Author_Institution :
Coll. of Software, Nankai Univ., Tianjin, China
Abstract :
In this paper, a novel blind watermarking scheme for still image based on the two-dimensional discrete wavelet transform (DWT) is proposed. In the scheme, digital watermarking with a pseudo-random sequence is derived from a full logistic map system, and the robustness is achieved by embedding every bit of watermark sequence several times in many different locations in approximate sub-band of one-level Haar wavelet decomposition. The strength of watermarking is adjusted by an auto-adaptive way for fidelity constraints. During detection process, by use of the statistic characteristic of sub-band LL coefficients and the maximum subjection principle, the watermarking is extracted reliably without recurring to original image. Simulations demonstrate that the proposed method can resist many kinds of signal processing attacks such that JPEG compression, additive noise, linear filtering, format conversion, cropping and slight geometric distortion, and so the proposed algorithm has high robustness.
Keywords :
Haar transforms; data compression; discrete wavelet transforms; filtering theory; image coding; random sequences; statistical analysis; watermarking; JPEG compression; additive noise; blind robust watermarking scheme; digital watermarking; fidelity constraints; format conversion; linear filtering; logistic map system; maximum subjection principle; one-level Haar wavelet decomposition; pseudo-random sequence; signal processing attacks; slight geometric distortion; statistic characteristic; still image; subband LL coefficients; two-dimensional discrete wavelet transform; watermark sequence; wavelet domain coefficients; Discrete wavelet transforms; Logistics; Resists; Robustness; Signal processing algorithms; Solid modeling; Statistics; Transform coding; Watermarking; Wavelet domain; DWT; blind watermarking; robustness; statistic characteristic;
