A Hybrid Optimization-Based Medical Data Hiding Scheme for Industrial Internet of Things Security | IEEE Journals & Magazine | IEEE Xplore

A Hybrid Optimization-Based Medical Data Hiding Scheme for Industrial Internet of Things Security


Abstract:

With the development of the industrial internet technology, the medical data exchange in IoT systems has become more prosperous. Specially, more and more medical images p...Show More

Abstract:

With the development of the industrial internet technology, the medical data exchange in IoT systems has become more prosperous. Specially, more and more medical images produced by industrial and intelligent devices are outsourced to the cloud for convenient use. However, IoT systems deployment poses several medical data security challenges. To address this issue, in this article, a robust medical data hiding scheme based on secure hybrid optimization for industrial scenario image is presented. Specifically, the marked image is obtained through non-subsampled shearlet transform-multiresolution singular value decomposition. In order to generate the dual marks, we employ the Fisher–Yates permutation to produce the scrambled system watermark address for embedding into the mark image. Afterward, the generated mark image is embedded in the chosen coefficients of the cover in an invisible way. After the watermarking, a hybrid optimization-based encryption scheme is utilized to secure the marked image. Extensive experiments demonstrate the invisibility, security, and robustness of our scheme. Further, the superiority of the scheme is elaborated through making the comparison with the other similar algorithms. The solution not only performs the robust exchange of medical data but also protects the privacy of patients.
Published in: IEEE Transactions on Industrial Informatics ( Volume: 19, Issue: 1, January 2023)
Page(s): 1051 - 1058
Date of Publication: 07 April 2022

ISSN Information:


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