2016
DOI: 10.1007/s11042-016-3522-z
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A novel blind color image watermarking based on Contourlet transform and Hessenberg decomposition

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Cited by 51 publications
(16 citation statements)
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“…Additionally, semisensitive watermarking is superior to fragile watermarking while at the same time considering the limit of restricting typical picture undertakings. In setting of the territory where the watermark works, watermarking system can be masterminded as spatial or repeat region [11]. The embedding system for watermark information in spatial space procedures is to explicitly alter the pixel estimation of the propelled picture, and great conditions of spatial space watermarking are straightforward execution and low computational flightiness.…”
Section: IImentioning
confidence: 99%
“…Additionally, semisensitive watermarking is superior to fragile watermarking while at the same time considering the limit of restricting typical picture undertakings. In setting of the territory where the watermark works, watermarking system can be masterminded as spatial or repeat region [11]. The embedding system for watermark information in spatial space procedures is to explicitly alter the pixel estimation of the propelled picture, and great conditions of spatial space watermarking are straightforward execution and low computational flightiness.…”
Section: IImentioning
confidence: 99%
“…The traditional contourlet transform, a kind of multidirection and multiscale transform, combines LP decomposition and DFB decomposition . However, due to the presence of the up‐sampling and down‐sampling mechanisms in the LP and DFB, the contourlet transform does not have translation invariance.…”
Section: Theoretical Analysismentioning
confidence: 99%
“…The traditional contourlet transform, a kind of multidirection and multiscale transform, combines LP decomposition and DFB decomposition. 19 However, due to the presence of the up-sampling and down-sampling mechanisms in the LP and DFB, the contourlet transform does not have translation invariance. The classic NSCT model is generated on the basis of contourlet transformation, and its basic framework is divided into two parts: Nonsubsampled pyramid decomposition (NSP) and Nonsubsampled DFB decomposition (NSDFB).…”
Section: Nonsubsampled Contourlet Transformmentioning
confidence: 99%
“…CT was developed as an amelioration over wavelet [14]. Previous studies adopted this transform [15][16][17], because it is more capable of picking up smooth contours and directional edges compared with other transforms. In the current study, the low-pass image of the Contourlet decomposition was used to embed the watermarking and thereby achieve robustness [17].…”
Section: Contourlet Transformmentioning
confidence: 99%