A Robust Zero-watermarking Based on SIFT-DCT for Medical Images in the Encrypted Domain

• Published in: Computers, materials & continua Vol. 61; no. 1; pp. 363 - 378
• Main Authors: Liu, Jialing, Li, Jingbing, Chen, Yenwei, Zou, Xiangxi, Cheng, Jieren, Liu, Yanlin, Aslam Bhatti, Uzair
• Format: Journal Article
• Language: English
• Published: Henderson Tech Science Press 01.01.2019
• Subjects: Algorithms; Correlation coefficients; Discrete cosine transform; Domains; Feature extraction; Image enhancement; Image transmission; Medical imaging; Robustness; Sequences; Watermarking
• ISSN: 1546-2226; 1546-2218; 1546-2226
• DOI: 10.32604/cmc.2019.06037

Remote medical diagnosis can be realized by using the Internet, but when transmitting medical images of patients through the Internet, personal information of patients may be leaked. Aim at the security of medical information system and the protection of medical images, a novel robust zero-watermarking based on SIFT-DCT (Scale Invariant Feature Transform-Discrete Cosine Transform) for medical images in the encrypted domain is proposed. Firstly, the original medical image is encrypted in transform domain based on Logistic chaotic sequence to enhance the concealment of original medical images. Then, the SIFT-DCT is used to extract the feature sequences of encrypted medical images. Next, zero-watermarking technology is used to ensure that the region of interest of medical images are not changed. Finally, the robust of the algorithm is evaluated by the correlation coefficient between the original watermark and the attacked watermark. A series of attack experiments are carried out on this method, and the results show that the algorithm is not only secure, but also robust to both traditional and geometric attacks, especially in clipping attacks.