Circuits & Systems for Video Technology, 2009, 19(6):906-910. |
| [9] | 熊祥光. 基于图像插值的大容量可逆水印算法[J]. 光电子·激光, 2016(6):646-654. XIONG Xiangguang. High capacity reversible watermarking algorithm based on image interpolation [J]. Journal of Optoelectronics·Laser, 2016, 27(6):646-654. |
| [10] | ALATTAR A M. Reversible watermark using the difference expansion of a generalized integer transform [J]. IEEE Transactions on Image Processing, 2004, 13(8):1147-1156. |
| [11] | LEE C F, HUANG Y L. An efficient image interpolation increasing payload in reversible data hiding[J]. Expert Systems with Applications, 2012, 39(8):6712-6719. |
| [12] | CELIK M U, SHARMA G, TEKALP A M, et al. Lossless generalized-LSB data embedding [J]. IEEE Trans Image Process, 2005, 14(2): 253-266. |
| [13] | TSENG H W, CHANG C C. An extended difference expansion algorithm for reversible watermarking [J]. Image and Vision Computing, 2008, 26(8), 1148-1153. |
| [14] | NI Z, SHI Y Q, ANSARI N, et al. Reversible data hiding [J]. IEEE Transactions on Circuits & Systems for Video Technology, 2006, 16(3):354-362. |
| [15] | FALLAHPOUR M, SEDAAGHI M H. High capacity lossless data hiding based on histogram modification [J]. Ieice Electronics Express, 2007, 4(7):205-210. |
| [16] | HONG W, CHEN T S. Reversible data embedding for high quality images using interpolation and reference pixel distribution mechanism [J]. Journal of Visual Communication & Image Representation, 2011, 22(2):131-140. |
| [17] | ZHANG X Q, SUN Z R, TANG Z J, et al. High capacity data hiding based on interpolated image[J]. Multimedia Tools & Applications, 2016:1-24. |
| [18] | 王继军. 图像插值空间大容量可逆数字水印算法[J]. 中国图象图形学报, 2014, 19(4):527-533. WANG Jijun. High capacity reversible watermarking for image interpolation space [J]. Journal of Image and Graphics, 2014, 19(4):527-533. |
| [19] | JUNG K H, YOO K Y. Data hiding method using image interpolation [J]. Computer Standards & Interfaces, 2009, 31(2):465-470. |
| [20] | BENDER W R, GRUHL D, MORIMOTO N. Techniques for data hiding [C] //IS&T/SPIE's Symposium on Electronic Imaging: Science & Technology. [S.l.] :International Society for Optics and Photonics, 1995:313-336. |
| [21] | FRIDRICH J, GOLJAN M, DU R. Lossless data embedding——new paradigm in digital watermarking [J]. Eurasip Journal on Applied Signal Processing, 2002, 2002(2): 185-196. |
