Abstract
A blind print-recapture robust watermark scheme is proposed. Watermark patterns are embedded into the space domain of a color image and can be detected from a print-recaptured version of the image without knowledge of the original image. The process of embedding invisible watermarks to convert RGB color images to CIE Lab color spaces and embed periodic watermarks in both color channels at the same time. Watermark extraction is achieved by calculating self-convolution and inverting the geometric transformation such as rotation and scale. Normalized correlation coefficients between the extracted and the embedded watermark pattern is calculated to determine whether there is watermark. The decision about the presence/absence of the watermark pattern is then determined by a threshold which is set 0.13, and the detection rate of 241 pictures is about 0.79.
Highlights
Digital watermark technology is to embed a small amount of information into digital signal without affecting its original value of use
The research on digital watermark technology has its significance for digital media protection
In order to locate the watermark pattern W accurately, the pattern must be a centrosymmetric graphic which means that the pattern looks same when it is rotated at an angle of 180 degrees
Summary
Mengmeng Zhang, Beijing Key Laboratory of Advanced Information Science and Network Technology, Beijing Jiaotong Univ, Beijing, China Rongrong Ni, Beijing Key Laboratory of Advanced Information Science and Network Technology, Beijing Jiaotong Univ, Beijing, China Yao Zhao, Beijing Key Laboratory of Advanced Information Science and Network Technology, Beijing Jiaotong Univ, Beijing, China
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