Abstract
Various research on digital watermarking has developed great significant progress in recent years but image copyright protection remains a major issue that must be addressed due to the growth and popularization of computer technology. In zero watermarking algorithms, the main tool is continuous orthogonal images for images. Ongoing orthogonal continuous activity is used, consistent in rotation and measurement, and highly improved. Polar Harmonic Fourier Moments (PHFMs) have the ability to define a solid image with excellent performance among the defined continuous orthogonal moments before. PHFM is therefore proposed to deal with images to make a robust image of zero watermarking image suitable for embedding watermark on this paper. Watermarking systems can help with identification and integrity; the importance of the medical image on the other hand should not be altered. Any changes within the cover image may have an impact on the process of decision-making. So, the features of medical images, collected as a set of data will be extracted. We use the Arnold modification of binary sequencing images to be generated for a selected moment to improve security objectives. Then the watermark is embedded in a special function between the scrambled logo image and the binary element of the cover image. A watermarked image abstracted from the PHFMs value without actively embedded to the host image.
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Dash, A., Naik, K. (2022). Zero Watermarking Scheme Based on Polar Harmonic Fourier Moments. In: Panda, S.K., Rout, R.R., Sadam, R.C., Rayanoothala, B.V.S., Li, KC., Buyya, R. (eds) Computing, Communication and Learning. CoCoLe 2022. Communications in Computer and Information Science, vol 1729. Springer, Cham. https://doi.org/10.1007/978-3-031-21750-0_14
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DOI: https://doi.org/10.1007/978-3-031-21750-0_14
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