Title of Paper:Color medical image lossless watermarking using chaotic system and accurate quaternion polar harmonic transforms

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First Author:Xia, Zhiqiu

Correspondence Author:Wang, XY (reprint author), Dalian Univ Technol, Fac Elect Informat & Elect Engn, 2 Linggong Rd, Dalian 116023, Peoples R China.; Wang, CP (reprint author), Qilu Univ Technol, Sch Informat, Shandong Acad Sci, 3501 Daxue Rd, Jinan 250353, Shandong, Peoples R China.

Co-author:Wang, Xingyuan,Zhou, Wenjie,Li, Rui,Wang, Chunpeng,Zhang, Chuan

Date of Publication:2019-04-01

Journal:SIGNAL PROCESSING

Included Journals:SCIE、Scopus

Volume:157

Page Number:108-118

ISSN No.:0165-1684

Key Words:Lossless watermarking; Color medical image; Quaternion polar harmonic transforms; Geometric attacks; Chaotic system; Mixed linear-nonlinear coupled map lattice

Abstract:With the increasingly widespread use of medical images in medical institutions and networks, the copyright protection of medical images has become increasingly urgent. Since traditional embedded watermarking technology degrades the quality of the original images, it is not suitable for medical images. In addition, most medical watermarking algorithms are aimed at grayscale images; therefore, a smaller number of color medical image watermarking algorithms are available. In this paper, we propose a loss less watermarking scheme for color medical image copyright protection based on a chaotic system and quaternion polar harmonic transforms (QPHTs), which is a quaternion orthogonal moment method. In watermark embedding, we compute the QPHTs for the original color medical image and select accurate coefficients to construct a zero-watermark image. Then, the zero-watermark image is stored in the intellectual property right (IPR) database. Experimental results show that the proposed scheme is robust to geometric attacks and common attacks and that it has better performance than similar lossless watermarking schemes. In addition, this paper details the selection of accurate coefficients for QPHTs and compares stability with different choices of unit pure quaternions. (C) 2018 Elsevier B.V. All rights reserved.