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彩色图像超复数空间的自适应水印算法 被引量:12

An Adaptive Watermarking Algorithm in the Hypercomplex Space of a Color Image
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摘要 针对彩色载体图像,本文提出了一种超复数频域的自适应水印算法,它首先对彩色载体图像进行快速超复数傅氏变换,在超复数频谱实部选择合适频段的基础上,再利用人类视觉系统对彩色载体图像的纹理、边缘和亮度的掩蔽特性,对选择的频段赋予不同的掩蔽强度而嵌入水印,从而在超复数频域内实现了一种彩色载体图像自适应的水印算法.实验结果表明,通过彩色图像的自适应掩蔽,大大提高了超复数频域水印算法的不易感知性和鲁棒性,且抗攻击性能也优于无自适应掩蔽的超复数频域水印算法;和现有文献的比较结果验证了本算法的这些优越性. For color host images,a novel adaptive watermarking algorithm based on hypercomplex Fourier transform is proposed in this paper. Firstly the color host image is transferred into hypercomplex frequency domain. Then some real parts of the hypercomplex frequency spectra of the color host image are selected. Based on the different mask properties of the human vision system about the texture, edge and luminance of the color host image, the selected frequency spectra are put the different mask weights for the embedded watermark. As a result, an adaptive watermarking algorithm for color host images in hypercomplex spectrum domain is realized. Experimental results show that the robustness and insensitiveness of our method are much improved by the adaptive masks of the color image. Its anti-attacking capability is also much better than the hypercomplex watermarking algorithm without adaptive masks. Comparison results with the known ones in literature verify such superiorities of the proposed algorithm.
作者 江淑红 张建秋 胡波
机构地区 复旦大学电子工程系
出处 《电子学报》 EI CAS CSCD 北大核心 2009年第8期1773-1778,共6页 Acta Electronica Sinica
基金 国家自然科学基金(No.60872059) 国家973重点基础研究发展规划(No.2006CB705700)
关键词 数字水印 自适应数字水印 超复数 超复数傅氏变换 digital watermarking adaptive watermark hypercomplex hypercomplex Fourier transforms
分类号 TP309 [自动化与计算机技术—计算机系统结构]
  • 相关文献

参考文献17

  • 1A K Parthasarathy, S Kak. An Improved Method of Content Based Image Watermarking [ J ]. IEEE. Transactions on Broadcasting,2007,53(2) :468 - 479.
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  • 3A Piva, M Barni, E Bmolini, V CappeUini. Exploiting the crosscorrelation of rgh-channels for robust watermarking of color images [ A]. In: IEEE International Conference on Image Processing (ICIP)[ C]. Kobe, Japan, Oct. 1999,1: 306 - 310.
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  • 5C E Moxey, S J Sangwine, T A Ell. Hypercomplex correlation techniques for vector images [ J]. IEEE Trans on Signal Processing, 2003 ; 51 (7) : 1941 - 1953.
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  • 7江淑红,郝明非,张建秋,胡波.快速超复数傅氏变换和超复数互相关的新算法及应用[J].电子学报,2008,36(1):100-105. 被引量:5
  • 8江淑红,张建秋,胡波.超复数频域的有意义数字水印算法[P].专利申请号:200810034027.
  • 9S J Sangwine, T A Ell. The discrete Fourier transform of a colour image [ A]. In:J M B lackledge, M J Turner. Image Processing II Mathematical Methods, Algorithms and Applications [ M]. Chichester, U. K. : Ellis Horwood, 2000: 430 - 441.
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二级参考文献9

  • 1C E Moxey, S J Sangwine, T A Ell. Hypercomplex correlation techniques for vector images[ J]. IEEE. Trans on Signal Processing,2003,51 (7) : 1941 - 1953.
  • 2Ja-Han Chang, Soo-Chang Pei, Jian-Jiun Ding. 2D quaternion Fourier spectral analysis and its applications[ A]. Proceedings of IEEE International Symposium on Circuits and Systems (IS- CAS'04) [ C]. IEEE Press, 23 - 26 May 2004,3 : Ⅲ-241-4.
  • 3S J Sangwine. Color image edge detector based on QCV[ J]. IEE Electron.Letter, 1998,34(10) :969- 971.
  • 4T A Ell, S J Sangwirle. Decompsition of 2D hypercomplex Fourier transforms into pairs of complex Fourier transforms [ A ]. European Signal Processing Conference ( EUSIPCO ) [C] .2000,151 - 154.
  • 5T A Ell, S J Sangwine. Hypercomplex Wiener-Khintchine theorem with application to color image correlation[ A]. IEEE, International Conference on Image Processing ( ICIP2000 ) [ C ]. IEEE, Press,Sept 10- 13,2000,2:792- 795.
  • 6S J Sangwine, T A Ell, The discrete Fourier transform of a colour image[ A]. J M Blackledge, M J Turner. Image processing Ⅱ mathematical methods, algorithms and applications[ C ]. Chichester, U. K. : Ellis Horwood, 2000: 430 - 441.
  • 7P Duhamel. Implementation of split-radix FFT algorithms for complex,real and real-symmetric data [ J]. IEEE Trans on Acoust, Speech, Signal Processing, 1986, ASSP-34 ( 2 ) : 285 - 295.
  • 8C E Moxey, T A Ell, S J Sangwine. Hypercomplex operators and vector correlation[A]. European Signal Processing Conference (EUSIPCO3) [ C]. Toulouse, France, Sept 03-06,2002. 247 - 250.
  • 9D Comaniciu, P Meer. Kernel-based object tracking[ J]. IEEE Trans on Pattern Analysis and Machine Intelligence, 2003,25 (5) :564 - 577.

共引文献4

同被引文献85

引证文献12

二级引证文献40

电子学报
2009年 第8期

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